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Background: Menopause is associated with impairments of health, e.g. cardiovascular disease, changes in body composition, decrease in bone density. Physical activity and nutrition strategies have been demonstrated to counteract some of these disabilities. Aim of the present study was to analyze the impact of 3 months of strength and endurance training combined with protein/carbohydrate supplementation on strength, body composition and bone metabolism in postmenopausal women. Method(s): 62 postmenopausal women were recruited. Measurements: Body composition by BIA. Strength of leg, chest and handgrip. delta44Ca/42Ca in blood and urine as proxies for bone metabolism, samples were analyzed by mass spectrometry. Participants completed 2/week endurance training (walking) for 60 minutes (60-75% km/h of 4mmol threshold) and a whole-body strength training 1/week for 60 minutes (online). In addition, the intervention group (IG) received 100g of sour milk cheese and 76g of white bread (35.3 g carbohydrate, 36.1 g protein, 3.5 g fat, 321 kcal) after each training. Result(s): Training results in an anabolic effect on bone metabolism, here protein/carbohydrate supplementation does not show additive effects. Training resulted in an increase of leg and hand grip strength. For hand grip strength an additive effect could be demonstrated after protein/carbohydrate supplementation. Both groups increased muscle mass and reduced fat mass, although the results were not significant. Discussion(s): Training was effective, showing an increase in strength. Additive effects of the nutritional intervention could be only observed for hand grip strength. This may be due to a weak compliance of the protein/carbohydrate supplementation by a meal while corona pandemic. Also, because of the endurance parts, the training was not specifically designed to increase strength. Nevertheless, even this mild training has a remarkably strong impact on bone metabolism. Conclusion(s): Even if the effects are faint, the data of this study provide evidence that protein/carbohydrate supplementation, also by food, supports the events of training on strength. Training has a strong impact on bone metabolism in postmenopausal women. The subjects respond very individually to training and nutrition interventions. Training consequentially is to be personalized.Copyright © 2023
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BACKGROUND: Patients with low muscle mass and acute SARS-CoV-2 infection meet the Global Leadership Initiative on Malnutrition (GLIM) etiologic and phenotypic criteria to diagnose malnutrition, respectively. However, available cut-points to classify individuals with low muscle mass are not straightforward. Using computed tomography (CT) to determine low muscularity, we assessed the prevalence of malnutrition using the GLIM framework and associations with clinical outcomes. METHODS: A retrospective cohort was conducted gathering patient data from various clinical resources. Patients admitted to the COVID-19 unit (March 2020 to June 2020) with appropriate/evaluable CT studies (chest or abdomen/pelvis) within the first 5 days of admission were considered eligible. Sex- and vertebral-specific skeletal muscle indices (SMI; cm2 /m2 ) from healthy controls were used to determine low muscle mass. Injury-adjusted SMI were derived, extrapolated from cancer cut-points and explored. Descriptive statistics and mediation analyses were completed. RESULTS: Patients (n = 141) were 58.2 years of age and racially diverse. Obesity (46%), diabetes (40%), and cardiovascular disease (68%) were prevalent. Using healthy controls and injury-adjusted SMI, malnutrition prevalence was 26% (n = 36/141) and 50% (n = 71/141), respectively. Mediation analyses demonstrated a significant reduction in the effect of malnutrition on outcomes in the presence of Acute Physiology and Chronic Health Evaluation II, supporting the mediating effects of severity of illness intensive care unit (ICU) admission, ICU length of stay, mechanical ventilation, complex respiratory support, discharge status (all P values = 0.03), and 28-day mortality (P = 0.04). CONCLUSIONS: Future studies involving the GLIM criteria should consider these collective findings in their design, analyses, and implementation.
