Chronic periodic fluid redistribution effect on muscle calcium in healthy subjects during prolonged hypokinesia.

Studies have shown that chronic periodic fluid shifting upwards is not sensed as excessive fluid volume and excretion mechanisms are not activated. To determine if chronic periodic fluid and volume shifting upwards can affect muscle calcium (Ca(2+)) during hypokinesia (HK) we measured muscle Ca(2+) content, plasma Ca(2+) concentration, and Ca(2+) losses in urine and feces. Studies were conducted on 40 healthy male volunteers.

The impact of physical exercise on calcium balance in healthy subjects during prolonged hypokinesia.

Objective: To determine whether during hypokinesia (diminished movement) periodic physical exercise affects calcium (Ca(2+)) balance and Ca(2+) loss.

Methods: Studies were conducted on 30 physically healthy male volunteers during the preexperimental period of 30 days and the experimental period of 364 days. They were equally divided into three groups: active control subjects (ACS), hypokinetic subjects (HKS), and periodic training subjects (PTS).

Phosphate deposition during and after hypokinesia in phosphate supplemented and unsupplemented rats.

The objective of this study was to show that prolonged restriction of motor activity (hypokinesia) could reduce phosphate (P) deposition and contribute to P loss with tissue P depletion. To this end, measurements were made of tissue P content, P absorption, plasma P levels, urinary and fecal P excretion of rats during and after hypokinesia (HK) and daily phosphate supplementation. Studies were conducted on male Wistar rats during a pre-hypokinetic period, a hypokinetic period and a post-hypokinetic period.

Calcium absorption measurements in normal subjects in determining calcium deposition during prolonged hypokinesia and with and without calcium loading.

Measuring calcium (Ca) absorption, Ca balance and Ca level in serum,feces and urine during HK (hypokinesia) with and without Ca loading, the aim of this study was to disclose if prolonged HK could reduce Ca deposition more with or without Ca load contributing to greater Ca imbalance. Studies were conducted during 30-days pre-HK and 364-days HK. Forty male normal volunteers 23.