literatur G. c., E. A O. J. C.978-3-642-92961-8/1.pdf · literatur Die Arbeiten sind alphabetisch entsprechend den einzelnen Textabschnitten geordnet. Am Anfang des literaturverzeichnisses

literatur

Die Arbeiten sind alphabetisch entsprechend den einzelnen Textabschnitten geordnet. Am Anfang des literaturverzeichnisses finden sich Arbeiten von allgemeiner Bedeutung, die fortlaufend numeriert sind. Titel aus diesem Abschnitt des literaturverzeichnisses sind im Text mit der Nummer zitiert.

Allgemeine Literatur

[0] Friede, R. L.: Topographic brain chemistry. New York: Academ ic Press 1966.

[1] Hess, W. R.: Hypothalamus und Thalamus. Stuttgart: Georg Thieme 1956.

[2] Huber, G. c., E. C. Crosby, R. T. Woodburne, L. A Gillilan, J. O. Brown, and B. Tamthai: The mammalian midbrain and isthmus regions. I. The nuclear pattern. J. compo Neurol. 78, 133-534 (1943).

[3] Jacobsohn, S.: Sequence of myelinization in the brain of the albino rat. J. compo Neurol. 121,5-29 (1963).

[4] Jasper, H. H., and C. A Ajmone-Marsan: A stereotactic atlas of the diencephalon of the cat. National Research Council of Canada, Ottawa 1954.

[5] Kappers, A, G. C. Huber, and E. B. Crosby: The comparative anatomy of the nervous system of vertebrates including man. 1936. Nachdruck New York: Hafner 1960.

[6] Kuhlenbeck, H.: The human diencephalon. Basel: S. Karger 1954.

[7] Longo, V. G.: Electroencephalographic atlas for pharmacological research. Effect of drugs on the electrical activity of the rabbit brain. Amsterdam: Elsevier Publ. 1961.

[8] Meessen, H., u. J. Olszewski: Cytoarchitektonischer Atlas des Rautenhirns des Kaninchens. Basel: S. Karger 1949.

[9] Monnier, M., u. H. Gangloff: Atlas fUr stereotaktische Hirnversuche am wachen Kaninchen. Rabbit brain research I. Amsterdam u. New York: Elsevier 1961.

[10] Olszewski,J:. The thalamus of Macaca mulatta. Basel: S. Karger 1952.

[11] Ramon y Cajal: Histologie du systeme nerveux de I'homme et des vertebres. Paris 1909-1911. (2 Bd. Madrid 1955. Nachdruck des Institutio Ramon y Cajal.)

[12] Riley, H. A: An atlas of the basal ganglia, brainstem and spinal cord. New York: Hafner 1960.

[13] Rose, J. E.: The ontogenetic development of the rabbit's diencephalon. J. compo Neurol. 77, 61-129 (1942).

[14] Sawyer, C. H., J. W. Everett, and J. D. Green: The rabbit diencephalon in stereotactic coordinates. J. compo Neurol. 101, 801 (1?54).

[15] Vogt, c.: Etude sur la myelinisation des hemispheres cerebraux, 72 p. Paris: G. Steinheil1900.

[16] Wahren, W.: Das Zwischenhirn des Kaninchens. J. Hirnforsch. 3, 143-242 (1957).

[17] Winkler, c., and A. Potter: An anatomical gUide to experi mental researches on the rabbit's brain. Amsterdam: Versluys 1911.

[18] Winkler, c., and A. Potter: An anatomical gUide to experimental researches on the eat's brain. Amsterdam: Versluys 1914.

[19] Zeman, W., and J. R. M. Innes: Craigie's neuroanatomy of the rat. New York: Academic Press 1963.

22 Gerhard. Atlas

I. Makroskopische Anatomie, GefoBversorgung

Beer, G. R. de, and J. H. Woodger: The early development of the skull of the rabbit. Phil. Trans. B 218,373-414 (1948).

Bensley, B. A.: Practical anatomy of the rabbit. Toronto University Press 1931 und Neuauflage 1945.

Bonin, G. von: Brain weight and body weight of mammals. J. Gen. Psychol. 16, 379-389 (1937).

Brodmann, K.: Uber den allgemeinen Bauplan des Cortex pallii bei den Mammaliern und zwei Rindenfelder im besonderen. Zugleich ein Beitrag zur Furchenlehre. J. Psychol. u. Neurol. 6, 275 (1905/06).

Brummelkamp, R.: Das Wachstum der Gehirnmasse mit kleinen Cephalisierungssprungen (sog. V2-Sprungen) bei den Rodentiern. Acta Neerlandica Morph. Norm. et Path. 2, 188-194 (1939).

Connolly, C. J.: External morphology of the primate brain. Springfield, III.: C. Thomas 1950.

Craigie, E. H.: Siehe Zeman und Innes [19]. Donaldson, H. H., and Sh. Hatai: On the weight of the parts of the

brain, and on the percentage of water in them according to brain weight and to age, in albino and wild Norway rats. J. compo Neurol. 53,263-307 (1931).

Dubois, E.: Uber die Abhongigkeit des Hirngewichtes von der KorpergroBe bei den Sougetieren. Arch. Anthrop. 25, 1-28 (1897).

Feremutsch, K.: Thalamus, S. 1-226 in Bd. II der Primatologia, Handbuch der Primatenkunde, herausgeg. von H. Hofer, A. H. Schultz u. D. Starck. Basel: S. Karger 1963.

Flatau, E., u. L. Jacobsohn: Handbuch der Anatomie und vergleichenden Anatomie des Zentralnervensystems der Sougetiere. Berlin: S. Karger 1899.

Fleischhauer, K.: Uber GefoBpaare im Gehirn der Katze. Z. Zellforsch. 53, 323-330 (1961).

Freese, W.: Verg leichende osteologische U ntersuchu ngen u ber das Kopfskelett von Cavia cobaya und Lepus caniculus, ein Beitrag zur Osteologie der Nagetiere. Diss. Tierorztl. Hochschule Hannover 1922.

Friede, R. L.: A histochemical atlas of tissue oxydation in the brainstem of the cat. Basel and New York: S. Karger 1961.

Gangloff, H., u. M. Monnier: Bestimmung der elektrischen Erregbarkeit von Cortex, Diencephalon und Rhinencephalon beim Kaninchen (kombinierte Reiz- und Ableittechnik fur physiologischpharmakologische Untersuchungen). Pflugers Arch. ges. Physiol. 261, 421 (1955).

Gerhard, L., H. Meessen u. G. Veith: Normale Anatomie und allgemeine Pathologie des Nervensystems. In: Pathologie der Laboratoriumstiere, herausgeg. von Cohrs, Jaffe u. Meessen. BerlinGottingen-Heidel berg: Springer 1958.

Gillilan, L. A., and W. R. Markesbery: Arteriovenous shunts in the blood supply of some common laboratory animals - with special attention to the Rete mirabile conjugatum in the cat. J. compo Neurol. 121, 305-312 (1963).

169

Literatur

Greene, H. S. N: A dwarf mutation in the rabbit. J. expo Med. 71, 839-856 (1940).

Haller, B.: Yom Bau des Wirbeltiergehirns. Teillli. Mus, nebst Bemerkungen uber das Hirn von Echidna. Morph. Jb. 24, 347-477 (1900).

Haller v. Hallerstein, V.: AuBere Gliederung des Zentralnervensystems. In: Handbuch der vergleichenden Anatomie der Wirbeltiere, herausgeg. von Bolk, Goppert, Kallius u. Lubosch, Bd. II, 5.1-318. Berlin u. Wien: Urban & Schwarzenberg 1934.

Horde, K. W.: Furchenausbildung und cytoarchitektonische Felder im KaninchengroBhirn. Z. Anat. Entwickl.-Gesch. 116, 157-167 (1951).

Haug, H.: Bedeutung und Grenzen der quantitativen MeBmethoden in der Histologie. Med. Grundlagenforsch. 4, 299-344 (1962).

Herre, W., u. H. Stephan: Zur postnatalen Morphogenese des Hirnes verschiedener Haushundrassen. Morph. Jb. 96, 210-264 (1956).

Jungklaas, F. K., u. H. Orthner: Quantitative Hirnforschung. Zbl. allg. Path. path. Anat. 101, 128---138 (1959).

Koppers, A.: Die vergleichende Anatomie des Nervensystems der Wirbeltiere und des Menschen, Bd. I u. II. Haarl.em 1920/21.

- G. C. Huber, and E. Crosby: The comparative anatomy of the nervous system of vertebrates, including man. New York: McMillan 1936.

Krause, W.: Die Anatomie des Kaninchens. Leipzig: Wilhelm Engelmann 1884.

Landau, E.: Zur Frage der Hirnfurchung. J. Psychol. Neurol. (Lpz.) 30,201-207 (1924).

Landing, H. A.: Beitrage zur Altersanatomie des Kaninchenskeletts. Upsala Lak.-Foren. Forh. 28, (1928).

Latimer, H. B., and P. B. Sawin: The weight of the brain, of its parts and the weight and the length of the spinal cord in the rabbit (race x). J. compo Neurol. 103, 513-540 (1955).

Levine, C. J., H. C. Mann, I. A. Hodge, and o. Du Pont: Distribution of body weight in the organs and tissues of the rabbit. Proc. Soc. expo BioI. (N.Y.) 47, 318-321 (1941).

Moffat, D. B.: 5iehe Zeman u. Innes. Monnier, M., u. H. Gangloff: Atlas fur stereotaktische Hirnversuche

am wachen Kaninchen. Amsterdam: Elsevier Publ. Co. 1961. -, et H. Laue: Technique de derivation des activites electriques cor

ticales et souscorticales pendant la stimulation du diencephale chez Ie lapin. Helv. physiol. pharmacol. Acta 2, 73 (1953).

Olszewski, J.: The thalamusof Macaca mulatta. An Atlas for use with the stereotaxic instrument. Basel and New York: S. Karger 1952.

Papez, J. W.: Comparative neurology. New York: Thomas 1929. Pilleri, G.: Beitrage zur vergleichenden Morphologie des Nagetier

gehirnes. Acta anat. (Basel) 39, Suppl. 38, 124 S. (1959). Prolo, D. J., and D. L. Stilwell: Arterial supply of the diencephalon

and some associated areas of the rabbit brain. J. compo Neurol. 119,229-254 (1962).

Rose, J. E., and C. N. Woolsey: Organisation of the mammalian thalamus and its relationship to the cerebral cortex. Electroenceph. clin. Neurophysiol. 1, 455 (1949).

Rose, M.: Histologische Lokalisation der GroBhirnrinde bei kleinen Saugetieren (Rodentia, Insectivora, Chiroptera). J. Psychol. u. Neurol.19, 391-479 (1912).

- Zytoarchitektonischer Atlas der GroBhirnrinde des Kaninchens. J. Psychol. Neurol. (Lpz.) 43, 353-440 (1931).

-, u. S. Rose: Zur Projektion der GroBhirnrindenfelder auf den Kaninchenschadel. J. Psychol. Neurol. (Lpz). 45, 264-276 (1933).

Sanides, F.: Architektonische und funktionelle Differenzierung des Stirnhirns. Nervenarzt 34,159-168 (1963).

Sarkissow, S.: Ober die postnatale Entwicklung einzelner cytoarchitektonischer Felder beim Hunde. J. Psychol. Neurol. (Lpz.) 39,486-505 (1929).

Sawyer, C. H., J. W. Everett, and J. D. Green: The rabbit diencephalon in stereotactic coordinates. J. compo Neurol. 101, 801 (1954).

Sholl, D.: The quantitative investigation of the vertebrate brain and the applicability of allometric formula to its study. Proc. roy. Soc. B 135, 243-258 (1948).

170

Simon, E.: Vordere und mittlere Schadelgrube bei Laboratoriumstieren. I. Mitt. Acta anat. (Basel) 22, 97-127 (1954).

Spatz, H., R. Diepen u. V. Gaupp: Beitrag zur Anatomie des Infundibulum und des Tuber cinereum beim Kaninchen. Klin. Wschr. 1947, 127-128; Dtsch. Z. Nervenheilk. 158, 229-268 (1948).

Stephan, H.: Die Anwendung der Snellschen Formel h=ksp auf die Hirn-Korpergewichtsbeziehungen verschiedener Hunderassen. Zool. Anz. 153, 15-27 (1954).

- Die quantitative Zusammensetzung der Oberflachen des Allocortex bei Insectivoren und Primaten. Proc. 2nd Internat. Meeting of Neurobiologists. Amsterdam: Elsevier Publ. Co. 1960.

- Methodische 5tudien uber den quantitativen Vergleich architektonischer Struktureinheiten des Gehirns. Z. wiss. Zool. 164, 144-172 (1960).

Treff, W. M.: GroBenbestimmung der Nervenzellen und Gliazellen im Caudatum mediale bei unterschiedlicher Schnittdicke. J. Hirnforsch. 6, 123-136 (1963).

Trendelenburg, W.: Methodik der Physiologie des Zentralnervensystems von Wirbeltieren. In: Abderhalden, Handbuch der biologischen Arbeitsmethoden, Abt. V, Teil 5 B. Berlin: Urban & Schwarzenberg 1923.

Tsukamoto, T.: Studien uber die Entwicklung des normal en Kaninchens. Mitt. Path. Inst. Niigata, Japan 1927, Heft 11,1.

Vogt, 0.: Furchenbildung und architektonische Rindenfelderung. J. Psychol. Neurol. (Lpz.) 29, 438 (1923).

Voit, M.: Das Primordialcranium des Kaninchens unter Berucksichtigung der Deckknochen. Anat. H. 38,425--616 (1909).

Wetzel, G.: Hirnwindungen und Brodmann-Vogtsche Felder in ihren gesetzmaBigen BeZiehungen. J. Psychol. Neurol. (Lpz.) 29, 434-437 (1923).

Whitehouse, R. H.: The dissection of the rabbit. London: University Press 1933.

Winkler, c., and A. Potter: An anatomical gUide to experimental researches on the rabbit's brain. Amsterdam: Versluys 1911.

Wiinscher, W., W. Schober u. L. Werner: Architektonischer Atlas vom Hirnstamm der Ratte. Leipzig: S. Hirzel 1965.

Wirtz, K.: Studien uber die Cerebralisation: Zur quantitativen Bestimmung der Rangordnung bei Saugetieren. Acta anat. (Basel) 9,134-196 (1960).

Zeman, W., and J. R. M. Innes: Craigie's neuroanatomy of the rat. New York: Academic Press 1963.

Zietzschmann, 0.: Unterscheidungsmerkmale des Schadels von Hasen und Kaninchen. Z. Fleisch- u. Milchhygiene 15, (1914).

Zunino, c.: Die myeloarchitektonische Differenzierung der GroBhirnrinde beim Kaninchen. J. Psychol. Neurol. (Lpz.) 14, 38-70 (1909).

II. Material und Methoden

Brodal, A.: Modification of Gudden method for study of cerebral localization. Arch. Neurol. (Chic.) 43, 46 (1940).

Colmant, H. J.: Ergebnisse der Enzymhistochemie am zentralen und peripheren Nervensystem. Fortschr. Neurol. Psychiat. 29, 61-124 (1961).

Cox, A.: Ganglienzellschrumpfung im tierischen Gehirn. Beitr. path. Anat. 98, 399-409 (1936/37).

Feremutsch, K.: Die individuelle Variabilitat cytoarchitektonischer Strukturen und ihre Bedeutung fur die cytoarchitektonische Methode. Schweiz. med. Wschr. 19, 20 (1944).

- Prinzipielles zur cytoarchitektonischen Aussonderung cerebraler (subcorticaler) Grisea. Verh. Schweiz. Anat. Ges., Zurich 1950.

- Die Methode der cytoarchitektonischen Aussonderung von Nervenzellarealen im Gehirn. In: Feremutsch u. Griinthal, Beitrage zur Entwicklungsgeschichte und normalen Anatomie des Gehirns. Basel: S. Karger 1952.

Friede, R. L.: Interpretation of hyperchromic nerve cells. Relative significance of the type of fixative used, of the osmolarity of the cytoplasm and the surrounding fluid in the production of cell shrinkage. J. compo Neurol. 121, 137-150 (1963).