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Background/Aims Through the COVID pandemic there have emerged reports of autoimmunity or new rheumatic diseases presenting in patients after they had COVID-19. This is thought to be caused by cross-reactivity of the COVID-19 spike protein to human antigens. Given the use of mRNA COVID-19 vaccinations which express the spike protein we might expect to see presentation of new rheumatic diseases following their use. We discuss a case where this appears to have occurred. Methods Our patient is a 24-year-old male with mixed phenotype acute leukaemia who had been treated with allogenic stem cell transplant and was currently in remission. He presented with fevers, palpitations, myalgia and bilateral arm and leg swelling. Symptoms began the day after receiving the first dose of an mRNA COVID-19 vaccination (Pfizer/BioNTech.) There were no other symptoms or recent change in medications. Physical examination revealed tender oedema in his forearms, biceps and thighs bilaterally with sparring of the hands. He had reduced power with shoulder (MRC 3/5), elbow (4), wrist (4+) and hip (4) movements. Observations revealed tachycardia and fevers up to 40C. Results Laboratory studies showed markedly elevated C-reactive protein (202), creatinine kinase (6697) and troponin (593) whilst investigations for infection were negative. An autoimmune panel was positive for anti- PM-SCL-75-Ab. An electrocardiogram showed sinus tachycardia. Echocardiogram was normal. Bilateral upper limb dopplers revealed no deep vein thrombus. An MRI of his thighs showed diffuse symmetrical oedema within the muscles, in keeping with an inflammatory myositis. A quadricep muscle biopsy showed evidence of MHC class 1 up-regulation, suggesting an inflammatory process. In addition, there were numerous macrophages evident in the endomysium. While this can be seen in graft-versus-host disease (GVHD), they would usually be found in the perimysium. After discussion between haematology, rheumatology and neurology, this was felt to be a case of vaccine induced myositis and myocarditis. Autoimmune myositis was thought to be less likely due to the relative sparing of the hands and the absence of Raynaud's phenomenon. 1 gram of intravenous methylprednisolone was then given for 3 days. The patient had a marked response with defervescence, improving laboratory markers, improved myalgia and decreased limb swelling. The patient was stepped down to a reducing regime of prednisolone and discharged. Due to relapse whilst weaning he has started on mycophenalate mofetil and rituximab and now continues to improve. Conclusion There are case reports of myositis following COVID-19 vaccination but our patient's case is complicated by the differential diagnosis of GVHD and concurrent myocarditis. Ongoing work is needed to clarify the exact link between vaccination and the presentation of a new inflammatory myositis, but it is important to recognise and start treatment early in order to preserve muscle bulk and ensure recovery.
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Background: Both clinicians and researchers have a growing interest in assessment of muscle mass utilizing diagnostic abdominal computed tomography (CT) scans. Different imaging analysis software tools exist for the assessment of muscle mass;however, minimal information is available to describe the agreement between tools. The objective of this project was to determine the agreement, reliability, and strength of the relationship between skeletal muscle cross-sectional area (CSA) and muscle quality at the third lumbar region (L3) between two different image analysis software tools (3D Slicer vs SliceOmatic) using a convenient sample of individuals who have undergone diagnostic abdominal CT scan imaging. Method(s): A retrospective sample of individuals who had undergone a diagnostic abdominal CT scan was utilized. For both image analysis software tools, L3 skeletal muscle CSA was identified using a Hounsfield Unit (HU) range of -30 to +150 and muscle quality was defined as the mean HU. For each patient, L3 skeletal muscle CSA (cm2) and mean HU was calculated using 3D Slicer (version 5.0.3) and SliceOmatic (version 4.3, TomoVision, Quebec, Canada). Lin's correlation coefficient (LCC), intraclass correlation coefficient (ICC), and Spearman correlation coefficient (SCC) were used to examine the agreement, reliability, and strength of the relationship with both L3 skeletal muscle CSA and muscle quality using3D Slicer versus SliceOmatic. Bland Altman plots were created to depict the agreement of L3 CSA and muscle quality between the two tools. Result(s): A total of 504 patients were included;the sample included 128 healthy adults and 376 patients who had the following diagnoses: breast cancer (n = 175), colorectal cancer (n = 127), sepsis (n = 37) and COVID-19 (n = 37). The mean L3 skeletal muscle CSA measured using SliceOmatic was 140.6 +/- 36.0 cm2 and using 3D Slicer was 137.6 +/- 36.1 cm2. When examining the agreement, reliability, and strength of the relationship of L3 skeletal muscle CSA between SliceOmatic and 3D Slicer, LCC was 0.934 (p < 0.001), ICC was 0.968 (p < 0.001), and SCC was 0.930 (p < 0.001). The mean muscle quality measured using SliceOmatic was 35.1 +/- 10.8 HU and using 3D Slicer was 34.6 +/- 11.0 HU;LCC was 0.928 (p < 0.001), ICC was 0.964 (p < 0.001), and SCC was 0.957 (p < 