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43a. Sherrington CS. The integrative action of the nervous system.
New Haven: Yale University Press; 1947.
44. Bard P, Macht MB. The behavior of chronically decerebrate cats.
In: Wolstenholme GEW, O'Conner CMO, editors. Neurological
basis of behavior. London: Churchill; 1958. p. 55-75.
45. Arnulf I, Sastre JP, Buda C, et al. Hyperoxia increases paradoxical
sleep rhythm in the pontine cat. Brain Res 1998;807:160-166.
46. Adey WR, Bors E, Porter RW. EEG sleep patterns after high cervi-
cal lesions in man. Arch Neurol 1968;19:377-383.
47. Lai YY, Siegel JM. Medullary regions mediating atonia. J Neurosci
48. Siegel JM, Tomaszewski KS, Nienhuis R. Behavioral states in the
chronic medullary and mid-pontine cat. Electroenceph Clin Neu-
rophysiol 1986;63:274-288.
49. Siegel JM, Nienhuis R, Tomaszewski KS. REM sleep signs rostral
to chronic transections at the pontomedullary junction. Neurosci
Lett 1984;45:241-246.
50. Siegel JM. Pontomedullary interactions in the generation of REM
sleep. In: McGinty DJ, Drucker-Colin R, Morrison A, Parmeggiani
PL, editors. Brain mechanisms of sleep. New York: Raven Press;
1985. p. 157-174.
51. Matsuzaki M. Differential effects of sodium butyrate and physostig-
mine upon the activities of para-sleep in acute brain stem prepara-
tions. Brain Res 1969;13:247-265.
52. Schenkel E, Siegel JM. REM sleep without atonia after lesions of
the medial medulla. Neurosci Lett 1989;98:159-165.
53. Gadea-Ciria M. Tele-encephalic versus cerebellar control upon
ponto-geniculo-occipital waves during paradoxical sleep in the cat.
Experientia 1976;32:889-890.
54. Mahowald MW, Schenck CH, Bornemann MA. Pathophysiologic
mechanisms in REM sleep behavior disorder. Curr Neurol Neuro-
sci Rep 2007;7:167-172.
55. Carli G, Zanchetti A. A study of pontine lesions suppressing deep
sleep in the cat. Arch Ital Biol 1965;103:725-750.
56. Jones BE, Harper ST, Halaris AE. Effects of locus coeruleus lesions
upon cerebral monoamine content, sleep wakefulness states and
the response to amphetamine in the cat. Brain Res 1977;124:
57. Juvancz P. The effect of raphe lesion on sleep in the rat. Brain Res
58. Blanco-Centurion C, Gerashchenko D, Shiromani PJ. Effects of
saporin-induced lesions of three arousal populations on daily levels
of sleep and wake. J Neurosci 2007;27:14041-14048.
59. Siegel JM, McGinty DJ. Pontine reticular formation neurons: rela-
tionship of discharge to motor activity. Science 1977;196:678-680.
60. Siegel JM, McGinty DJ, Breedlove SM. Sleep and waking activity
of pontine gigantocellular field neurons. Exp Neurol 1977;56:
61. Drucker-Colin R, Pedraza JGB. Kainic acid lesions of gigantocel-
lular tegmental field (FTG) neurons does not abolish REM sleep.
Brain Res 1983;272:387-391.
62. Webster HH, Jones BE. Neurotoxic lesions of the dorsolateral
pontomesencephalic tegmentum-cholinergic cell area in the cat II.
Effects upon sleep-waking states. Brain Res 1988;458:285-302.
63. Swanson LW. Brain maps: structure of the rat brain. Amsterdam:
Elsevier; 1992.
64. Lu J, Sherman D, Devor M, et al. A putative flip-flop switch for
control of REM sleep. Nature 2006;441:589-594.
65. Shouse MN, Siegel JM. Pontine regulation of REM sleep compo-
nents in cats: integrity of the pedunculopontine tegmentum (PPT)
is important for phasic events but unnecessary for atonia during
REM sleep. Brain Res 1992;571:50-63.
66. Hendricks JC, Morrison AR, Mann GL. Different behaviors during
paradoxical sleep without atonia depend on pontine lesion site.
Brain Res 1982;239:81-105.
67. Lai YY, Shalita T, Hajnik T, et al. Neurotoxic N-methyl-D-aspar-
tate lesion of the ventral midbrain and mesopontine junction alters
sleep-wake organization. Neuroscience 1999;90:469-483.
68. Lai YY, Hsieh KC, Nguyen D, et al. Neurotoxic lesions at the
ventral mesopontine junction change sleep time and muscle activity
during sleep: an animal model of motor disorders in sleep. Neuro-
science 2008;154:431-443.
69. Holmes CJ, Mainville LS, Jones BE. Distribution of cholinergic,
GABAergic and serotonergic neurons in the medial medullary
reticular formation and their projections studied by cytotoxic lesions
in the cat. Neuroscience 1994;62:1155-1178.