Literatur

Gerhard. L.. u. H. Hollander: Eine Methode zur kombinierten Darstellung von Markscheiden und Neuriten. Dtsch. Z. Nervenheilk. 180.684-687 (1960).

Gihr. M.: Methode zur Rekonstruktion von Nervenzellen. J. Hirnforsch. 5. 7-22 (1962).

Klaver. H .• and E. Barrera: A method for the combined staining of cells and fibers in the nervous system. J. Neuropath. expo Neurol. 12. 400-403 (1953).

- - On the use of azoporphin derivates (Phthalocyanines) in staining nervous tissue. J. Psychol. (Provencetown) 37.199-223 (1954).

Kuh/enbeck. H.: Some histologic age changes in the rats brain and their relationship to comparable changes in the human brain. Confin. neurol. (Basel) 14. 329 (1954).

Lindenberg. R.: Morphotropic and morphostatic necrobiosis: Investigations of nerve cells of the brain. Amer. J. Path. 32.1147-1178 (1956).

Papadimitriou. D. G.: Morphologische Untersuchungen am Zentralnervensystem uber die stabilisierende Wirkung von Kaliumzitrat. Beitr. path. Anat. 120. 371-381 (1959).

Parkenberg. H.: Cytoplasmic basophilia in the nerve cells of the cerebral cortex. IV. RNA Content in the nerve cells ofthe rabbit cortex. J. compo Neurol. 121.1-4 (1963).

Pearse. A. G. E.: Histochemistry theoretical and applied. 1. and 2. ed. London: Churchill Ltd. 1954 and 1960.

Romeis. B.: Mikroskopische Technik. Munchen: Leibniz 1948. Rose. M.: Ober den EinfluB der Fixierung auf das Zellbild der GroB

hirnrinde. J. Psychol. Neurol. (Lpz.) 38. 155-167 (1929). Sarkissow. S. A.: Ober die Schrumpfung des Gehirns bei Paraffin

Einbettung (zur Methodik der cytoarchitektonischen Forschung). J. Psychol. Neurol. (Lpz.) 41. 76-95 (1930).

Schaffer. J.: Veranderungen an Gewebselementen durch einseitige Wirkung der Fixierungsflussigkeit und Allgemeines uber Fixierung. Anat. Anz. 51. 353-398 (1918).

Spie/meyer. W.: Histopathologie des Nervensystems. Berlin: Springer 1922.

Vogt. c.. u. O. Vogt: Morphologische Gestaltungen unter normal en und pathogenen Bedingungen. J. Psychol. Neurol. (Lpz.) SO. 161-524 (1942).

Weigert. c.: Die histologische Technik des Zentralnervensystems. II. Die Markscheidenfarbung. Ergebn. Anat. Entwickl.-Gesch. 6. 3-25 (1897).

Zeiger. K.: Physikochemische Grundlagen der histologischen Methodik. 202 S. Dresden u. Leipzig: Theodor Steinkopff 1938.

Funktionseinheiten

1. Limbisches System und Rhinencephalon

a) Allgemeine Literatur Akert. K .• u. P. Hummel: Anatomie und Physiologie des limbischen

Systems. 31 S. Basel.: Hoffmann-La Roche 1963. Allison. A. c.: The structure of the olfactory bulb and its relationship

to the olfactorys pathways in the rabbit and the rat J. compo Neurol. 98. 309-353 (1953).

-. and R. T. T. Warwick: Quantitative observations on the olfactory system of the rabbit. Brain 72. 186-197 (1949).

Berry. C. M .• W. D. Hagamen. and J. C. Hinsey: Distribution of potentials following stimulation of olfactory bulb in den cat. J. Neurophysiol. 15. 139-148 (1952).

Blackstad. T. W.: Commissural connections of the hippocampal region in the rat. with special reference to their mode of termination. J. compo Neurol. 105.417-537 (1956).

-. and A. Kjaerheim· Special axodendritic synapses in the hippocampal cortex. Electron- and light microscopic studies on the layers of mossy fibers. J. compo Neurol. 117. 133-159 (1961).

Brodal. A.: The amygdaloid nucleus in the rat. J. compo Neurol. 87. 1-16 (1947).

Calleja. c.: La region olfactoria del cerebro. Madrid 1893. Clarke. W. E. Le Gras: The projection of the olfactory epithelium on

the olfactory bulb in the rabbit. J. Neurol. Neurosurg. Psychiat. 14.1 (1951).

22*

Cragg. B. G.: Olfactory and other afferent connections of the hippocampus in the rabbit. rat and cat. Exp. Neurol. 3. 588--600 (1961).

Crosby. E. c.. and T. Humphrey: Studies of the vertebrate telencephalon. J. compo Neurol. 71. 121-213 (1939).

Daitz. H. M .• and T. P. S. Powell: Studies of the connections of the fornix system. J. Neurol. Neurosurg. Psychiat. 17. 75-82 (1954).

Eide/berg. E .• J. C. White. and A. B. Brazier: The hippocampal arousal pattern in rabbit. Exp. Neurol. 1.483-490 (1951).

Groth. W.: Der Ursprung der Riechzellenneuroblasten und ihre erste Entwicklung bis zur Ausbildung der Riechnervenanlage beim Kaninchen. Z. mikr.-anat. Forsch. 43. 207 (1938).

Johnson. T. N.: Studies on the brain of the guinea pig. I. The nuclear pattern of certain basal telencephalic centers. J. compo Neurol. 107.353-378 (1957).

- The olfactory centers and connections in the cerebral hemisphere of the mole (Scalopus aquaticus machrinus). J. compo Neurol. 107.379-426 (1957).

Kaada. B. R .• E. W. Rasmussen. and O. Kveim: Effects of hippocampal lesions on maze learning and retention in rats. Exp. Neurol. 3. 333-355 (1961).

Klaver. H .• and P. C. Bucy: "Psychic blindness" and other symptomes following bilateral temporal lobectomy in rhesus monkey. Amer. J. Physiol. 119. 352-353 (1937).

Kreiner. G.: Bulbus olfactorius der weiBen Ratte (Topographie unci Myeloarchitektonik). Z. Anat. Entwickl.-Gesch. 102. 232-245 (1934).

Loa. Y. T.: The forebrain of the opossum (Didelphys virginianae). J. compo Neurol. 52. 1-148 (1931).

MacLean. P. D.: The limbic system ("visceral brain") in relation to central gray and reticulum of the brainstem. Evidence of interdependence in emotional processes. Psychosom. Med. 17. 355-366 (1955).

- The limbic system with respect to selfpreservation and the preservation of the species. J. nerv. ment. Dis. 127. 1-11 (1958).

Mitte/strass. H.: Vergleichend-anatomische Untersuchungen uber den Mandelkern der Saugetiere. Z. Anat. Entwickl.-Gesch. 106. 717-738 (1937).

Molina. F. de. and R. W. Hunsperger: Central representation of affective reactions in forebrain and brainstem. Electrical stimulation of Amygdalae. Stria terminalis and adjacent structures. J. Physiol. (Lond.) 145. 251-265 (1959).

Nauta. W. J. H.: An experimental study of the fornix system in the rat. J. compo Neurol. 104. 247-271 (1956).

Sanides. F.: Die Insula terminales des Erwachsenengehirns des Menschen. J. Hirnforsch. 3. 243-273 (1957).

Scalia. F.: Some olfactory pathways in the rabbit brain. J. compo Neurol. 126. 285-310 (1966).

Schreiner. L.. and A. Kling: Rhinencephalon and behaviour. Amer. J. Physiol. 184. 486 (1956).

Sgonina. K.: Zur vergleichenden Anatomie der Entorhinal- und Praesubicularregion. J. Psychol. Neurol. (Lpz.) 48.56-163 (1938).

Smith. R. W .• and L. E. White jr.: The fiber-architectonics of the cat hippocampal formation. J. compo Neurol. 123. 11-27 (1964).

b) Septumkerne Andy. J. 0 .• and H. Stephan: The nuclear configuration of the Septum

of Galago demidovii. J. compo Neurol. 111. 503-545 (1959). Andy. O. J .• and H. Stephan: Septal nuclei in primate phylogeny.

A quantitative investigation. J. compo Neurol. 126. 157-170 (1966).

Brady. J. V .• and W. J. H. Nauta: Subcortical mechanism in emotional behaviour: the duration of affective changes following septal and habenular lesions in the albino rat. J. Compo Physiol. Psychol. 48. 412 (1955).

Brockhaus. H.: Zur feineren Anatomie des Septums und des Striatums. J. Psychol. u. Neurol. 51. 1-56 (1942).

Clark. W. E. Le Gras. and M. M=yer: The terminal connections ofthe olfactory tract in the rabbit. Brain 70. 304-328 (1947).

171

Literatur

Cragg, B. G., and L. H. Hamlyn: Some commissural and septal connexions of the hippocampus in the rabbit. J. Physiol. (Lond.) 135, 460-485 (1957).

- - Histological connections and electrical and autonomic responses evoked by stimulation of the dorsal Fornix in the rabbit. Exp. Neurol. 1, 187-213 (1959).

Fox, C. A.: Certain basal telencephalic centers in the cat. J. compo Neurol. 72, 1-62 (1940).

Gurdjian, E. S.: Olfactory connections in the albino rat, with special reference to the stria medullaris and the anterior commissure. J. compo Neurol. 38,127-163 (1925).

Harrison, I. M., and M. Lyon: The role of the septal nuclei and components of the forn ix in the behaviou r of the rat. J. com p. Neurol. 108,121-137 (1957).

Humphrey, T.: The telencephalon of the bat. 1. The noncortical nuclear masses and certain pertinent fiber connections. J. compo Neurol. 65, 603-711 (1936).

Jeserich, M. W.: The nuclear pattern and the fiber connections of certain non-cortical areas of the telencephalon of the mink (Mustela vision). J. compo Neurol. 83, 173-211 (1945).

Johnston, J. B.: The morphology of the septum, hippocampus, and pallial commissures in reptiles and mammals. J. compo Neurol. 23, 371-478 (1913).

King, F. A.: Effect of septal and amygdaloid lesions on emotional behavior and conditioned avoidance responses in the rat. J. nerv. ment. Dis. 126, 57-63 (1958).

Lauer, E. w.: The nuclear pattern and fiber connections of certain basal telencephalic centers in the macaque. J. compo Neurol. 82, 215-254 (1945).

- Certain olfactory centers of the forebrain of the giant panda (Ailuropoda melanoleuca). J. compo Neurol. 90,213-241 (1949).

Loo, Y. T.: The forebrain of the opossum, Didelphis virginiana. Part. II. Histology. J. compo Neurol. 52, 1-148 (1931).

Vogt, D.: Sur un faisceau septo-thalamique. C.R. Soc. BioI. (Paris) 50, 206-207 (1898).

Young, A. W.: The comparative anatomy of the septum pellucid urn. Psychiat. neurol. BI. (Arnst.) 30, 203-234 (1926).

Young, M. W.: The nuclear pattern and fiber connections of the non-cortical centers of the telencephalon of the rabbit (Lepus cuniculus). J. compo Neurol. 65, 295-401 (1936).

c) Anterior-Kerne des Thalamus Baird, H. W., B. GUidetti, V. Reyes, H. T. Wycis, and E. A. Spiegel:

Stimulation and elimination of the anterior thalamic nuclei in man and cat. PflUgers Arch. ges. Physiol. 255, 58-67 (1957).

Clark, W. E. Ie Gros, and R. H. Boggon: On the connections of the anterior nucleus of the thalamus. J. Anat. (Lond.) 67, 215-226 (1933).

Cown, W. M., and T. S. Powell: The projection of the midline and intralaminar nuclei of the thalamus of the rabbit. J. Neurol. Neurosurg. Psychiat. 18, 266-279 (1955).

Crouch, R. L.: The efferent fibers of the thalamus of Macacus rhesus. II. The anterior nuclei, medial nuclei, pulVinar and additional studies on the ventral nuclei. J. compo Neurol. 72,177 -186 (1940).

Oroog/ever Fortuyn, J.: On the configuration and the connections of the medioventral area and the midline cells in the thalamus of the rabbit. Folia psychiat. neerl. 53, 213-254 (1950).

Feremutsch, K.: Thalamus. In: Primatologia, Hdbch. d. Primatenkunde. Basel: S. Karger 1964.

Hopf, A.: Volumetrische Untersuchungen zur vergleichenden Anatomie des Thalamus. J. Hirnforsch. 8, 25-38 (1955).

Kraus, c., u. M. Gihr: Statistischer Beitrag zur Gliederung des Nucleus anterior thalami. J. Hirnforsch. 8, 39-45 (1965).

Nissl, F.: Die GroBhirnanteile des Kaninchens. Arch. Psychol. Neurol. 52, 867-953 (1913).

Papez, J. W., and L. R. Aronson: The thalamic nuclei of pithecus (Macacus rhesus). I. Ventral thalamus. II. Dorsal thalamus. Arch. Neurol. Psychiat. (Chic.) 32, 1-26, 27-44 (1934).

172

Pilleri, G.: Zur Frage der Projektion des Nucleus anterior thalami. Acta anat. (Basel) 37, 335-351 (1959).

Rose, J. E., and C. N. Woolsey: Structure and relations of limbic cortex and anterior thalamic nuclei in rabbit and cat. J. compo Neurol. 89, 279-348 (1948).

Sheps, J. G.: The nuclear configuration and cortical connections of the human thalamus. J. compo Neurol. 83, 1-56 (1954).

Stefens, R., and 1. Oroog/ever Fortuyn: Contribution ci I'etude de la structure et de quelques connexions de noyaux intermediaires du thalamus chez Ie lapin. Schweiz. Arch. Neurol. Psychiat. 72, 299-318 (1953).

Stoffels, J.: La projection des noyaux anterieur du thalamus sur I'ecorce interhemispherique. Etude anatomo-experimentale. J. beige Neurol. Psychiat. 39, 743-776, 783-833 (1933).

Toncray, 1. E., and W. S. Krieg: The nuclei of the human thalamus. A comparative approach. J. compo Neurol. 85, 421-460 (1946).

d) N. interpeduncularis, N. habenulae, Corpus mamillare, Iimbische Mittelhirnzentren

Akert, K., and D. J. Andy: Experimental studies on corpus mammillare and tegmento-mammillary system in the cat. Amer. J. Physiol. 183, 591 (1955).

-, u. P. Hummel: Anatomie und Physiologie des limbischen Systems. 31 S. Basel: Hoffmann-La Roche 1963.

Burgi, S. M., u. V. M. Bucher: Ober einige rhinencephale Verbindungen des Zwischen- und Mittelhirns. Dtsch. Z. Nervenheilk. 174,89-106 (1955).

Castaldi, L.: Studi sulla struttura e sulla sviluppo del mesencefalo. Ricerche in cavia cobaya. Arch. ital. Anat. Embriol. 20,23-225 (1923).

Clara, M.: Das Nervensystem des Menschen, 2. Aufl., S. 458-459. Leipzig: Johann Ambrosius Barth 1953.

Cowan, W. M., and T. P. S. Powell: An experimental study of the relation between the medial mammillary nucleus and the cingulate cortex. Proc. roy. Soc. B 143,114-125 (1954).

Cragg, B. G.: A heat loss mechanism involving the habenular, interpeduncular and dorsal tegmental nuclei. Nature (Lond.) 184, 1724 (1959).

- The connections of the habenula in the rabbit. Exp. Neurol. 3, 388-409 (1961).

Fox, C. A.: The mammillary peduncle and ventral tegmental nucleus in the cat. J. compo Neurol. 75, 411-425 (1941).

Fry, W. J. and Coworkers: Origin and distributions of some efferent pathways from the mammillary nuclei of the cat. J. compo Neurol. 120, 195-258 (1963).

Hatschek, R.: Zur Kenntnis des Pedunculus corporis mammillaris, des Ganglion tegmenti profundum und der dorso-ventralen Raphefaserung in der Haube. Arb. Wiener Univ. 10,81-103 (1903).

