Enhanced flow-motion complexity of skin microvascular perfusion in Sherpas and lowlanders during ascent to high altitude

An increased and more effective microvascular perfusion is postulated to play a key role in the physiological adaptation of Sherpa highlanders to the hypobaric hypoxia encountered at high altitude. To investigate this, we used Lempel-Ziv complexity (LZC) analysis to explore the spatiotemporal dynami...

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Veröffentlicht in:	Scientific reports 2019-10, Vol.9 (1), p.14391-12, Article 14391
Hauptverfasser:	Carey, Deborah, Thanaj, Marjola, Davies, Thomas, Gilbert-Kawai, Edward, Mitchell, Kay, Levett, Denny Z. H., Mythen, Michael G., Martin, Daniel S., Grocott, Michael P., Chipperfield, Andrew J., Clough, Geraldine F.
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Schlagworte:	631/443/1338/2729 639/166/985 Acclimatization Adult Altitude Female Forearm Heterogeneity High-altitude environments Humanities and Social Sciences Humans Hypoxia Hypoxia - physiopathology Male Microcirculation - physiology Microvasculature multidisciplinary Oxygen - metabolism Oxygenation Perfusion Science Science (multidisciplinary) Skin Skin - blood supply
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creator	Carey, Deborah Thanaj, Marjola Davies, Thomas Gilbert-Kawai, Edward Mitchell, Kay Levett, Denny Z. H. Mythen, Michael G. Martin, Daniel S. Grocott, Michael P. Chipperfield, Andrew J. Clough, Geraldine F.
description	An increased and more effective microvascular perfusion is postulated to play a key role in the physiological adaptation of Sherpa highlanders to the hypobaric hypoxia encountered at high altitude. To investigate this, we used Lempel-Ziv complexity (LZC) analysis to explore the spatiotemporal dynamics of the variability of the skin microvascular blood flux (BF) signals measured at the forearm and finger, in 32 lowlanders (LL) and 46 Sherpa highlanders (SH) during the Xtreme Everest 2 expedition. Measurements were made at baseline (BL) (LL: London 35 m; SH: Kathmandu 1300 m) and at Everest base camp (LL and SH: EBC 5,300 m). We found that BF signal content increased with ascent to EBC in both SH and LL. At both altitudes, LZC of the BF signals was significantly higher in SH, and was related to local slow-wave flow-motion activity over multiple spatial and temporal scales. In SH, BF LZC was also positively associated with LZC of the simultaneously measured tissue oxygenation signals. These data provide robust mechanistic information of microvascular network functionality and flexibility during hypoxic exposure on ascent to high altitude. They demonstrate the importance of a sustained heterogeneity of network perfusion, associated with local vaso-control mechanisms, to effective tissue oxygenation during hypobaric hypoxia.
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subjects	631/443/1338/2729 639/166/985 Acclimatization Adult Altitude Female Forearm Heterogeneity High-altitude environments Humanities and Social Sciences Humans Hypoxia Hypoxia - physiopathology Male Microcirculation - physiology Microvasculature multidisciplinary Oxygen - metabolism Oxygenation Perfusion Science Science (multidisciplinary) Skin Skin - blood supply
title	Enhanced flow-motion complexity of skin microvascular perfusion in Sherpas and lowlanders during ascent to high altitude
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