Advertisement

Literaturhinweise

  • Robert F. Schmidt
Chapter
  • 69 Downloads
Part of the Heidelberger Taschenbücher book series (HTB, volume 96)

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

References

Literatur zum Gesamtgebiet

  1. BRODAL A (1981) Neurological anatomy in relation to clinical medicine, 3rd edn. Oxford University Press, New York London Toronto, pp 1–1053Google Scholar
  2. ECCLES JC (1957) The physiology of nerve cells. Hopkins, Baltimore, pp 1–270Google Scholar
  3. ECCLES JC (1973) The understanding of the brain. McGraw-Hill, New York St. Louis San Francisco Düsseldorf, pp 1–238Google Scholar
  4. ECCLES JC (1979) Das Gehirn des Menschen. Piper, München Zürich (Deutsche Übersetzung von „The understanding of the brain)Google Scholar
  5. ECCLES JC (1979) The human mystery. Springer, Berlin Heidelberg New York, pp 1–255Google Scholar
  6. ECCLES JC (1980) The human psyche. Springer, Berlin Heidelberg New York, pp 1–279Google Scholar
  7. GAUER OH, KRAMER K, JUNG R (Hrsg) (1971–1982) Physiologie des Menschen. Urban & Schwarzenberg, München Berlin Wien (In 20 Bänden)Google Scholar
  8. Handbook of Physiology (1977/1981) Section 1: The nervous system, vol I: Cellular biology of neurons (2 books), (1977). Vol II: Motor control (2 books) (1981) American Physiological Society, BethesdaGoogle Scholar
  9. KANDEL ER, SCHWARTZ JH (eds) (1981) Principles of neural science. Elsevier, Amsterdam, pp 1–731Google Scholar
  10. KUFFLER SW, NICHOLLS JG (1976) From neuron to brain. Sinauer, Sunderland, Mass, pp 1–486.Google Scholar
  11. MCGEER PL, ECCLES JC, MCGEER EG (1978) Molecular neurobiology of the mammalian brain. Plenum, New York, pp 1–644Google Scholar
  12. MOUNTCASTLE VB (ed) (1980) Medical physiology, vol 1,14th edn. Mosby, Saint Louis, pp 1–948Google Scholar
  13. RUCH TC, PATTON HD (eds) (1979) Physiology and biophysics. I. The brain and neural function, 20th edn. Saunders, Philadelphia, pp 1–743Google Scholar
  14. SCHMIDT RF (1979) Biomaschine Mensch. Piper, München, S1–452Google Scholar
  15. SCHMIDT RF (Hrsg) (1980) Grundriß der Sinnesphysiologie, 4. Aufl. Springer, Berlin Heidelberg New York (Heidelberger Taschenbücher, Bd 136, S1–336)Google Scholar
  16. SCHMIDT RF, THEWS G (Hrsg) (1983) Einführung in die Physiologie des Menschen, 21. Aufl. Springer, Berlin Heidelberg New York, S1–798Google Scholar
  17. SCHMITT FO., WORDEN G (Hrsg) (1979) The neurosciences, Fourth Study Program. MIT, Cambridge Massachusetts London, pp 1–1185Google Scholar
  18. SHERRINGTON CS (1961) The integrative action of the nervous system. Yale University Press, New Haven (1st edn 1906) pp 1–413Google Scholar
  19. WORDEN FG, SWAZEY JP., ADELMAN G (eds) (1975) The neurosciences: Paths of discovery. MIT, Cambridge, Mass., pp 1–622Google Scholar

Literatur zu Kapitel 1

  1. BARGMANN W (1977) Histologie und mikroskopische Anatomie des Menschen, 7. Aufl. Thieme, StuttgartGoogle Scholar
  2. BRADBURY MW (1979) The concept of a blood-brain barrier. Wiley, Chichester, pp 1–465Google Scholar
  3. DAVSON H (1976) The blood-brain barrier. J Physiol (Lond) 255:1–28Google Scholar
  4. FAWCETT DW (1973) Atlas zur Elektronenmikroskopie der Zelle. Urban & Schwarzenberg, München Berlin WienGoogle Scholar
  5. GRAFSTEIN B, FORMAN DS (1980) Intracellular transport in neurons. Physiol Rev 60: 1167–1283PubMedGoogle Scholar
  6. Handbook of Physiology (1977) Section 1: The nervous system, vol I: Cellular biology of neurons. William & Wilkins, Baltimore, pp 1–1238 (in two books)Google Scholar
  7. KUFFLER SW (1967) Neuroglial cells: physiological properties and a potassium mediated effect of neuronal activity on the glial membrane potential. Proc R Soc 168:1CrossRefGoogle Scholar
  8. LEONHARDT H (1981) Histologie und Zytologie des Menschen, 6. Aufl. Thieme, StuttgartGoogle Scholar
  9. MARAN TH (1980) The cerebrospinal fluid. In: Mountcastle V (ed) Medical physiology, vol II. 14th ed. Mosby, St. Louis, p 1218Google Scholar
  10. SCHARPER E (1944) The blood vessels of the nervous tissue. Q Rev Biol 19: 308CrossRefGoogle Scholar
  11. WATSON WE (1974) Physiology of neuroglia. Physiol Rev 54: 245PubMedGoogle Scholar
  12. WAXMAN SG (ed) (1978) Physiology and pathobiology of axons. Raven, New YorkGoogle Scholar