KOikegami, S. K. u. M. Iso: Zur Cytoarchitektonik des Ganglion crurale bei den Siiugetieren. Fol. anat. jap. 19,459-481 (1940).

Marburg, D.: The structure and fiber connections of the human habenula. J. compo Neurol. 80, 211-233 (1944).

Massopust jr., L. c., and R. Thompson: A new interpedunculo-diencephalic pathway in rats and cats. J. compo Neurol. 118,97-106 (1962).

Mitchell, R.: Connections of the habenula and of the interpeduncular nucleus in the cat. J. compo Neurol. 121, 441-458 (1963).

Morest, o. K.: Connexions of the dorsal tegmental nucleus in rat and rabbit. J. Anat. (Lond.) 95,229-246 (1961).

Morin, F.: An experimental study of hypothalamic connections in the guinea pig. J. compo Neurol. 92, 193-213 (1950).

Nauta, W. J. H.: Hippocampal projections and related neural pathways to the midbrain in the cat. Brain 81, 319-340 (1958).

Papez, J. W.: The mammillary peduncle, Marchi method. Anat. Rec. 25, 146 (1923).

- The nucleus of the mammillary peduncle. Anat. Rec. 52, 72-73 (1932).

Quense/, F.: Untersuchungen Uber die Tektonik von Mittel- und Zwischenhirn des Kaninchens. PflUgers Arch. ges. Physiol. 139, 47-92 (1911).

literatu r

Rose, J. E.: The cell structure of the mammillary body in the mammals and in man. J. Anat. (Lond.) 74, 91-115 (1940).

Sanz Ibanez, J.: Etude de la degeneration du fascicule tegmental de Gudden consecutif a la lesion experimental du noyau mammillaire externe. Trab. Lab. Invest. BioI. Univ. Madr. 30, 112-219 (1935). ,

Tello, J. F.: Evolution, structure et connexions du corps mammillair chez la souris blanche, avec des indicationschezd'autres mammiferes. Trab. Lab. Invest. BioI. Univ. Madr. 31, 77-142 (1936/37).

e) Commissura anterior Bailey, P., H. W. Garol, and W. S. McCulloch: Cortical origin and

distribution of corpus callosum and anterior commissure in the chimpanzee (Pan satyrus). J. Neurophysiol. 4, 564-571 (1941).

Brodal, A.: The origin of the fibers ofthe anterior Commissure in the rat. Experimental studies. J. compo Neurol. 88, 157-205 (1948).

Clarke, W. E. Le Cros, and M. Meyer: The terminal connections of the olfactory tract in the rabbit. Brain 70, 304-328 (1947).

Ebner, F. F., and R. E. Myers: Distribution of corpus callosum and anterior commissure in cat and raccoon. J. compo Neurol. 124, 353-366 (1965).

Fox, C. A., R. R. Fisher, and S. J. Desalva: The distribution of the anterior Commissure in the monkey (Macaca mulatta). Experimental studies. J. compo Neurol. 89, 245-277 (1948).

Gurdjian, E. S.: Olfactory connections of the al bi no rat, with speCial reference to the stria medullaris and anterior commissure. J. compo Neurol. 38, 127-163 (1925).

Kreiner, G.: Die Commissura anterior der wei Ben Ratte. Myeloarchitektonik und Topographie nebst Bemerkungen uber den Nucleus olfactorius anterior. Z. Anat. Entwickl.-Gesch. 106, 663-677 (1937).

Valverde, F.: The commissura anterior, pars bulbaris. Anat. Rec. 1118, 406-407 (1964).

f) Fornix Adey, W. R.: An experimental study of the hippocampal connexions

of the cingulate cortex in the rabbit. Brain 74, 233-247 (1951). Allen, W.F.: Degeneration in the dog's mammillary body and

Ammonshorn follOWing transection of the fornix. J. compo Neu rol. 80, 283-291 (1944).

Blackstad, T. W.: Commissural connections of the hippocampal region in the rat, with special referrence to their mode of termination. J. compo Neurol. 105, 417-537 (1956).

Clark, W. E. Le Gros, and M. Meyer: The terminal connexions of the olfactory tract in the rabbit. Brain 70, 304-328 (1947).

Cragg, B. G., and L. Hamlyn: Some commissural and septal connexions of the hippocampus in the rabbit. J. Physiol. (Lond.) 135, 460-485 (1957).

- - Histological connexions and electrical and autonomic responses evoked by sti mulation of the dorsal fornix in the rabbit. Exp. Neurol. 1,187-213 (1959).

- - Histological connections and visceral actions of components of the fimbria in the rabbit. Exp. Neurol. 2, 581-597 (1960).

Daitz, H. M., and T. P. S. Powell: Studies on the connections of the fornix system. J. Neurol. Neurosurg. Psychiat.17, 75-82 (1954).

Edinger, L., u. A. Wallenberg: Untersuchungen uber den Fornix und das Corpus mammillare. Arch. Psychiat. Nervenkr. 35, 1-21 (1902).

Gerebtzoff, M. A.: Note anatomo-experimentales sur Ie forniX, la corne d' Ammon et leur relation avec diverses structures encephaliques, notamment I'epiphyse. J. beige Neurol. Psychiat. 41/42,199-206 (1941/42).

Gudden, B. v.: Beitrag zur Kenntnis des Corpus mammillare und der sog. Schen kel des Fornix. Arch. Psychiat. Nervenkr. 11, 428-452 (1881).

Johnson, T. N.: The olfactory centers and connections in the cerebral hemisphere ofthe mole (Scalopus aquaticus machrinus). J. compo Neurol. 107, 379-425 (1957).

Johnson, T. N.: An experimental study of the fornix and the hypothalamo-tegmental tracts in the cat. J. compo Neurol. 125, 29-40 (1965).

Johnston, J. B.: The morphology of the septum, hippocampus and pallial commissures in reptiles and mammals. J. compo Neurol. 23,371-478 (1913).

Kolliker, A. v.: Ober den Fornix longus von Forel und die Riechstrahlung im Gehirn des Kaninchens. Verh. anat. Ges. (Jena) 8, 45-52 (1894).

Nauta, W. J. H.: An experimental study of the fornix system in the rat. J. compo Neurol. 104, 247-272 (1956).

Papez, J.: The mammillary peduncle. Marchi method. Anat. Rec. 25, 146 (1923).

Probst, M.: Zur Kenntnis des Faserverlaufes des Temporallappens, des Bulbus olfactorius, der vorderen Commissur und des Fornix nach entsprechenden Exstirpations- und Durchschneidungsversuchen. Arch. Anat. Physiol. (Lpz.) 338-356 (1901).

Rothig, P.: Riechbahnen, Septum und Thalamus bei Didelphis marsupialis. Abh. Senckenberg. Naturforsch. Ges. 31, 1-19 (1909).

Smith, G. E.: Morphology of the true limbic lobe, Corpus callosum, septum pellucidum and fornix. J. Anat. u. Physiol. 30,157-167 (1895).

Sprague, J. M., and M. Meyer: An experimental study of the fornix in the rabbit. J. Anat. (Lond.) 84, 354-368 (1950).

Thompson, E. L.: The dorsal longitudinal fasciculus in Didelphis virginiana. J. compo Neurol. 76, 239-281 (1942).

Valenstein, E. S., and W. J. H. Nauta: A comparison of the distribution of the fornix system in the rat, guinea pig, cat and monkey. J. compo Neurol. 113, 337-363 (1959).

Young, M. W.: The nuclear pattern and fiber connections of the non-cortical centers of the telencephalon of the rabbit (Lepus cuniculus). J. compo Neurol. 65, 295-401 (1936).

2. Striore Kerne Ayala, G.: Weitere Untersuchungen uber den Nucleus subputa

minalis. J. Psychol. Neurol. (Lpz.) 30, 285-295 (1924). Bonin, G. v., and G. A. Shariff: Extrapyramidal nuclei among mam

mals. A quantitative study. J. compo Neurol. 94, 427-438 (1951). Brockhaus, H.: Zur feineren Anatomie des Septum und des Striatum.

J. Psychol. Neurol. 51, 1-56 (1942). Coenen, L.: The connection of the cortex with the neostriatum and

palaeostriatum in rabbits. Proc. kon. ned. Akad. Wet. 30, 811 (1927).

De Vries, E.: Dos Corpus striatum der Sougetiere. Anat. Anz. 37, 385-405 (1910).

Dusser de Barenne, I. G., H. W. Garol, and W. S. McCulloch: Physiological neuronography of the corticostriatal connections. Res. Publ. Ass. nerv. ment. Dis. 21, 246-266 (1942).

Feremutsch, K.: Basalganglien. In: Primatologia, Handbuch der Primatenkunde. Basel: S. Karger 1961.

Foix u. Nicolesco: Zit. nach Granthal. Frey, E.: Vergleichende norma Ie und pathologische Anatomie des

extrapyramidalen Systems. Schweiz. Psychiat. Arch. Neurol. 66, 45 (1950).

Fulton, J. F.: PhYSiology of the nervous system. Third edit. New York: Oxford University Press 1949.

Granthal, E.: Vergleichend-anatomische Untersuchungen uber den Zellbau des Globus pallid us und Nucleus basalis der Souger und des Menschen. J. Psychol. Neurol. (Lpz.) 44,403-428 (1932).

Gurewitsch, M.: Cytoarchitektonische Gliederung des Neostriatum der Sougetiere. Z. Anat. Entwickl.-Gesch. 93, 723-742 (1930).

Hassler, R.: The extrapyramidal motor system. In: Handbook of Physiology (J. Field, ed.), sect. 1; Neurophysiology, vol. II, p. 864-901. Waverly Press 1960.

Hewitt, W.: The mammalian caudate nucleus. J. Anat. (Lond.) 93, 169-176 (1959).

Kappers, C. u. A.: Weitere Mitteilungen uber die Phylogenese des Corpus striatum und des Thalamus. Anat. Anz. 33, 321-336 (1908).

- The Corpus striatum, its phylogenetic and ontogenetic development and function. Acta psychiat. (Kbh.) 3, 93 (1928).

Kennard, M. A.: Experimental analysis of the function of the basalganglia in monkeys and chimpanzees. J. Neurophysiol. 7, 127-148 (1944).

173

literatur

Laursen. A M.: An experi mental study of pathways from the basal ganglia. J. compo Neurol. 102. 1-26 (1955).

Marburg. 0.: Vergleichend-anatomische Studien am Nucleus hypothalamicus und die hypothalamische Striatumfaserung. In: Psychiat. et Neurol. (Basel) 38. 184 (1917).

Mettler. F. A.: Relation between pyramidal and extrapyramidal function. Ass. Res. nerv. Dis. Proc. 21. 150-227 (1942).

Papez. J. W.: A summary of fiber connections of the basal ganglia with each other and with other portions of the brain. Res. Publ. Ass. Nerv. Ment. Dis. 21. 21-68 (1942).

Pilleri. G.: Zur feineren Struktur und vergleichenden Anatomie des Corpus striatum primitiver Beutel- und Nagetiere. Acta anat. (Basel) 48. 347-367 (1962).

Ranson. S. W .• and S. W. Ranson. jr.: Strionigral or nigrostriatal fibers. Tr. Amer. neurol. Ass. 67. 168-171 (1941).

- -. and M. Ranson: Fiber connections of Corpus striatum as seen in Marchi preparations. Arch. Neurol. Psychiat. (Chic.) 46. 230-249 (1941).

Riese. W.: Zur vergleichenden Anatomie der striofugalen Faserung. Anat. Anz. 57. 487 (1924).

- Beitriige zur Faseranatomie der Stammganglien. J. Psychol. Neurol. (Lpz.) 31. 81-122 (1924).

Spatz. H.: Ober Beziehungen zwischen Substantia nigra des MittelhirnfuBes und dem Globus pallidus des linsenkernes. Anat. Anz. 55. 159 (1922).

- Physiologie und Pathologie der Stammhirnganglien. In: Handbuch der normalen und pathologischen Physiologie. Bd.10. S. 318. Herausgeg. v. Von Bethe. Springer. Berlin 1927.

Verhaart. W. J. c.: A comparison between the corpus striatum and the red nucleus as subcortical centra of the cerebral motor system. Psychiat. neurol. BI. (Amst.) 42.676 (1938).

- Fiber analysis of the basal ganglia. J. compo Neurol. 93, 425-440 (1950).

- The pyramidal tract of Tupaia. compared to that in other primates. J. compo Neurol. 126.43-50 (1966).

Voneida. T. J.: An experimental study of the course and destination of fibers arising in the head of the caudate nucleus in cat and monkey. J. compo Neurol. 115. 75-88 (1960).

Ward. J. W.: Motor phenomena elicited in the unanesthetized animal by electrical stimulation of the cerebral cortex. Ass. Res. nerv. Dis. Proc. 30. 223-237 (1952).

White. R. P .• and H. E. Himwich: Circus movements and excitation of striatal and meso-diencephal centers in rabbits. J. Neurophysiol. 20. 81-90 (1957).

Young. M. W.: The nuclear pattern an fiber connections of the noncortical centers of the telencephalon in the rabbit. J. compo Neurol. 65. 295-342 (1936).

3. Capsula interna. Pes pedunculi und Pyramidenbahn

Abbie. A A: The prosencephalization of motor control. Essays in Biology. Festschr. fUr Burkitt. Aust. Med. Publ. 1948.

Barnard. J. W .• and C. N. Woolsey: A study of localization in the cortico-spinal tracts of monkey and rat. J. compo Neurol. 105, 25-50 (1956).

Bautista. N. 5., and H. A Matzke: A degeneration study of the course and extent of the pyramidal tract of the opossum. J. compo Neurol. 124. 367-376 (1965).

Biemond. A: Experimentell-anatomische Untersuchungen Uber die corticofugalen optischen Verbindungen bei Kaninchen und Affen. Z. ges. Neurol. Psychiat. 129.65-127 (1930).

Caspers, H.: Die zentralnervose Regulation der Muskeltiitigkeit. In: Handbuch der gesamten Arbeitsmedizin. Bd. 1, S.175-206. Berlin u. MUnchen: Urban & Schwarzenberg 1961.

Frauchiger. E.: Bemerkungen iiber Willkiirbewegungen, Pyramidenbahn und extrapyramidales System. Schweiz. Arch. Neurol. Psychiat. 60. 396-400 (1947).

-, u. R. Frankhauser: Vergleichende Neuropathologie des Menschen und der Tiere. Berlin-Gottingen-Heidelberg: Springer 1957.

174

Glees. P.: Morphologie und Physiologie des Nervensystems. Stuttgart: Georg Thieme 1957.

Goldby. E.: An experimental investigation of the motor cortex and its connexions in the Phalanger. Trichosurus vulpecula. J. Anat. (Lond.) 74. 12-33 (1940).

Haartsen, A. B.: Cortical projections to mesencephalon. pons. medulla oblongata and spinal cord. An experimental study in the goat and the rabbit. Thesis. Ido. Leiden 1962.

Hiiggquist. G.: Faseranalytische Studien Uber die Pyramidenbahn. Acta psychiat. (Kbh.) 12. 45 (1931).

Lilly. J. c.. J. R. Hughes. and T. W. Galkin: Some evidence for gradients of motor function in the whole cerebral cortex of the unanesthetized monkey. XX. Physiol. Congr. BrUssel 1956, Verh.Ber. S. 567.

Linowiecki, A J.: The comparative anatomy of the pyramidal tract. J. compo Neurol. 24.509-530 (1914).

Penfield. W .• and T. Rasmussen: The cerebral cortex of man. New York: MacMillan 1950.

Rose. M.: Cytoarchitektonischer Atlas der GroBhirnrinde des Kaninchens. J. Psychol. Neurol. (Lpz.) 43. 353-440 (1931).

Swank. R. L.: The pyramidal tracts. An experimental study of the corticospinal and other components in the rabbit. Arch. Neurol. Psychiat. (ChiC.) 36. 530 (1936).

Tower. S. 5.: The precentral motor cortex. Urbana III. chap. IV. Bucy: University of Illinois Press 1941.

Verhaart. W. J. c.: The anatomy of the pyramidal tract. Folia psychiat. neerl. 56. 923-939 (1953).

