Rupture of a Duodenal Ulcer During Cortical Extract Therapy for Serum Sickness

Newer techniques of exercise which rely on a static or isometric muscle contraction of six seconds'' duration once daily offer great possibilities in the treatment of patients incapacitated by low cardiac reserve, joints that are painful on movement or debility too severe to permit a conventional exercise program for general conditioning. Increments of strength of up to two per cent per day can be thus achieved in normal muscles. Muscles deconditioned by immobilization respond at a faster rate. However, no significant muscle hypertrophy can be achieved by this technique.This form of exercise can also be used by persons who are “too busy to exercise” but who may be willing to give two minutes a day to an exercise program designed to increase and maintain muscle tone and strength.A considerable number of medical conditions could be treated more effectively and with less resultant disability if therapeutic exercises—passive, active and progressive—were accurately prescribed and supervised by a physician as part of the treatment program. Among the many conditions to be considered are poliomyelitis, peripheral nerve injuries, the neuritides, postural defects and cardiac diseases.     

回春医疗保健操运动对老年2 型糖尿病患者血糖和血脂水平的影响

目的：探讨规律性回春医疗保健操运动对2 型糖尿病老年患者血糖、血脂水平的影响。方法：选择28例老年2 型糖尿病患者 为研究对象,并将其随机分为运动干预组和对照组。运动干预组在前期药物治疗和饮食控制不变的情况下,采用为期12 周回春 医疗保健操进行运动干预,对照组仅给予药物治疗和饮食控制,而不进行运动干预,监测和比较两组患者实验前后血糖、血脂等 指标的变化。结果：运动干预组患者接受12 周回春医疗保健操干预后,受试者空腹血糖、胆固醇、低密度脂蛋白水平均较运动干 预前显著下降,差异均具有统计学意义(P<0.05)。结论：长期的规律性回春医疗保健操运动可有效降低老年2 型糖尿病患者血糖、 血脂水平,且安全易操作,可作为老年2 型糖尿病的临床辅助疗法。     

Regular Multicomponent Exercise Increases Physical Fitness and Muscle Protein Anabolism in Frail,Obese, Older Adults

Aging is associated with a decline in strength, endurance, balance, and mobility. Obesity worsens the age‐related impairment in physical function and often leads to frailty. The American College of Sports Medicine recommends a multicomponent (strength, endurance, flexibility, and balance) exercise program to maintain physical fitness. However, the effect of such an exercise program on physical fitness in frail, obese older adults is not known. We therefore determined the effect of a 3‐month long multicomponent exercise training program, on endurance (peak aerobic capacity (VO₂ peak)), muscle strength, muscle mass, and the rate of muscle protein synthesis (basal rate and anabolic response to feeding) in nine 65‐ to 80‐year‐old, moderately frail, obese older adults. After 3 months of training, fat mass decreased (P < 0.05) whereas fat‐free mass (FFM), appendicular lean body mass, strength, and VO₂ peak increased (all P < 0.05). Regular strength and endurance exercise increased the mixed muscle protein fractional synthesis rate (FSR) but had no effect on the feeding‐induced increase in muscle protein FSR (～0.02%/h increase from basal values both before and after exercise training; effect of feeding: P = 0.02; effect of training: P = 0.047; no interaction: P = 0.84). We conclude that: (i) a multicomponent exercise training program has beneficial effects on muscle mass and physical function and should therefore be recommended to frail, obese older adults, and (ii) regular multicomponent exercise increases the basal rate of muscle protein synthesis without affecting the magnitude of the muscle protein anabolic response to feeding.     

