[Exercise-Based Prehabilitation In Orthopaedics, Cardiology And Oncology]. / Trainingsbasierte Prähabilitation in der Orthopädie, Kardiologie und Onkologie.

Prehabilitation (prehab) aims to prepare patients for surgery, to reduce perioperative complications and to improve postoperative recovery. Pre-operative interventions depend on the indication and the specific patient characteristics and life circumstances. In orthopaedics, the focus is on preoperative improvement of physical performance, function and muscle strength through specific strength, mobility and sensomotoric training. In cardiology, endurance training and respiratory therapy are used in the preoperative phase, as well as coordination and strengthening exercises and occupational therapy to improve physical fitness and performance and reduce cardiovascular risk factors. In oncology, prehab is used preoperatively and also in addition to chemotherapy or radiotherapy to reduce medical side effects and to increase tolerance to cancer therapies (e. g. surgery, chemotherapy, radiotherapy). Exercise interventions in oncology differ according to the type of cancer (e. g. combined strength and endurance training, respiratory therapy, high-intensity interval training and walking). Study results often show positive effects on health resources using prehab. However, further high-quality clinical intervention studies are needed to confirm the clinical benefits of prehab for implementation in routine care.

[Physical activity and exercise therapy in oncology]. / Körperliche Aktivität und Bewegungstherapie in der Onkologie.

Optimized and individualized treatment options in oncology significantly improve the prognosis of patients. Accordingly, the management of side effects and the avoidance of long-term consequences is becoming increasingly more important. Numerous studies have shown a positive impact of physical activity and targeted exercise therapy on certain patient-related outcomes. Ideally, patients are introduced to exercise therapy directly after the diagnosis is made in order to enable adequate supportive monitoring and to sustainably reduce therapy-associated side effects. Meanwhile, scientific findings have resulted in concrete recommendations for action to effectively improve the main patient-related outcomes, such as fatigue or depression. A moderate endurance training in combination with individualized strength training seems to be of particular importance. In principle, oncological training and exercise therapy can be recommended to every cancer patient regardless of the form of cancer and the timing of therapy but taking the contraindications into account. Therefore, the aim of communal as well as national efforts should be to implement a comprehensive offer of professional exercise therapy to facilitate access of cancer patients to these services as well as to ensure adequate care during and after treatment.

Exercise as Medicine Could Be a Chance for Early Detection and Prevention of Cardiotoxicity in Cancer Treatments: A Narrative Review.

BACKGROUND: For cancer patients, cardiovascular complications as a consequence of certain oncological therapies are the leading cause of death, apart from the cancer itself. Currently, there are no uniform guidelines for detecting subclinical cardiotoxicity. Hence, the identification of cardiotoxicity arises late in the course of myocardial dysfunction after cardiac damage has occurred already. Early detection, prevention, and treatment of these cardiotoxic effects remain a challenge; therefore, supportive strategies such as physical activity gain in importance. SUMMARY: Exercise therapy, during and after cancer therapy, is considered to be safe, feasible, and effective. While animal models show protective effects, the evidence for the benefits of physical activity on future cardiovascular outcomes in human patients caused by certain cancer treatments is still limited. Consequently, targeted exercise recommendations such as frequency, intensity, time, or type are yet unclear, and certain guidelines, specifically preventing cardiotoxicity, are nonexistent. Low cardiorespiratory fitness is strongly associated with all-cause mortality as well as cardiac dysfunction. In this context, the role of cardiorespiratory fitness as an early predictor in the detection of cardiovascular dysfunction will be discussed. KEY MESSAGE: Exercise therapy during cancer treatment could have the potential to aid in both the diagnosis and treatment of cardiovascular complications. This narrative review considers the current evidence on the impact of physical activity on cardiovascular outcomes in cancer patients and proposes, according to the present knowledge, a framework for cardioprotective exercise therapies.

Impact of estradiol, ER subtype specific agonists and genistein on energy homeostasis in a rat model of nutrition induced obesity.