Vloet. van der: Ober den Verlauf der Pyramidenbahn bei niederen Siiugetieren. Anat. Anz. 29.113-132 (1906).

Walsh, F. M. R.: The giant cells of Betz, the motor cortex and the pyramidal tract: A critical review. Brain 65. 409-461 (1942).

4. Lemniscus medialis. Lemniscus trigeminalis. Nucleus ventralis basalis

Adey, W. R., and D. I. B. Kerr: The cerebral representation of deep somatic sensibility in the marsupial phalanger and the rabbit; an evoked potential and histological study. J. compo Neurol. 100, 597-626 (1954).

Berry, C. M., R. C. Karl. and J. C. Hinsey: Course of spino thalamic and medial lemniscus pathways in cat and rhesus monkey. J. Neurophysiol. 13,149-156 (1950).

Blomquist. A J .• R. M. Benjamin. and R. Emmers: Thalamic localization of afferents from the tongue in squirrel monkey (Saimiri sCiureus). J. compo Neurol. 118.77-88 (1962).

Bowsher, D.: Projection of the gracile and cuneate nuclei in Macaca mulatta: An experimental degeneration study. J. compo Neurol. 110.135-151 (1958).

Emmers. R.: Organization of the first and the secon somesthetic regions (S. I and S. II) in the rat thalamus. J. compo Neurol. 124, 215-228 (1965).

- R. M. Benjamin. and A J. Blomquist: Thalamic localization of afferents from the tongue in albino rat. J. compo Neurol. 118, 43-48 (1962).

Gerebtzoff. M. A: Recherches oscillographiques et anatomo-physiologiques sur les centres cortical et thalamique du gout. Arch. int. Physiol. 51. 199-210 (1941).

Hassler. R.: Ober die afferenten Bahnen und Thalamuskerne des motorischen Systems des GroBhirns. I. u. II. Mitt. Arch. Psychiat. Nervenkr. 182, 759-785. 786-818 (1949).

Knigthon, R. 5.: Thalamic relay nucleus for the second somatic sensory receiving area in the cerebral cortex of the cat. J. compo Neurol. 92.183-192 (1950).

Magoun. H. W .• and W. A McKinley: The termination of ascending trigeminal and spinal tracts in the thalamus of the cat. Amer. J. Physiol. 137.409-416 (1942).

Mountcastle. V. B., M. R. Covian. and C. R. Harrison: The central representations of some forms of deep senSibility. Res. Publ. Ass. nerv. ment. Dis. 30. 339-370 (1952).

-. and E. Henneman: The representation of tactile sensibility in the thalamus of the monkey. J. compo Neurol. 97, 409-440 (1952).

Literatur

Probst, M.: Experimentelle Untersuchungen uber die Schleifenendigung, die Haubenbahnen, das dorsale Langsbundel und die hintere Commissur. Arch. Psychiat. Nervenkr. 33, 1-57 (1900).

Rasmussen, A T., and W. T. Peyton: The course and termination of the lemniscus in man. J. compo Neurol. 88, 411-424 (1948).

Rose, 1. E., and V. B. Mountcastle: The thalamic tactile region in rabbit and cat. J. compo Neurol. 97, 441-490 (1952).

Sheinin, J. J.: Typing of the cells of the mesencephalic nucleus of the trigeminal nerve in the dog, based on Nissl-granule arrangement. J. com p. Neu rol. 50, 109-132 (1930).

Stewart, W. A, and R. B. King: Fiber projections from the nucleus caudalis of the spinal trigeminal nucleus. J. compo Neurol. 121, 271-286 (1963).

Woolsey, C. N., and O. Fairman: Contralateral, ipsilateral and bilateral representation of cutaneous receptors in somatic areas I and II ofthe cerebral cortex ofthe pig, sheep and other mammals. Surgery 19, 684-702 (1946).

-, and G. H. Wang: Somatic sensory areas I and II of the cerebral cortex of the rabbit. Fed. Proc. 4, 79 (1959).

5. Thalamus Aronson, L. R., and 1. W. Papez: The thalamic nuclei of pithecus

(Macacus rhesus). II. Dorsal thalamus. Arch. Neurol. Psychiat. (Chic.) 32, 27-44 (1934).

Biemond, A: Experi mentell-anatomische Untersuchungen uber die corticofugalen optischen Verbindungen beim Kaninchen. Z. ges. Neurol. Psychiat. 129,65-127 (1930).

Brockhaus, H.: Zur feineren Anatomie des Septum und des Striatum. J. Psychol. Neurol. 51, 1-56 (1942).

Chow, K. L.: Regional degeneration of the thalamic reticular nucleus following cortical ablations in monkeys. J. compo Neurol. 97, 37-59 (1952).

Coggeshall, R. E.: A study of diencephalic development in the albino rat. J. compo Neurol. 122, 241-270 (1964).

Cowan, W. M., and T. S. Powell: The projection of the midline and intralaminar nuclei of the thalamus of the rabbit. J. Neurol. Neurosurg. Psychiat. 18, 266-279 (1955).

Orooglever Fortuyn, J.: Experimenteel-anatomisch onderzoek over de verbindingen van de hersenschors naar den thalamus opticus van het konijn. Thesis Amsterdam. Assen: Van Gorcum 1938.

- On the configuration and the connections of the medioventral area and the midline cells in the thalamus of the rabbit. Folia psychiat. neerl. 53, 213-254 (1950).

Friedemann: Die Cytoarchitektonik des Zwischenhirns der Cercopitheken. J. Psychol. u. Neurol. 18, 309-378 (1912).

Gerebtzoff, M. A.: Systematisation des connexions thalamo:orticales des aires frontales, centrales et parietales, etude anatomoexperimentale. Cellule 46,7-54 (1937).

Glorieux: Anatomie et connexions thalamique chez Ie chien. J. Neurol. (Brux.) 29, 525 (1929).

Griinthal, E.: Der Zellbau im Thalamus der Sauger und des Menschen. J. Psychol. Neurol. (Lpz.) 46, 41-112 (1934).

Gurdjian: The diencephalon of the albino rat. J. compo Neurol. 43, 1-114 (1927).

Hassler, R.: Die Anatomie des Thalamus. Arch. Psychiat. Nervenkr. 184, 249-251 (1950).

Hess, A: The nuclear topography and architectonics of the thalamus of the guinea pig. J. compo Neurol. 103, 385-419 (1955).

Holmes, R. L.: Nuclear studies on the thalamus of the mouse. J. compo Neurol. 99, 377-413 (1953).

Ingram, W. R., Hannett F. I. and S. W. Ranson: The topography of the nuclei of the diencephalon of the cat. J. compo Neurol. 55, 333-394 (1932).

Jacobson, St.: Intralaminar, interlaminar, callosal, and thalamocortical connections in frontal and parietal areas of the albino rat cerebral cortex. J. compo Neurol. 124, 131-146 (1965).

Jung, R., and R. Hassler: The extrapyramidal motor system. In: Handbook of Physiology, Sect. I, Neurophysiology, vol. II, p.863 (H. W. Magoun ed.). Baltimore: Williams & Wilkins Co. 1960.

Lashley, K. S.: Thalamo-cortical connections of the rat's brain. J. compo Neurol. 75, 67-122 (1941).

Le Gros Clark: The thalamus of Tupaia minor. J. Anat. (Lond.) 63, 177 (1929).

- The thalamus of tarsi us. J. Anat. (Lond.) 64, 371-432 (1929/30). Malone, E.: Ober die Kerne des mensch lichen Diencephalon.

Neurol. Zbl. 29, 290-300 (1910) u. Abh. Preuss. Akad. Wiss. 1910, Anhang S.1.

Miura, R.: Ober die Differenzierung der Grundbestandteile im Zwischenhirn des Kaninchens. Anat. Anz. 77, 1-65 (1933).

Murray, M.: Degeneration of some intralaminar thalamic nuclei after cortical removals in the cat. J. compo Neurol.127, 341-368 (1966).

Nissl, F.: Die GroBhirnanteile des Kaninchens. Arch. Psychol. Neurol. 52, 867-953 (1913).

Olszewski, J.: The thalamus of macaca mulatta. Basel: S. Karger 1952.

Papez, J. W., and L. R. Aronson: The thalamic nuclei of pithecus (Macacus rhesus). I. Ventral thalamus. Arch. Neurol. Psychiat. (Chic.) 32, 1-26 (1934); II. Dorsal Thalamus ibid. S. 27-44.

Pines: Zur Architektonik des Thalamus opticus beim Halbaffen. J. Psychol. Neurol. (Lpz.) 33, 31-72 (1927).

Powell, T. P. S.: The organization and connexions of the hippocampal and intralaminar systems. Recent Progr. Psychiat. 3, 54-74 (1958).

-, and W. M. Cowan: The connexions of the midline and intralaminar nuclei of the thalamus of the rat. J. Anat. (Lond.) 88, 307-319 (1954).

Rioch, o. M.: Studies on the diencephalon of carnivora. The nuclear configuration of the thalamus, epithalamus, and hypothalamus of the dog and cat. J. compo Neurol. 49, 1-119 (1930).

Rose, J. E.: The ontogenetic development of the rabbit's diencephalon. J. compo Neurol. 77, 61-129 (1942).

- The thalamus of the sheep. Cellular and fibrous structure and comparison with pig, rabbit and cat. J. compo Neurol. 77, 469-523 (1942).

-, and C. N. Woolsey: A study of thalamo-cortical relations in the rabbit. Bull. Johns Hopk. Hosp. 73, 65-128 (1943).

- - The orbito-frontal cortex and its connections with the mediodorsal nucleus in the rabbit, sheep and cat. Res. Publ. Ass. nerv. ment. Dis. 27, 210-232 (1948).

- - The relations of thalamic connections, cellular structure and evocable electrical activity in the auditory region of the cat. J. compo Neurol. 91, 441-466 (1949).

- - Organization ofthe mammalian thalamus and its relationship to the cerebral cortex. Electroenceph. clin., Neurophysiol. 1, 391-404 (1949).

Sachs: Eine vergleichende Studie des Thalamus opticus der Saugetiere. Oberstei ners Arb. 17, 280 (1909).

Scollo-Lavizzari, G., and K. Akert: Cortical area 8 and its thalamic projection in Macaca mulatta. J. compo Neurol. 121, 259-270 (1963).

Sheps, J. G.: The nuclear configuration and cortical connections of the human thalamus. J. compo Neurol. 83, 1-56 (1954).

Stefens, R., and J.Orooglever Fortuyn: Contribution a I'etude de la structure et de quelques connexions de noyaux intermediaires du thalamus chez Ie lapin. Schweiz. Arch. Neurol. Psychiat. 72, 299-318 (1953).

Stoffels, 1.: Organisation du thalamus et du cortex cerebral chez Ie lapin. J. beige Neurol. Psychiat. 39, 557-575 (1939).

Thompson, R., I. Rich, and S. K. Langer: Lesion studies on the functional Significance of the posterior thalamo-mesencephalic tract. J. compo Neurol. 123, 29-44 (1964).

Toneray, J. E., and W. S. Krieg: The nuclei of the human thalamus: A comparativ approach. J. compo Neurol. 85, 421-460 (1946).

Vogt, c.: La myeloarchitecture du thalamus du cercopitheque. J. Psychol. u. Neurol. 12, 285-324 (1909).

Wahren, W.: Der Thalamus des Kaninchens. J. Hirnforsch. 3, 143-242 (1957).

175

literatur

Walker, A E.: The medial thalamic nucleus. A comparative anatomical, physiological and clinical study of the nucleus medialis dorsalis thalami. J. compo Neurol. 73, 87-116 (1940).

Waller, W. H.: Topographical relations of cortical lesions to thalamic nuclei in the albino rat. J. compo Neurol. 60, 237-269 (1934).

- Thalamic connections of the frontal cortex of the cat. J. compo Neurol. 73, 117-138 (1940).

6. Hypothalamus

Adey, W. R., A F. Rudolph, I. F. Hine, and N. J. Harriff:Glees staining of the monkey hypothalamus: A critical appraisal of normal and experimental material. J. Anat. (Lond.) 92,219-235 (1958).

Bargmann, W.: Das Zwischenhirn-Hypophysensystem. BerlinGottingen-Heidelberg: Springer 1954.

Becker, H.: Hypophyse und Hypothalamus bei der weiBen Maus. Dtsch. Z. Nervenheilk. 173, 123-160 (1955).

Brettschneider, H.: Hypothalamus und Hypophyse des Pferdes. Morph. Jb. 96, 265-384 (1954).

Brockhaus, H.: Beitrag zur normalen Anatomie des mensch lichen Hypothalamus. J. Psychol. Neurol. (Lpz.) 51, 96-134 (1942).

Christ, J.: Zur Anatomie des Tuber cinereum beim erwachsenen Menschen. Dtsch. Z. Nervenheilk. 165, 340-508 (1951).

Clara, M.: Beitrage zur Morphobiologie des Nucleus supraopticus und Nucleus paraventricularis. Anat. Anz. 102, 86-88 (1955/56).

Critchlow, V.: Blockade of ovulation in the rat by mesencephalic lesions. Endocrinology 63,596-610 (1958).

Crosby, E. C., and R. T. Woodburne: The comparative anatomy of the preoptic area and the hypothalamus. Res. Publ. Ass. nerv. ment. Dis. 20, 52-169 (1940).

- - The mammalian midbrain and isthmus region Part II: The fiber connections. C The hypothalamo-tegmental pathways. J. compo Neurol. 94, 1-32 (1951).

Diepen, R.: The hypothalamic nuclei and their ontogenetic development in ungulates (ovis aries). Med. Diss. Amsterdam 1941.

Enestrom, S.: Nucleus supraopticus. A morphological and experimental study in lhe rat. Copenhagen: Munksgaard 1967; Acta path. microbiol. scand., Suppl. 186 (1967).

Feremutsch, K.: Strukturanalyse des mensch lichen Hypothalamus. Mschr. Psychiat. 130, 1-85 (1955).

Ford, D. H., and S. Kantounis: The localization of neurosecretory structures and pathways in the male albino rabbit. J. compo Neurol. 108, 91-107 (1957).

Gellhorn, E., H. Nakao, and E. S. Redgate: The influence of lesions in the anterior and posterior hypothalamus on autonomic and phasic autonomic reactions. J. Physiol. (Lond.) 131, 402-423 (1956).

Greving, R.: Die zentralen Anteile des vegetativen Nervensystems. In: G. v. Mollendorf, Handbuch der mikroskopischen Anatomie des Menschen, Bd. 4, Nervensystem. Berlin: Springer 1928.

Gross, J., D. H. Ford, and M. Ponser: Metabolism of triiodothyronine and thyroxine in plasma, pituitary and central nervous system of the rabbit. J. clin. Endocr. 15, 836-874 (1955).

Griinthal, E.: Der Zellaufbau des Hypothalamus beim Hund. Z. ges. Neurol. Psychiat. 120,157-177 (1929).

- Der Zellaufbau im Hypothalamus des Kaninchens und des Macacus Rhesus nebst einigen allgemeinen Bemerkungen uber dieses Organ. J. Psychol. Neurol. (Lpz.) 42, 429-464 (1931).

Gui/lery, R. W.: Degeneration in the hypothalamic connexions of the albino rat. J. Anat. (Lond.) 91,91-115 (1957).

Gurdijan,E.S.:The hypothalamus inthe rat. Anat. Rec. 32, 208(1926). - The diencephalon of the albino rat. J. compo Neurol. 43, 1-114

(1927). Hagen, E.: Anatomisch-histologische Voraussetzungen. b) Zentrale

Regulationssysteme. In: Physiologie und Pathophysiologie des vegetativen Nervensystems, Bd. I, S. 16-51. Stuttgart: Hippokrates 1963.

Hasegawa, K.: On the vascular supply of the hypophysis and of the hypothalamus of rabbits. Fukuoka Acta med. 45 (1945).

176

Hertl, M.: Brunstzeitige Kernschwellungen im Tuber cinereum der weiBen Maus. Morph. Jb. 92, 75-94 (1952).

Hess, A: The nuclear topography and architectonics ofthe thalamus of the guinea pig. J. compo Neurol. 103, 385-420 (1955).