Skeletal muscle fiber area alterations in two opposing modes of resistance-exercise training in the same individual

The purpose of this study was to observe fiber area changes that might occur in the same subject from two opposing resistance-exercise training regimes isolating the quadriceps muscle group. Twelve college-age men divided into two groups participated in each of two 7.5-week regimens; one performed a muscular strength program (high-resistance, low-repetition) 4 days a week on a resistance-exercise apparatus, while the other performed a muscular endurance (low-resistance, high-repetition) program. After a 5.5-week hiatus, the groups changed regimens for the second 7.5 weeks. Closed-needle biopsies of the dominant vastus lateralis and isokinetic dynamometer evaluations were made before and at the end of each training period. The muscle samples were analyzed for area changes. In both groups the initial exercise stimulus, whether for strength or endurance, increased the area of fibers of all three major types (I, IIA, and IIB). Subjects doing strength exercises as their second treatment showed a further increase in the area of type I and IIB fibers, whereas those doing endurance exercises showed a decrease in all fiber types. From the first to the last biopsy all fiber areas were decreased (P less than 0.05) in the control-strength-endurance group and increased (P less than 0.05) in the control-endurance-strength group. These results suggested that endurance exercise preceding strength exercise in an isolated muscle group maximized fiber area adaptations to exercise stress. Consideration should thus be given in exercise and rehabilitation programs to the muscle cellular adaptations evidenced in different orders of training, particularly if muscular strength is considered important.     

Physical exercise improves glucose metabolism in lifestyle-related diseases

The beneficial effects of physical exercise on the decreased insulin sensitivity caused by detrimental lifestyle were reviewed based on experimental evidences. In epidemiological studies, disease prevention has been considered at three levels: primary (avoiding the occurrence of disease), secondary (early detection and reversal), and tertiary (prevention or delay of complications). The major purpose of physical exercise for primary prevention and treatment of lifestyle-related diseases is to improve insulin sensitivity. It is known that, during physical exercise, glucose uptake by the working muscles rises 7 to 20 times over the basal level, depending on the intensity of the work performed. However, intense exercise provokes the release of insulin-counter regulatory hormones such as glucagons and catecholamines, which ultimately cause a reduction in the insulin action. Continued physical training improves the reduced peripheral tissue sensitivity to insulin in impaired glucose tolerance and Type II diabetes, along with regularization of abnormal lipid metabolism. Furthermore, combination of salt intake restriction and physical training ameliorates hypertension. In practical terms, before diabetic patients undertake any program of physical exercise, various medical examinations are needed to determine whether they have good glycemic control and are without progressive complications. Because the effect of exercise that is manifested in improved insulin sensitivity decreases within 3 days after exercise and is no longer apparent after 1 week, a continued program is needed. For a safety practice, moderate- or low-intensity exercise is preferable. In conclusion, we have found sufficient evidences that support the theory that, combined with other forms of therapy, mild exercise training increases insulin action despite no influence on body mass index or maximal oxygen uptake. Along with evident benefits in health promotion, moderate-intensity exercise might play an important role in facilitating treatment of various diseases.     

Association between Changes in Muscle Quality with Exercise Training and Changes in Cardiorespiratory Fitness Measures in Individuals with Type 2 Diabetes Mellitus: Results from the HART-D Study

Introduction

Type 2 diabetes mellitus (T2DM) is associated with a reduction in muscle quality. However, there is inadequate empirical evidence to determine whether changes in muscle quality following exercise are associated with improvement in cardiorespiratory fitness (CRF) in individuals with T2DM. The objective of this study was to investigate the association between change in muscle quality following a 9-month intervention of aerobic training (AT), resistance training (RT) or a combination of both (ATRT) and cardiorespiratory fitness (CRF) in individuals with T2DM.

Material and Methods

A total of 196 participants were randomly assigned to a control, AT, RT, or combined ATRT for a 9-months intervention. The exposure variable was change in muscle quality [(Post: leg muscle strength/leg muscle mass)-[(Pre: leg muscle strength/leg muscle mass)]. Dependent variables were change in CRF measures including absolute and relative VO_2peak, and treadmill time to exhaustion (TTE) and estimated metabolic equivalent task (METs).

