A method for evoking physiological responses by stimulation of cell bodies, but not axons of passage, within localized regions of the central nervous system.
about
(In)activity-related neuroplasticity in brainstem control of sympathetic outflow: unraveling underlying molecular, cellular, and anatomical mechanismsNeural substrates underlying fear-evoked freezing: the periaqueductal grey-cerebellar link.Brain stem representation of thermal and psychogenic sweating in humans.Role of nitric oxide on pressor mechanisms within the dorsomedial and rostral ventrolateral medulla in anaesthetized cats.Low dose of moxonidine within the rostral ventrolateral medulla improves the baroreflex sensitivity control of sympathetic activity in hypertensive rat.Differential regulation of the central neural cardiorespiratory system by metabotropic neurotransmitters.Leptin into the rostral ventral lateral medulla (RVLM) augments renal sympathetic nerve activity and blood pressure.Neurotransmitters in central cardiovascular regulation: glutamate and GABA.(In)activity-dependent alterations in resting and reflex control of splanchnic sympathetic nerve activity.Role of the central nucleus of the amygdala in the control of blood pressure: descending pathways to medullary cardiovascular nuclei.Dorsomedial/Perifornical hypothalamic stimulation increases intraocular pressure, intracranial pressure, and the translaminar pressure gradientTonic glutamatergic input in the rostral ventrolateral medulla is increased in rats with chronic heart failure.Origins of the vagal drive controlling left ventricular contractility.Neurobiology of behavior: anatomic and physiological implications related to epilepsy.Chronotropic and dromotropic responses to localized glutamate microinjections in the rat nucleus ambiguus.Organization of higher-order brain areas that initiate locomotor activity in larval lamprey.Stimulation of the midbrain periaqueductal gray modulates preinspiratory neurons in the ventrolateral medulla in the rat in vivoLocalization, pharmacology, and organization of brain locomotor areas in larval lamprey.The ventral tegmental area as a putative target for tachykinins in cardiovascular regulation.Tonic opioid inhibition of the subiculo-accumbens pathway.Cerebellar cortical stimulation increases spinal visceral nociceptive responses.Location of cat brain stem neurons that drive sweating.Taste responses of neurons of the hamster solitary nucleus are enhanced by lateral hypothalamic stimulation.The caudal pressor area of the rat: its precise location and projections to the ventrolateral medulla.Chemical activation of C(1)-C(2) spinal neurons modulates activity of thoracic respiratory interneurons in rats.Direct projections from the cardiovascular nucleus tractus solitarii to pontine preganglionic parasympathetic neurons: a link to cerebrovascular regulation.Taste responses of neurons in the hamster solitary nucleus are modulated by the central nucleus of the amygdala.The medullary dorsal reticular nucleus enhances the responsiveness of spinal nociceptive neurons to peripheral stimulation in the rat.Chemical activation of C1-C2 spinal neurons modulates intercostal and phrenic nerve activity in rats.A mapping study of cardiorespiratory responses to chemical stimulation of the midline medulla oblongata in ventilated and freely breathing rats.Modulation of parabrachial taste neurons by electrical and chemical stimulation of the lateral hypothalamus and amygdala.Medullary pathways mediating the parasubthalamic nucleus depressor response.Intranuclear coupling of hypothalamic magnocellular nuclei by glutamate synaptic circuits.Motor organization of positive and negative emotional vocalization in the cat midbrain periaqueductal gray.The physiological motor patterns produced by neurons in the nucleus retroambiguus in the rat and their modulation by vagal, peripheral chemosensory, and nociceptive stimulation.Differential effects from parapyramidal region and rostral ventrolateral medulla mediated by substance P.The increase of femoral arterial flow by stimulating the dorsal and ventral medulla in cats.Patterns of phrenic motor output evoked by chemical stimulation of neurons located in the pre-Bötzinger complex in vivo.Descending control of the respiratory neuronal network by the midbrain periaqueductal grey in the rat in vivo.Stereotyped yawning responses induced by electrical and chemical stimulation of paraventricular nucleus of the rat.
