Investigating the Effects of Ultraendurance Running on Athletes' Heart Rate and Blood Pressure.

Background While the effects of exercise on the cardiovascular system are well documented, ultra-endurance sports involve distances beyond the scope of traditional marathons and have grown in popularity at a staggering pace in recent years. While short-term high-intensity exercise stimulates sympathetic rises in heart rate (HR) and blood pressure (BP), the depletion of fluid and electrolyte reserves characteristic of ultra-endurance sports may contribute to decreases in overall BP after the race. If decompensation of the autonomic safety net occurs, orthostatic hypotension as a result of fluid loss during an event may cause fatigue, dizziness, syncope, or collapse.

Insult of Ultraendurance Events on Blood Pressure: A Systematic Review and Meta-Analysis.

The rise of ultraendurance sports in the past two decades warrants evaluation of the impact on the heart and vessels of a growing number of athletes participating. Blood pressure is a simple, inexpensive method to evaluate one dimension of an athlete's cardiovascular health. No systematic review or meta-analysis to date has chronicled and delineated the effects of ultraendurance races, such as ultramarathons, marathons, half-marathons, and Ironman triathlon events, specifically on heart rate (HR), systolic blood pressure (SBP), diastolic blood pressure (DBP), pulse pressure (PP), and mean arterial pressure (MAP) measurements in supine and standing positions before and after the event.

Pain sensitivity increases more in younger runners during an ultra-marathon.

Objectives: Ultra-endurance research interest has increased in parallel with an increased worldwide participation in these extreme activities. Pain-related data for the growing population of ultra-endurance athletes, however, is insufficient. More data is especially needed regarding the variation in the aging populations of these athletes.

Central and peripheral pain sensitization during an ultra-marathon competition.

Background and aims The participation in ultra-marathons and other ultra-endurance events has increased exponentially over the past decade. There is insufficient data on variation in pain mechanisms in exercise overall but especially in the ultra-endurance athlete population. To further understand peripheral and central pain sensitization we have investigated pressure pain threshold and conditioned pain modulation during three separate ultra-marathon competitions.

Anesthesia during and after exposure to microgravity.

Human spaceflight has evolved over the past 40 yr in pursuit of larger, more complex, and more distant missions. As this evolution continues, inevitably a spaceflight crewmember will require medical treatment involving anesthesia, either during flight or immediately upon return. If the need occurs during a deep space mission, onboard medical staff will need to be capable of surgery and anesthesia because evacuation and telemedicine will be impractical.