Hild, W., u. G. Zetler: Vergleichende Untersuchungen uber das Vorkommen der Hypophysenhinterlappenhormone im Zwischenhirn einiger Saugetiere. Dtsch. Z. Nervenheilk. 167,205-214 (1952).

Holmes, R. L.: Nuclear studies in the thalamus ofthe mouse. J. compo Neurol. 99, 377-413 (1953).

John, A: Zwischenhirnstudien. IV. Untersuchungen des Hypothalamus der wei Ben Maus unter besonderer Berucksichtigung des Hohlengraues / (Kerngebiet 2 nach E. Griinthal) und seine Karyoarchitektonik. Anat. Anz. 97, 22-45 (1949/50).

Knoche, H.: Die Verbindung der Retina mit den vegetativen Zentren des Zwischenhirnes und mit der Hypophyse. Verh. anat. Ges. (Jena) 53, 140-198 (1956).

Koikegami, H.: Beitrage zur Kenntnis der Kerne des Hypothalamus bei Saugetieren. Arch. Psychiat. Nervenkr.107, 742-774 (1938).

Krieg, W. J. S.: The hypothalamus of the albino rat. J. compo Neurol. 55, 19-90 (1932).

Lundberg, P. 0.: Cortico-hypothalamic connexions in the rabbit. Acta physiol. scand., Suppl. 171,49,1-80 (1960).

- The nuclei gemini. Two hitherto undescribed nerve cell collections in the hypothalamus of the rabbit. J. compo Neurol. 119, 311-316 (1962).

Luparello, Th. J.; M. Stein and C. D. Park, A stereotaxic atlas of the hypothalamus ofthe guinea pig. J. compo Neurol. 122, 201-218 (1964).

McCrum, W. R.: A study of diencephalic mechanisms in temperature regulation. J. compo Neurol. 98,233-282 (1953).

Morgan, L. 0.: Cell groups in the tuber cinereum of the dog, with a discussion of their function. J. compo Neurol. 51, 271-297 (1930).

Morgane, P. J.: Medial forebrain bundle and "Feeding centers" of the hypothalamus. J. compo Neurol. 117,1-25 (1961).

Nauta, W. J. H.: Hypothalamic regulation of sleep in rats. An experimental study. J. Neurophysiol. 9, 285-316 (1946).

- Hippocampal projections and related neural pathways to the midbrain in the cat. Brain 81, 319-340 (1958).

Nowakowski, H.: Infundibulum und Tuber cinereum der Katze. Dtsch. Z. Nervenheilk. 165, 261-339 (1951).

aids, J., R. P. Travis, and R. C. Schwing: Topographic organization of hypothalamic self-stimulation functions. J. compo Physiol. Psychol. 53, 23-32 (1960).

Palay, S. L., and S. L. Wissig: Secretory granules and Nissl substance in fresh supraoptic neurons of the rabbit. Anat. Rec. 116, 301-314 (1953).

Rioch, D. Mck., G. B. Wislocki, and J. L. O'Leary: A precis of preoptic, hypothalamic and hypophysial terminology with atlas. Res. Publ. Ass. nerv. ment. Dis. 20, 3-30 (1940).

Rodeck, H.: Zur Entwicklung des neurosekretorischen Zwischenhirnsystems. Verh. anat. Ges. (Jena) 53, 131-139 (1956).

Roester, U.: Zwischenhirnstudien V.: Karyoarchitektonik des Nucleus infundibulo-mammillaris (= Areal 6 nach E. Griinthal) im Hypothalamus der weiBen Maus. Anat. Anz. 97, 90-114 (1949/50).

Scharrer, E., and B. Scharrer: Hormones produced by neurosecretory cells. Recent Progr. Hormone. Res. 10, 183-240 (1954).

Shimizu, M., N. Morikawa, and Y. Ishi: Histochemical studies of succinic dehydrogenase and cytochrome oxydase of the rabbit brain, with special reference to the results in the paraventricular structures. J. compo Neurol. 108, 1-22 (1957).

Solnitzky, 0.: The hypothalamus of sus scrofa. J. compo Neurol. 70, 191-229 (1939).

Spatz, H., u. V. Gaupp: Zur Anatomie des Infundibulum und des Tuber cinereum beim Kaninchen. Zur Frage der Verknupfung von Hypophyse und Hypothalamus. Dtsch. Z. Nervenheilk. 159, 229-268 (1948).

Sutkowaja: Zur Frage uber das Zentrum der Warmeregulation Z. ges. Neurol. Psychiat. 115, 272-302 (1928).

literatur

Vierling, R.: Ein Beitrag zur anatomischen Situation der Hypothalamuskerne, Nucleus supraopticus und Nucleus paraventricularis beim Schaf. Anat. Anz. 103, 406-426 (1956).

Viermann, B.: Morphologische Beobachtungen im Hypothalamus und in der Neurohypophyse des Hundes nach Exstirpation der KeimdrUsen. Acta anat. (Basel) 49, 77-114 (1962).

Westwood, W. J. A: Anatomy of the hypothalamus of the ferret. J. compo Neurol. 118, 323-341 (1962).

Wolf, G., and J. Sufin: Fiber degeneration after lateral hypothalamic lesions in the rat. J. compo Neurol. 127, 137-156 (1966).

7. Das mesencephale Hohlengrau

Braus. H.: Anatomie des Menschen. Bd. III. Zentrales Nervensystem. Berlin: Springer 1932.

BUrgi, S., u. V. M. Bucher: Markhaltige Faserverbindungen im Hirnstamm der Katze. Monogr. a. d. Ges. Gebiet d. Neurol. u. Psychiatrie, H. 87. Berlin-Gottingen-Heidelberg: Springer 1960.

Castaldi, L.: Studi sulla struttura e sullo sVilluppo del mesencefalo. I. Ricerche in Cavia cobaya. Arch. ital. Anat. Embriol. 20, 23-225 (1923).

Chatfield, P.O., and C. P. Lyman: An unusual structure in the floor of the forth ventricle of the golden hamster (Mesocricetus auratus). J. compo Neurol. 101, 225-231 (1954).

Darkschewitsch, L.: Ober die hintere Commissur des Gehirns. Neurol. Zbl. 4, 100-101 (1885).

- Ober den oberen Kern des N. oculomotorius. Arch. Anat. 92 107-116 (1889).

Fulton, J. F.: Physiology of the nervous system. New York: Oxford Press 1949.

Gerhard, L.: Zur vergleichenden Anatomie und Histologie vegetativer Kerngebiete in Mittelhirn, BrUcke und Medulla oblongata. Acta neuroveg. (Wien) 30, 155-168 (1967).

Hess, W. R., u. M. BrUgger: Das subcorticale Zentrum der affektive Abwehrreaktionen. Helv. physiol. pharmacol. Acta 14, 32-52 (1943).

Hunsperger, R. W.: Affektreaktionen auf elektrische Reizung im Hirnstamm der Katze. Helv. physiol. pharmacol. Acta 14, 70-92 (1956).

KrUcke, W.: Ober das LongsbUndel in der Substantia gelatinosa centralis des RUckenmarkes (Fasc. parependymalis) und seine Bedeutung fUr die Verbindung der vegetativen Zentren des Hirnstammes mit denen des RUckemarkes. Dtsch. Z. Nervenheilk. 160, 196--220 (1949).

Marburg, 0.: Das dorsale LongsbUndel von SchUtz - Fasciculus periependymalis - und seine Beziehungen zu den Kernen des zentralen Hohlengraus. Arb. neurol. Inst. Univ. Wien 33,135-164 (1931).

Morest, D. K.: Connexions of the dorsal tegmental nucleus in rat and rabbit. J. Anat. (Lond.) 95, 229-246 (1961).

SchUtz, H.: Anatomische Untersuchungen Uber den Faserverlauf im zentralen Hohlengrau und den Nervenfaserschwund in demselben bei der progressiven Paralyse der Irren. Arch. Psychiat. Nervenkr. 22, 526--587 (1891).

Thompson, E. L.: The dorsal longitudinal fasciculus in Didelphis virginiana. J. compo Neurol. 76, 239-281 (1942).

8. Ependym und subependymore Strukturen

Akert, K., H. D. Potter, and J. W. Anderson:The subfornical organ in mammals. I. Comparative and topographical anatomy. J. compo Neurol. 116, 1-14 (1961).

Andersson, B., C. C. Gale, B. Hokfelt, and B. Larsson: Acute and chronic effects of preoptic lesions. Acta physiol. scand. 65, 45-60 (1965).

Bargmann, W., u. T. H. Schiebler: Histologische und cytochemische Untersuchungen am Subcommissuralorgan von Sougern. Z. Zellforsch. 37, 583-596 (1952).

Cammermeyer, J.: Is human area postrema a neurovegetative nuc1eus? Acta anat. (Basel) 2, 294-320 (1947).

- Deposition of iron in paraventricular areas of the human brain in hemochromatosis. J. Neuropath. expo Neurol. 6, 111-126 (1947).

23 Gerhard, AlIas

Colmant, H. J.: Ober die Wandstruktur des dritten Ventrikels der Albinoratte. Histochemie 11, 40-61 (1967).

Feldberg, W., and K. Fleischhauer: Penetration of bromophenol blue from the perfused cerebral ventricles into the brai n tissue. J. Physiol. (Lond.) 150, 451-462 (1960).

Fleischhauer, K.: Fluorescenzmikroskopische Untersuchungen an der Faserglia. Z. Zellforsch. 51, 467-496 (1960).

- Fluorescenzmikroskopische Untersuchungen Uber den Stofftransport zwischen Ventrikelliquor und Gehirn. Z. Zellforsch. 62, 639-654 (1964).

Friede, R. L.: Surface structures of the aquaeduct and the ventricular walls: A morphologic, comparative and histochemical study. J. compo Neurol. 116, 229-247 (1961).

Gilbert, G. J.: The subcommissural organ. Neurology (Minneap.) 10,138-142 (1960).

Hofer, H.: Zur Morphologie der circumventrikuloren Organe des Zwischenhirns der Souger. Verh. Dtsch. Zool. Ges., Frankfurt 1958, S.202-252.

- Circumventriculore Organe des Zwischenhirns. In: Primatologia, Bd. II, Teil 22. Basel u. New York: S. Karger 1965.

Kelly, D. E.: Circumventricular organs. In: Histology and general Pathology of the human nervous system, eds. R. Adams and W. Haymaker. Springfield, III.: Ch. C. Thomas 1967.

Leonhardt, H.: Intraventrikulore markhaltige Nervenfasern nahe der Apertura lateralis ventriculi quarti des Kaninchengehirns. Z. Zellforsch. 84, 1-8 (1968).

Pesonen, N.: Ober das Subcommissuralorgan beim Meerschweinchen. Acta Soc. med. "Duodecim", Ser. A 22,53-78 (1940).

Rudert, H., A Schwink u. R. Wetzstein: Die Feinstruktur des Subfornikalorgans beim Kaninchen. I. Die BlutgefoBe. Z. Zellforsch. 74, 252-272 (1966).

Shimizu, N., and S. Ishi: Fine structure of the area postrema of the rabbit brain. Z. Zellforsch. 64, 462-473 (1964).

- N. Morikawa, and Y. Ishi: Histochemical studies of succinic dehydrogenase and cytochrome oxidase of the rabbit brain, with special reference to the results in the paraventricular structures. J. compo Neurol. 108,1-22 (1957).

Weindl, A: Zur Morphologie und Histochemie von Subfornicalorgan, Organum vasculosum laminae terminalis und Area postrema beim Kaninchen und Ratte. Z. Zellforsch. 67, 742-755 (1965).

- A Schwink, u. R. Wetzstein: Der Feinbau des GefoBorgans der Lamina terminalis beim Kaninchen. Z. Zellforsch. 79, 1-48 (1967); 85, 552-600 (1968).

Wis/ocki, G B., and E. H. Leduc: Vital staining of the haematoencephalic barrier by silver nitrate and trypan blue, and cytological comparisons of the neurohypophysis, pineal body, area postrema, intercolumnar tubercle and supraoptic crest. J. compo Neurol. 96, 371-413 (1952).

- - The cytology and histochemistry ofthe subcommissural organ and Reissner's fiber in rodents. J. compo Neurol. 97, 515-544 (1952).

- - The cytology of the subcommissural organ, Reissner's fiber, periventricular glia cells and posterior coli iculus recess of the rat's brain. J. compo Neurol. 101, 283-309 (1954).

9. Optisches System

Altmann, J.: Some fiber projections to the superior colliculus in the cat. J. compo Neurol. 119, 77-96 (1962).

Balado, M., u. E. Franke: Das Corpus geniculatum externum. Berlin: Springer 1937. Monogr. a. d. Ges. Geb. d. Neurol. u. Psychiat. H.62.

Barr, E., W. H. Cook, J. H. Walker, and M. L. Barn: A cytological study of transneuronal atrophy in cat and rabbit. J. compo Neurol. 94, 267-292 (1951).

Bartley, S. H., and G. H. Bishop: Optic nerve response to retinal stimulation in the rabbit. Proc. Soc. expo BioI. (N.Y.) 44, 39-41 (1940).

177

literatur

Bender u. Weinstein: Functional representation in the oculomotor and trochlear nuclei. Arch. Neurol. Psychiat. (Chic.) 49. 98-106 (1943).

Beresford. W. A.: A nauta and gallocyanin study of the corticolateral geniculate projection in the cat and monkey. J. Hirnforsch. 5. 210-228 (1962).

Biemond. A.: Experimentell-anatomische Untersuchungen iiber die corticofugalen Verbindungen bei Kaninchen und Affen. Z. ges. Neurol. Psychiat. 129.65-127 (1930).

Bishop. G. H .• and M. H. Clare: Organization and distribution of fibers in the optic tract of the cat. J. compo Neurol. 103. 269-304 (1955).

Bodian. D.: The projection ofthe lateral geniculate body on the cerebral cortex of the opossum. Didelphis virginiana. J. compo Neurol. 62. 469-494 (1935).

Brouwer. B.: Klinisch-anatomische Untersuchungen iiber den Oculomotoriuskern. Z. ges. Neurol. Psychiat. 40. 152-193 (1918).

Bucher. V. M .• u. S. BUrgi: Die supraoptischen Dekussationen bei der Katze. Dtsch. Z. Nervenheilk. 171. 220-233 (1954).

BUrgi. S.. u. V. M. Bucher: Markhaltige Faserverbindungen im Hirnstamm der Katze. Monogr. a. d. Ges. Geb. d. Neurol. u. Psychiat. H.87. Berlin-Gottingen-Heidelberg: 1960.

Bruesch. S. R.. and L. B. Arey: The number of myelinated and unmyelinated fibres in the optic nerve of vertebrates. J. compo Neurol. 77. 631-665 (1942).

Bucher. V. M .• and S. M. BUrgi: Some observations on the fi ber connections of the di-and mesencephalon in the cat. Part III: The supraoptic decussations. J. compo Neurol. 98. 355-379 (1953).

Clara. M.: Das Nervensystem des Menschen. Leipzig 1959. Clark. W. E. L.: The mammalian oculomotor nucleus. J. Anat.

(Lond.) 60. 426-448 (1926). Cohn. R.: Laminar electrical responses in lateral geniculate body of

cat. J. Neurophysiol. 19. 317 (1956). Cragg. B. G.: Centrifugal fibers to the retina and olfactory bulb

and composition of the supraoptic commissures in the rabbit. Exp. Neurol. 5. 406-427 (1962).

Crovch. R. L.: The efferent fibers of the Edinger- Westphal-Nucleus. J. compo Neurol. 64. 365-373 (1936).

Danis. P.: The functional organization of the third nerve nucleus in the cat. Amer. J. Ophthal. 31. 1122-1131 (1948).

Gillilan. L. A.: The connections of the basal optic root (posterior acessory optic tract) and its nucleus in various mammals. J. compo Neurol. 74. 367-408 (1941).

Giolli. R. A.: Experimental study of the anterior and posterior accessory optic tracts in the rabbit. Anat. Rec. 136. 336 (1960).