Literatur zu Kapitel 2

  1. ARMSTRONG CM (1981) Sodium channels and gating currents. Physiol Rev 61: 644PubMedGoogle Scholar
  2. GAUER OH, KRAMER K, JUNG R (Hrsg) (1980) Physiologie des Menschen, Bd 10: Allgemeine Neurophysiologie. 3. Aufl. Urban & Schwarzenberg, MünchenGoogle Scholar
  3. HODGKIN AL, HUXLEY AF (1952) Quantitative description of membrane current and its application to conduction and excitation in nerve. J Physiol (Lond) 117: 500Google Scholar
  4. HOPPE W, LOHMANN W, MARKL H, ZIEGLER H (1982) Biophysik, 2. Aufl. Springer, Berlin Heidelberg New YorkCrossRefGoogle Scholar
  5. KATZ B (1974) Nerv, Muskel und Synapse. 2. Aufl. Thieme, StuttgartGoogle Scholar
  6. NOBLE D (1966) Applications of Hodgkin-Huxley equations to excitable tissues. Physiol Rev 46:1PubMedGoogle Scholar
  7. RUCH TC, PATTON HD (1974) Physiology and biophysics. Saunders, PhiladelphiaGoogle Scholar
  8. Ulbricht W (1977) Ionic channels and gating currents in excitable membranes. Ann Rev Biophys Bioeng 6: 7CrossRefGoogle Scholar

Literatur zu Kapitel 3

  1. BURGEN A, KOSTERLITZ HW, IVERSEN LL (eds) (1980) Neuroactive peptides. The Royal Society, London, pp 1–195Google Scholar
  2. CECCARELLI B, HURLBUT WP (1980) Vescile hypothesis of the release of quanta of acetylcholine. Physiol Rev 60: 396–441PubMedGoogle Scholar
  3. COOPER JR, BLOOM FE, ROTH RH (1978) The biochemical basis of neuropharmacology, 3rd edn. Oxford University Press, New York, pp 1–327Google Scholar
  4. COTTRELL GA, USHERWOOD PNR(eds) (1977) Synapses. Blackie, Glasgow, pp 1–384Google Scholar
  5. DEFEUDIS FV, MANDEL P (eds) (1981) Amino acid neurotransmitter. Raven, New York, pp 1–572Google Scholar
  6. ECCLES JC (1964) The physiology of synapses. Springer, Berlin Göttingen Heidelberg New YorkCrossRefGoogle Scholar
  7. KATZ B (1974) Nerv, Muskel und Synapse, 2. Aufl. Thieme, StuttgartGoogle Scholar
  8. KRAVITZ E A, TREHERNE JE (eds) (1980) Neurotransmission, neurotransmitters, and neuromodulators. J Exp Biol 89:1–286Google Scholar
  9. LOEWENSTEIN WR (1981) Junctional intercellular communication: The cell-to-cell membrane channel. Physiol Rev 61:829–913PubMedGoogle Scholar
  10. SCHMIDT RF (1971) Presynaptic inhibition in the vertebrate central nervous system. Ergeb Physiol Biol Chem Exp Pharmacol 63:20–101Google Scholar
  11. STJäRNE L, HEDQVIST P, LAGERCRANTZ H., WENNMALM À (eds) (1981) Chemical neurotransmission. Academic Press, New York, pp 1–562Google Scholar
  12. TAXI J (ed) (1980) Ontogenesis and functional mechanisms of peripheral synapses. Elsevier, Amsterdam, pp 1–196Google Scholar
  13. THE SYNAPSE (1976) Cold Spring Harbor Symp. Quant Biol 40 Google Scholar
  14. THOENEN H (1969) Bildung und funkionelle Bedeutung adrenerger Ersatztransmitter. Springer, Berlin Heidelberg New YorkGoogle Scholar
  15. VINCENT A (1980) Immunology of acetylcholine receptors in relation to myasthenia gravis. Physiol Rev 60:756–824PubMedGoogle Scholar
  16. ZAIMIS E (ed) (1976) Neuromuscular junction. Springer, Berlin Heidelberg New York, pp 1–746Google Scholar

