Effect of glucagon-like peptide 1 receptor agonists on body fat redistribution and muscle mass in overweight and obese type 2 diabetic patients / 南方医科大学学报

OBJECTIVE@#To investigate the effect of glucagon-like peptide 1 receptor agonists (GLP-1RAs) on body fat redistribution and muscle mass in overweight/obese patients with type 2 diabetes (T2DM).@*METHODS@#We retrospectively analyzed the data of 76 patients with body mass indexes (BMI)≥24 kg/m, who had an established diagnosis of T2DM in our department between December, 2014 and September, 2015. We divided these patients according to their BMI in overweight group (BMI of 24-27.9 kg/m, =14), obese group (BMI of 28-31.9 kg/m, =35) and severely obese group (BMI≥32 kg/m, =27). All the patients received treatment with GLP-1RAs (Exenatide or Liraglutide) for 3.0 to 29.0 weeks (mean 8.9 weeks), and their blood glucose, HbA1c and serum lipids were analyzed. For each patient, the fat and muscle masses were analyzed using a human body composition analyzer (JAWON-IOI353, Korea) before and after GLP-1RAs treatment.@*RESULTS@#Treatment with GLP-1RAs significantly decreased BMI and visceral adiposity index (VAI) in all the patients in the 3 groups ( < 0.05). The treatment significantly decreased the body weight in the overweight group and obese group by 2.70 kg (0.60-4.95 kg) and 2.65 kg (1.45-6.40 kg), respectively ( < 0.05), and significantly decreased the waist-to-hip ratio (WHR) in the overweight group ( < 0.05). The obese and severely obese patients showed significantly decreased percentage body fat (including both subcutaneous and visceral fat) and increased muscle mass after the treatment ( < 0.05). Compared with those in the overweight group, the percentage body fat and VAI were significantly decreased in the obese group after the treatment ( < 0.05), and the percentage of subcutaneous fat reduced and the muscle ratio increased more obviously in the obese and severely obese patients ( < 0.05).@*CONCLUSIONS@#GLP-1RAs treatment can significantly lower BMI and improve body fat distribution in obese patients with T2DM, especially in patients with a greater BMI.

Effects of Different Hydration States and High Altitudes on Water Contents of the Lungs and Brain in Rats / 第三军医大学学报

When rats in different hydration states (normal control,furosemide treated,and water loaded) were exposed to hypoxia due to simulated altitudes from 5 000 to 8 000 meters,the water content of the lungs and brain was measured.It was found that the water loaded animals had an increase of the water content of the lungs and cerebral cortex under simulated high altitudes.The pulmonary extravascular water content was higher at an altitude of 5 000 meters than at an altitude of 8 000 meters.The increase of water content in the brain mainly happened to the cerebral cortex.The diuresis after the administration of furosemide could lower the water content of the lungs and brain in rats at high altitudes.The results listed above support the hypothesis that pulmonary edema may occur simultaneously with brain edema at high altitude,both of which are two important constituents of acute mountain sickness.

Changes of pulmonary Water Content in Experimental Animals During Early phase of Hypoxia / 第三军医大学学报

This paper is to report our results of the observation on the changes of the pulmonary water content of the rats and mice after their exposure to a simulated altitude of 6000 meters above sea level for seven days.It was found that the changes of the pulmonary water content varied with the duration of exposing to the high altitude. It was lower than the control value on the first day of exposure, and then it increased approaching or even being a little higher than the control value on the second and third day. But it decreased and was below the control value again from the fourth day to the seventh day. The lung weight was increasing continuously in the same period.In addition, there were progressive increase of both the wet-lung/body and dry-lung/body indices, progressive decrease of left/right ventricles ratio, and gradual rising of hemoglobin in the animals studied.

Changes in the Contents of Water and Electrolytes in Cerebral Cortex of Rats at Simulated High Altitude of 6000m / 第三军医大学学报

Cerebral edema occurred in adult rats exposed to simulated high altitude of 6000m. Both sodium and water contents in cortex tissue of rats increased, which was a characteristic sign of cytotoxic brain edema. Our results support the hypothesis that acute mountain sickness results from cerebral edema because of high altitude hypoxia.

An Investigation on Cardiac Output and Regional Blood Flow with Radioactive Biologic Microsphere Technique in Rats / 第三军医大学学报

61Cr-labelled frog red blood cells are used to study the cardiac output and blood flow of organs in anesthetized adult rats.The results are generally consistent with those reported by other investigators.Lung flow (bronchial artery and vein shunt) and liver flow (hepatic artery and portal vein shunt) measured with this method are all lower than those obtained with carbonized micro-spheres.This result suggests that the biologic microsphere technique is superior to the carbonized microsphere technique.

Effect of Decreased plasma Colloid Osmotic pressure on Lung Water Content in Rats under simulated High Altitude / 第三军医大学学报

Rats were made to bleed and about 40% of the total blood volume was lost. A replacement of Ringer's solution of the volume four times the lost blood volume was given and the animals were closely monitored for 24 hours. The hemoglobin level of the animals was low throughout the course of observation. The plasma colloid osmotic pressure reached the lowest point 15 minutes after bleeding, and then gradually rising up returned to a level about 90% of the control value at the end of 24 hours. The relativity between the plasma colloid osmotic pressure and the lung water content was quite significant in those rats in a low altitude environment (P0.05).The result indicates that the increased lung water content due to decreased plasma osmotic pressure could not be made further worse by hypoxia due to high altitude. The characteristic pulmonary hemodynamic changSs caused by hypoxia might be considered as the explanation of the phenomenon.

Experimental High-altitude pulmonary Edema of Rats / 第三军医大学学报

Adult albino rats were exposed to simulated high altitude of 5000 m for 72 hours. Mild degree of interstitial pulmonary edema was observed under light microscope. Rats with the left lung excised were subjected to hypoxice of the same degree for 48 hours. On histologic examinations interstitial edema of the right lung was more obvious than that of the previous group. In isolated alveolus or in small groups of alveoli, edematous fluid could he seen.There were perivascular and peribronchial "Cuffs". The former were supposedto be accumulation of edema fluid leaking from the capillaries at the level of alveoli. The latter might be the result of extension of perivascular fluid to the peribrochial space.Excision of the left lung may result in a rise in pulmonary arterial pressure and over perfusion in certain areas remaining lung. Hypoxia may intensify the above changes. Pulmonary hypertension and overperfusion may in force promote the genesis of pulmonary edema.