70. Crochet S, Onoe H, Sakai K. A potent non-monoaminergic
paradoxical sleep inhibitory system: a reverse microdialysis and
single-unit recording study. Eur J Neurosci 2006;24:1404-1412.
71. Vanini G, Torterolo P, McGregor R, et al. GABAergic processes in
the mesencephalic tegmentum modulate the occurrence of active
(rapid eye movement) sleep
in guinea pigs. Neuroscience
72. Luppi PH, Gervasoni D, Verret L, et al. Paradoxical (REM) sleep
genesis: the switch from an aminergic-cholinergic to a GABAergic-
glutamatergic hypothesis. J Physiol Paris 2006;100:271-283.
73. Moruzzi G, Magoun HW. Brain stem reticular formation and acti-
vation of the EEG. Electroencephalogr Clin Neurophysiol 1949;
74. Moruzzi G. The sleep-waking cycle. Ergeb Physiol 1972;64:1-165.
75. Xi MC, Morales FR, Chase MH. Interactions between GABAergic
and cholinergic processes in the nucleus pontis oralis: neuronal
mechanisms controlling active (rapid eye movement) sleep and
wakefulness. J Neurosci 2004;24:10670-10678.
76. Watson CJ, Soto-Calderon H, Lydic R, et al. Pontine reticular
formation (PnO) administration of hypocretin-1 increases PnO
GABA levels and wakefulness. Sleep 2008;31:453-464.
77. Xi MC, Morales FR, Chase MH. Interactions between GABAergic
and cholinergic processes in the nucleus pontis oralis: neuronal
mechanisms controlling active (rapid eye movement) sleep and
wakefulness. J Neurosci 2004;24:10670-10678.
78. George R, Haslett WL, Jenden DJ. A cholinergic mechanism in the
brainstem reticular formation: Induction of paradoxical sleep. Int J
Neuropharmacol 1964;3:541-552.
79. Vanni-Mercier G, Sakai K, Lin JS, et al. Mapping of cholinoceptive
brainstem structures responsible for the generation of paradoxical
sleep in the cat. Arch Ital Biol 1989;127:133-164.
80. Katayama Y, DeWitt DS, Becker DP, et al. Behavioral evidence
for cholinoceptive pontine inhibitory area: Descending control of
spinal motor output and sensory input. Brain Res 1984;296:241-
81. Mitler MM, Dement WC. Cataplectic-like behavior in cats after
micro-injection of carbachol in the pontine reticular formation.
Brain Res 1974;68:335-343.
82. Gnadt JW, Pegram V. Cholinergic brainstem mechanisms of REM
sleep in the rat. Brain Res 1986;384:29-41.
83. Shiromani PJ, Fishbein W. Continuous pontine cholinergic micro-
infusion via mini-pump induces sustained alterations in rapid eye
movement (REM) sleep. Pharmacol Biochem Behav 1986;25:
84. Velazquez-Moctezuma J, Gillin JC, Shiromani PJ. Effect of specific
M1, M2 muscarinic receptor agonists on REM sleep generation.
Brain Res 1989;503:128-131.
85. Deurveilher S, Hars B, Hennevin E. Pontine microinjection of
carbachol does not reliably enhance paradoxical sleep in rats. Sleep
86. Lai YY, Siegel JM. Pontomedullary glutamate receptors mediating
locomotion and muscle tone suppression. J Neurosci 1991;11:
87. Verret L, Fort P, Gervasoni D, et al. Localization of the neurons
active during paradoxical (REM) sleep and projecting to the locus
coeruleus noradrenergic neurons in the rat. J Comp Neurol 2006;
88. Lai YY, Siegel JM. Muscle tone suppression and stepping produced
by stimulation of midbrain and rostral pontine reticular formation.
J Neurosci 1990;10:2727-2738.
89. Lai YY, Clements J, Siegel J. Glutamatergic and cholinergic projec-
tions to the pontine inhibitory area identified with horseradish
transport and
J Comp Neurol 1993;336:321-330.
90. Lai YY, Clements JR, Wu XY, et al. Brainstem projections to the
ventromedial medulla in cat: retrograde transport horseradish per-
oxidase and immunohistochemical studies. J Comp Neurol 1999;
91. Boissard R, Gervasoni D, Schmidt MH, et al. The rat ponto-med-
ullary network responsible for paradoxical sleep onset and mainte-
nance: a combined microinjection and functional neuroanatomical
study. Eur J Neurosci 2002;16:1959-1973.
92. Onoe H, Sakai K. Kainate receptors: a novel mechanism in para-
doxical sleep generation. Neuroreport 1995;6:353-356.
93. Siegel JM. Behavioral functions of the reticular formation. Brain
Res Rev 1979;1:69-105.
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