about
Hypoxic activation of arterial chemoreceptors inhibits sympathetic outflow to brown adipose tissue in rats.Cardiovagal regulation during combined hypoxic and orthostatic stress: fainters vs. nonfainters.Role of the α-adrenergic system in femoral vascular reactivity in neonatal llamas and sheep: a comparative study between highland and lowland speciesLocal control of skeletal muscle blood flow during exercise: influence of available oxygen.Chronic orthostatic intolerance and the postural tachycardia syndrome (POTS).Melatonin modulates the fetal cardiovascular defense response to acute hypoxiaCasein protein results in higher prandial and exercise induced whole body protein anabolism than whey protein in chronic obstructive pulmonary diseaseVasoconstrictor responsiveness during hyperbaric hyperoxia in contracting human muscle.Sympathetic restraint of muscle blood flow during hypoxic exercise.The fetal brain sparing response to hypoxia: physiological mechanisms.Influence of passive hyperthermia on human ventilation during rest and isocapnic hypoxia.Beta-adrenergic or parasympathetic inhibition, heart rate and cardiac output during normoxic and acute hypoxic exercise in humans.Failure of systemic hypoxia to blunt alpha-adrenergic vasoconstriction in the human forearm.Hypercapnic vs. hypoxic control of cardiovascular, cardiovagal, and sympathetic function.Chemoreflex and metaboreflex control during static hypoxic exercise.Stable Breathing in Patients With Obstructive Sleep Apnea Is Associated With Increased Effort but Not Lowered Metabolic Rate.Impaired peripheral vasodilation during graded systemic hypoxia in healthy older adults: role of the sympathoadrenal system.
P2860
Q31170930-9C0A37AF-CAF8-40EC-91D4-00AD04F626EBQ33152037-C753A24B-B77E-4BA0-912D-E1A02E532D25Q35395155-B557FBE8-3347-44C4-B0DC-32E63FF97F1AQ35601718-15BD4070-8718-4FB9-9C0D-36D66FCD099FQ35879817-D994325C-6202-4876-A283-A7DA0B7814EBQ35926162-1178287B-6577-4AE8-8895-C529CD9C141BQ36123851-4F8B8346-6CAB-4C5D-92B0-99FD705612D3Q37175730-F052180C-43C4-4DE0-BAD7-E5A0256F1479Q37210891-E80751DE-0427-4354-861A-A5DB47C9AE9DQ38614901-270EC344-FCB6-4C6F-AF15-0C130EB16522Q40445005-CEFCB95E-81D0-45B4-931E-4582CCD2814CQ42599977-7EB1D196-7941-4BC8-96F3-599407A33377Q44429412-B2AD916F-EA71-431E-B020-16DF8D24577EQ44969467-9B9A289B-2846-47F7-882E-F939B8C2ED49Q45190175-40549866-2CAE-47E4-8546-494B44752487Q47245155-B389FE1A-6601-4B8F-9725-7F11B952763BQ51842821-26514A4A-D43A-41BA-AC00-69242E7CDAAB
P2860
description
1987 nî lūn-bûn
@nan
1987年の論文
@ja
1987年論文
@yue
1987年論文
@zh-hant
1987年論文
@zh-hk
1987年論文
@zh-mo
1987年論文
@zh-tw
1987年论文
@wuu
1987年论文
@zh
1987年论文
@zh-cn
name
Human cardiovascular adjustments to acute hypoxaemia.
@en
Human cardiovascular adjustments to acute hypoxaemia.
@nl
type
label
Human cardiovascular adjustments to acute hypoxaemia.
@en
Human cardiovascular adjustments to acute hypoxaemia.
@nl
prefLabel
Human cardiovascular adjustments to acute hypoxaemia.
@en
Human cardiovascular adjustments to acute hypoxaemia.
@nl
P2860
P1433
P1476
Human cardiovascular adjustments to acute hypoxaemia.
@en
P2093
J R Blackmon
L B Rowell
P2860
P304
P356
10.1111/J.1475-097X.1987.TB00179.X
P577
1987-10-01T00:00:00Z