Literatur zu Kapitel 4

  1. ECCLES JC (1969) The inhibitory pathways of the central nervous system. The Sherrington Lectures IX. Thomas, Springfield/Ill., pp 1–135Google Scholar
  2. FEARING F (1930) Reflex action. A study in the history of physiological psychology. Williams & Wilkins, BaltimoreGoogle Scholar
  3. FEINSTEIN B, LINDEGAARD B, NYMAN E, WOHLFAHRT G (1955) Morphologic studies of motor units in normal human muscles. Acta Anat (Basel) 23:127CrossRefGoogle Scholar
  4. FULTON JF (1943) Physiology of the nervous system. Oxford University Press, London New York TorontoGoogle Scholar
  5. Handbook of Physiology (1981) Section 1: The nervous system, vol II: Motor control, Part 1. American Physiological Society, Bethesda, pp 1–733Google Scholar
  6. POECK K (1978) Neurologie, 5. Aufl. Springer, Berlin Heidelberg New YorkGoogle Scholar
  7. SHERRINGTON CS (1961) The integrative action of nervous system. Yale University Press, New Haven (1st edn 1906), pp 1–413Google Scholar
  8. SCHMITT FO, WORDEN FG (eds) (1979) The neurosciences. Fourth Study Program. MIT, Cambridge, Mass., pp 1–1185Google Scholar
  9. TAYLOR A., PROCHAZKA A (eds) (1981) Muscle receptors and movement. Macmillan, London, pp 1–446Google Scholar

Literatur zu Kapitel 5

  1. BOURNE GH (ed) (1972) The structure and funktion of muscle, 2th edn, vol I—III. Academic Press, London New YorkGoogle Scholar
  2. CARLSON FD, WILKIE DR (1974) Muscle physiology. Prentice-Hall, Englewood Cliffs, New JerseyGoogle Scholar
  3. GAUER OH, KRAMER K, JUNG R (Hrsg) (1975) Physiologie des Menschen. Bd 4: Muskel, 2. Aufl. Urban & Schwarzenberg, München Berlin WienGoogle Scholar
  4. HOPPE W, LOHMANN W, MARKL H, ZIEGLER H (1982) Biophysik, 2. Aufl. Springer, Berlin Heidelberg New YorkCrossRefGoogle Scholar
  5. HUXLEY AF (1974) Muscular contraction. J Physiol 243:1PubMedGoogle Scholar

Literatur zu Kapitel 6

  1. BOYD JA, DAVEY MR (1968) Composition of peripheral nerves. Livingstone, Edinburgh LondonGoogle Scholar
  2. BRODAL A (1981) Neurological anatomy in relation to clinical medicine, 3rd edn. Oxford University Press, New York London Toronto, pp 1–1053Google Scholar
  3. Dow RS, MORUZZI G (1958) The physiology and pathology of the cerebellum. The University of Minnesota Press, MinneapolisGoogle Scholar
  4. ECCLES JC, ITO M, SZENTàGOTHAI J (1967) The cerebellum as a neuronal machine. Springer, Berlin Heidelberg New YorkGoogle Scholar
  5. GAUER OH, KRAMER K, JUNG R (eds) (1976) Physiologie des Menschen. Bd 14: Senso-motorik. Urban & Schwarzenberg, München Berlin WienGoogle Scholar
  6. GRANIT R (1970) The basis of motor control. Academic Press, London New YorkGoogle Scholar
  7. Handbook of Physiology (1981) Section 1: The nervous system, vol II: Motor control, Parti, pp 1–733, Part2: pp 735–1480. American Physiological Society, Bethesda (Part 1, pp 1–733; part 2, pp 735–1480)Google Scholar
  8. KEMP JM, POWELL TPS (1971) The connexions of the striatum and globus pallidus: synthesis and speculation, Phil Trans 262:441CrossRefGoogle Scholar
  9. LARSELL O, JANSEN J (1972) The comparative anatomy and histology of the cerebellum. The human cerebellum, cerebellar connections, and cerebellar cortex. University of Minnesota Press, MinneapolisGoogle Scholar
  10. MAGNUS R (1924) Körperstellung. Springer, BerlinGoogle Scholar
  11. MATTHEWS PBC (1972) Mammalian muscle receptors and their central actions. Arnold, LondonGoogle Scholar
  12. PENFIELD W, RASMUSSEN T (1950) The cerebral cortex of man. Macmillan, New YorkGoogle Scholar
  13. SCHMIDT RF (1973) Control of the access of afferent activity to somatosensory pathways. In: IGGO A (ed) Somatosensory system. Springer, Berlin Heidelberg New York (Handbook of sensory physiology, vol II, p 151)Google Scholar
  14. TAYLOR A., PROCHAZKA A (eds) (1981) Muscle receptors and movement. Macmillan, London, pp 1–446Google Scholar