P2860
Q28261797-1F5921C9-3F83-41C7-9B26-903644BA2E3EQ30438129-3261F20A-3274-4478-A0A4-5A78C893B2E6Q30608092-C5B8B59A-6EC1-4443-9BAF-BBABB097E3FAQ32027260-D0A873AA-1776-4485-9457-BB10B0D1CB62Q33556414-882B44E2-8DE7-4320-835B-5DE1C44A0390Q33831736-978A2F59-9211-402A-B74F-84D8BA7335E1Q34018397-63BDAFAE-4370-4E66-A205-78315B54A0FDQ34636728-AC2AB0AE-11C1-46E5-BDE3-94FAD09BDFFFQ35601730-3B17CD96-7CEA-4B5C-AF8C-87F0161FFCCFQ36107886-71BF760B-BE6E-4FF4-A3B9-F55FDFD2D450Q36366790-5802295F-0830-48FA-BBA6-668318FDE135Q36615795-59A022CE-D6C2-481C-A5FB-C20830EFA1B5Q39949630-B05B9942-FE70-45B4-9392-58150FDE63D7Q41470067-00871CEE-E815-4066-810E-3BD5BE9829F7Q41877035-310BEB6D-0DB7-4EF8-BBC7-6D798C7C0187Q42217989-7D3C6980-D646-48B5-8631-003F75FE0D13Q42582656-7EF51FA3-2CF0-4023-84B1-46E00759381DQ42583776-FBA59F80-6F40-45F9-9EC5-EA93E8A47EECQ43261429-60DB04DC-FE25-4119-9E18-5112FB126091Q43608594-4A867FC2-CA1A-42A6-95DF-8F3E01C55F02Q43626767-8A735685-0D63-4B31-BE33-FC33B4D1EEA4Q43821029-A5ACD2BC-03BE-4AD9-B1BB-36209A148C34Q43945355-E4BFA93A-E03E-4BFC-A8FD-E150527A8D78Q44107279-0E2340C1-BD44-4A7C-B4AA-0E8428541A93Q44135011-E8191307-645B-4C6C-8408-FD7878EE5699Q44157501-55E821CC-A518-41EC-B8F0-CCC59E7D876BQ44238728-26E9E91D-5AEC-4515-846F-97E2BB789357Q44545271-6687D813-E6BC-4D47-ACA8-C0F3854863CBQ44756858-7048BCE3-7755-4851-B125-7BACDA114075Q44805472-1DD75E89-A32E-4DD4-8EB7-BEBCD7EF1A6CQ45105869-5A49DB71-C909-4070-BF89-2DA5E26F69DFQ46744049-66E4E30E-D664-4E85-B222-9D38059859C6Q46937422-4E7EAE13-2EC8-4040-8AFA-E551C4466CEAQ47663497-7671B85D-BBEB-46D1-96E8-4ED5DF25080DQ47782036-0BD231BD-1AC8-4D66-B533-66E6721B6943Q48094140-1119495B-5FFA-4136-B9AA-7E651D993702Q48204332-91B27600-5F5B-4DCC-AE49-51A506416F6BQ48258099-3ED5C0D7-B839-4584-B53B-3BA8381E60B3Q48306469-451AC819-FAAB-4928-BF65-03E52805D724Q48348764-52C32E29-37DD-4A8B-9946-EC0D71A63F72
P2860
A method for evoking physiological responses by stimulation of cell bodies, but not axons of passage, within localized regions of the central nervous system.
description
1982 nî lūn-bûn
@nan
1982年の論文
@ja
1982年学术文章
@wuu
1982年学术文章
@zh-cn
1982年学术文章
@zh-hans
1982年学术文章
@zh-my
1982年学术文章
@zh-sg
1982年學術文章
@yue
1982年學術文章
@zh
1982年學術文章
@zh-hant
name
A method for evoking physiolog ...... of the central nervous system.
@en
A method for evoking physiolog ...... of the central nervous system.
@nl
type
label
A method for evoking physiolog ...... of the central nervous system.
@en
A method for evoking physiolog ...... of the central nervous system.
@nl
prefLabel
A method for evoking physiolog ...... of the central nervous system.
@en
A method for evoking physiolog ...... of the central nervous system.
@nl
P1476
A method for evoking physiolog ...... of the central nervous system.
@en
P2093
P304
P356
10.1016/0165-0270(82)90036-X
P577
1982-11-01T00:00:00Z