Effects of infra-red rays on blood lipid in rats and blood glucose in mice

ZHANG Ya-mei; LI Bin; PANG Xiao-feng

doi:10.3969/j.issn.1001-3806.2011.05.024

Infra-red ray can regulate the nervous system and endocrine system, promote metabolism and protein synthesis, speedup blood circulation to improve microcirculation. To explore the effects of exposing rats to infra-red on hyperlipemia and hyperglycemia, the hyperlipemia rat models and hyperglycemia mouse models were established. After Infrared rays irradiation, the levels of blood lipid in rats, the levels of blood glucose in mice, superoxide dismutase(SOD) activity and malondialdehyde(MDA) content in serum were measured. The results show that Infrared rays improves the blood circulation, the levels of blood lipid in hyperlipemia rats (P0.01) and blood glucose in hyperglycemia mice (P0.05) are significantly decreased, the SOD activity is enhanced and the serum of hyperlipemia rats and hyperglycemia mice is decreased by MDA content. However, there are few changes in the normal mice exposed to Infrared ray. These results indicate that Infrared ray is favorable to preventing the hyperlipemia and hyperglycemia.

Effects of infra-red rays on blood lipid in rats and blood glucose in mice

Corresponding author: PANG Xiao-feng, pangxf2006@yahoo.com.cn

1. School of Life Science and Technology, University of Electronic Science and Technology of China, Chengdu 610054, China

Received Date: 2010-12-24

Accepted Date: 2011-01-27

Available Online: 2011-09-25

Abstract: Infra-red ray can regulate the nervous system and endocrine system, promote metabolism and protein synthesis, speedup blood circulation to improve microcirculation. To explore the effects of exposing rats to infra-red on hyperlipemia and hyperglycemia, the hyperlipemia rat models and hyperglycemia mouse models were established. After Infrared rays irradiation, the levels of blood lipid in rats, the levels of blood glucose in mice, superoxide dismutase(SOD) activity and malondialdehyde(MDA) content in serum were measured. The results show that Infrared rays improves the blood circulation, the levels of blood lipid in hyperlipemia rats (P0.01) and blood glucose in hyperglycemia mice (P0.05) are significantly decreased, the SOD activity is enhanced and the serum of hyperlipemia rats and hyperglycemia mice is decreased by MDA content. However, there are few changes in the normal mice exposed to Infrared ray. These results indicate that Infrared ray is favorable to preventing the hyperlipemia and hyperglycemia.

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Reference (13)

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Effects of infra-red rays on blood lipid in rats and blood glucose in mice

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