Redox‐regulation of haemostasis in hypoxic exercising humans: a randomised double‐blind placebo‐controlled antioxidant study

Key points In vitro evidence has identified that coagulation is activated by increased oxidative stress, though the link and underlying mechanism in humans have yet to be established. We conducted the first randomised controlled trial in healthy participants to examine if oral antioxidant prophylaxi...

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Published in:The Journal of physiology 2018-10, Vol.596 (20), p.4879-4891
Main Authors: Fall, Lewis, Brugniaux, Julien V., Davis, Danielle, Marley, Christopher J., Davies, Bruce, New, Karl J., McEneny, Jane, Young, Ian S., Bailey, Damian M.
Format: Article
Language:English
Subjects:
Acetic acid
activated coagulation
Antioxidants
Antithrombin
Ascorbic acid
Blood coagulation
Cellulose
Dietary supplements
Double-blind studies
Exercise
Free radicals
haemostasis
Hypoxia
Olfaction
Oxidative stress
Prophylaxis
Research Paper
Thrombin
Vitamin E
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cited_by cdi_FETCH-LOGICAL-c4394-cb96391836c976e9f64ed20cb9fa31b22025636c0128e5b5033bc6c0555482e63
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creator Fall, Lewis
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description Key points In vitro evidence has identified that coagulation is activated by increased oxidative stress, though the link and underlying mechanism in humans have yet to be established. We conducted the first randomised controlled trial in healthy participants to examine if oral antioxidant prophylaxis alters the haemostatic responses to hypoxia and exercise given their synergistic capacity to promote free radical formation. Systemic free radical formation was shown to increase during hypoxia and was further compounded by exercise, responses that were attenuated by antioxidant prophylaxis. In contrast, antioxidant prophylaxis increased thrombin generation at rest in normoxia, and this was normalised only in the face of prevailing oxidation. Collectively, these findings suggest that human free radical formation is an adaptive phenomenon that serves to maintain vascular haemostasis. In vitro evidence suggests that blood coagulation is activated by increased oxidative stress although the link and underlying mechanism in humans have yet to be established. We conducted the first randomised controlled trial to examine if oral antioxidant prophylaxis alters the haemostatic responses to hypoxia and exercise. Healthy males were randomly assigned double‐blind to either an antioxidant (n = 20) or placebo group (n = 16). The antioxidant group ingested two capsules/day that each contained 500 mg of l‐ascorbic acid and 450 international units (IU) of dl‐α‐tocopherol acetate for 8 weeks. The placebo group ingested capsules of identical external appearance, taste and smell (cellulose). Both groups were subsequently exposed to acute hypoxia and maximal physical exercise with venous blood sampled pre‐supplementation (normoxia), post‐supplementation at rest (normoxia and hypoxia) and following maximal exercise (hypoxia). Systemic free radical formation (electron paramagnetic resonance spectroscopic detection of the ascorbate radical (A•−)) increased during hypoxia (15,152 ± 1193 AU vs. 14,076 ± 810 AU at rest, P 
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We conducted the first randomised controlled trial in healthy participants to examine if oral antioxidant prophylaxis alters the haemostatic responses to hypoxia and exercise given their synergistic capacity to promote free radical formation. Systemic free radical formation was shown to increase during hypoxia and was further compounded by exercise, responses that were attenuated by antioxidant prophylaxis. In contrast, antioxidant prophylaxis increased thrombin generation at rest in normoxia, and this was normalised only in the face of prevailing oxidation. Collectively, these findings suggest that human free radical formation is an adaptive phenomenon that serves to maintain vascular haemostasis. In vitro evidence suggests that blood coagulation is activated by increased oxidative stress although the link and underlying mechanism in humans have yet to be established. We conducted the first randomised controlled trial to examine if oral antioxidant prophylaxis alters the haemostatic responses to hypoxia and exercise. Healthy males were randomly assigned double‐blind to either an antioxidant (n = 20) or placebo group (n = 16). The antioxidant group ingested two capsules/day that each contained 500 mg of l‐ascorbic acid and 450 international units (IU) of dl‐α‐tocopherol acetate for 8 weeks. The placebo group ingested capsules of identical external appearance, taste and smell (cellulose). Both groups were subsequently exposed to acute hypoxia and maximal physical exercise with venous blood sampled pre‐supplementation (normoxia), post‐supplementation at rest (normoxia and hypoxia) and following maximal exercise (hypoxia). Systemic free radical formation (electron paramagnetic resonance spectroscopic