Background Declines in cardiorespiratory fitness (CRF) and muscle mass are both associated with advancing age and each of these declines is associated with worse health outcomes. Resistance exercise training (RET) has previously been shown to improve muscle mass and function in the older population. If RET is also able to improve CRF, as it has been shown to do in younger populations, it has the potential to improve multiple health outcomes in the expanding older population. Methods This systematic review aimed to identify the role of RET for improving CRF in healthy older adults. A search across CINAHL, MEDLINE, EMBASE and EMCARE databases was conducted with meta-analysis performed on eligible papers to identify improvements in established CRF parameters (VO2 peak, aerobic threshold (AT), 6-minute walking distance test (6MWT) following RET intervention. Main eligibility criteria included older adults (aged over 60), healthy cohorts (disease-specific cohorts were excluded) and RET intervention. Results Thirty-seven eligible studies were identified. Meta-analysis revealed a significant improvement in VO2 peak (MD 1.89 ml/kg/min; 95% confidence interval (CI) 1.21–2.57 ml/kg/min), AT (MD 1.27 ml/kg/min; 95% CI 0.44–2.09 ml/kg/min) and 6MWT (MD 30.89; 95% CI 26.7–35.08) in RET interventions less than 24 weeks. There was no difference in VO2 peak or 6MWT in interventions longer than 24 weeks. Discussion This systematic review adds to a growing body of evidence supporting the implementation of RET in the older population for improving whole-body health, particularly in time-limited timeframes.
Short, intermittent episodes of disuse muscle atrophy (DMA) may have negative impact on age related muscle loss. There is evidence of variability in rate of DMA between muscles and over the duration of immobilization. As yet, this is poorly characterized. This review aims to establish and compare the time‐course of DMA in immobilized human lower limb muscles in both healthy and critically ill individuals, exploring evidence for an acute phase of DMA and differential rates of atrophy between and muscle groups. MEDLINE, Embase, CINHAL and CENTRAL databases were searched from inception to April 2021 for any study of human lower limb immobilization reporting muscle volume, cross‐sectional area (CSA), architecture or lean leg mass over multiple post‐immobilization timepoints. Risk of bias was assessed using ROBINS‐I. Where possible meta‐analysis was performed using a DerSimonian and Laird random effects model with effect sizes reported as mean differences (MD) with 95% confidence intervals (95% CI) at various time‐points and a narrative review when meta‐analysis was not possible. Twenty‐nine studies were included, 12 in healthy volunteers (total n = 140), 18 in patients on an Intensive Therapy Unit (ITU) (total n = 516) and 3 in patients with ankle fracture (total n = 39). The majority of included studies are at moderate risk of bias. Rate of quadriceps atrophy over the first 14 days was significantly greater in the ITU patients (MD −1.01 95% CI −1.32, −0.69), than healthy cohorts (MD −0.12 95% CI −0.49, 0.24) (P < 0.001). Rates of atrophy appeared to vary between muscle groups (greatest in triceps surae (−11.2% day 28), followed by quadriceps (−9.2% day 28), then hamstrings (−6.5% day 28), then foot dorsiflexors (−3.2% day 28)). Rates of atrophy appear to decrease over time in healthy quadriceps (−6.5% day 14 vs. −9.1% day 28) and triceps surae (−7.8% day 14 vs. −11.2% day 28), and ITU quadriceps (−13.2% day 7 vs. −28.2% day 14). There appears to be variability in the rate of DMA between muscle groups, and more rapid atrophy during the earliest period of immobilization, indicating different mechanisms being dominant at different timepoints. Rates of atrophy are greater amongst critically unwell patients. Overall evidence is limited, and existing data has wide variability in the measures reported. Further work is required to fully characterize the time course of DMA in both health and disease.
