1. Micro- and macrovascular function in the highest city in the world: a cross sectional study.
- Author
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Savina Y, Pichon AP, Lemaire L, Howe CA, Ulliel-Roche M, Skinner S, Nader E, Guillot N, Stauffer É, Roustit M, Hancco I, Robach P, Esteve F, Pialoux V, Perger E, Parati G, Ainslie PN, Doutreleau S, Connes P, Verges S, and Brugniaux JV
- Abstract
Background: Since vascular responses to hypoxia in both healthy high-altitude natives and chronic mountain sickness (a maladaptive high-altitude pathology characterised by excessive erythrocytosis and the presence of symptoms-CMS) remain unclear, the role of inflammation and oxidative/nitrosative stress on the endothelium- dependent and - independent responses in both the micro- and macrocirculation, in healthy Andeans at different altitudes and in CMS patients, was examined., Methods: 94 men were included: 18 lowlanders (LL), 38 healthy highlanders permanently living at 3800 m (n = 21-HL-3800) or in La Rinconada, the highest city in the world (5100-5300 m) (n = 17-HL-5100/No CMS). Moreover, 14 participants with mild (Mild CMS) and 24 with moderate to severe CMS (Mod/Sev CMS) were recruited. All undertook two reactivity tests: i) local thermal hyperaemia (microcirculation) and ii) flow-mediated dilation (macrocirculation). Endothelium- independent function (glyceryl trinitrate) was also assessed only in La Rinconada., Findings: Conductance and skin blood flow velocity during the microcirculation test, as well as macrocirculation progressively decreased with altitude (LL > HL-3800 > HL-5100/No CMS). CMS also induced a decrease in macrocirculation (HL-5100/No CMS > Mild CMS = Mod/Sev CMS), while glyceryl trinitrate restored vascular function. Both oxidative stress and nitric oxide metabolites increased with altitude only. Principal component analysis revealed that increasing inflammation with altitude was associated with a progressive decline in both micro- and macrovascular function in healthy highlanders., Interpretation: Both micro and macrovascular function are affected by chronic exposure to hypoxia, the latter being further compounded by CMS., Funding: The "Fonds de dotation AGIR pour les maladies chroniques", the "Air Liquide Foundation", and the "French National Research Agency"., Competing Interests: None., (© 2024 The Authors.)
- Published
- 2024
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