detection of the ascorbate radical (A•−)) increased during hypoxia (15,152 ± 1193 AU vs. 14,076 ± 810 AU at rest, P &lt; 0.05) and was further compounded by exercise (16,569 ± 1616 AU vs. rest, P &lt; 0.05), responses that were attenuated by antioxidant prophylaxis. In contrast, antioxidant prophylaxis increased thrombin generation as measured by thrombin–antithrombin complex, at rest in normoxia (28.7 ± 6.4 vs. 4.3 ± 0.2 μg mL−1 pre‐intervention, P &lt; 0.05) and was restored but only in the face of prevailing oxidation. Collectively, these findings are the first to suggest that human free radical formation likely reflects an adaptive response that serves to maintain vascular haemostasis. Key points In vitro evidence has identified that coagulation is activated by increased oxidative stress, though the link and underlying mechanism in humans have yet to be established. We conducted the first randomised controlled trial in healthy participants to examine if oral antioxidant prophylaxis alters the haemostatic responses to hypoxia and exercise given their synergistic capacity to promote free radical formation. Systemic free radical formation was shown to increase during hypoxia and was further compounded by exercise, responses that were attenuated by antioxidant prophylaxis. In contrast, antioxidant prophylaxis increased thrombin generation at rest in normoxia, and this was normalised only in the face of prevailing oxidation. 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We conducted the first randomised controlled trial in healthy participants to examine if oral antioxidant prophylaxis alters the haemostatic responses to hypoxia and exercise given their synergistic capacity to promote free radical formation. Systemic free radical formation was shown to increase during hypoxia and was further compounded by exercise, responses that were attenuated by antioxidant prophylaxis. In contrast, antioxidant prophylaxis increased thrombin generation at rest in normoxia, and this was normalised only in the face of prevailing oxidation. Collectively, these findings suggest that human free radical formation is an adaptive phenomenon that serves to maintain vascular haemostasis. In vitro evidence suggests that blood coagulation is activated by increased oxidative stress although the link and underlying mechanism in humans have yet to be established. We conducted the first randomised controlled trial to examine if oral antioxidant prophylaxis alters the haemostatic responses to hypoxia and exercise. Healthy males were randomly assigned double‐blind to either an antioxidant (n = 20) or placebo group (n = 16). The antioxidant group ingested two capsules/day that each contained 500 mg of l‐ascorbic acid and 450 international units (IU) of dl‐α‐tocopherol acetate for 8 weeks. The placebo group ingested capsules of identical external appearance, taste and smell (cellulose). Both groups were subsequently exposed to acute hypoxia and maximal physical exercise with venous blood sampled pre‐supplementation (normoxia), post‐supplementation at rest (normoxia and hypoxia) and following maximal exercise (hypoxia). 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We conducted the first randomised controlled trial in healthy participants to examine if oral antioxidant prophylaxis alters the haemostatic responses to hypoxia and exercise given their synergistic capacity to promote free radical formation. Systemic free radical formation was shown to increase during hypoxia and was further compounded by exercise, responses that were attenuated by antioxidant prophylaxis. In contrast, antioxidant prophylaxis increased thrombin generation at rest in normoxia, and this was normalised only in the face of prevailing oxidation. Collectively, these findings suggest that human free radical formation is an adaptive phenomenon that serves to maintain vascular haemostasis.</description><subject>Acetic acid</subject><subject>activated coagulation</subject><subject>Antioxidants</subject><subject>Antithrombin</subject><subject>Ascorbic acid</subject><subject>Blood coagulation</subject><subject>Cellulose</subject><subject>Dietary supplements</subject><subject>Double-blind studies</subject><subject>Exercise</subject><subject>Free radicals</subject><subject>haemostasis</subject><subject>Hypoxia</subject><subject>Olfaction</subject><subject>Oxidative stress</subject><subject>Prophylaxis</subject><subject>Research Paper</subject><subject>Thrombin</subject><subject>Vitamin E</subject><issn>0022-3751</issn><issn>1469-7793</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2018</creationdate><recordtype>article</recordtype><recordid>eNp1kcuKFTEQhoMoznEUfAIJuHHTYypJpzsuhGHwNgw4yLgO6XT1ORnSybHTrefsxCfwGX0SI3PxAq6KSn18-Ysi5DGwIwAQz0_PeaMkyDtkBVLpqmm0uEtWjHFeiaaGA_Ig50vGQDCt75MDrnWroYEV-fYB-7T78fX7hOsl2NmnSNNANxbHlGebfaY-0s1-m3beUdzh5Hz2cU03y2hjfkEtnWzs0-gz9rRPSxew2LrgY0-3wTrsUuldivOUQiiMjeWTne9LpXle-v1Dcm-wIeOj63pIPr5-dXHytjp7_-bdyfFZ5aTQsnKdVkJDK5TTjUI9KIk9Z-V5sAI6zhmvVRky4C3WXc2E6Fxp67qWLUclDsnLK-926UbsHZZINpjt5Ec77U2y3vw9iX5j1umzUdA2TOgieHYtmNKnBfNsytYOQ7AR05INZ6ppW6mYLOjTf9DLtEyxrGc4gG6h1ZL_Frop5TzhcBsGmPl1WHNz2II--TP8LXhzyQIcXQFffMD9f0Xm4vQcBEgpfgJ-L7Du</recordid><startdate>201810</startdate><enddate>201810</enddate><creator>Fall, Lewis</creator><creator>Brugniaux, Julien V.