Introduction Significant losses of muscle mass and function occur after major abdominal surgery. Neuromuscular electrical stimulation (NMES) has been shown to reduce muscle atrophy in some patient groups, but evidence in post-operative patients is limited. This study assesses the efficacy of NMES for attenuating muscle atrophy and functional declines following major abdominal surgery in older adults. Methods Fifteen patients undergoing open colorectal resection completed a split body randomised control trial. Patients’ lower limbs were randomised to control (CON) or NMES (STIM). The STIM limb underwent 15 minutes of quadriceps NMES twice daily on post-operative days (PODs) 1–4. Ultrasound measurements of Vastus Lateralis cross-sectional area (CSA) and muscle thickness (MT) were made preoperatively and on POD 5, as was dynamometry to determine knee extensor strength (KES). Change in CSA was the primary outcome. All outcomes were statistically analysed using linear mixed models. Results NMES significantly reduced the loss of CSA (−2.52 versus −9.16%, P < 0.001), MT (−2.76 versus −8.145, P = 0.001) and KES (−10.35 versus −19.69%, P = 0.03) compared to CON. No adverse events occurred, and patients reported that NMES caused minimal or no discomfort and felt that ~90-minutes of NMES daily would be tolerable. Discussion NMES reduces losses of muscle mass and function following major abdominal surgery, and as such, may be the promising tool for post-operative recovery. This is important in preventing long-term post-operative dependency, especially in the increasingly frail older patients undergoing major abdominal surgery. Further studies should establish the efficacy of bilateral NMES for improving patient-centred outcomes.
Background Sarcopenia is characterized by the progressive and generalized loss of muscle mass and function. There is an increasing body of evidence to suggest that cancer patients with pre-existing sarcopenia are at a greater risk of both short-and long-term clinical complications. The aim of this review is to examine the impact of low muscle mass on prognostic outcomes in patients with locally advanced rectal cancer (LARC) who undergo neoadjuvant chemoradiotherapy (nCRT) prior to surgery. Methods MEDLINE, PubMed, and Embase databases were searched from inception to October 2021. Any comparative studies relating to the prognostic outcomes of sarcopenic versus non-sarcopenic patients with LARC who received nCRT prior to surgery were included. Risk of bias was assessed using the Risk Of Bias In Non-randomized Studies of Interventions (ROBINS-I). Meta-analysis was performed on reported hazard ratios (HR) and 95% confidence intervals (CI) using DerSimonian-Laird random-effects models. Results A total of 598 patients from five studies were included in the analysis of hazard ratios for overall survival, whereas 505 patients from four studies were available for analysis of HR for disease-free survival. Meta-regression analysis showed a significant association between pre-existing sarcopenia and worse overall survival (HR: 1.69, 95% CI: 1.15-2.48). The association between pre-existing sarcopenia and shorter disease-free survival was not statistically significant (HR: 1.07, 95% CI: 0.63-1.82). Conclusions The review highlights the role that body composition can play on prognostic outcomes in patients undergoing multimodal cancer treatment. Given the complex underpinnings of sarcopenia progression, more research is needed to develop strategies to mitigate this impact in a physiologically vulnerable population.
Aim The National Patient Safety Agency (NPSA) reviews incident reports from all NHS trusts, and reports deemed critical are issued as NPSA alerts. We aim to highlight important learning points from NPSA alerts to facilitate wider dissemination and prevent similar incidents, and overall improve patient safety. Method All patient safety alerts obtained from NPSA since inception (2008) till June 2020 were screened. We identified safety alerts that could be relevant to surgical practice, and further details of each alert were obtained from the Central Alerting System (CAS) website. Information obtained from CAS website was reviewed by consultant surgeons to identify specific learning points. Results 1857 alerts were reported by NPSA of which 94 were relevant to surgical practice. Alerts were grouped into four themes: pre-operative(N = 4), intra-operative(N = 34), post-operative(N = 29), others(N = 8), and no specific learning point identified(N = 19). Pre-operative alerts focused on safety checks to avoid errors and improve patient safety e.g., WHO checklist. Majority of the intra-operative alerts were due to difficulty with use of specific equipment(n = 22) e.g., advanced haemostatic devices. Post-operative alerts highlighted specific issues with implants especially in breast and orthopaedic surgery(N = 23), and patient review following procedures(N = 6). Conclusions In spite of alerts occurring in a specific speciality, there is wider applicability to all surgical specialities e.g., pre-operative risk assessment in elderly patients requiring urgent surgery or confirming pregnancy status in immediate pre-operative period. Emphasis should be laid on staff training on using specialist equipment including troubleshooting. Raising awareness of these NPSA alerts may help prevent similar incidents.