- An experimental study of the accessory optic tracts (transpeduncular tracts and anterior accessory optic tracts) in the rabbit. J. compo Neurol.117. 77-96 (1961).

- An experimental study of the accessory optic system in the cynomolgus monkey. J. compo Neurol. 121. 89-108 (1963).

- An experimental study of the accessory optic system and of other optic fibers in the opossum. Didelphis virginiana. J. compo Neurol. 124. 229-242 (1965).

Glees. P.: The termination of optic fibres in the lateral geniculate body of the cat. J. Anat. (Lond.) 75. 434-440 (1941).

..,..- The termination of optic fibers in the lateral geniculate body of the rabbit. J. Anat. (Lond.) 76. 313-318 (1942).

- Terminal degeneration and transsynaptic atrophy in the lateral geniculate body of the monkey. In: The visual system: Neurophysiology and psychophysics. Symposion Freiburg i. Br. 28.8.-3.9. 1960. ed. by R. Jung and H. Kornhuber. p.104-110. Berlin-G6ttingen-Heidelberg: Springer 1961.

- W. Hallermann. u. H. Naeve: Die Reprosentation retinaler Sektoren im Corpus geniculatum laterale des Affen. Albrecht V.

Graefes Arch. f. Ophthal. 167. 367-376 (1964). Gudden. B. v.: Ober den Tractus peduncularis transversus. Arch.

Psychiat. Nervenkr. 11. 415-423 (1881). Guillery. R. W.: A study of Goigi preparations from the dorsal

lateral geniculate nucleus of the adult cat. J. compo Neurol. 128. 21-56 (1966).

178

Gurdjian. E. 5.: The diencephalon of the albino rat. J. compo Neurol. 43. 1-114 (1927).

Hayhow. W. R .• A. Sefton. and C. Webb: Primary optic centers of the rat in relation to the terminal distribution of the crossed and uncrossed optic nerve fibers. J. compo Neurol. 118. 295-322 (1962).

- C. Webb. and A. Jervie: The accessory optic fiber system in the rat. J. compo Neurol. 115. 187-215 (1960).

Hess. A.: Optic centers and pathways after eye removal in fetal guinea pigs. J. compo Neurol. 100. 91-116 (1958).

Hogg. I. D.: Observation of the development of the nucleus of Edinger-Westphal in man and the albino rat. J. compo Neurol. 126. 567-584 (1966).

Huber. G. c.. and E. C. Crosby: A comparison of the mammalian and reptilian tecta. J. compo Neurol. 78. 133-168 (1943).

Johnston. J. P .• and E. Gardener: Central connections of the optic nerves in mammals with pure cone retinae. Anat. Rec. 134. 205-216 (1959).

Klapkowski. Fr.: Myelinogenetische Zergliederung der Sehnervenbahnen beim Kaninchen von Chiasma zu den primoren Sehzentren. Z. Anat. Entwickl.-Gesch. 102. 246-265 (1934).

Lashley. K. 5.: The mechanism of vision. VII. The projection of the retina upon primary optic centers in the rat. J. compo Neurol. 59.341-373 (1934).

Loepp. W. H.: Ober die zentrale Opticusendigung beim Kaninchen. Anat. Anz. 40. 309-323 (1912).

Magoun. N. W .• and M. Ranson: The supraoptic decussations in the cat and the monkey. J. J. compo Neurol. 76. 435-459 (1942).

Minkowski. M.: Ober den Verlauf. die Endigung und die zentrale Reprosentation von gekreuzten und ungekreuzten Sehnervenfasern bei einigen Sougetieren und beim Menschen. Schweiz. Arch. Neurol. Psychiat. 6. 201-252 (1920).

Niimi. K.. T. Kanaseki. and T. Takimoto: The comparative anatomy of the ventral nucleus of the lateral geniculate body in mammals. J. compo Neurol. 121. 313-324 (1963).

O·Leary. I. L.: A structural analysis of the lateral geniculate nucleus of the cat. J. compo Neurol. 73. 405-430 (1940).

Papez. J. W .• and G. Laverne Freeman: Superior colliculi and their fiber connection in the rat. J. compo Neurol. 51. 409-440 (1930).

Pick. A.: Untersuchungen iiber die topographischen Beziehungen zwischen Retina. Opticus und gekreuztem Tractus opticus beim Kaninchen. Nova acta caes. Leopold. Carol. Germaniae naturae curiosorum 66 (1896).

Polyak. S. L.: The vertebrate visual system. 1390 p. Chicago: Chicago University Press 1957.

Probst. M.: Ober die Kommissur von Gudden. Meynert und Ganser und iiber die Foigen der Bulbusatrophie auf die zentrale Sehbahn. Mschr. Psychiat. Neurol. 17. 1-15 (1905).

Putnam. T. J .• and I. K. Putnam: Studies of the central visual system: The anatomical projection of the retinal quadrants on the striate cortex of the rabbit. Arch. Neurol. Psychiat. (Chic.) 16. 1-20 (1926).

Retzius. G.: Zur Kenntnis der lateralen Floche des Mesencephalon und ihrer Umgebung. Biolog. Untersuch .• N. F. 8. 65-74 (1898).

Rose. J. E .• and L. I. Malis: Geniculo-striate connections in the rabbit. I. Retrograde changes in the dorsal lateral geniculate body after destruction of cells in various layers of the striate region. II. Cytoarchitectonic structure of the striate region and of the dorsal lateral geniculate body; organization of the Geniculostriate projections. J. compo Neurol. 125.95-139 (1965).

Silva. P. 5.: Some anatomical and physiological aspects of the lateral geniculate body. J. compo Neurol. 106.463-485 (1956).

Stone. J .• and S. M. Hansen: The projection of the cat's retina on the lateral geniculate nucleus. J. compo Neurol. 126. 601-624 (1966).

Szentcigothai. J.: Die innere Gliederung des Oculomotoriuskernes. Arch. Psychiat. Nervenkr. 115. 127-135 (1942).

Tarlov. E. c.: The distribution of ascending efferents of the superior colliculus in the brain of the rabbit. Anat. Rec. 151. 425 (1965).

literatur

Thuma, B. D.: Studies on the diencephalon of the cat. I. The cytoarchitecture ofthe Corpus geniculatum laterale. J. compo Neurol. 46, 173-199 (1928).

Tsai, c.: The optic tracts and centers of the opossum, Didelphis virginiana. J. compo Neurol. 39, 173-216 (1925).

Tsang, Y.-Ch.: Visual centers in blinded rats. J. compo Neurol. 66, 211-261 (1936).

- Supra- and postoptic commissures in the brain of the rat. J. compo Neurol. 72, 535-567 (1940).

Vaidya, P. G.: Visual radiations in mammals with purecone retina. J. compo Neurol. 119, 201-209 (1962).

White u. Smithwick: Zit. nach Szenthagothai. Zahajsjky, E.: Beitrage zur Erkenntnis der Entwicklung ,der N. ocu

lomotorius, der N. trochlearis und des motorischen N. trigeminus. Anat. Anz. 89, 316-332 (1940).

Zweig: Zit. nach Szenthagothai.

10. Akustisches System Barnes, W. T., H. W. Magoun, and S. W. Ranson: The ascending audi

tory pathway in the brainstem of the monkey. J. compo Neurol. 79,129-152 (1943).

Burgi, S., u. V. Bucher: Markhaltige Faserverbindungen im Hirnstamm der Katze. Monogr. a. d. Ges. Geb. d. Neurol. u. Psychiat. H. 87. Berlin-Gottingen-Heidelberg: Springer 1960.

Diamond, I. T., K. L. Chow, and W. D. Neff: Degeneration of caudal medial geniculate body following cortical lesion ventral to auditory area II in the cat. J. compo Neurol. 109, 349-362 (1958).

Flechsig: Zit. nach Pfeifer. Ganser, S.: Vergleichend-anatomische Studien iiber das Gehirn des

Maulwurfs. Morph. Jb. 7, 591-725 (1889). Goldberg, J. M., and W. D. Neff: Frequency discrimination after bi

lateral section of the brachium of the inferior colliculus. J. compo Neurol. 116, 265-290 (1961).

Jane, J. A., R. B. Masterton, and I. T. Diamond: The function of the tectum for attention to auditory stimuli in the cat. J. compo Neurol. 125, 165-192 (1965).

Jel<~nska-Macieszyna, A.: Ober die in den vorderen Vierhiigeln des Kaninchens entspringenden Bahnen. Folia neurobiol. (Lpz.) 7, 23-47 (1913).

Je/enska-Macieszyna, S.: Auf- und absteigende Bahnen des hi nteren Vierhiigels beim Kaninchen. Neurol. Zbl. 30, 473-488 (1911).

Kuhlenbeck, H., and R. N. Miller: The pretectal region of the rabbit's brain. J. compo Neurol. 76, 323-365 (1942).

Locke, S.: The projection of the magnocellular medial geniculate body. J. compo Neurol. 116, 179-193 (1961).

Loo, Y. T.: The nucleus geniculatus medialis in mammalian brains. Monogr. Nat. Res. Inst. Psychol. Nanking 11 (1937).

Marburg, D.: Entwicklungsgeschichte, makroskopische und mikroskopische Anatomie des Nervus cochlearis, vestibularis und Kleinhirns sowie der zugehorigen Abschnitte des zentralen Nervensystems. In: Handbuch der Neurologie des Ohres (G. Alexander u. D. Marburg), Bd. I, S.175-336. Berlin u. Wien: Urban & Schwarzenberg 1924.

Mettler, F. A.: Connections of the auditory cortex of the cat. J. compo Neurol. 55, 139-183 (1932).

Mickle, W. A., and H. W. Ades: Rostral projection pathway of the vestibular system. Amer. J. Physiol. 176, 243-246 (1952).

- - A composite sensory projection area in the cerebral cortex of the cat. Amer. J. Physiol. 170,682-689 (1952).

Moore, R. Y., and J. M. Goldberg: Midbrain auditory connections in the cat. Anat. Rec. 139, 256 (1961).

- - Ascending projections of the inferior colliculus in the cat. J. compo Neurol. 121, 109-136 (1963).

Pfeifer, R. A. Myelogenetisch-anatomische Untersuchungen iiber das corticale Ende der Horleitung. Abh. sachs. Akad. Wiss. Leipzig: Teubner 1920.

Rose, J. E., D. D. Greenwood, J. M. Goldberg, and J. E. Hind: Some dischange characteristics of single neurons in the inferior colliculus of the cat. J. Neurophysiol. 26, 294-320, 321-341 (1963).

23*

Rose, J. E., and C. N. Woolsey: A study of thalamo-cortical relations in the rabbit. Bull. Johns Hopk. Hosp. 73. 65-128 (1943).

- - The relations of thalamic connections, cellulare structure and evocable electrical activity in the auditory region of the cat. J. compo neurol. 91 441-466 (1949).

- - Cortical connections and functional organization of the thalamic auditory system of the cat. In: H. F. Harlow and C. N. Woolsey (Eds.), biology and biochemical bases of behaviour. Madison: Univ. of Wisconsin Press 1958.

Ross, M. D.: Auditory pathway of the epileptic waltzing mouse. I. A comparison of the acoustic pathway of the normal mouse with those of totally deaf epileptic waltzer. J. compo Neurol. 119, 317-340 (1962).

Sychowa, B.: Medial geniculate body of the dog. J. Compo Neurol. 118, 355-372 (1962).

Tarlov, E. c., and R. Y. Moore: The tecto-thalamic connections in the brain of the rabbit. J. compo Neurol. 126, 403-422 (1966).

Tunturi, A. R.: Audio frequency localization in the acoustic cortex of the dog. Amer. J. Physiol. 141.397-403 (1944).

Vogt, C.: La myeloarchitecture du thalamus du cercopitheque. J. Psychol. Neurol. (Lpz.) 12, 285 (1909).

Woollard, H. H., and J. A. Harpman: The cortical projection of the medial geniculate body. J. Neurol. Psychiat. 2, 35 (1939).

- - The connections ofthe inferiorcolliculus and of the dorsal nucleus ofthe lateral lemniscus. J. Anat. (Lond.) 74, 441-457 (1940).

Woolsey, C. N.: Organisation of cortical auditory system: A review and a synthesis. In: G. V. Rasmussen and W. F. Windle (Eds.), Neural mechanism of the auditory and vestibular systems, p. 165-180. Springfield (111.): Ch. C. Thomas 1960.

- H. D. Adrian, N. B. Gross, J. E. Hirsch, J. F. Lane, W. S. Lifschitz, and F. D. Smith: Thalamic projections to subdivisions of auditory cortex. XXlInd Internat. Congr. of PhYSiology, Leiden (in press).

11. Nucleus ruber und Brachium conjunctivum Allen, W. F.: Distribution of the fibers originating from the different

basal cerebellar nuclei. J. compo Neurol. 36, 399-439 (1924). Andre-Thomas, M.: Le faisceau rubrospinal existe-t-il chez I'homme?

Rev. neurol. 65, 252-264 (1936). Bechterew, W. V.: Ober die Bestandteile des Corpus restiforme. Arch.

Anat. (1886). - Die Leitungsbahnen im Gehirn und Riickenmark. Leipzig:

Georgi 1899. Brodal, A.: The cerebellum of the rabbit. J. compo Neurol. 72, 63-81

(1940). Burgi, S.: Reizung und Ausschaltung des Brachium conjunctivum

(Katze). Helv. physiol. pharmacol. Acta 1, 359-380, 467-87 (1943).

Carpenter, M. B.: A study of the red nucleus in the rhesus monkey. Anatomic degenerations and physiologic effects resulting from localized lesions of the red nucleus. J. compo Neurol. 105,195-250 (1955).

-, and J. Pines: The rubro-bulbar tract: Anatomical relationships, course, and terminations in the rhesus monkey. Anat. Rec.128, 171-186 (1957).

-, and G. H. Stevens: Structural and functional relationship between the deep cerebellar nuclei and the brachium conjunctivum in the rhesus monkey. J. compo Neurol. 107, 109-164 (1957).

Carrera, R. M. E., and F. A. Mettler: The anatomy of the primate brachium conjunctivum and associated structures.J. compo Neurol. 101, 565-690 (1954); 102,151-322 (1955).

Coombs, C.M.: Courseoffibersofbrachium conjunctivum revealed by evoked potential method (Katze). Exp. Neurol. 1,13-27 (1959).

Courville, J., and A. Brodal: Rubro-cerebellar connections in the cat. An experimental study with silver impregnation methods. J. compo Neurol. 126, 471-485 (1966).

Gerebtzoff, M. A.: Le pedoncule cerebelleux superieur et Ie terminations reelles de la voie cerebello-thalamique. Etude anatomoexperimentale. Mem. Cour. Acad. med. Belg. 25, 1-58 (1936).

179

literatur

Jansen, J., and A Brodal: Aspects of cerebellar anatomy. Oslo: J. G. Tanum 1954.

-, and J. Jansen jr.: On the efferent fibers of the cerebellar nuclei in the cat. J. compo Neurol. 102, 607-632 (1955).

Macchi, G.: Sulle variazioni delle dimensioni cell ulari nel nucleo rosso di alcui mammiferi. Riv. Pat. nerv. ment. 72, 197-202 (1951).

Nathan, P. W., and M. C. Smith: Long descending tracts in man. Brain 78, 248-303 (1955).

Ono, M., u. H. Kato: Beitrag zur Kenntnis von den Kleinhirnkernen des Kaninchens. Anat. Anz. 86, 245-259 (1938).

Orioli, F. L., and F. A Mettler: The rubro-spinal tract in Macaca mulatta. J. compo Neurol. 106, 299-318 (1956).

Papez,J. W., and W. A Stotler: Connections of the red nucleus. Arch. Neurol. Psychiat. (Chic.) 44, 776-791 (1940).

POirier, L.J., and G. Bouvier: The red nucleus and its efferent nervous pathways in the monkey. J. compo Neurol.128, 223-244 (1966).

Pompeiano, 0., and A Brodal: Experimental demonstration of a somatotopical origin of rubrospinal fibers in the cat. J. compo Neurol. 108, 225-252 (1957).