Results

Continuous change in muscle quality was independently associated with change in absolute (β = 0.015; p = 0.019) and relative (β = 0.200; p = 0.005) VO_2peak, and TTE (β = 0.170; p = 0.043), but not with estimated METs (p > 0.05). A significant trend was observed across tertiles of change in muscle quality for changes in absolute (β = 0.050; p = 0.005) and relative (β = 0.624; p = 0.002) VO_2peak following 9 months of exercise training. No such association was observed for change in TTE and estimated METs (p > 0.05).

Discussion

The results from this ancillary study suggest that change in muscle quality following exercise training is associated with a greater improvement in CRF in individuals with T2DM. Given the effect RT has on increasing muscle quality, especially as part of a recommended training program (ATRT), individuals with T2DM should incorporate RT into their AT regimens to optimize CRF improvement.

Trial Registration

Clinicaltrials.gov NCT00458133     

Exercise Training Reverses Skeletal Muscle Atrophy in an Experimental Model of VCP Disease

Background

The therapeutic effects of exercise resistance and endurance training in the alleviation of muscle hypertrophy/atrophy should be considered in the management of patients with advanced neuromuscular diseases. Patients with progressive neuromuscular diseases often experience muscle weakness, which negatively impact independence and quality of life levels. Mutations in the valosin containing protein (VCP) gene lead to Inclusion body myopathy associated with Paget''s disease of bone and frontotemporal dementia (IBMPFD) and more recently affect 2% of amyotrophic lateral sclerosis (ALS)-diagnosed cases.

Methods/Principle Findings

The present investigation was undertaken to examine the effects of uphill and downhill exercise training on muscle histopathology and the autophagy cascade in an experimental VCP mouse model carrying the R155H mutation. Progressive uphill exercise in VCP^R155H/+ mice revealed significant improvement in muscle strength and performance by grip strength and Rotarod analyses when compared to the sedentary mice. In contrast, mice exercised to run downhill did not show any significant improvement. Histologically, the uphill exercised VCP^R155H/+ mice displayed an improvement in muscle atrophy, and decreased expression levels of ubiquitin, P62/SQSTM1, LC3I/II, and TDP-43 autophagy markers, suggesting an alleviation of disease-induced myopathy phenotypes. There was also an improvement in the Paget-like phenotype.

Conclusions

Collectively, our data highlights that uphill exercise training in VCP^R155H/+ mice did not have any detrimental value to the function of muscle, and may offer effective therapeutic options for patients with VCP-associated diseases.     

Diabetes prevention--from physiology to implementation.

One of the major challenges today is the development of prevention programs for the clinical practice. Our aim was to develop a concept for a primary diabetes prevention program to be implemented in general health care. Lifestyle intervention addressing diet and exercise has reduced the diabetes risk by up to 58%. Early preventive pharmacological strategies have yielded a diabetes risk reduction of 25-30%. These findings offer a compelling evidence base, but delivery of intervention and care is essential. The challenge therefore is the management of prevention and intervention programs considering scientific aspects and practical requirements during implementation. The Diabetes Prevention Workgroup at the German Diabetes Association has developed a concept for a decentralized prevention program. Based on the results of the prevention studies, the intervention concept consists of a three-step program including identification of the individuals at high risk to develop type 2 diabetes (1), followed by general intervention based on individual choice (2) and maintained continuous intervention for motivation maintenance (3). Structured prevention programs will enable nationwide prevention of diabetes mellitus without consuming large resources. This process will be challenging and time consuming, requiring many partners but resulting in a profitable "health" investment.     

Use of intramuscular triacylglycerol as a substrate source during exercise in humans.

