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1 ucleus, to activate the trigeminal autonomic reflex arc.
2 are coupled to the motor layers via a simple reflex arc.
3 the central and peripheral components of the reflex arc.
4 adjacent, unstimulated skin through a nerve reflex arc.
5 oviding molecular insights into the sneezing reflex arc.
6 he development of a functional neuromuscular reflex arc.
7 associated with bladder filling and voiding reflex arcs.
8 ors are thought of as cortical sensory-motor reflex arcs.
9 t performance of autonomic or neuroendocrine reflex arcs.
10 erent nerves and the subsequent airway vagal reflex arcs.
11 disease include direct aspiration and neural reflex arcs.
12 ng the vestibulo-ocular and vestibulo-collic reflex arcs.
13 simotor model and its incorporation into the reflex arc allows for a more accurate recapitulation of
14 TFF2 is important to the anti-inflammatory reflex arc and plays an essential role in arresting MDSC
17 e coexists with the classic vestibulo-ocular reflex arc for horizontal eye movements,(19) and could b
19 olved in micturition: a pathway limited to a reflex arc in the pelvic nerve (presumably excitatory to
23 s contributing to the previously established reflex arc resulting in efferent vagal activity and asth
24 ocochlear (MOC) efferent system is part of a reflex arc that critically controls auditory sensitivity
25 ns motoneurons form the final element of the reflex arc that integrates visuovestibular inputs into t
26 hat extend classical homeostatic control via reflex arcs to include more flexible forms of adaptive b