Jump to content

Cardiovascular drift

From Wikipedia, the free encyclopedia

This is an old revision of this page, as edited by James .0101 (talk | contribs) at 08:00, 25 June 2020. The present address (URL) is a permanent link to this revision, which may differ significantly from the current revision.

Cardiovascular drift (CVD, CVdrift) is the phenomenon where some cardiovascular responses begin a time dependent change, or "drift" after around 5-10 minutes of exercise in a warm or neutral environment (90 Fahrenheit+) without an increase in workload [citation needed]. It is characterised by decreases in mean arterial pressure and stroke volume and a parallel increase in heart rate[citation needed]. It has been shown that a reduction in stroke volume due to dehydration is almost always due to the increase in internal temperature[citation needed]. It is influenced by many factors, most notably the ambient temperature, internal temperature, hydration and the amount of muscle tissue activated during exercise[citation needed]. To promote cooling, blood flow to the skin is increased, resulting in a shift in fluids from blood plasma to the skin tissue[citation needed]. This results in a decrease in pulmonary arterial pressure and reduced stroke volume in the heart[citation needed]. To maintain cardiac output at reduced pressure, the heart rate must be increased.

Effects of cardiovascular drift are mainly focused around a higher RPE (Rate of Perceived Effort); that is, a person will feel like they are expending more energy when they are not[citation needed]. This creates a mental block that can inhibit performance greatly[citation needed].

Prevention or minimization of cardiovascular drift includes consistently replacing fluids and maintaining electrolyte balance during exercise, acclimatization to the environment in which one is performing, and weight training[citation needed] to supplement cardiovascular efforts.

References

  • McArdle W., Katch F., Katch V., "Exercise physiology: energy, nutrition, and human performance, Edition 6", Lippincott Williams & Wilkins, 2007
  • Cerny F., Burton H., "Exercise physiology for health care professionals", Human Kinetics, 2001
  • Kounalakis S., Nassis G., Koskolou M., Geladas N., "The role of active muscle mass on exercise-induced cardiovascular drift", Journal of Sports Science and Medicine, Sept, 2008
  • Maher, Maurice. "Cardiac Drift and Ironman Performance." Multisport Solutions. N.p., 24 Aug. 2012. Web. 11 Dec. 2013.
  • Coyle EF, González-Alonso J. Cardiovascular drift during prolonged exercise: new perspectives. Exerc Sport Sci Rev. 2001 Apr;29(2):88-92. Review. PubMed PMID 11337829.