Aims General surgery consultants have some of the highest rates of burnout. Ever increasing emergency general surgery (EGS) admissions playing a major role in this. A move to create split sub-speciality cover consisting of upper GI/HPB (UGI) and colorectal (CR) consultants has been suggested to improve EGS outcomes. We assessed the impact changing on-call working patterns had on perceived consultant stress levels, manageability of their workload and patient length of stay (LOS). Methods Consultant on call patterns changed from an individual consultant covering four consecutive weekdays to two consultants (one UGI/HPB, one CR) sharing four consecutive weekdays. Consultants were surveyed to assess the impact of this change on the manageability of their workload and their perceived stress levels. Admission numbers and LOS were also analysed for all EGS admissions over a 6-month period either side of the rota change. Results 89% of consultants who responded chose to work the new on call format. 78% felt it had improved the manageability of their workload, decreased perceived stress levels and improved quality of patient care. There was no change in the number of EGS admissions (862 vs 866) or EGS patient length over the time periods studied (Pre: 0D: 8%, 1 – 2D 38%, 3 – 4D 19%, >4D 34%. vs Post: 0D 8%, 1 – 2D 40%, 3 – 4D 17%, > 4D 35%). Conclusions A move to shorter and sub-specialty on call duties reduced stress and improved manageability for consultant general surgeons without adverse impact on patient’s length of stay.
Introduction Cancer cachexia is associated with poor surgical outcomes, including increased length of stay, morbidity and mortality. Cachexia is a complex multi-faceted pathological process consistently associated with energy imbalance via hypermetabolism. Beyond this, pre-clinical animal models suggest mitochondrial dysfunction to be an important component of cachexia, although this is unconfirmed in humans. This study aimed to investigate the mitochondrial function of pre-surgical cancer patients, and the impact of exercise prehabilitation on this. Methods This study was approved by an NHS research ethics committee (IRAS: 275264). Male patients awaiting surgery with curative intent for colorectal and prostate cancer were eligible, with healthy volunteers recruited for comparison. Muscle biopsies of vastus lateralis were taken before and after 4-weeks home-based exercise (3x/wk). Mitochondrial oxidative phosphorylation (OXPHOS) was analysed using high-resolution respirometry (Oroboros Instruments). Results Eleven cancer patients and 6 healthy volunteers were recruited. Cancer patients had significantly lower maximal coupled (44.49pmol/(s*mg) vs. 74.81pmol/(s*mg), p=0.004) and uncoupled (55.82pmol/(s*mg) vs. 100.00pmol/(s*mg), p<0.001) OXPHOS capacity compared to healthy controls. Exercise training significantly increased maximal coupled (44.10pmol/(s*mg) vs. 54.64pmol/(s*mg), p=0.045) and uncoupled (56.20pmol/(s*mg) vs. 71.96pmol/(s*mg), p=0.001) OXPHOS capacity in this cancer cohort. Conclusion Declines in mitochondrial function appear to play a role in cancer cachexia. Short-term exercise training, in keeping with target timeframes for surgery (i.e., <31-days from decision-to-treat), appears to attenuate these declines. Further work is needed to determine if declines in mitochondrial function are causative or reactive, and to identify optimal exercise regimes to mitigate these declines.
Aims Significant loss of muscle mass and function occurs after major abdominal surgery. Neuromuscular electrical stimulation (NMES) has been shown to reduce muscle atrophy in some patient groups, but evidence in postoperative patients is limited. This study assesses the efficacy of NMES in attenuating muscle atrophy following major abdominal surgery. Methods Fifteen patients undergoing open colorectal resection were recruited to a split body randomised control trial and their lower limbs randomised to control (CON) or NMES (STIM). The STIM limb underwent 15 minutes of quadriceps NMES twice daily on postoperative day (POD) 1 to 4. Ultrasound measurement of Vastus Lateralis (VL) cross sectional area (CSA) and muscle thickness (MT) was made preoperatively and on POD 5, as was dynamometer measurement of knee extensor strength (KES). All outcomes were analysed using linear mixed model techniques. The study was approved by NHS research ethics committee (ref 20/EM/069). Results NMES significantly reduced the loss of CSA (-2.52% vs -9.16%, p<0.001), MT (-2.76% vs -8.145, p=0.001) and KES (-10.35% vs -19.69%, p=0.03). No adverse events occurred, and patients reported that NMES caused minimal or no discomfort. Conclusions NMES reduces loss of muscle mass and function following major abdominal surgery and may be an important tool in aiding recovery to normal activity levels. This will be especially important in preventing postoperative loss of independence in the increasingly physiologically frail patients undergoing major abdominal surgery. Further studies should establish the efficacy of bilateral whole-leg NMES for improving patient-centred outcomes.
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