Fat and carbohydrate are the principal substrates that fuel aerobic ATP synthesis in skeletal muscle. Most endogenous fat is stored as triacylglycerol in subcutaneous and deep visceral adipose tissue. Smaller quantities of triacylglycerol are deposited as lipid droplets inside skeletal muscle fibers. The potential role of intramyocellular triacylglycerol (IMTG) as a substrate source during exercise in humans has recently regained much of its interest because of the proposed functional relationship between IMTG accumulation and the development of skeletal muscle insulin resistance. Exercise likely represents an effective means to prevent excess IMTG accretion by stimulating its rate of oxidation. However, there is much controversy on the actual contribution of the IMTG pool as a substrate source during exercise. The apparent discrepancy in the literature likely stems from methodological difficulties that have been associated with the methods used to estimate IMTG oxidation during exercise. However, recent studies using stable isotope methodology, 1H-magnetic resonance spectroscopy, and electron and/or immunofluorescence microscopy all support the contention that the IMTG pool can function as an important substrate source during exercise. Although more research is warranted, IMTG mobilization and/or oxidation during exercise seem to be largely determined by exercise intensity, exercise duration, macronutrient composition of the diet, training status, gender, and/or age. In addition, indirect evidence suggests that the capacity to mobilize and/or oxidize IMTG is substantially impaired in an obese and/or Type 2 diabetic state. As we now become aware that skeletal muscle has an enormous capacity to oxidize IMTG stores during exercise, more research is warranted to develop combined exercise, nutritional, and/or pharmacological interventions to effectively stimulate IMTG oxidation in sedentary, obese, and/or Type 2 diabetes patients.     

ANP but not BNP reflects early left diastolic dysfunction in type 1 diabetics with myocardial dysinnervation.

OBJECTIVE: We investigated whether plasma concentrations of atrial natriuretic peptide (ANP) and brain natriuretic peptide (BNP) reflect impaired diastolic relaxation or its improvement after ACE inhibition. METHODS: 7 long-term Type 1 diabetic patients with normal systolic but impaired diastolic function and with sympathetic myocardial dysinnervation and 10 controls were included. Exercise tolerance and maximal O 2 uptake were evaluated by bicycle exercise prior to the study. ANP, BNP and norepinephrine/epinephrine (NE/E) were determined at baseline and at 80 % .VO2 max workload and after recovery, before and following 12 weeks of treatment with fosinopril (10 mg/d). RESULTS: Isovolumetric relaxation time (IVRT) and A/E wave ratio were increased by 26.7 +/- 11.5 % and 54.4 +/- 26.1 % in diabetic patients as compared to controls, respectively (p < 0.02). After 12 weeks of fosinopril treatment, no differences in IVRT or A/E wave ratio were detectable between groups. ANP was enhanced in Type 1 diabetes as compared to controls (baseline: 9.2 +/- 3.0 vs. 4.5 +/- 1.1; exercise: 22.4 +/- 7.7 vs. 7.9 +/- 1.2; recovery: 20.3. +/- 4.6 vs. 9.5 +/- 2.0 fmol/ml, p < 0.02). Fosinopril treatment abolished any differences between groups. BNP plasma levels did not differ between groups and no exercise dependent changes were observed. NE- and E-increase was greater at 80 % .VO2 max work load in Type 1 diabetes than in controls (p < 0.05). Again, fosinopril abolished differences between groups. CONCLUSION: In Type 1 diabetes, impaired diastolic function is associated with elevated ANP and catecholamine plasma levels that are normalized after ACE inhibition. Thus, ANP but not BNP appears to be a sensitive biochemical marker for early diastolic dysfunction in Type 1 diabetes.     

Molecular role of GATA binding protein 4 (GATA-4) in hyperglycemia-induced reduction of cardiac contractility

