Changing patterns of neuropsychological functioning in children living at high altitude above and below 4000m: A report from the Bolivian Children Living at Altitude (BoCLA) study
Changing patterns of neuropsychological functioning in children living at high altitude above and below 4000m: A report from the Bolivian Children Living at Altitude (BoCLA) study
The brain is highly sensitive to environmental hypoxia. Little is known, however, about the neuropsychological effects of high altitude residence in the developing brain. We recently described only minor changes in processing speed in native Bolivian children and adolescents living at approximately 3700m. However, evidence for loss of cerebral autoregulation above this altitude (4000m) suggests a potential threshold of hypoxia severity over which neuropsychological functioning may be compromised. We conducted physiological and neuropsychological assessments in 62 Bolivian children and adolescents living at La Paz (~3700m) and El Alto (~4100m) in order to address this issue. Groups were equivalent in terms of age, gender, social class, schooling, parental education and genetic admixture. Apart from percentage of hemoglobin saturated with oxygen in arterial blood (%SpO 2), participants did not differ in their basal cardiac and cerebrovascular performance as explored by heart rate, mean arterial pressure, end-tidal carbon dioxide, and cerebral blood flow velocity at the basilar, anterior, middle and posterior cerebral arteries. A comprehensive neuropsychological assessment was administered, including tests of executive functions, attention, memory and psychomotor performance. Participants living at extreme altitude showed lower levels of performance in all executive tests (Cohen effect size=-0.91), whereas all other domains remained unaffected by altitude of residence. These results are compatible with earlier physiological evidence of a transitional zone for cerebral autoregulation at an altitude of 4000m. We now show that above this threshold, the developing brain is apparently increasingly vulnerable to neuropsychological deficit.
1185-1193
Virués-Ortega, Javier
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Bucks, Romola
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Kirkham, Fenella J.
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Baldeweg, Torsten
e6ba710f-1634-48fe-84b9-84141cc2ad54
Baya-Botti, Ana
df674a6a-c5cb-44e6-a3d7-da4d243e40ce
Hogan, Alexandra M.
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September 2011
Virués-Ortega, Javier
19ab56b9-d38c-47c7-9e24-57fbcdc31a27
Bucks, Romola
aee41f56-d77c-44a1-a310-cc885edf149a
Kirkham, Fenella J.
1dfbc0d5-aebe-4439-9fb2-dac6503bcd58
Baldeweg, Torsten
e6ba710f-1634-48fe-84b9-84141cc2ad54
Baya-Botti, Ana
df674a6a-c5cb-44e6-a3d7-da4d243e40ce
Hogan, Alexandra M.
fca40672-6980-46b5-883f-e85b71cf07f1
Virués-Ortega, Javier, Bucks, Romola, Kirkham, Fenella J., Baldeweg, Torsten, Baya-Botti, Ana and Hogan, Alexandra M.
(2011)
Changing patterns of neuropsychological functioning in children living at high altitude above and below 4000m: A report from the Bolivian Children Living at Altitude (BoCLA) study.
Developmental Science, 14 (5), .
(doi:10.1111/j.1467-7687.2011.01064.x).
Abstract
The brain is highly sensitive to environmental hypoxia. Little is known, however, about the neuropsychological effects of high altitude residence in the developing brain. We recently described only minor changes in processing speed in native Bolivian children and adolescents living at approximately 3700m. However, evidence for loss of cerebral autoregulation above this altitude (4000m) suggests a potential threshold of hypoxia severity over which neuropsychological functioning may be compromised. We conducted physiological and neuropsychological assessments in 62 Bolivian children and adolescents living at La Paz (~3700m) and El Alto (~4100m) in order to address this issue. Groups were equivalent in terms of age, gender, social class, schooling, parental education and genetic admixture. Apart from percentage of hemoglobin saturated with oxygen in arterial blood (%SpO 2), participants did not differ in their basal cardiac and cerebrovascular performance as explored by heart rate, mean arterial pressure, end-tidal carbon dioxide, and cerebral blood flow velocity at the basilar, anterior, middle and posterior cerebral arteries. A comprehensive neuropsychological assessment was administered, including tests of executive functions, attention, memory and psychomotor performance. Participants living at extreme altitude showed lower levels of performance in all executive tests (Cohen effect size=-0.91), whereas all other domains remained unaffected by altitude of residence. These results are compatible with earlier physiological evidence of a transitional zone for cerebral autoregulation at an altitude of 4000m. We now show that above this threshold, the developing brain is apparently increasingly vulnerable to neuropsychological deficit.
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Accepted/In Press date: 15 March 2011
e-pub ahead of print date: 21 July 2011
Published date: September 2011
Identifiers
Local EPrints ID: 429218
URI: http://eprints.soton.ac.uk/id/eprint/429218
ISSN: 1363-755X
PURE UUID: c099ef28-17af-40fb-b445-34389576eadf
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Date deposited: 22 Mar 2019 17:30
Last modified: 16 Mar 2024 03:22
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Author:
Javier Virués-Ortega
Author:
Romola Bucks
Author:
Torsten Baldeweg
Author:
Ana Baya-Botti
Author:
Alexandra M. Hogan
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