about
Towards sustainable partnerships in global health: the case of the CRONICAS Centre of Excellence in Chronic Diseases in PeruVascular endothelial growth factor-A is associated with chronic mountain sickness in the Andean population.Oxygen saturation and heart rate in healthy school children and adolescents living at high altitude.Prevalence, clinical profile, iron status, and subject-specific traits for excessive erythrocytosis in andean adults living permanently at 3,825 meters above sea levelAngiotensin-converting enzyme genotype and arterial oxygen saturation at high altitude in Peruvian Quechua.The autonomic nervous system at high altitude.Developmental Effects Determine Submaximal Arterial Oxygen Saturation in Peruvian QuechuaFactors behind the success story of under-five stunting in Peru: a district ecological multilevel analysisTreatment of chronic mountain sickness: critical reappraisal of an old problem.Abnormal energy regulation in early life: childhood gene expression may predict subsequent chronic mountain sickness.Examining national and district-level trends in neonatal health in Peru through an equity lens: a success story driven by political will and societal advocacy.Pulmonary pressure and cardiac function in chronic mountain sickness patients.Cerebrovascular responses to hypoxia and hypocapnia in high-altitude dwellers.Sodium cyanate: from a promising therapeutic agent to a research tool in high altitude physiology.Is restless legs syndrome associated with chronic mountain sickness?Pregnancy at high altitude in the Andes leads to increased total vessel density in healthy newbornsSelected contribution: Peripheral chemoreflex function in high-altitude natives and patients with chronic mountain sickness.Correction: Adaptation and Mal-Adaptation to Ambient Hypoxia; Andean, Ethiopian and Himalayan Patterns.Effect of acetazolamide on ventilatory response in subjects with chronic mountain sickness.Inter and intra-species-related differences in the regulation of the cardiac autonomic system.Ancestry explains the blunted ventilatory response to sustained hypoxia and lower exercise ventilation of Quechua altitude natives.Aerobic capacity of Peruvian Quechua: a test of the developmental adaptation hypothesis.Orthostatic tolerance and blood volumes in Andean high altitude dwellers.Selected contribution: Ventilatory response to CO2 in high-altitude natives and patients with chronic mountain sickness.Selected contribution: High-altitude natives living at sea level acclimatize to high altitude like sea-level natives.Autonomic regulation during orthostatic stress in highlanders: comparison with sea-level residents.Carotid baroreflex regulation of vascular resistance in high-altitude Andean natives with and without chronic mountain sickness.Suppression of plasma hepcidin by venesection during steady-state hypoxiaRegulation of hepcidin expression at high altitudeIntravenous iron supplementation may protect against acute mountain sickness: a randomized, double-blinded, placebo-controlled trialOxygen transport at high altitude--an integrated perspective. IntroductionVentilatory and cardiovascular responses to hypoxia and exercise in Andean natives living at sea levelHematological parameters in high altitude residents living at 4,355, 4,660, and 5,500 meters above sea levelHypoxia- and normoxia-induced reversibility of autonomic control in Andean guinea pig heartCorrection: Adaptation and Mal-Adaptation to Ambient Hypoxia; Andean, Ethiopian and Himalayan Patterns
P50
Q26743692-3CF07ED3-1EFB-4A8D-BAE9-98303A93555EQ33820044-310DF6F9-8483-4117-A336-7B294320BD6CQ33956486-F037D2C1-9A1F-41C9-92E8-220E0A1E0D5DQ34448365-1DF3787D-FEBE-468B-B9EE-5A6B8196C04BQ35117852-64C1D8BB-5699-4CA5-AE6B-D092DEB8E7ADQ35633793-A58A9E82-BB58-4AF4-8EF1-1B7329C52EA9Q35814677-8F7ED5C2-04AF-4EA7-8453-679448D8B5D8Q36254389-E76FD12E-3B4F-468E-BA8E-24A46267717EQ36853853-70DF9265-8A05-4E7C-BEA0-C4D43FD92D92Q36969942-FA74CDC4-7365-4EC3-9F10-7E5978A28946Q37261010-B1C9F6BF-AB49-4EE7-9158-7B5A6C77DE55Q38387779-C1A88EF8-0D67-4B7E-BCE7-6772F9624533Q39367674-E8E6FEAA-D2D1-4B60-9753-BEC6E33A65E7Q41581955-CFBD2EFA-02B7-4861-B482-B75CA5343E3FQ41706208-E881AE12-8E99-4956-94BB-1D62874CFE1FQ42208248-B54C79B0-31DF-4254-AF81-34571C49D6C2Q44304914-1F9E3DEB-0732-4B99-BA40-1C0EE7EBE6E7Q46166803-1F5BAA65-29AF-4E33-9CD0-AE46587AFF6CQ46500433-E7D186DE-5228-4A67-B11B-A1DEB05BCE14Q46552453-A2F93ADE-6549-4960-8780-C5B201F895D1Q47283709-B82BCF8D-3505-47FF-B729-71B4CA11299EQ47589411-37D6FAE8-1624-4445-BCF5-21F5DC5831AFQ50489561-9B15EA4F-104F-4BE7-8C50-014BF9ADF8C9Q51687670-B6EA7F2E-6D54-40C8-AC86-065823128379Q51687675-86D4AF7B-51B3-4550-BA8E-08CFEAAB8EEEQ52854842-9B6788EC-78FF-4259-92FD-94CEEBAE2A90Q52855652-2EB2BAE8-FCE2-4AB5-AAEF-1936782B5550Q57094615-00085A76-0E00-4831-9F4C-6D092AFA592FQ57099354-0A427DBF-6640-4526-A498-88EBD465A57DQ57099992-89278625-920B-441A-BA68-ABBC53B57477Q57104622-93690E0C-948F-41C6-869D-5789F3A3DBCBQ57111455-1C65A2FD-489C-4FF5-8C2C-718E2BDAC139Q57112880-FFEA9FF9-C5E7-4DF0-A19F-AE25D3ECABB0Q57116574-AA377594-F603-4B73-B4FC-7230FF4DF051Q94333244-D8238546-6CD4-4D65-8717-A96DA42092BC
P50
description
researcher
@en
wetenschapper
@nl
name
M Rivera-Chira
@en
M Rivera-Chira
@nl
type
label
M Rivera-Chira
@en
M Rivera-Chira
@nl
prefLabel
M Rivera-Chira
@en
M Rivera-Chira
@nl
P106
P31
P496
0000-0001-9470-6642