Diabetes mellitus has emerged as one of the main alarms to human health in the 21st century. Pronounced changes in the human environment, behavior and lifestyle have accompanied globalization, which resulted in escalating rates of both obesity and diabetes, already described as diabesity. This pandemic causes deterioration of life quality with high socio-economic costs, particularly due to premature morbidity and mortality. To avoid late complications of type 2 diabetes and related costs, primary prevention and early treatment are therefore necessary. In this context, effective non-pharmacological measures, such as regular physical activity, are imperative to avoid complications, as well as polymedication, which is associated with serious side-effects and drug-to-drug interactions. Our previous work showed, in an animal model of obese type 2 diabetes, the Zucker Diabetic Fatty (ZDF) rat, that regular and moderate intensity physical exercise (training) is able, per se, to attenuate insulin resistance and control glycaemia, dyslipidaemia and blood pressure, thus reducing cardiovascular risk, by interfering with the pathophysiological mechanisms at different levels, including oxidative stress and low-grade inflammation, which are key features of diabesity. This paper briefly reviews the wide pathophysiological pathways associated with Type 2 diabetes and then discusses in detail the benefits of training therapy on glycaemic control and on cardiovascular risk profile in Type 2 diabetes, focusing particularly on antioxidant and anti-inflammatory properties. Based on the current knowledge, including our own findings using an animal model, it is concluded that regular and moderate intensity physical exercise (training), due to its pleiotropic effects, could replace, or at least reduce, the use of anti-diabetic drugs, as well as of other drugs given for the control of cardiovascular risk factors in obese type 2 diabetic patients, working as a physiological "polypill".     

Muscle hypertrophy response to resistance training in older women.

We conducted a 12-wk resistance training program in elderly women [mean age 69 +/- 1.0 (SE) yr] to determine whether increases in muscle strength are associated with changes in cross-sectional fiber area of the vastus lateralis muscle. Twenty-seven healthy women were randomly assigned to either a control or exercise group. The program was satisfactorily completed and adequate biopsy material obtained from 6 controls and 13 exercisers. After initial testing of baseline maximal strength, exercisers began a training regimen consisting of seven exercises that stressed primary muscle groups of the lower extremities. No active intervention was prescribed for the controls. Increases in muscle strength of the exercising subjects were significant compared with baseline values (28-115%) in all muscle groups. No significant strength changes were observed in the controls. Cross-sectional area of type II muscle fibers significantly increased in the exercisers (20.1 +/- 6.8%, P = 0.02) compared with baseline. In contrast, no significant change in type II fiber area was observed in the controls. No significant changes in type I fiber area were found in either group. We conclude that a program of resistance exercise can be safely carried out by elderly women, such a program significantly increases muscle strength, and such gains are due, at least in part, to muscle hypertrophy.     

Effect of a High-Intensity Exercise Program on Physical Function and Mental Health in Nursing Home Residents with Dementia: An Assessor Blinded Randomized Controlled Trial

Background

Dementia is among the leading causes of functional loss and disability in older adults. Research has demonstrated that nursing home patients without dementia can improve their function in activities of daily living, strength, balance and mental well being by physical exercise. The evidence on effect of physical exercise among nursing home patients with dementia is scarce and ambiguous. Thus, the primary objective of this study was to investigate the effect of a high intensity functional exercise program on the performance of balance in nursing home residents with dementia. The secondary objective was to examine the effect of this exercise on muscle strength, mobility, activities of daily living, quality of life and neuropsychiatric symptoms.

Design and Methods

This single blinded randomized controlled trial was conducted among 170 persons with dementia living in nursing homes. Mean age was 86.7 years (SD = 7.4) and 74% were women. The participants were randomly allocated to an intervention (n = 87) or a control group (n = 83). The intervention consisted of intensive strengthening and balance exercises in small groups twice a week for 12 weeks. The control condition was leisure activities.

Results

The intervention group improved the score on Bergs Balance Scale by 2.9 points, which was significantly more than the control group who improved by 1.2 points (p = 0.02). Having exercised 12 times or more was significantly associated with improved strength after intervention (p<0.05). The level of apathy was lower in the exercise group after the intervention, compared to the control group (p = 0.048).

Conclusion

The results from our study indicate that a high intensity functional exercise program improved balance and muscle strength as well as reduced apathy in nursing home patients with dementia.

