Biomedical Engineering Reference
In-Depth Information
7. Bauswein E, Kolb FP, Leimbeck B, Rubia FJ. 1983. Simple and complex spike activity of
cerebellar Purkinje cells during active and passive movements in the awake monkey.
J Physiol
339
:379-394.
8. Bloedel JR, Bracha V, Kelly TM, Wu JZ. 1991. Substrates for motor learning: does the cere-
bellum do it all? In
Activity-driven CNS changes in learning and development
, pp. 305-318.
Ed. JR Wolpaw, JT Schmidt, TM Vaughan. New York Academy of Sciences, New York.
9. Bloedel JR, Bracha V. 1995. On the cerebellum, cutaneomuscular reflexes, movement control
and the elusive engrams of memory.
Behav Brain Res
68
:1-44.
10. Bracha V, Zhao L, Irwin KB, Bloedel JR. 2000. The human cerebellum and associative learn-
ing: dissociation between the acquisition, retention and extinction of conditioned eyeblinks.
Brain Res
860
:87-94.
11. Bracha V, Webster ML, Winters NK, Irwin KB, Bloedel JR. 1994. Effects of muscimol inacti-
vation of the cerebellar interposed-dentate nuclear complex on the performance of the nictitat-
ing membrane response in the rabbit.
Exp Brain Res
100
:453-468.
12. Braitenberg V, Atwood RP. 1958. Morphological observations on the cerebellar cortex.
J
Comp Neurol
109
:1-33.
13. Brindley GS. 1964. The use made by the cerebellum of the information that it receives from
sense organs.
Ibro Bull
3:80.
14. Brodal P. 1998.
The central nervous system: structure and function
, 2nd ed. Oxford UP, New
York.
15. Canavan AG, Sprengelmeyer R, Diener HC, Homberg V. 1994. Conditional associative learn-
ing is impaired in cerebellar disease in humans.
Behav Neurosci
108
:1-11.
16. Chambers WW, Sprague JM. 1955. Functional localization in the cerebellum, I: organization
in longitudinal cortico-nuclear zones and their contribution to the control of posture, both ex-
trapyramidal and pyramidal.
J Comp Neurol
103
:105-129.
17. Daum I, Schugens MM, Ackermann H, Lutzenberger W, Dichgans J, Birbaumer N. 1993.
Classical conditioning after cerebellar lesions in humans.
Behav Neurosci
107
:748-756.
18. Dimitrova A, Weber J, Maschke M, Elles H-G, Kolb FP, Forsting M, Diener HC, Timmann D.
2002. Cerebellar and brainstem areas controlling human eyeblink responses as revealed by
fMRI.
Hum Brain Mapping
17
:100-115.
19. Drepper J, Timmann D, Kolb FP, Diener HC. 1999. Non-motor associative learning in patients
with isolated degenerative cerebellar disease.
Brain
122
:87-97.
20. Dudai Y. 2002.
Memory from A to Z: Keywords, concepts and beyond
. Oxford UP, Oxford.
21. Eccles JC, Ito M, Szentagothai J. 1967.
The cerebellum as a neuronal machine
. Springer, Ber-
lin.
22. Gerwig M, Dimitrova A, Kolb FP, Maschke M, Brol B, Kunnel A, Böring D, Thilmann AF,
Forsting M, Diener HC, Timmann D. 2003. Comparison of eyeblink conditioning in patients
with superior and posterior inferior cerebellar lesions.
Brain
126
:71-94.
23. Gomez-Beldarrain M, Garcia-Monco JC, Rubio B, Pascual-Leone A. 1998. Effect of focal
cerebellar lesions on procedural learning in the serial reaction time task.
Exp Brain Res
120
:25-30.
24. Gomi H, Kawato M. 1992. Adaptive feedback control models of the vestibulocerebellum and
spinocerebellum.
Biol Cybern
68
:105-114.
25. Gormezano I, Kehoe EJ. 1975. Classical conditioning: some methodological-conceptual issues.
In
Handbook of learning an cognitive processes
, Vol. 2:
Condition and behavior theory
, pp.
143-179. Ed. WK Estes. Lawrence Erlbaum Associates Hillsdale, NJ.
26. Hansen PD, Woollacott MH, Debu B. 1988. Postural responses to changing task conditions.
Exp Brain Res
73
:627-636.
27. Hebb DO. 1949.
The organization of behaviour
. John Wiley, New York.
28.
Holst von E, Mittelstaedt H. 1950. Das Reafferenzprinzip.
Naturwissenschaften
37
:464-476.