The Three-Dimensional Architecture of the Internal Capsule of the Human Brain Demonstrated by Fiber Dissection Technique

1. Cunningham, D.J. & Robinson, A. (1918). Cunningham's Textbook of Anatomy (5th ed.). New York William: Wood and CompanySearch in Google Scholar

2. Carpenter, M.B. & Sutin, J. (1983). Human Neuroanatomy (8th ed.) Baltimore, ML: Williams & WilkinsSearch in Google Scholar

3. Standring, S. (2008). Gray's Anatomy (40th ed.). New York: Elsevier Churchill LivingstoneSearch in Google Scholar

4. Klingler, J. & Gloor, P. (1960). The connections of the amygdala and of the anterior temporal cortex in the human brain. Journal of Comparative Neurology. 115, 333–369.10.1002/cne.90115030513756891Search in Google Scholar

5. Ludwig, E. & Klingler, J. (1956). Atlas Cerebri Humani. Basel: S KargerSearch in Google Scholar

6. Türe, U., Ya?argil, M.G. & Friedman, A.H. (2000). Fiber dissection technique: lateral aspect of the brain. Neurosurgery. 47, 417–42610.1097/00006123-200008000-0002810942015Search in Google Scholar

7. Türe, U., Yaşargil, M.G. & Pait, T.G. (1997). Is there a superior occipitofrontal fasciculus? A microsurgical anatomic study. Neurosurgery. 40, 1226–1232Search in Google Scholar

8. Yaşargil, M.G., Türe, U. & Yasargil, D.C. (2005). Surgical anatomy of supratentorial midline lesions. Neurosurg. FOCUS. 18(E6), E1–E1.10.3171/foc.2005.18.6.1416048296Search in Google Scholar

9. Vesalius, A. (1543). The humani corporis fabrica. Basil: Johann OporinusSearch in Google Scholar

10. Vieussens, R. (1685). Neurographia Universalis. Lyons: Lugundi, Apud Joannem Certe,Search in Google Scholar

11. Reil, J.C. (1807). Fregmente über die bildung des kleinen gehirns im menschen. Arch. Physiol. Halle. 8, 1–58.Search in Google Scholar

12. Gall, F.J. & Spurzheim, J.C.(1810). Anatomie et Physiologie du Systeme Nerveux en General et du Cerveau en Particulier. Paris F: SchoellSearch in Google Scholar

13. Mayo, H.M. (1827). A Series of Engravings Intended to Illustrate the Structure of the Brain and Spinal Cord in Man. London: Burgess HillSearch in Google Scholar

14. Arnold, F. (1838). Tabulae Anatomicae: Icones Cerebri et Medullae Spinalis. Turici: Orelli, Fuesslin,Search in Google Scholar

15. Gratiolet, P.L. (1854). Mémoires sur les Plis Cérébraux des Primates. Paris: BertrandSearch in Google Scholar

16. Burdach, K.F. (1844). Umrisse einer Physiologie des Nervensystems. Leipzig: Lopold BossSearch in Google Scholar

17. Dejerine, J.J. (1895). Anatomie des Centres Nerveux. J Paris: Rueff et Cie,Search in Google Scholar

18. Flechsig, P.E. (1896). Weitere mitteilungen über den stabkranz des menschlichen grosshirns. Neurologishes. Centralblatt.15, 2–4Search in Google Scholar

19. Flechsig, P.E. (1920). Anatomie des Menschlichen Gehirns und Rückenmarks auf Myelogenetischer Grundlage. Leipzig, ThiemeSearch in Google Scholar

20. Johnston, J.B. (1908). A new method of brain dissection. Anat. Rec. 2, 345–35810.1002/ar.1090020805Search in Google Scholar

21. Hoeve, H. (1909). A modern method of teaching the anatomy of the brain. Anat. Rec. 3, 247–257Search in Google Scholar

22. Curran, E.J. (1909). A new association fiber tract in the cerebrum with remarks on the fiber tract dissection method of studying the brain. J. Comp. Neurol. 19, 645–65610.1002/cne.920190603Search in Google Scholar

23. Ranson, S.W. (1921). A description of some dissections of the internal capsule, the corona radiata and the thalamic radiation to the temporal lobe. Archives of Neurology and Psychiatry. 5(4), 361-36910.1001/archneurpsyc.1921.02180280002001Search in Google Scholar

24. Klingler, J. (1935). Erleichterung der Makroskopischen Präparation des Gehirns durch den Gefrierprozess. Schweiz. Arch. Neurol. Psychiat. 36, 247–256Search in Google Scholar