Literatur zu Kapitel 7

  1. DRISCHEL H (1973) Einführung in die Biokybernetik. Akademie Verlag, BerlinGoogle Scholar
  2. FLECHTNER H-J (1966) Grundbegriffe der Kybernetik. Eine Einführung. Wissenschaftl. Verl. Ges., StuttgartGoogle Scholar
  3. GAUER OH, KRAMER K, JUNG R (1976) Physiologie des Menschen, Bd 10, Bd 14. Urban & Schwarzenberg, München Berlin WienGoogle Scholar
  4. Granit R (1970) The Basis Of Motor Control. Academic Press, London New YorkGoogle Scholar
  5. HASSENSTEIN B (1967) Biologische Kybernetik. Quelle & Meyer, HeidelbergGoogle Scholar
  6. HOUK J (1980) Principles of system theory as applied to physiology. In: MOUNTCASTLE VB (ed) Medical physiology, vol 1. 14th Ed. Mosby, St. Louis, pp 225Google Scholar
  7. WAGNER R (1954) Probleme und Beispiele biologischer Regelungen. Thieme, StuttgartGoogle Scholar
  8. WIENER N (1963) Kybernetik. Econ, Düsseldorf (Deutsche Übersetzung; Originalausgabe in Englisch 1948)Google Scholar
  9. ZIMMERMANN M, HANDWERKER HO, PAAL G (1975) Dehnungsreflex, Farbtonfilm (16 mm) zum Physiologieunterricht für Medizinstudenten. Institut für den Wiss. Film, GöttingenGoogle Scholar

Literatur zu Kapitel 8

  1. BRODAL A (1981) Neurological anatomy in relation to clinical medicine, 3rd edn. Oxford University Press, New York London TorontoGoogle Scholar
  2. CANNON WB (1939) The wisdom of the body, 2nd edn. Norton, New YorkGoogle Scholar
  3. Cannon Wb (1975) Wut, Hunger, Angst Und Schmerz. Urban & Schwarzenberg, MüNchen Berlin WienGoogle Scholar
  4. DAVSON H, SEGAL MB: Introduction to physiology vol 2: Basic mechanisms (Part2) (1975), vol 3 (1976), vol 5: Control of Reproduction (1980) Academic Press, London Toronto Sydney; Grune & Stratton, New York San FranciscoGoogle Scholar
  5. GABELLA G (1976) Structure of the autonomic nervous system. Chapman & Hall, LondonCrossRefGoogle Scholar
  6. JOHNSON RH, SPALDING JMK (1974) Disorders of the autonomic nervous system. Black-well, Oxford London Edinburgh MelbourneGoogle Scholar
  7. KOEPCHEN HP (1972) Kreislaufregulation. In: GAUER OH, KRAMER K, JUNG R (Hrsg) Physiologie des Menschen, Bd 3: Herz und Kreislauf. Urban & Schwarzenberg, München Berlin Wien, pp 327–406Google Scholar
  8. KUSCHINSKY G., LüLLMANN H (1981) Kurzes Lehrbuch der Pharmakologie und Toxikologie, 9. Aufl. Thieme, StuttgartGoogle Scholar
  9. MASTERS WH, JOHNSON VE (1970) Die Sexuelle Reaktion. Rowohlt, Reinbeck bei Hamburg (rororo TB, Nr. 8032/33)Google Scholar
  10. MONNIER M (1963) Physiologie und Pathophysiologic des vegetativen Nervensystems, I.Bd: Physiologie, II.Bd: Pathophysiologic. Hippokrates, StuttgartGoogle Scholar