0.001). Both the Bland Altman plots for L3 skeletal muscle CSA and muscle quality using SliceOmatic and 3D Slicer displayed overall strong agreement (Figures 1 and 2). However, 27 outliers were identified when visualizing the agreement L3 skeletal muscle CSA;further investigation of these outliers revealed that most of these measurements were conducted in critically ill patients (sepsis and COVID-19). Examining L3 skeletal muscle CSA between SliceOmatic and 3D Slicer among a subgroup of patients with sepsis and COVID revealed lower overall agreement (LCC: 0.679, p < 0.0001), reliability (ICC: 0.811, p < 0.001), and strength (SCC: 0.642, p < 0.001). Similar findings were observed with muscle quality between SliceOmatic and 3D Slicer among a subgroup of patients with sepsis and COVID (LCC: 0.585, p < 0.0001;ICC: 0.741, p < 0.001;SCC: 0.592, p < 0.001). Conclusion(s): Overall, both the SliceOmatic and 3D Slicer imaging analysis software tools had strong agreement, reliability, and strength when examining muscle mass and muscle quality. However, the agreement, reliability, and strength between muscle mass and muscle quality was lower between the two tools among critically ill patients compared to healthy controls and patients with cancer. Further research is needed to describe the etiology of this lower agreement in critically ill patients. (Table Presented).
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Objective: In this study, we aimed to retrospectively assess the change in weight before and after the COVID-19 mandatory lockdown in Colombia among adults who received nutritional and healthy lifestyle recommendations at weight loss and wellness clinics by telehealth. The primary objective was to describe and compare the mean weight reduction measured at the baseline and by the end of the lockdown. Secondary objectives include describing and comparing body fat percentage, muscle mass percentage, and BMI measured at the baseline and by the end of the lockdown. Method(s): One hundred and seventy-two middle-aged (18-68 years old) women and men received online nutritional and healthy lifestyle advice during the COVID-19 lockdown in Colombia. Weight, fat (%), muscle mass (%), and BMI were assessed before and after the lockdown. We included baseline measurements taken before the lockdown from March 1st to June 20th, 2020, and post-lockdown measurements from August 31st to October 20th, 2020. Exclusion criteria included pregnancy or breastfeeding women, acutely decompensated diabetes, hypertension, CKD, Hypothyroidism or taking any of the obesity treatment medications approved in Colombia, including liraglutide, semaglutide or orlistat. A retrospective analysis was completed to compare the change in mean body anthropometrics. Shapiro Wilk test was used to assess for normality. Paired T Test and Wilcoxon sign test were used to compare the distribution of body anthropometrics before and after the lockdown. IRB approval was obtained before exporting and analyzing the collection of data. Result(s): Out of 205 subjects and after a review of exclusion criteria, 172 subjects were included in the data analysis. 90.1% (155) were women. 52.3% (135) had overweight or obesity. After the COVID-19 lockdown, the mean weight loss reduction was 8.79 kg (SD +/- 5.45, p<0.0001), corresponding to an 11.4% weight loss reduction. The mean fat mass percentage loss was 2.89 % (SD +/- 2.64, p<0.0001), and the mean BMI presented a reduction of 3.16 (SD +/- 1.96, p <0.0001). The mean muscle percentage loss was 0.10% (SD +/- 2.67, p 0.482). Discussion/Conclusion: Subjects receiving telehealth nutritional advice in Colombia during the COVID-19 lockdown had significant clinical and statistical weight, BMI, and fat loss reduction. Muscle mass was preserved;however, this mean change was not statistically significant. Physical inactivity during the lockdown period was a potential contributor to a nonsignificant mean muscle mass change. The subjects in this study were highly motivated to virtually attend weight loss and wellness clinics and to improve body anthropometrics by optimizing lifestyle changes. Telehealth weight loss strategies should always be considered when in-person patient interaction is not available.Copyright © 2023
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The proceedings contain 14 papers. The topics discussed include: lifestyles and their relationship with the psychological status of postgraduate students in the area of physical activity;impact of a remote supervised moderate interval training on cognitive functions in Mexican older adults. a preliminary study;bone diameters and their association with causes of health risk in college athletes;an online home exercise program changes lower body strength, nutritional status but not depression scores during the COVID-19 in Mexican elderly;anxiety symptoms in older adults during the COVID-19 pandemic. Intervention of physical exercise through social networks;leger test as a specific protocol to estimate the maximum oxygen consumption in the urban search and rescue division of the fire department of Tijuana, Mexico;effect of physical exercise on natural killer cells;effects of a 16-session high intensity interval training program on body composition in sedentary subjects;and resistance training using time under tension improves the muscle quality and muscle mass in healthy-young women. a preliminary study.
