ABSTRACT
The influence of exercise on the endogenous levels of both β-endorphin (BE) and corticosteroid (CS) in the hypothalamus and plasma was examined in rats. F344 male rats, five weeks of age, were divided into three groups: involuntary exercised (IE), non-exercised (NE) and control (C) groups. Rats in the IE group were exercised every day for one hour at the speed of 20 m mm n for 7 to 28 days. After training, the hypothalamus and plasma were obtained from rats. BE levels in water soluble extracts of hypothalamus were examined by rat BE ELISA test kits; and CS contents in plasma was examined by RIA. The amount of BE in the hypothalamus obtained from rats in the IE group was much higher than that in the NE and C groups. Although there was no significant difference between rats exercised for 7, 14, and 21 days, BE levels in the hypothalamus from rats exercised for 28 days was significantly higher than for 7 days. The amount of BE in the hypothalamus of NE rats was nearly identical to that of C rats. On the other hand, there were no significant changes in plasma CS levels. These results may suggest that exercise, especially running, causes on increase in BE levels in the hypothalamus.
ABSTRACT
The influence of exercise on the endogenous levels of both β-endorphin (BE) and corticosteroid (CS) in the hypothalamus and plasma was examined in rats. F344 male rats, five weeks of age, were divided into three groups: involuntary exercised (IE), non-exercised (NE) and control (C) groups. Rats in the IE group were exercised every day for one hour at the speed of 20 m mm n for 7 to 28 days. After training, the hypothalamus and plasma were obtained from rats. BE levels in water soluble extracts of hypothalamus were examined by rat BE ELISA test kits; and CS contents in plasma was examined by RIA. The amount of BE in the hypothalamus obtained from rats in the IE group was much higher than that in the NE and C groups. Although there was no significant difference between rats exercised for 7, 14, and 21 days, BE levels in the hypothalamus from rats exercised for 28 days was significantly higher than for 7 days. The amount of BE in the hypothalamus of NE rats was nearly identical to that of C rats. On the other hand, there were no significant changes in plasma CS levels. These results may suggest that exercise, especially running, causes on increase in BE levels in the hypothalamus.
ABSTRACT
In the 20th century, free tissue transfers have been successfully introduced using microvascular anastomosis techniques. Transplants not only include whole organs such as the kidney, liver and lung, but also bone, muscle and skin. However, there are a limited number of organs available for transplantation. This leads to the patient not only suffering from the malfunctioning tissue or organ, but also from the psychological trauma of an indefinite waiting period. The rapidly evolving field of tissue engineering is beginning to have an impact on free tissue transfers including organ. Small biopsy specimens can be grown into a large number of cells. These cultured cells can then be seeded onto biodegradable polymers, which serve several purposes. Firstly, the polymers function as a cell delivery system that enables the transplantation of a large numbers of cells into an organism. Secondly, they create a three-dimensional space for cell growth and serve as a template, thereby providing a structure for the extracellular matrix. These approaches have been demonstrated as practical strategies for the reconstruction of many tissues such as the liver, intestines, heart valve leaflets, bone and cartilage.