Rand, R. W.: An anatomical and experi mental study ofthe cerebellar nuclei and their efferent pathways in the monkey. J. compo Neurol. 101, 167-224 (1954).

Ranson, S. W., and W. Ingram: The diencephalic course and termination of the medial lemniscus and the brachium conjunctivum. J. compo Neurol. 56, 257-275 (1932).

Rasmussen, A. T.: Origin and course of the Fasciculus uncinatus (Russell) in the cat, with observations on the fiber tracts arising from the cerebellar nuclei. J. compo Neurol. 57,165-197 (1933).

Rinvik, E., and F. Walberg: Demonstration of a somatotopically arranged cortico-rubral projection in the cat. J. Compo Neurol.120, 393-408 (1963).

Rioli, F. L., and F. A Mettler: The rubrospinal tract in Macaca mulatta. J. compo Neurol. 106, 299-318 (1956).

Snider, R. S.: Morphology of the cerebellar nuclei in the rabbit and cat. J. compo Neurol. 72, 399-415 (1940).

Spatz, H.: Ober den Eisennachweis im Gehirn, besonders in Zentren des extrapyramidalen Systems. Z. ges. Neurol. Psychiat. 77, 261-390 (1922).

Verhaart, W. J. c.: The rubro-spinal system in monkeys and man. Psychiat. neurol. BI. (Amst.) 42, 335-342 (1938).

- A comparison of the corpus striatum and the red nucleus as subcortical centra ofthe cerebral motor system. Psychiat. neurol. BI. (Arnst.) 42,676-737 (1938).

- The rubro-spinal tract in the cat, the monkey and the ape, its location and fibre content. Mschr. Psychiat. Neurol. 129, 487-500 (1955).

Walker, E. A: Zit. nach Jansen u. Brodal. Whiteside, J. A, and R. S. Snider: Relation of cerebellum to upper

brain stem. J. Neurophysiol. 16, 397-413 (1953).

12. Obrige Kerne und Bahnen Adler, A: Melanin pigment in the central nervous system of verte

brates. J. compo Neurol. 70, 315-329 (1939). - Melanin pigment in the brain of the gorilla. J. compo Neurol. 76,

501-507 (1942). Akert, K., u. P. Hummel: Anatomie und Physiologie des limbischen

Systems. 31 S. Basel: Hoffmann-La Roche 1963. Brown, J. 0.: Pigmentation of certain mesencephalic tegmental nu

clei in the dog and cat. J. compo Neurol. 81, 249-257 (1944). - Pigmentation of substantia nigra and locus coeruleus in certain

carnivores. J. compo Neurol. 79, 393-405 (1943). Bucher, V. M., and V. J. Nauta: A note on the pretectal cell groups

in the rats brain. J. compo Neurol. 100, 287-296 (1954). Burgi, S., u. V. M. Bucher: Markhaltige Faserverbindungen im Hirn

stamm der Katze. Monogr. a. d. Ges. Geb. d. Neurol. u. Psychiat. H. 87. Berlin-Gottingen-Heidelberg: Springer 1960.

180

Bugge, G.: Zur Melanose des Schafes. Berl. tierCirztl. Wschr. 45, 349-352 (1929).

Carpenter, M. B., and N. L. Strominger: The medial longitudinal fasciculus and disturbances of conjugate horizontal eye movements in the monkey. J. compo Neurol. 125, 41-66 (1965).

Corbin, K. B.: Observations on the peripheral distribution of fibers arising in the mesencephalic nucleus of the fifth cranial nerve. J. compo Neurol. 73, 153-178 (1940).

Crosby, E. c., and E. W. Lauer: The mesencephalon. In: Introduction to stereotaxis with an atlas of the human brain, vol. I, p. 88-118. Stuttgart: Thieme 1959.

Orooglever Fortuyn, J., and J. M. Minderhoud: Efferent connections of the supra geniculate nucleus in the albino rat. J. compo Neurol. 124, 203-214 (1965).

Feremutsch, K.: Basalganglien. In: Primatologia, Handbuch der Pri maten ku nde. Basel: S. Ka rger 1961.

Fo/ey,J. H., and O. Baxter: On the nature of pigment granules in the cells of the locus coeruleus and substantia nigra. J. Neuropath. expo Neurol. 17, 586-598 (1958).

Fulton, J. F.: Physiology of the nervous system. New York: Oxford Press 1949.

Gillilan, L. A: The nuclear pattern of the non-tectal portions of the midbrain and isthmus in rodents. J. compo Neurol. 78, 213-251 (1943).

- The connections of the basal optic root (posterior optic tract) and its nucleus in various mammals. J. compo Neurol. 74, 367-408 (1941).

Kuhlenbeck, H., and R. N. Miller: The pretectal region of the rabbit's brain. J. compo Neurol. 76, 323-365 (1942).

Minderhoud, J. M.: Experimenteel anatomisch onderzoek over de vezel structuren in het mesencephalon van de albino rat. Thesis Groningen. Tjeenk Willink N.V. Zwolle 196.

Morest, O. K.: Connexions of the dorsal tegmental nucleus in rat and rabbit. J. Anat. (Lond.) 95, 229-246 (1961).

Muskens, L. J.: An anatomic-physiological study of the posterior bundle in its relation to forced movement. Brain 36, 352-426 (1914).

Rasmussen, R.: Secondary vestibular tract in the cat. J. compo Neurol. 54, 143-171 (1932).

Rhines, R.: An experi mental study of the development of the medial longitudinal fasciculus in the chick. J. compo Neurol. 79, 107-128 (1943).

Rinvik, E.: The cortico-nigral projection in the cat. An experimental study with silver impregnation methods. J. compo Neurol. 126, 241-254 (1966).

Rioch, O. M.: Studies on the diencephalon of carnivora. The nuclear configuration of the thalamus, epithalamus, and hypothalamus of the dog and cat. J. compo Neurol. 49, 1-119 (1930).

Rose, J. E., and C. N. Woolsey: A study of thalamo-cortical relations in the rabbit. Bull. Johns Hopk. Hosp. 73, 65-128 (1943).

Sano, T.: Beitrag zur vergleichenden Anatomie der Substantia nigra, des Corpus Luysii und der Zona incerta. Mschr. Psychiat. Neurol. 27,110-127,274-283,381-389,476-488 (1910).

Savas, A.: Faseranalyse des Fasciculus longitudinalis medialis. Acta anat. (Basel) 21,209-239 (1954).

Scherer, H. J.: Melanin pigmentation of the substantia nigra in primates. J. compo Neurol. 71, 91-98 (1939).

Tar/ove, E. c., and R. Y. Moore: The tectothalamic connections in the brain of the rabbit. J. compo Neurol. 126,403-422 (1966).

Weinberg, E.: The mesencephalic root of the fifth nerve. A comparative anatomical study. J. compo Neurol. 46, 249-405 (1928).

Whitaker,l. G., u. Alexander: Die Verbindungen der Vestibulariskerne mitdem Mittel- und Zwischenhirn. Studien auf Grund experimenteller Verletzungen. J. Psychol. Neurol. (Lpz.) 44, 253-376 (1932).

Sachverzeich n is

Bei vergleichend-anatomischen Arbeiten stellt die Nomenklatur ein besonderes Problem dar. weil nur fiir den Menschen bis jetzt ein Teil der neuroanatomischen Strukturen eine einheitliche Benennung erfahren hat. Eine vollstandige Obernahme der fiir die Human-Anatomie giiltigen Bezeichnungen erscheint jedoch insbesondere fiir kleinere Saugetiere nicht moglich. da hierbei eine Homologie von Strukturen unterstellt wird. die entweder gar nicht besteht oder noch nicht gesichert ist. Soweit als moglich sind im Text und im Stichwortverzeichnis die Synonyma aufgefiihrt. Die nach der Pariser Nomenklatur und der 3. Auflage der Nomina anatomica 1965 giiltigen Bezeichnungen sind durch einen Stern gekennzeichnet. Insbesondere aus der alteren literatur muBten einzelne Namen iibernommen werden. deren sprachliche Exaktheit zweifel haft ist. die aber noch nicht entbehrt werden konnten.

Adhaesio interthalamica* s. Massa intermedia Alveus A 37.39.128 Ansa lenticularis A.len 25. 33. 39. 131 Area commissurae posterioris A.c.p 53.55.71.75.77.79.167 - filiformis Fil 27-43.81.89.91.142 - gliosa subventricularis mesencephali D.Cr 57-65. 69-79.

113.151 - insularis 13.15 - paranigralis s. Area ventralis medialis mesencephali - praecentralis A.prc 15 - praetectalis Prt 41-55.69-79.89.91.166 - supracommissuralis posterior 8 - tegmenti Forel1 HI 39. 43. 45. 163 - tegmenti Forel 2 H2 43.45.163 - ventralis medialis mesencephali Pan 47-57.89.91.95.164 Aquaeductus cerebri* (Sylvii) 3.51-65.69-79

Brachium colliculi anterioris B.C.A 53.69-73.154 (Br.Coll.ant. 53)

- - posterioris B.C.P 7. 57-65. 161 - conjunctivum B.C 8.115.162 - pontis B.P 8.63.65.85.115 Bulbus olfactorius 4. 5 Bulla tympanica 1

Capsula externa* C.e 13-21.25.79.97.99 - extrema C.ex 15.17.99 - interna* c.; 13-35.69-73.77-83.93-99.131 Centrum semiovale* C.O 8.13-17.21.25 Cerebellum* 5 Chiasma opticum* Ch 6.19-25.89-91.105.151 Claustrum* C/ 13-19.97 Colliculus anterior ColI.ant 7-9. 51-65. 69-77. 89-99.

154-155 - -. Stratum zonale 01/10 59-65.69-71.89-95.154 - -. Stratum griseum superficiale O2/1 b 59-65.69-71.

89-95. 154 - -. Stratum medullare superficiale b/2 59-65.69-71.

89-95. 154 - -. Stratum intermedium c/3 59-65.69.71.89-95.155

Comparative studies in Neuroanatomy are especially difficult regarding the nomenclature since only for man a general agreement has been established regarding a certain part of the neuroanatomical structures. To use all of these names valid for man is not possible especially in smaller mammals because it would imply a homology of structures which either does not exist or is still not proofed. In the text and in the index we have used as far as possible the different existing names of certain structures. All those names included in the Nomenclature of Paris (1955) and in the third edition of the Nomina Anatomica 1965 are marked by a star. Especially from the older papers names had to be used which are doubtful concerning their latin but could not yet be omitted.

Colliculus anterior. Stratum profundum d/4 59-65.69-71. 89-95. 155

- posterior ColI.post 3.7-963.65.69-81. 89-95.113.115. 158

- -. pars dorsolateralis dl 1.13 - -. pars dorsomedialis dm 113 - -. pars ventrolateralis vi 113 - -. pars ventromedialis vm 113 - -. zona corticalis zc 9.113 - -. zona medullaris zm 9.113 Columna fornicis* C.Fo 21-43.81-85.89.91.128 Commissura anterior C.a 3.13-21.25.81.83.89-93.99.

127-128 - -. pars anterior c.a.a 15.17.83.91 - -. pars posterior c.a.p 15.17.21.25.83.91.99 - colliculi anterioris Com.ColI.ant 57-65.69.71.91.155 - - posterioris Com.ColI.post 8.71.113.161 - dorsalis lemnisci lateralis C.Le.d 83. 160 - fornicis* C.F 21-25.39-43.69-79.91.93.128 - - (dorsalis) C.F.d 39-43.91.93.128 - - (ventralis) C.F.v 21-25. 69-79. 91. 93. 128 - habenularum* Com.hab 3.8.47.69.71.125 - mamillaris Com.M 43.126 - posterior* c.p 3. 8. 49-55. 73-79. 89. 91. 167 - -. pars anterior c.p.a 73-77 - -. pars posterior c.p.p 73-77 - supraoptica ventralis c.P.V 25.105.152 - - dorsalis C.S.D 25.105.153 Corona radiata* C.rad 13-19.25.99 Corpus amygdaloideum* Am 23-39.49.97.99 - callosum* C.C 13-21.33.39.41.43 - geniculatum laterale* G.g.l 7.8.41-49.69-83.97.99.153 - - -. subnucleus dorsalis G.g.l.d 41-45.49.71.75.77.81.

83. 97. 99. 153 - - -. subnucleus dorsalis. pars ex G.g.l.ex 69. 71. 75. 77. 153 - - -. subnucleus ventralis G.g.l.v 41-45.49.81.83.97.99.

153 - - -. subnucleus ventralis. partes 1-3 1.2.3 41-45.49.153 - - mediale* G.g.m 7-9.47-57.79-83.97.99.111.159 - - -. subnucleus dorsalis G.g.m.d 51-57.97.99.111.159

181

Sachverzeichnis

Corpus geniculatum mediale, subnucleus dorsalis, pars dorsomedialis d2 et pars caudo-Iateralis d1 53, 97, 99, 111, 159

- - -, subnucleus ventralis G.g.m.v 51-55,83,97,99,111, 159

- - -, subnucleus ventralis, pars centralis G.g.m.v.c 51-55, 111, 159

- - -, subnucleus ventralis, pars intermedialis G.g.m.v.i 51-55,111,159

- - -, subnucleus ventralis, pars magnocellularis G.g.m.v.mc 83,111,159

- - -, subnucleus ventralis, pars medialis G.g.m.v.m 51-55, 159

- - -, subnucleus ventralis, pars ventralis G.g.m.v.v 51, 53, 57,111,159

- mamillare* C.M 3,5,6,41, (43),45,47,85,89,91,105, 125-126

- -, subnucleus lateralis C.M./41, 45, 105, 125-126 - -, subnucleus medialis C.M.m 41,45,47,89,91,105,

125-126 - pineale* Ep 4,53-61,65 - ossis maxillaris 1 Crista mandibulae oralis 2 - occipitalis externa 1 Crus cerebri* P.C 5,6,31,35-53,57-65,85,93--99,132

Oecussatio brachii conjunctivi D.B.C 59-65, 91, 162 - massae intermediae D.m.i 39,43,138 - - -, pars dorsalis D.m.i.d 39 - - -, pars ventralis D.m.i.v 39 - peduncularum cerebellarium superiorum* s. Decussatio

brachii conjunctivi - supramamillaris D.SM 47,126,162 - tegmenti dorsalis D.tg.d 61, 167 - tegmenti ventralis D.tg.v 55, 61, 162 "Dorsal crest" s. Area gliosa subventricularis mesencephali

Epiphysis cerebri s. Corpus pineale

Fasciculus descendes optici F.D.O 93,152,153 (Tractus optici accessorii)

- lenticularis F.len 33, 131 - longitudinalis dorsalis* F.I.d 47,55,61,63,79,91,149 - longitudinalis medialis* F.I.m 59-65, 81, 83, 89, 91, 115,

167 - mamillotegmentalis* TG 43, 85, 91, 129 - medialis telencephali MB 15,17,21,25,29,33,39,85,

93, 146 - pyramidalis s. Tractus corticospinales - subcallosus F.sc 17-21, 25, 33, 39 Fila olfactoria* 5 Fimbria hippocampi* Fi.hi 27,29,33--43,69,77,89-99,128 Fissura rhinalis F.rhin 4,5, 7, 13--16 - -, pars anterior F.rhin.a 7,13--16 - -, pars posterior F.rhin.p 4, 5 Foramen interventriculare* 3 - infraorbitale 2 - jugulare* 1 - magnum* 1 - mentale* 2 - palatinum 1 Fornix* 3, 8, 128 Fornix praecommissuralis F.prc 15,79,128 (F.pr 79) - superior F.sup 25,128 Fossa intercruralis s. Fossa interpeduncularis* F.ic 49, 85 - masseterica 2 Fundus striati F.str 13,16-19,130,134

Ganglion geniculatum laterale s. Corpus geniculatum laterale* - - mediale s. Corpus geniculatum mediale* Genu corporis callosi* 3

182

Globus pallidus* Pal 19-33,81,83,97,99,131 Griseum centrale pontis s. Substantia grisea centra lis pontis - - (mesencephali) s. Substantia grisea centra lis mesencephalii - intercolliculare Gr.ic 113,158

Habenula* s. Nucleus habenulae Hemispherium cerebelli* 4 Hippocampus* Hi 7, 27-45, 49, 51, 71, 85, 89-99, 128 Hypophysis* 5 Hypothalamus anterior, pars lateralis H.I 23-39, 85, 141 - -, pars medialis H.m 23-39,85,91,105,141 - -, regio anterior Ha, pars medialis (m) et pars lateralis (I)

19,21,142 - posterior H.p 41-45,89,105,141

Impressio frontalis xx 4,15,118 - pseudosylvii 5, 118 Incisura supraorbitalis posterior 1 Infundibulum* Inf 89,141 Insulae Calleja CA 13,15,101

Lamina medullaris anterior (Ventriculus quartus) L.m.a.lV 73--77,81,113,115

- - dorsalis thalami L.m.d.th 27,29,33,79,140-141 - - interna thalami L.m.i.fh 39, 43, 77, 79, 140-141 - - intraganglionaris L.m.ig 41-45, 97, 99, 140-141 - - lateralis pallidi L.m.l.p 25, 29,33,131 - - - thalami L.m.l.th 29, 33, 37, 79, 83, 93, 99, 140-141 - - paramediana thalami L.m.pm.th 39, 43, 77, 79, 83,

140-141 - - posterior thalami L.m.p.th 47, 55, 69, 71, 77, 79, 83, 93,

140-141 - - praetectalis L.m.prt 55, 69, 77, 79, 93, 141 - - ventralis thalami L.m.v.th 37-47,93,95,109,140-141 Lemniscus lateralis* Le.L 63,83,93,113,160 - medialis* Le.M 45-65,85,89,91,109,132 Lobus piriformis 13,15

Massa intermedia (Kerne der Mittellinie) M.i 3,29,77,79,83,138 Meatus acusticus externus et i nternus* 1, 2 Medialis VorderhirnbundelJMedial forebrain bundle s.