Trial Registration

ClinicalTrials.gov NCT02262104     

Exercise and nutritional needs of elderly people: effects on muscle and bone

Advancing age is associated with a remarkable number of changes in body composition. Reductions in lean body mass have been well characterized. This decreased lean body mass occurs primarily as a result of losses in skeletal muscle mass^{1, 2}. This age-related loss in muscle mass has been termed sarcopenial³. Loss in muscle mass accounts for the age-associated decreases in basal metabolic rate, muscle strength, and activity levels, which, in turn is the cause of the decreased energy requirements of the elderly. In sedentary individuals, the main determinant of energy expenditure is fat-free mass, which declines by about 15% between the third and eighth decade of life. It also appears that declining caloric needs are not matched by an appropriate decline in caloric intake, with the ultimate result an increased body fat content with advancing age. Increased body fatness along with increased abdominal obesity are thought to be directly linked to the greatly increased incidence of Type II diabetes among the elderly. This review will discuss the extent to which regularly performed exercise can effect nutritional needs and functional capacity in the elderly. In addition, some basic guidelines for beginning an exercise program for older men and women, and establishing community-based programs are provided.     

Insulin signaling and glucose transport in insulin resistant human skeletal muscle

Insulin increases glucose uptake and metabolism in skeletal muscle by signal transduction via protein phosphorylation cascades. Insulin action on signal transduction is impaired in skeletal muscle from Type 2 diabetic subjects, underscoring the contribution of molecular defects to the insulin resistant phenotype. This review summarizes recent work to identify downstream intermediates in the insulin signaling pathways governing glucose homeostasis, in an attempt to characterize the molecular mechanism accounting for skeletal muscle insulin resistance in Type 2 diabetes. Furthermore, the effects of pharmaceutical treatment of Type 2 diabetic patients on insulin signaling and glucose uptake are discussed. The identification and characterization of pathways governing insulin action on glucose metabolism will facilitate the development of strategies to improve insulin sensitivity in an effort to prevent and treat Type 2 diabetes mellitus.     

Exercise training and the antioxidant alpha-lipoic acid in the treatment of insulin resistance and type 2 diabetes

One hallmark of the insulin-resistant state of prediabetes and overt type 2 diabetes is an impaired ability of insulin to activate glucose transport in skeletal muscle, due to defects in IRS-1-dependent signaling. An emerging body of evidence indicates that one potential factor in the multifactorial etiology of skeletal muscle insulin resistance is oxidative stress, an imbalance between the cellular exposure to an oxidant stress and the cellular antioxidant defenses. Exposure of skeletal muscle to an oxidant stress leads to impaired insulin signaling and subsequently to reduced glucose transport activity. Numerous studies have demonstrated that treatment of insulin-resistant animals and type 2 diabetic humans with antioxidants, including alpha-lipoic acid (ALA), is associated with improvements in skeletal muscle glucose transport activity and whole-body glucose tolerance. An additional intervention that is effective in ameliorating the skeletal muscle insulin resistance of prediabetes and type 2 diabetes is endurance exercise training. Recent investigations have demonstrated that the combination of exercise training and antioxidant treatment using ALA in an animal model of obesity-associated insulin resistance provides a unique interactive effect resulting in a greater improvement in insulin action on skeletal muscle glucose transport than either intervention individually. Moreover, this interactive effect of exercise training and ALA is due in part to improvements in IRS-1-dependent insulin signaling. These studies highlight the effectiveness of combining endurance exercise training and antioxidants in beneficially modulating the molecular defects in insulin action observed in insulin-resistant skeletal muscle.     

Invited review: Effects of acute exercise and exercise training on insulin resistance.

