Publications by authors named "Dong-Min Sung"
With the technological advances made to expand space exploration, astronauts will spend extended amounts of time in space before returning to Earth. This situation of unloading and reloading influences human physiology, and readaptation to full weight-bearing may significantly impact astronauts' health. On Earth, similar situations can be observed in patients who are bedridden or suffer from sport-related injuries.
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- The study investigates how male and female muscles respond to microgravity and partial-gravity environments, focusing on muscle size and strength changes in rats due to biological sex and hormone influence.
- Female rats experienced greater muscle loss and strength decline compared to males under both microgravity and partial-gravity conditions, regardless of surgical interventions like castration or ovariectomy.
- Findings suggest that female astronauts may require additional measures to reduce muscle atrophy during space missions to maintain their health and performance.
Article Synopsis
- Gonadal hormones like testosterone and estradiol affect muscle size and strength, but their impact in low-gravity environments like the Moon or Mars is unclear.
- This study tested the effects of gonadectomy (surgery to remove ovaries or testicles) on muscle atrophy in male and female rats exposed to microgravity and partial-gravity conditions.
- Results indicated that testosterone deficiency in males had little effect on muscle loss, while females with low estradiol showed greater muscle loss and experienced significant changes in their reproductive cycle under low-gravity conditions.
Electrical impedance myography (EIM) is a convenient technique that can be used in preclinical and clinical studies to assess muscle tissue health and disease. EIM is obtained by applying a low-intensity, directionally focused, electrical current to a muscle of interest across a range of frequencies (i.e.
View Article and Find Full Text PDFGround-based animal models have been used extensively to understand the effects of microgravity on various physiological systems. Among them, hindlimb suspension (HLS), developed in 1979 in rats, remains the gold-standard and allows researchers to study the consequences of total unloading of the hind limbs while inducing a cephalic fluid shift. While this model has already brought valuable insights to space biology, few studies have directly compared functional decrements in the muscles of males and females during HLS.
View Article and Find Full Text PDFNew Findings: What is the central question of this study? Is the oestrous cycle affected during disuse atrophies and, if so, how are oestrous cycle changes related to musculoskeletal outcomes? What is the main finding and its importance? Rodent oestrous cycles were altered during disuse atrophy, which was correlated with musculoskeletal outcomes. However, the oestrous cycle did not appear to be changed by Lewis lung carcinoma, which resulted in no differences in muscle size in comparison to healthy control animals. These findings suggest a relationship between the oestrous cycle and muscle size during atrophic pathologies.
View Article and Find Full Text PDFAs astronauts prepare to undertake new extra-terrestrial missions, innovative diagnostic tools are needed to better assess muscle deconditioning during periods of weightlessness and partial gravity. Electrical impedance myography (EIM) has been used to detect muscle deconditioning in rodents exposed to microgravity during spaceflight or using the standard ground-based model of hindlimb unloading via tail suspension (HU). Here, we used EIM to assess muscle changes in animals exposed to two new models: hindlimb suspension using a pelvic harness (HLS) and a partial weight-bearing (PWB) model that mimics partial gravity (including Lunar and Martian gravities).
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