Fasciculus medialis telencephali

Nervus facialis* 5 - hypoglossus* (Radices nervi hypoglossi) 5 - oculomotorius* 11/ (Radices nervi oculomotorii) 3,5,6,41,

47,57,85,91,105,155-156 - trochlearis* IV (Radix nervi trochlearis) 6, 9, 81, 83, 156 - trigeminus* 5, 6 Nuclei gemini hypothalami Ge 41,43,146 - lemnisci lateralis, pars medialis m 115, 157 - pontis N.P 59-65, 89, 91 - septi S 13--21,69,73,77,79,83,89,101,120 - striae term i nalis T 23, 25, 81, 122 Nucleus accumbens (septi) Acc 13-16,122,130 - amygdalae s. Corpus amygdaloideum* - anterior dorsalis thalami AD 27-35,69-77,89-95,103,

123 - - - -, pars ex et ~ 29,103,123 - - - -, zona molecularis AD.x 69-75,103,123 - - medialis thalami AM 27-35,79,81,89-95,103,124 - - - -, pars interna AM.i 31-35,103,124 - - ventralis thalami AV 27-35, 73--79, 89-95, 103,

123--124 - - - -, pars ex, pars ~ et pars y 29,103,123-124 - Broca, pars dorsalis B.d 13--17,101,121 - -, pars ventralis B.v 13,15,89,121 - caudatus* Caud 8,13--29,33,39,41,69-79,93,97,99,130 - centralis lateralis thalami CL 31-43,71,81,89,138-139 - - medialis thalami CM 37,138-139

Sachverzeichnis

Nucleus centralis superior (mesencephali) C.S (CS.) 59--65, 115,165

- - - -, subnucleus dorsalis C.s.d 59--65, 165 - - - -, subnucleus medialis c.s.m (c. spr) 63,65,165 - - - -, subnucleus medialis, pars 6 C.sm.6 59, 165 - - thalami C 27-43,81,83,138-139 - coeruleus Coe 63,65,115 - commissurae anterioris N.C.a 16-19,89,122 - compactus suprafascicularis Cm.sf 89,91,115,149 - cuneatus Cun 113,166 - Darkschewitsch DAR 51,53,81,148 - dorsalis brachii conjunctivi N.d.B.C 113,115 - - lemnisci lateralis N.d.Le.L 93,95,115,157 - dorsomedialis hypothalami H.dm 35-39, 89, 105, 145 - Edinger-Westphal EW 53,57,81,83,156 - endopeduncularis 131 - filiformis anterior FiI.a 27, 142 - - posterior FiI.p 41, 142 - Gudden Gu 89,91,166 - habenulae* Ha 8,37-45,69-73,89,91,108,125 - -, subnucleus lateralis Ha.l 37-45,69-73,108,125 - -, subnucleus medialis Ha.m 37-45,69-73,108,125 - interpeduncularis* IP 57-65,85,89,91,126-127 - -, subnucleus lateralis IP.I 57,59,89,91,126-127 - -, subnucleus medialis IP.m 57,59,126-127 - -, subnucleus medialis partes 1-3 59,126-127 - interstitialis brachii colliculi posterioris I.Br 57,59,158 - - Cajal 1st 51,53,81,165 - lateralis dorsalis thalami LD 31-43, 69-79, 93, 95, 135 - - lemnisci lateralis N.Le.L.1 63,65,81,83,115,157 - - magnocellularis thalami LM 31-35,73-79,95,136 - - posterior thalami LP 37,41-49,69-83,93-991,136 - latero-dorsalis tegmenti T.ld 115

(substantia grisea centralis pontis) - magnocellularis dorsalis hypothalami H.mc.d 31,35,37,89,146 - - ventralis hypothalami H.mc.v (H.mac.v) 37,105,146 - medialis dorsalis thalami MD 37-45,69-79,89,91,137 - - - -, pars magnocellularis MD.mc. 37,41,137 - - - -, pars parvocellularis MD.pc 37,41,137 - - ventralis thalami MV 27-31,89,137 - nervi oculomotorii* N.III 57--61,81,83,155 - - trochlearis* N.IV 63,65,81,83,156 - niger s. Substantia nigra* - parafascicularis PAF (PFA) 45,47,109,140 - parataenialis Pt 27,31-35,73-77,81,89,103,124 - paraventricularis hypothalami H.pv 23-29, 75, 89, 107, 144 - - thalami, pars dorsalis Pa.d (Pa) 27, 31, 35-45,

73-83, 103, 140 - - -, pars ventralis Pa.v 23, 27, 140 - - -, pars (l (pars dorsalis 37 - perifornicalis PF 23, 27, 31, 35, 37, 89, 146 - posterior thalami P.TH 47-55,69-83,89-95,140 - praemamillaris PM 89,91,105,107,145 - praetectalis (pretectalis*) PRT 53, 55, 71-77, 166 - reticularis pontis oralis R.P.o (R.P.O) 63,65,85,115 - - tegmenti (mesencephali) Tg 49-61, 65, 75-83, 95, 165 - - - -, pars centralis Tg.c 51-61,165 - - - -, pars lateralis Tg.1 51,53,57,59,165 - - - -, pars ventralis Tg.v 65,165 - - thalami* R 27-43,71-83,93-99,103,109,135 - - -, pars densocellularis 31-37, 71-79, 97, 103, 135 - - -, pars gigantocellularis 27, 79, 93, 95, 103, 135 - - -, pars magnocellularis 27,31-37,81,95,97,135 - - -, pars ventrocaudalis 35,37,41,95,97,135 - - -, pars W 27,81,135 - reuniens ventralis thalami Re 27-37,41-45,81,139 - rhomboideus thalami Rho 27-45,73,75,81,83,89,138 - - -, pars lateralis Rho.1 75,89,138--139

1 LP in Abb. 98 u. 99 als LD bezeichnet

Nucleus ruber* Ru 49--61,81,83,89-95,161 - -, subnucleus magnocellularis Ru.mc (partes 1,2,3) 51-59,

89,91,161 - -, subnucleus parvocellularis Ru.pc 51, 53, 57, 59, 89, 91,

161 - -, - - -, pars dorso-caudalis Ru.pc.dc 89,161 - -, - - -, pars dorso-oralis Ru.pc.do 51,53,89,161 - septalis dorsalis SD 13-21, 89, 120 - - -, pars externa SD.e 13-17,120 - - -, pars intermedia SD.m 13-17,120 - - fimbrialis SF 19-25,121 - - lateralis SL 13-17,101,121 - - -, pars externa SL.e 13-17,101,121 - - -, pars interna SLi 13-16,121 - - medialisSM 13-17,101,121 - - triangularis ST 19,21, 73, 122 - subthalamicus* L 41-45, 93, 95, 163 - suprageniculatus Sg (SG) 47-55,97,99,111,166 - suprachiasmaticus hypothalami N.S 23,25,107,142 - supramamillaris N.SM 41-45, 89, 145 - supraopticus (hypothalami) So 19,23,25,89,143 - supraopticus caudalis (hypothalami) So.c 27-31, 35, 37, 41,

45, 89, 143 - supratrochlearis Sto 63,65,81,83,148 - tractus mesencephalicus nervi trigemini* N. V.m 73, 75, 79,

113.115 - tubero-infundibularis Ti 27-39,89,91,105,144 - - -, pars anterior Ti.a 27-33, 89, 105, 144 - - -, pars posterior Ti.p 35-39,89,105,144 - tubero-mamillaris (basalis) Tm 37,41,45,89,105,143 - ventralis basalis thalami VB 35-49,81,83,89-95,109,133 - - lateralis thalami VL 31-39,73,75,81,138 - - lemnisci lateralis N.v.Le.L 115,157 - - medialis thalami VM 35-45,81,83,89,91,109,138 - - thalami, pars anterior V 27,31,33,89,93,138 - - -, pars anterior-dorsalis VI 27, 29, 103, 138 - ventromedialis hypothalami* H.vm 27-33,89,105, 107, 144 - - - anterior H.vm.a 23, 25, 89, 91, 142 - - -, pars lateralis H.vm.v 105,144 Nucleus Z 45,109,154

Oliva inferior 5 Organum subcommissurale SC.O 47-55, 71-79, 150 - vasculosum laminae terminalis S.Cr 16,19,23,150 - subfornicale SF.O 23, 150 Os frontale* 1, 2 - incisivum* 1, 2 - interparietale* 1,2 - maxillare 1,2 - nasale* 1, 2 - occipitale*, pars basilaris 1 - parietale* 1 - sphenoidale*, pars anterior (Praesphenoid) 1 - -, pars posterior (Basiphenoid) 1 - temporale* 1

Pallidum s. Globus pallidus* Paraflocculus 4 Pars parainfundibularis hypophysis A.i 31,33,89 - oralis tuberis (Tuber cinereum) 6 - parainfundibularis tuberis TP 6, 27-33, 141 Pedunculus cerebellaris medius* s. Brachium pontis - - superior* s. Brachium conjunctivum - cerebri s. Crus cerebri * - corporis mamillaris* P.C.M 6,43,47-55,85,91,129 - thalami dorsalis P.T.D 39,99 Plexus chorioideus ventriculi tertii PI 27,71,95 Pons* P 3, 5, 6, 7, 89, 93 Processus pterygoideus* 1 - supraorbitalis anterior 1

183

Sachverzeichnis

Processus supraorbitalis posterior 1 - zygomaticus ossis temporalis 1 Protuberantia occipitalis externa* 1,2 Putamen* Put 13-21,25,39,77-83,97,99,130

Radiato corporis callosi* 8 - tractus optici R.o 41-47,51,55,69-79,93-99,153 Radices nervi hypoglossi 5 Raphe pontis* Ra 85 Recessus infundibuli* 3,6 Recessus pinealis* (ventriculus tertius) R.p. V.III 47-55 Regio amygdalae 5 - praeoptica R.po 3,16,17,89-95,141 - -, pars lateralis R.po.1 16,93,95,141 - -, pars medialis R.po.m 16,141 - praethalamica Prth 19-25,81,83,89,91,134 - -, pars dorsalis Prth.d 23,25,81,83,134 - -, pars ventralis Prth.v 23,25,134

Septum pellucidum* 3,8,120 Spina masseterica 1 - nasalis anterior* 1 - - oboralis (posterior)* 1 Stratum profundum pontis St.pf 61, 63 - superficiale pontis St. sf 61, 63 Stria longitudinalis* Str.1 15,17, 25, 29,39 - medullaris thalami* S.M.T 23-43,69,73-79,83,91,103,

130 - substantiae nigrae Str.ni (SN) 55,85,93,164 - terminalis* Str.t 8,21-25,29,33,39,77,79,93,99,130 Substantia grisea centralis mesencephali (Mes encephales Hohlen

grau) M 47-65,69-83,89,91,147 - - - -, nucleus dorsolateralis M.dl 57-65, 69-79, 89,

91, 147 - - - -, pars dorsalis M.d 57-65, 71, 73, 147 - - - -, pars lateralis M.I 51,55-65,69-79,147 - - - -, pars oralis M.o 47-51,55,71,77,79-83,89,

91,147 - - - -, pars ventralis 57-65, 147 - - - pontis Gr.en.po 81, 83, 115 - nigra* Ni 47-57,93,95,164 - -, pars lateralis Ni.I 57,164 - -, pars compacta Ni.e 47-57, 93, 95, 164 - -, pars diffusa Ni.d 47-55, 93, 95, 164 Sulcus basilaris* s. Sulcus ventralis mesencephali - habenularis lateralis S.h.1 35-45, 49, 69, 125 - - medialis S.h.m 35-45,49,125 - i ntercollieularis horizontalis S.ie.h 71, 73, 89, 93, 95 - - sagittalis S.ic.s 53-65,113 - interganglionaris S.ig 79 - interpeduncularis lateralis S.ip 57 - lateralis (Cortex cerebri) S.I 4, 51 - - colliculi anterioris S.I.e.a 53-65, 71, 73

Sulcus lateralis eolliculi posterioris S.eoll.1 113 - mamillaris lateralis S.m.1 41-51, 55, 57 - praemamillaris S.pm 89,105 - praetuberalis S.pt 89,105 - paraganglionaris dorsalis S.pg.d 39, 41, 43, 69, 77, 79 - tubero-infundibularis S.ti 27-37, 89 - ventralis mesencephali S.6.m 49-55 "Supraoptic crest" s. Organum vasculosum laminae terminalis Sutura coronalis* 1, 2 - frontonasalis* 1 - internasalis* 1 - lambdoides* 1 - sagittalis* 1 Synchondrosis spheno-occipitalis* 1

Taenia thalami* 8 Thalamus* 7 Tractus corticospinales* 5 - habenulointercruralis T.HP 43- 55, 73-85, 89, 91, 109,

129 - habenulointerpeduncularis s. Tractus habenulointercruralis - mamillo-tegmentalis s. Fasciculus mamillotegmentalis* - mamillothalamicus* T.MT 31-43, 81-85, 89, 91, 129 - olfactorius* (Iateralis) Tr.olf.1 (rr.-:lf) 5, 6,13, 21, 99 - optici acessori i Aec.opt 27-33, 37-47, 85, 91, 105, 152 - - -, pars dorsalis Aee.opt.d 29,33,39,43,85,91,105,

152 - - -, pars ventralis Aee.opt.v 29,33,39,43,85,91,105,

152 - opticus* Tr.opt 27-43,85,89-99,151 - - basalis s. Tractus peduncularis transversus - pedunculo-tegmentalis T.PTG 91, 129 - peduncularis transversus T.PT 7,55,69-79,83,85,152 - tecto-ponti nus T.TP 61,63 Trigonum habenulae* 8 Tuber mandibulae 2 Tuberculum anterius thalami* 7,8,123 - occipitale 1 - olfactori u m T.olf 5, 13, 15 - -, pars corticalis T.olf.e 13, 15 - -, pars interna T.olf.i 13,15 - posterius thalami Tub.p 8,35,39,43,135 - parietale 1

Uncus* 5

Velum medullare anterius* s. Lamina medullaris anterior (Ventriculus quartus)

Ventriculus quartus V.IV 73-77,81,113,115 - tertius V.III 19-31,35-43,47,49,73-85 Vermis cerebelli 3, 4

Zona incerta Z.i 37-49,93-99,109,162

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