Estrogens are known to be involved in the control of energy homeostasis. Here we investigated the role of ER alpha and ER beta in a model of nutrition induced obesity. Ovariectomized Wistar rats were fed a high fat diet and received either vehicle, E2, ER subtype selective agonists (Alpha and Beta) or genistein. After 10 weeks, body weight, visceral fat, serum leptin, blood lipids, and in the soleus muscle anabolic markers were determined. Treatment with E2 and Alpha decreased body weight, total cholesterol and VLDL. Visceral fat mass, adipocyte size, and serum leptin were reduced by E2, Alpha and Beta. In the soleus muscle, treatment with E2 and Beta modulated Igf1 and Pax7 gene expression and resulted in larger muscle fibers. Our data indicate that blood lipids are affected via ER alpha, whereas activation of ER beta results in an increase of soleus muscle mass. Adipose tissue homeostasis seems to be affected via both ERs.

Metabolic effects of estrogen substitution in combination with targeted exercise training on the therapy of obesity in ovariectomized Wistar rats.

Postmenopausal women tend to have a higher risk in developing obesity and thus metabolic syndrome. Recently we could demonstrate that physical activity and estrogen replacement are effective strategies to prevent the development of nutritional induced obesity in an animal model. The aim of this study was to determine the combined effects of estrogen treatment and exercise training on already established obesity. Therefore ovariectomized (OVX) and sham-operated (SHAM) female Wistar rats were exposed to a high fat diet for ten months. After this induction period obese SHAM and OVX rats either remained sedentary or performed treadmill training for six weeks. In addition OVX rats were treated with 17ß-Estradiol (E(2)) alone, or in combination with training. Before and after intervention effects on lipid and glucose metabolism were investigated. Training resulted in SHAM and OVX rats in a significant decrease of body weight, subcutaneous and visceral body fat, size of adipocytes and the serum levels of leptin, cholesterol, low-density lipoprotein and triglycerides. In OVX animals E(2) treatment resulted in similar effects. Often the combination of E(2) treatment and training was most effective. Analysis of the respiratory quotient indicates that SHAM animals had a better fat burning capacity than OVX rats. There was a tendency that training in SHAM animals and E(2) treatment in OVX animals could improve this capacity. Analysis of glucose metabolism revealed that obese SHAM animals had higher glucose tolerance than OVX animals. Training improved glucose tolerance in SHAM and OVX rats, E(2) treatment in OVX rats. The combination of both was most effective. Our results indicate that even after a short intervention period of six weeks E(2) treatment and exercise training improve parameters related to lipid as well as glucose metabolism and energy expenditure in a model of already established obesity. In conclusion a combination of hormone replacement therapy and exercise training could be a very effective strategy to encourage the therapy of diet-induced obesity and its metabolic consequences in postmenopausal women.

Physical activity and estrogen treatment reduce visceral body fat and serum levels of leptin in an additive manner in a diet induced animal model of obesity.

Estrogen replacement and physical activity have been demonstrated to reduce the risk to develop a metabolic syndrome in postmenopausal women. In this study we investigate the combined effects of endurance training and estrogen substitution in a rat animal model of diet induced obesity. Effects on lipid and glucose metabolism were evaluated. Ovariectomized (OVX) or sham-operated (SHAM) female Wistar rats were fed with a high fat diet (HF) for 9 weeks. After 3 weeks of overnutrition the OVX rats either remained sedentary, performed treadmill training, received 17ß-Estradiol (E(2)), or combined treatment. The OVX rats had a greater increase in body weight and serum levels of cholesterol, triglyceride and low-density lipoprotein cholesterol (LDL). These parameters could be reduced by E(2) and more effectively E(2) in combination with exercise. Also the increase of visceral body fat and leptin could be improved by E(2) and exercise. This combination showed synergistic effects. Serum levels of insulin could be reduced by exercise training, E(2) substitution revealed no significant changes. Our results indicate that ovariectomy increases the susceptibility to develop obesity. In addition they show that the combination of hormone replacement therapy (HRT) and physical activity may influence parameters related to lipid metabolism positively in an additive manner. The results of this study provide evidence that the combination of HRT with physical activity could be a very effective strategy to prevent the development of a metabolic syndrome induced by overnutrition.