Literatur zu Kapitel 9

  1. ANDERSEN P, ANDERSSON SA (1968) Physiological basis of the alpha rhythm. Appleton-Century-Crofts, New York, pp 1–235Google Scholar
  2. BAUST W (1970) Ermüdung, Schlaf und Traum. Wissenschaftliche Verlagsgesellschaft, Stuttgart (1971) Fischer, Frankfurt, pp 1–373Google Scholar
  3. BINDMAN L, LIPPOLD O (1981) The neurophysiology of the cerebral cortex. Arnold, London, pp 1–495Google Scholar
  4. BIRBAUMER N (1975) Physiologische Psychologie. Springer, Berlin Heidelberg New York, pp 1–268Google Scholar
  5. BRODAL A (1981) Neurological anatomy in relation to clinical medicine, 3rd edn. Oxford University Press, New York London Toronto, pp 1–1053Google Scholar
  6. ECCLES JC (ed) (1966) Brain and conscious experience. Springer, Berlin Heidelberg New YorkGoogle Scholar
  7. ECCLES JC (1970) Facing reality. Springer, New York Heidelberg Berlin [Deutsche Ausgabe (1975) Wahrheit und Wirklichkeit. Springer, Berlin Heidelberg New York]Google Scholar
  8. ECCLES JC (1973) The understanding of the brain. McGraw-Hill, New York St. Louis San Francisco Düsseldorf [Deutsche Ausgabe (1975/1979) Das Gehirn des Menschen. Piper, München Zürich]Google Scholar
  9. ECCLES JC (1979) The human mystery. Springer, Berlin Heidelberg New York, pp 1–255Google Scholar
  10. ECCLES JC (1980) The human psyche. Springer, Berlin Heidelberg New York, pp 1–279Google Scholar
  11. GAZZANIGA MS (ed) (1979) Neuropsychology. Handbook of behavioral neurobiology, vol 2. Plenum, New York, pp 1–566Google Scholar
  12. GAZZANIGA MS, LEDOUX JE (1978) The integrated mind. Plenum, New York, pp 1–168Google Scholar
  13. JOVANOVIò UJ (1971) Normal sleep in man. Hippokrates, StuttgartGoogle Scholar
  14. KOELLA WP (1973) Physiologie des Schlafes. Kohlhammer, Stuttgart Berlin Köln Mainz (Urban Taschenbücher, Bd 174, pp 1–160)Google Scholar
  15. MCGEER PL, ECCLES JC, MCGEER EG (1978) Molecular neurobiology of the mammalian brain. Plenum, New York London, pp 1–644Google Scholar
  16. MILLS JN (1966) Human circadian rhythms. Physiol Rev 46:128–159PubMedGoogle Scholar
  17. MILNER B (1970) Memory and the medial temporal regions of the brain. In: PRIBRAM KH, BROADBENT DE (eds) Biology of memory. Academic Press, New York London, p 29Google Scholar
  18. MORUZZI G (1972) The sleep-waking cycle (Neurophysiology and neurochemistry of sleep and wakefulness). Ergeb Physiol Biol Chem Exp Pharmakol 64:1–165Google Scholar
  19. PENFIELD W, ROBERTS L (1959) Speech and brain mechanisms. Princeton University Press, Princeton/N.J.Google Scholar
  20. ROSE SPR (1981) What should a biochemistry of learning and memory be about? Neuroscience 6: 811–821PubMedCrossRefGoogle Scholar
  21. SCHMITT FO, WORDAN FG, ADELMAN A, DENNIS SG (eds) (1981) The organization of the cerebral cortex. MIT, CAMBRIDGE, MASS, pp 1–592Google Scholar
  22. SPERRY RW (1969) A modified concept of consciousness. Psychol Rev 76:532–536PubMedCrossRefGoogle Scholar
  23. WEITZMAN ED (1981) Sleep and its disorders. Ann Rev Neurose 4:381–417CrossRefGoogle Scholar
  24. WEVER RA (1979) The circadian system of man: Results of experiments under temporal isolation. Springer, New York Berlin Heidelberg, pp 1–276CrossRefGoogle Scholar
  25. WOLMAN BB (ed) (1979) Handbook of dreams. Research, theories and applications. Van Nostrand Reinhold, New York, pp 1–447Google Scholar
  26. ZIPPEL HP (ed) (1973) Memory and tranfer of information. Plenum, New York London, pp 1–582Google Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 1987

Authors and Affiliations

  • Robert F. Schmidt
    • 1
  1. 1.Physiologisches InstitutUniversität WürzburgWürzburgDeutschland

Personalised recommendations