A wealth of clinical studies have documented the safety and benefits of exercise after and during cancer therapy, and pilot and larger-scale studies are currently ongoing to integrate exercise into the treatment program for cancer patients undergoing active therapy (EXACT pilot, OptiTrain, and TITAN study). More recently, efforts have emerged to commence exercise programs before the start of cancer therapy, so-called pre-habilitation. The concept of increasing the cardiovascular reserve beforehand is intuitively attractive. In agreement, preclinical studies support exercise as an effective preventive means before and during cardiotoxic drug exposure. Assuming that a pronounced drop in exercise tolerance will occur during cancer therapy, pre-habilitation can potentially curtail or raise the nadir level of exercise tolerance. Furthermore, such efforts might serve as pre-conditioning efforts in reducing not only the nadir, but even the magnitude of drop in cardiovascular reserve. Initiated beforehand, cancer patients are also more likely to continue these efforts during cancer therapy. Finally, an active exercise routine (≥ 150 min/week moderate intensity or ≥ 75 min/week vigorous intensity or combination) in conjunction with the other six American Heart Association's cardiovascular health metrics (BMI < 25 kg/m, blood pressure < 120/80 mmHg, fasting plasma glucose < 100 mg/dL, total cholesterol < 200 mg/dL, 4-5 component healthy diet, no smoking) reduces not only the cardiovascular but also the cancer disease risk. Exercise can reduce the risks of developing cancer, the detrimental effects of its treatment on the cardiovascular system, and overall morbidity and mortality. Exercise should become an integral part of the care for every cancer patient.
Background: Patients with cancer almost universally report diminished health-related quality of life. Many patients experience persistent fatigue and most have below-average exercise capacities. Despite the publication of exercise guidelines for cancer survivors that encourage physical activity, few patients exercise on a regular basis. Cardiovascular disease is a major cause of death in early-stage malignancies. Exercise training has been demonstrated to decrease cardiovascular events in patients with cancer. In addition, regular exercise improves exercise capacity, reduces fatigue, and improves quality of life in cancer survivors. Clinical Considerations: A 2019 American Heart Association scientific statement, endorsed by the American Cancer Society, provided a framework and rationale for partnering with existing multidimensional, interdisciplinary outpatient cardiac rehabilitation programs to provide supervised exercise training and risk factor control services for patients with cancer and cancer survivors: cardio-oncology rehabilitation. In addition, the American College of Sports Medicine has published recommendations for cancer exercise training. Summary: This article provides practical suggestions for incorporating patients with cancer into cardiac rehabilitation and for patient-specific exercise prescription. Illustrative patient case examples are provided.
This paper discusses a wind tunnel experiment of active gust load alleviation of a flexible wing which took place at University of Washington (UW) in 2019. The experiment performed under a NASA SBIR contract with Scientific Systems Company, Inc (SSCI). The objective of the experiment is to demonstrate active controls of the Variable Camber Continuous Trailing Edge Flap (VCCTEF) system for gust load alleviation and realtime drag optimization. The wind tunnel model is a 8.2% sub-scale Common Research Model (CRM) wing. The wing structure is designed to provide a substantial degree of flexibility to represent that of a modern highaspect ratio wing. Eight active control surfaces are employed in the VCCTEF. A new gust generator system was designed and installed by UW under a sub-contract with SSCI. The first test entry started in July 2019 and ended in September 2019. During this test entry, many significant issues were found with the hardware and software. The significant issues with the servos prevented the test objective from being completed. A follow-up second test entry in 2020 is being planned. The wing system is being repaired by SSCI. This paper reports on the progress of this experimental effort and the aeroservoelastic (ASE) model validation which was conducted during the test entry.
e24030 Background: Physical activity (PA) in cancer survivors improves quality of life (QOL), functioning, fatigue, and reduces the risk of treatment complications, cancer recurrence and death. However, the optimal intervention for increasing PA is not established. Most prospective studies have shown a 6-12-week program to be an effective intervention but this is often not feasible. Therefore, we piloted a one-time individualized exercise prescription in our cardiac rehabilitation center to improve PA in cancer survivors. Methods: We prospectively enrolled cancer survivors who had completed curative intent treatment, with no evidence of active disease in this pilot study. Survivors who consented underwent a consultation with an exercise physiologist for needs assessment followed by a supervised exercise session with a tailored exercise prescription. Survivors also filled out surveys assessing their PA and QOL at baseline (bl), 3, 6 and 12 months after intervention. Clinical information was collected via chart review. We estimated longitudinal PA score and change in PA using mixed models incorporating scores from all available time points using SAS (v 9.4). Results: Between May 2018 and January 2020, 50 participants (26 lymphoma and 24 solid tumor survivors) completed the intervention. 20% participants were on maintenance therapy during the study. Clinical characteristics of 42 evaluable participants are summarized in Table. The survey response rate was 82%, 58%, 58%, 46% at bl, 3, 6 and 12 months respectively. The level of PA improved with time [mean (SE) PA score: 58.5 (4.3) bl, 63.9 (4.8) at 3, 57.6 (4.8) at 6, 62.6 (5.3) at 12 months]. The change in PA from baseline to follow-up time-points [bl vs 3m p=0.41; bl vs 6m p=0.88; bl vs 12m p=0.55] or between the lymphoma and solid tumor survivors was not statistically significant and limited by sample size. No significant trend in QOL was seen. Conclusions: Individualized exercise prescription using the cardiac rehabilitation program may be a feasible, widely applicable tool to implement a PA intervention among cancer survivors. The trend towards improvement in PA in this novel one-time intervention provides intriguing evidence and deserves future study in larger sample sizes to understand if it can improve and create sustainable PA change comparable to longer term exercise interventions.[Table: see text]
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