</creator><creator>Davis, Danielle</creator><creator>Marley, Christopher J.</creator><creator>Davies, Bruce</creator><creator>New, Karl J.</creator><creator>McEneny, Jane</creator><creator>Young, Ian S.</creator><creator>Bailey, Damian M.</creator><general>Wiley Subscription Services, Inc</general><general>John Wiley and Sons Inc</general><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7QP</scope><scope>7QR</scope><scope>7TK</scope><scope>7TS</scope><scope>8FD</scope><scope>FR3</scope><scope>P64</scope><scope>7X8</scope><scope>5PM</scope><orcidid>https://orcid.org/0000-0003-0498-7095</orcidid></search><sort><creationdate>201810</creationdate><title>Redox‐regulation of haemostasis in hypoxic exercising humans: a randomised double‐blind placebo‐controlled antioxidant study</title><author>Fall, Lewis ; 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We conducted the first randomised controlled trial in healthy participants to examine if oral antioxidant prophylaxis alters the haemostatic responses to hypoxia and exercise given their synergistic capacity to promote free radical formation. Systemic free radical formation was shown to increase during hypoxia and was further compounded by exercise, responses that were attenuated by antioxidant prophylaxis. In contrast, antioxidant prophylaxis increased thrombin generation at rest in normoxia, and this was normalised only in the face of prevailing oxidation. Collectively, these findings suggest that human free radical formation is an adaptive phenomenon that serves to maintain vascular haemostasis. In vitro evidence suggests that blood coagulation is activated by increased oxidative stress although the link and underlying mechanism in humans have yet to be established. We conducted the first randomised controlled trial to examine if oral antioxidant prophylaxis alters the haemostatic responses to hypoxia and exercise. Healthy males were randomly assigned double‐blind to either an antioxidant (n = 20) or placebo group (n = 16). The antioxidant group ingested two capsules/day that each contained 500 mg of l‐ascorbic acid and 450 international units (IU) of dl‐α‐tocopherol acetate for 8 weeks. The placebo group ingested capsules of identical external appearance, taste and smell (cellulose). Both groups were subsequently exposed to acute hypoxia and maximal physical exercise with venous blood sampled pre‐supplementation (normoxia), post‐supplementation at rest (normoxia and hypoxia) and following maximal exercise (hypoxia). Systemic free radical formation (electron paramagnetic resonance spectroscopic detection of the ascorbate radical (A•−)) increased during hypoxia (15,152 ± 1193 AU vs. 14,076 ± 810 AU at rest, P &lt; 0.05) and was further compounded by exercise (16,569 ± 1616 AU vs. rest, P &lt; 0.05), responses that were attenuated by antioxidant prophylaxis. In contrast, antioxidant prophylaxis increased thrombin generation as measured by thrombin–antithrombin complex, at rest in normoxia (28.7 ± 6.4 vs. 4.3 ± 0.2 μg mL−1 pre‐intervention, P &lt; 0.05) and was restored but only in the face of prevailing oxidation. Collectively, these findings are the first to suggest that human free radical formation likely reflects an adaptive response that serves to maintain vascular haemostasis. Key points In vitro evidence has identified that coagulation is activated by increased oxidative stress, though the link and underlying mechanism in humans have yet to be established. We conducted the first randomised controlled trial in healthy participants to examine if oral antioxidant prophylaxis alters the haemostatic responses to hypoxia and exercise given their synergistic capacity to promote free radical formation. Systemic free radical formation was shown to increase during hypoxia and was further compounded by exercise, responses that were attenuated by antioxidant prophylaxis. In contrast, antioxidant prophylaxis increased thrombin generation at rest in normoxia, and this was normalised only in the face of prevailing oxidation. Collectively, these findings suggest that human free radical formation is an adaptive phenomenon that serves to maintain vascular haemostasis.</abstract><cop>England</cop><pub>Wiley Subscription Services, Inc</pub><pmid>29989171</pmid><doi>10.1113/JP276414</doi><tpages>13</tpages><orcidid>https://orcid.org/0000-0003-0498-7095</orcidid><oa>free_for_read</oa></addata></record>
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subjects Acetic acid
activated coagulation
Antioxidants
Antithrombin
Ascorbic acid
Blood coagulation
Cellulose
Dietary supplements
Double-blind studies
Exercise
Free radicals
haemostasis
Hypoxia
Olfaction
Oxidative stress
Prophylaxis
Research Paper
Thrombin
Vitamin E
title Redox‐regulation of haemostasis in hypoxic exercising humans: a randomised double‐blind placebo‐controlled antioxidant study
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