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A cikk állandó MOB linkje:
http://mob.gyemszi.hu/detailsperm.jsp?PERMID=154894
MOB:2022/2
Szerzők:Stanford, Daphney M.; Mouser, J. Grant; Chatlaong, Matthew A.; Jessee, Matthew B.
Tárgyszavak:ARTERIA-ELZÁRÓDÁSOS BETEGSÉGEK; ARTERIÁK; VÉREDÉNYEK
Folyóirat:Physiology International - 2022. 109. évf. 2. sz.
[https://akjournals.com/view/journals/2060/2060-overview.xml]


  A narrative review of the effects of blood flow restriction on vascular structure and function / Daphney M. Stanford [et al.]
  Bibliogr.: p. 198-203. - Abstr. eng. - DOI: https://doi.org/10.1556/2060.2022.00223
  In: Physiology International. - ISSN 2498-602X, eISSN 2677-0164. - 2022. 109. évf. 2. sz., p. 186-203.


Blood flow restriction is growing in popularity as a tool for increasing muscular size and strength. Currently, guidelines exist for using blood flow restriction alone and in combination with endurance and resistance exercise. However, only about 1.3% of practitioners familiar with blood flow restriction applications have utilized it for vascular changes, suggesting many of the guidelines are based on skeletal muscle outcomes. Thus, this narrative review is intended to explore the literature available in which blood flow restriction, or a similar application, assess the changes in vascular structure or function. Based on the literature, there is a knowledge gap in how applying blood flow restriction with relative pressures may alter the vasculature when applied alone, with endurance exercise, and with resistance exercise. In many instances, the application of blood flow restriction was not in accordance with the current guidelines, making it difficult to draw definitive conclusions as to how the vascular system would be affected. Additionally, several studies report no change in vascular structure or function, but few studies look at variables for both outcomes. By examining outcomes for both structure and function, investigators would be able to generate recommendations for the use of blood flow restriction to improve vascular structure and/or function in the future.  Kulcsszavak: vascular adaptations, arterial occlusion, angiogenesis, arterial stiffness, flow mediated dilation, blood flow restriction