Physical activity interventions for disease-related physical and mental health during and following treatment in people with non-advanced colorectal cancer

Background: Colorectal cancer is the third most commonly diagnosed cancer worldwide. A diagnosis of colorectal cancer and subsequent treatment can adversely affect an individuals physical and mental health. Benefits of physical activity interventions in alleviating treatment side effects have been demonstrated in other cancer populations. Given that regular physical activity can decrease the risk of colorectal cancer, and cardiovascular fitness is a strong predictor of all-cause and cancer mortality risk, physical activity interventions may have a role to play in the colorectal cancer control continuum. Evidence of the efficacy of physical activity interventions in this population remains unclear. Objectives: To assess the effectiveness and safety of physical activity interventions on the disease-related physical and mental health of individuals diagnosed with non-advanced colorectal cancer, staged as T1-4 N0-2 M0, treated surgically or with neoadjuvant or adjuvant therapy (i.e. chemotherapy, radiotherapy or chemoradiotherapy), or both. Search methods: We searched the Cochrane Central Register of Controlled Trials (CENTRAL; 2019, Issue 6), along with OVID MEDLINE, six other databases and four trial registries with no language or date restrictions. We screened reference lists of relevant publications and handsearched meeting abstracts and conference proceedings of relevant organisations for additional relevant studies. All searches were completed between 6 June and 14 June 2019. Selection criteria: We included randomised control trials (RCTs) and cluster-RCTs comparing physical activity interventions, to usual care or no physical activity intervention in adults with non-advanced colorectal cancer. Data collection and analysis: Two review authors independently selected studies, performed the data extraction, assessed the risk of bias and rated the quality of the studies using GRADE criteria. We pooled data for meta-analyses by length of follow-up, reported as mean differences (MDs) or standardised mean differences (SMDs) using random-effects wherever possible, or the fixed-effect model, where appropriate. If a meta-analysis was not possible, we synthesised studies narratively. Main results: We identified 16 RCTs, involving 992 participants; 524 were allocated to a physical activity intervention group and 468 to a usual care control group. The mean age of participants ranged between 51 and 69 years. Ten studies included participants who had finished active treatment, two studies included participants who were receiving active treatment, two studies included both those receiving and finished active treatment. It was unclear whether participants were receiving or finished treatment in two studies. Type, setting and duration of physical activity intervention varied between trials. Three studies opted for supervised interventions, five for home-based self-directed interventions and seven studies opted for a combination of supervised and self-directed programmes. One study did not report the intervention setting. The most common intervention duration was 12 weeks (7 studies). Type of physical activity included walking, cycling, resistance exercise, yoga and core stabilisation exercise. Most of the uncertainty in judging study bias came from a lack of clarity around allocation concealment and blinding of outcome assessors. Blinding of participants and personnel was not possible. The quality of the evidence ranged from very low to moderate overall. We did not pool physical function results at immediate-term follow-up due to considerable variation in results and inconsistency of direction of effect. We are uncertain whether physical activity interventions improve physical function compared with usual care. We found no evidence of effect of physical activity interventions compared to usual care on disease-related mental health (anxiety: SMD -0.11, 95% confidence interval (CI) -0.40 to 0.18; 4 studies, 198 participants; I2 = 0%; and depression: SMD -0.21, 95% CI -0.50 to 0.08; 4 studies, 198 participants; I2 = 0%; moderate-quality evidence) at short- or medium-term follow-up. Seven studies reported on adverse events. We did not pool adverse events due to inconsistency in reporting and measurement. We found no evidence of serious adverse events in the intervention or usual care groups. Minor adverse events, such as neck, back and muscle pain were most commonly reported. No studies reported on overall survival or recurrence-free survival and no studies assessed outcomes at long-term follow-up. We found evidence of positive effects of physical activity interventions on the aerobic fitness component of physical fitness (SMD 0.82, 95% CI 0.34 to 1.29; 7 studies, 295; I2 = 68%; low-quality evidence), cancer-related fatigue (MD 2.16, 95% CI 0.18 to 4.15; 6 studies, 230 participants; I2 = 18%; low-quality evidence) and health-related quality of life (SMD 0.36, 95% CI 0.10 to 0.62; 6 studies, 230 participants; I2 = 0%; moderate-quality evidence) at immediate-term follow-up. These positive effects were also observed at short-term follow-up but not medium-term follow-up. Only three studies reported medium-term follow-up for cancer-related fatigue and health-related quality of life. Authors' conclusions: The findings of this review should be interpreted with caution due to the low number of studies included and the quality of the evidence. We are uncertain whether physical activity interventions improve physical function. Physical activity interventions may have no effect on disease-related mental health. Physical activity interventions may be beneficial for aerobic fitness, cancer-related fatigue and health-related quality of life up to six months follow-up. Where reported, adverse events were generally minor. Adequately powered RCTs of high methodological quality with longer-term follow-up are required to assess the effect of physical activity interventions on the disease-related physical and mental health and on survival of people with non-advanced colorectal cancer. Adverse events should be adequately reported.</p

Sammenligning av fettoksideringen og energiforbruket under intervalltrening og kontinuerlig trening blant godt trente menn

Masteroppgave i idrettsvitenskap -Universitetet i Agder 2011Background: This study was conducted on the basis of the limited literature on fat metabolism among well-trained men during high-intensive training. Purpose: We have: 1) quantified the total energy expenditure and the substrate oxidation among well-trained men, during a high-intensity interval session and a continuous session matched for average workload, 2) compared the relative fat oxidation during a high-intensity interval session and a continuous session to the maximal fat oxidation rate identified by the Fatmax protocol of Achten, Gleeson and Jeukendrup and 3) compared the energy expenditure after a highintensity interval session and a continuous session, based on EPOC. Methods: Nine welltrained male runners (VO2max: 68.1 + 3.6 ml.kg-1.min-1) completed preliminary testing followed by an interval session and a continuous session in randomised order. Blood lactate (La-) and blood gases were measured. The sessions lasted 48 minutes at a 1.7% incline. Individual running velocities were calculated corresponding to 40, 65 and 90% of VO2max. Results: Fat oxidation accounted for 17 + 8% (0.27 + 0.11 g.min-1) of the total energy expenditure during the interval session. The blood gases stabilized from work bout one to six. La- rose moderately, but significantly from work bout three to six. Fatmax was located at 65 + 8% of VO2max (0.55 + 0.17 g.min-1). Energy expenditure based on EPOC was higher, but not significant for the continuous session compared to the interval session. Conclusion: The subjects oxidized significant amounts of fat during a high-intensity interval session. The energy expenditure based on EPOC was greater, but non significant after the continuous session compared to the interval session. Key words: indirect calorimetry, fat metabolism, energy expenditure, intermittent exercise

Additional file 1: of Cancer patients participating in a lifestyle intervention during chemotherapy greatly over-report their physical activity level: a validation study

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Endlosfaserverstärkte Duromere schweißen

<p>Individualized Comprehensive Lifestyle Intervention in Patients Undergoing Chemotherapy with Curative or Palliative Intent: Who Participates?</p> - Fig