Insulin resistance of skeletal muscle glucose transport is a key defect in the development of impaired glucose tolerance and Type 2 diabetes. It is well established that both an acute bout of exercise and chronic endurance exercise training can have beneficial effects on insulin action in insulin-resistant states. This review summarizes the present state of knowledge regarding these effects in the obese Zucker rat, a widely used rodent model of obesity-associated insulin resistance, and in insulin-resistant humans with impaired glucose tolerance or Type 2 diabetes. A single bout of prolonged aerobic exercise (30-60 min at approximately 60-70% of maximal oxygen consumption) can significantly lower plasma glucose levels, owing to normal contraction-induced stimulation of GLUT-4 glucose transporter translocation and glucose transport activity in insulin-resistant skeletal muscle. However, little is currently known about the effects of acute exercise on muscle insulin signaling in the postexercise state in insulin-resistant individuals. A well-established adaptive response to exercise training in conditions of insulin resistance is improved glucose tolerance and enhanced skeletal muscle insulin sensitivity of glucose transport. This training-induced enhancement of insulin action is associated with upregulation of specific components of the glucose transport system in insulin-resistant muscle and includes increased protein expression of GLUT-4 and insulin receptor substrate-1. It is clear that further investigations are needed to further elucidate the specific molecular mechanisms underlying the beneficial effects of acute exercise and exercise training on the glucose transport system in insulin-resistant mammalian skeletal muscle.     

Role of AMP--activated protein kinase in the control of glucose homeostasis

Skeletal muscle insulin resistance is a hallmark feature of Type 2 diabetes. Physical exercise/muscle contraction elicits an insulin-independent increase in glucose transport and perturbation of this pathway may bypass defective insulin signaling. To date, the exercise-responsive signaling molecules governing glucose metabolism in skeletal muscle are largely unknown. AMP-activated protein kinase (AMPK) has been suggested as one of the exercise-responsive signaling molecules involved in glucose homeostasis and consequently it has been heavily explored as a pharmacological target for the treatment of Type 2 diabetes. AMPK exists in heterotrimeric complexes composed of a catalytic alpha-subunit and regulatory beta- and gamma-subunits. The gamma3-isoform of AMPK is expressed specifically in skeletal muscle of humans and rodents and this tissue specific expression pattern offers selectivity in AMPK action. Furthermore, mutations in the AMPK gamma3-isoform may provide protection from diet-induced insulin resistance by increasing lipid oxidation in the presence of increased lipid supply. This review highlights the current understanding of the role of the regulatory AMPK gamma3-isoform in the control of skeletal muscle metabolism.     

Myostatin信号通路在4周离心耐力运动改善2型糖尿病大鼠骨骼肌萎缩中的作用

目的：观察4周离心耐力运动对2型糖尿病大鼠代谢障碍及肌萎缩的影响,探讨myostatin/Smad3/atrogin-1信号通路在肌萎缩中的作用。方法：9周高脂饲养联合STZ注射建立2型糖尿病大鼠模型。将普通饲料组大鼠随机分为对照组（C,n=6）和运动组（E,n=9;将2型糖尿病模型组大鼠随机分为糖尿病对照组（D,n=8）和糖尿病运动组（DE,n=12）。运动方案：坡度-5°,跑速16 m/min,每次60 min、每日一次,每周训练5 d,连续4周。最后一次运动后禁食12 h,测定空腹血糖（FBG）、空腹胰岛素（FINS）,计算稳态模式胰岛素抵抗指数（HOMA-IR）和胰岛素敏感指数（ISI）,进行葡萄糖耐量试验。取比目鱼肌观察肌萎缩现象并检测myostatin、Smad3、p-Smad3和atrogin-1表达情况。结果：①与对照组相比,糖尿病组大鼠体重、比目鱼肌质量/胫骨长和肌纤维平均横截面积、FINS和ISI显著降低（P<0.01）,FBG、HOMA-IR和血糖曲线下面积（AUC_BG）以及myostatin、Smad3、p-Smad3、atrogin-1表达均显著升高（P<0.01）。②4周离心运动后,与糖尿病组相比,糖尿病运动组大鼠肌纤维平均横截面积显著升高（P<0.01）,AUC_BG、HOMA-IR及myostatin、p-Smad3、atrogin-1表达显著降低（P<0.05,P<0.01）。结论：myostatin/Smad3/atrogin-1信号通路上调是导致2型糖尿病肌萎缩的重要原因,4周离心耐力运动可能通过下调myostatin、p-Smad3和atrogin-1表达抑制肌萎缩,进而改善2型糖尿病代谢障碍,提高胰岛素敏感性。