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1 ng of the redox state in the CB chemosensory reflex pathway.
2 e be disturbed by the change in the SOL(R) H-reflex pathway.
3 ic oxide (NO) in the baroreceptor-heart rate reflex pathway.
4 rength has been shown to depend on an intact reflex pathway.
5 ne, two critical mediators in the submucosal reflex pathway.
6 controlling the spinobulbospinal micturition reflex pathway.
7 sts that learning modifies the unconditioned reflex pathway.
8 on of the descending limb of the micturition reflex pathway.
9  medullary efferent limb of the baroreceptor reflex pathway.
10 ction and reliable activation of a gustatory reflex pathway.
11 h asthma is mediated through the cholinergic reflex pathway.
12 d but serves primarily as input to autonomic reflex pathways.
13 nal and can be explained by known interjoint reflex pathways.
14  potent effect on the excitability of spinal reflex pathways.
15  the vestibulocerebellum and vestibulo-motor reflex pathways.
16 n the central baroreceptor and chemoreceptor reflex pathways.
17 timulation of either ascending or descending reflex pathways.
18  and (3) through enhancement of spinal motor reflex pathways.
19 due to activation of supraspinal micturition reflex pathways.
20  reorganization of parasympathetic excretory reflex pathways.
21 especially those areas involved in autonomic reflex pathways.
22 al response along established cardiovascular reflex pathways.
23 peptide galanin were examined in micturition reflex pathways 6 weeks after complete spinal cord trans
24 ctivating polypeptide (PACAP) in micturition reflex pathways after chronic cystitis induced by cyclop
25 k-mediated signaling cascades in micturition reflex pathways after SCI but may play a role in other,
26 he responses of higher-order neurones in the reflex pathway and some components of the reflex output
27 ensate for transmission delays in vestibular reflex pathways and help stabilize posture and gaze duri
28 f the central baroreceptor and chemoreceptor reflex pathways, and that it may influence fetal ACTH se
29                                      The MEM reflex pathways begin with sound presented to the ear.
30 y intrinsic excitatory and inhibitory neural reflex pathways, but the relationship between mixing and
31 S-cGMP signalling system in the baroreceptor reflex pathway distal to the NTS and closer to cardiac v
32 y of the spindle afferents and the segmental reflex pathway during isometric contractions, standing a
33  information about the modulation of classic reflex pathways during fictive locomotion and in respons
34 d by their continued ability to block spinal reflex pathways during the reappearance of spontaneous a
35                       Transmission in spinal reflex pathways from the toes to the ankle flexor tibial
36 gical tremor may be altered as a function of reflex pathway gains.
37  the ascending and descending limbs of these reflex pathways have been well characterized, the identi
38           MOC neurons respond to sound via a reflex pathway; however, in this pathway the cochlear nu
39 jection neurons of the vestibulo-sympathetic reflex pathway in the caudal half of the spinal, medial,
40 Synaptic responses further downstream in the reflex pathway in the CVNs occurred with a latency of 12
41 novel form of homeostatic plasticity in this reflex pathway in the nucleus tractus solitarius (NTS),
42  examined in lower urinary tract micturition reflex pathways in a chronic model of cyclophosphamide (
43 xcitatory and descending inhibitory neuronal reflex pathways in the distal colon.
44 y transmitter in lumbosacral parasympathetic reflex pathways in the neonatal rat.
45 ence, we propose the existence of two spinal reflex pathways involved in micturition: a pathway limit
46 s to reproduce the reorganization of group I reflex pathways occurring during locomotion.
47  oxide (NO), a neurotransmitter in autonomic reflex pathways, plays a role in functional neuroregulat
48 ch responses do not use those 'long-latency' reflex pathways probed by cutaneomuscular reflexes elici
49  the afferent input within gustatory or oral reflex pathways, suggests that the cell map obtained rep
50 t components of a long-latency transcerebral reflex pathway that is affected in this disorder.
51 sed on neurophysiologically plausible muscle-reflex pathways that are organized in 10 spinal modules
52  voluntary control of voiding and the normal reflex pathways that coordinate bladder and urethral sph
53  in both ascending and descending excitatory reflex pathways that synapse with excitatory motoneurons
54  these corneal afferents and the lacrimation reflex pathway they activate lead to some forms of dry e
55 ested that brain modulatory systems regulate reflex pathways to function within an appropriate range
56 rons is consistent with current knowledge of reflex pathways to motoneurons, but the existence and co
57 nal transmission in ascending and descending reflex pathways to the longitudinal (LM) and circular mu
58  stimulation within ascending and descending reflex pathways underlying the peristaltic reflex in the
59  and motoneurons comprising the monosynaptic reflex pathway were investigated.
60 lease of irNPYs in response to activation of reflex pathways which increase arterial pressure.
61 ated by volitional and possibly long-latency reflex pathways with delays of at least 120 ms.
62 uscle stimulations mainly through integrated reflex pathways with no central pattern generator.

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