Publication:

Acute high altitude exposure, acclimatization and re-exposure on nocturnal breathing

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Date

Date
2022
Journal Article
Published version
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cris.lastimport.scopus2025-06-16T03:39:09Z
cris.lastimport.wos2025-07-26T01:50:05Z
cris.virtual.orcid0000-0002-5250-5022
cris.virtualsource.orcid01f1e08d-94e4-430a-bc35-9ea711c6db69
dc.contributor.institutionUniversity of Zurich
dc.date.accessioned2022-10-12T13:13:57Z
dc.date.available2022-10-12T13:13:57Z
dc.date.issued2022-09-05
dc.description.abstract

Background: Effects of prolonged and repeated high-altitude exposure on oxygenation and control of breathing remain uncertain. We hypothesized that prolonged and repeated high-altitude exposure will improve altitude-induced deoxygenation and breathing instability. Methods: 21 healthy lowlanders, aged 18-30y, underwent two 7-day sojourns at a high-altitude station in Chile (4-8 hrs/day at 5,050 m, nights at 2,900 m), separated by a 1-week recovery period at 520 m. Respiratory sleep studies recording mean nocturnal pulse oximetry (SpO2), oxygen desaturation index (ODI, >3% dips in SpO2), breathing patterns and subjective sleep quality by visual analog scale (SQ-VAS, 0-100% with increasing quality), were evaluated at 520 m and during nights 1 and 6 at 2,900 m in the 1st and 2nd altitude sojourn. Results: At 520 m, mean ± SD nocturnal SpO2 was 94 ± 1%, ODI 2.2 ± 1.2/h, SQ-VAS 59 ± 20%. Corresponding values at 2,900 m, 1st sojourn, night 1 were: SpO2 86 ± 2%, ODI 23.4 ± 22.8/h, SQ-VAS 39 ± 23%; 1st sojourn, night 6: SpO2 90 ± 1%, ODI 7.3 ± 4.4/h, SQ-VAS 55 ± 20% (p < 0.05, all differences within corresponding variables). Mean differences (Δ, 95%CI) in acute effects (2,900 m, night 1, vs 520 m) between 2nd vs 1st altitude sojourn were: ΔSpO2 0% (-1 to 1), ΔODI -9.2/h (-18.0 to -0.5), ΔSQ-VAS 10% (-6 to 27); differences in acclimatization (changes night 6 vs 1), between 2nd vs 1st sojourn at 2,900 m were: ΔSpO2 -1% (-2 to 0), ΔODI 11.1/h (2.5 to 19.7), ΔSQ-VAS -15% (-31 to 1). Conclusion: Acute high-altitude exposure induced nocturnal hypoxemia, cyclic deoxygenations and impaired sleep quality. Acclimatization mitigated these effects. After recovery at 520 m, repeated exposure diminished high-altitude-induced deoxygenation and breathing instability, suggesting some retention of adaptation induced by the first altitude sojourn while subjective sleep quality remained similarly impaired.

Keywords: altitude (MeSH); hypoxia; respiration - physiology; respiratory polygraphy; sleep-disordered breathing.

dc.identifier.doi10.3389/fphys.2022.965021
dc.identifier.issn1664-042X
dc.identifier.scopus2-s2.0-85138226717
dc.identifier.urihttps://www.zora.uzh.ch/handle/20.500.14742/197985
dc.identifier.wos000860278800001
dc.language.isoeng
dc.subjectPhysiology (medical)
dc.subjectPhysiology
dc.subject.ddc610 Medicine & health
dc.title

Acute high altitude exposure, acclimatization and re-exposure on nocturnal breathing

dc.typearticle
dcterms.accessRightsinfo:eu-repo/semantics/openAccess
dcterms.bibliographicCitation.journaltitleFrontiers in Physiology
dcterms.bibliographicCitation.originalpublishernameFrontiers Research Foundation
dcterms.bibliographicCitation.pagestart965021
dcterms.bibliographicCitation.pmid36134332
dcterms.bibliographicCitation.volume13
dspace.entity.typePublicationen
uzh.contributor.affiliationUniversitatsSpital Zurich
uzh.contributor.affiliationUniversitatsSpital Zurich
uzh.contributor.affiliationHotchkiss Brain Institute
uzh.contributor.affiliationUniversitatsSpital Zurich
uzh.contributor.affiliationUniversitatsSpital Zurich
uzh.contributor.affiliationUniversitatsSpital Zurich
uzh.contributor.affiliationCumming School of Medicine
uzh.contributor.affiliationUniversitatsSpital Zurich
uzh.contributor.affiliationHotchkiss Brain Institute
uzh.contributor.affiliationUniversitatsSpital Zurich
uzh.contributor.authorFurian, Michael
uzh.contributor.authorBitos, Konstantinos
uzh.contributor.authorHartmann, Sara E
uzh.contributor.authorMuralt, Lara
uzh.contributor.authorLichtblau, Mona
uzh.contributor.authorBader, Patrick R
uzh.contributor.authorRawling, Jean M
uzh.contributor.authorUlrich, Silvia
uzh.contributor.authorPoulin, Marc J
uzh.contributor.authorBloch, Konrad E
uzh.contributor.correspondenceNo
uzh.contributor.correspondenceNo
uzh.contributor.correspondenceNo
uzh.contributor.correspondenceNo
uzh.contributor.correspondenceNo
uzh.contributor.correspondenceNo
uzh.contributor.correspondenceNo
uzh.contributor.correspondenceNo
uzh.contributor.correspondenceNo
uzh.contributor.correspondenceYes
uzh.document.availabilitypublished_version
uzh.eprint.datestamp2022-10-12 13:13:57
uzh.eprint.lastmod2025-07-26 01:57:45
uzh.eprint.statusChange2022-10-12 13:13:57
uzh.harvester.ethYes
uzh.harvester.nbNo
uzh.identifier.doi10.5167/uzh-221272
uzh.jdb.eprintsId26276
uzh.oastatus.unpaywallgold
uzh.oastatus.zoraGold
uzh.publication.citationFurian, Michael; Bitos, Konstantinos; Hartmann, Sara E; Muralt, Lara; Lichtblau, Mona; Bader, Patrick R; Rawling, Jean M; Ulrich, Silvia; Poulin, Marc J; Bloch, Konrad E (2022). Acute high altitude exposure, acclimatization and re-exposure on nocturnal breathing. Frontiers in Physiology, 13:965021.
uzh.publication.freeAccessAtpubmedid
uzh.publication.originalworkoriginal
uzh.publication.publishedStatusfinal
uzh.scopus.impact12
uzh.scopus.subjectsPhysiology
uzh.scopus.subjectsPhysiology (medical)
uzh.workflow.doajuzh.workflow.doaj.true
uzh.workflow.eprintid221272
uzh.workflow.fulltextStatuspublic
uzh.workflow.revisions41
uzh.workflow.rightsCheckkeininfo
uzh.workflow.sourceCrossref:10.3389/fphys.2022.965021
uzh.workflow.statusarchive
uzh.wos.impact11
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