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Background: COVID-19 restrictions have further reduced college students' opportunities for physical activity (PA), and problems related to physical and physiological health of college students have become increasingly serious. Studying the effect of Tai Chi (TC) on body composition and heart rate variability can provide insights into the potential benefits of TC as a form of exercise. Objectives: The aim of this study was to assess the effects of 6-week 24-forms Yang-style Tai Chi (YTC) on body composition and heart rate variability (HRV) among college students. Materials and methods: This single-arm, single-blind, pilot study enrolled 6 beginners from 25 individuals. Body composition and HRV were assessed at the beginning and end of the YTC exercise intervention. The intervention was performed twice a week for 6 weeks, each session lasting 45 minutes and consisting of warming-up, practice, and cooling-down exercises during the COVID-19 pandemic. Results: After 6-week TC exercise, BMI (21.00±2.61 to 21.20±2.62 kg/m2) barely changed (p>0.05), while body fat mass, skeletal muscle mass, and basal metabolic rate showed a significant change (p<0.05). In addition, the high frequency (6.68±0.40 to 7.05±0.50 nu) of heart rate variability had a positive significant increase (p<0.05). Conclusion: The 6-week TC practice had the benefit of improving HRV, such as high-frequency (HF), in college students, but further research is needed to identify the long-term effects of TC on body composition and HRV during the COVID-19 epidemic. © 2023, Faculty of Associated Medical Sciences, Chiang Mai University. All rights reserved.
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Purpose: The current trend is an increasing sedentary lifestyle in all age categories. Among university students, there is an alarming decline in physical activity while increasing the percentage of total body fat compared to high school students. The main goal of the study is to describe the current state of body composition of university students and to assess the impact of physical activity / inactivity in this specific age group, which has changed very dynamically in recent years due to the coronavirus pandemic. Methods: A total of 358 probands with a mean age of 20.87 ± 1.43 years were involved in the research, of which 234 women (65.4 %) had a height of 167.9 ± 6.3 cm and a body weight of 61.3 ± 10.0 kg, BMI 21.7 ± 3.2, body fat 25.9 ± 6.4 %, skeletal muscle mass 24.7 ± 3.3 % and 124 men (34.6 %) with body height 180.9 ± 7.7 cm, body weight 77.6 ± 12.4 kg, BMI 23.6 ± 2.8, body fat 15.8 ± 5.4 %, skeletal muscle mass 37.0 ± 5.6 %. For the purposes of valid categorization into high active, minimally active, and inactive probands, the International Standardized Physical Activity Questionnaire (IPAQ) was used, which monitors physical activity in the last 7 days. The questionnaire includes questions regarding the frequency and time spent in each intensity of physical activity, as well as the time spent sitting. The non-invasive method of bioelectric tetrapolar impedance using the InBody 230 device was used for the analysis of somatic parameters. The Takei hand dynamometer was used for the diagnosis of muscle strength. Some selected results: According to IPAQ, probands were classified as inactive (16 %), minimally active (58 %) and high active (25 %), the analysis of selected aspects of physical activity shows that men are more active than women, but both sexes spend more than 5.5 hours a day sitting on average. A total of 39 % of probands have higher level of total body fat than the recommended norms. Conclusion: The study showed that lower levels of physical activity are associated with higher values of total body fat in university students. At the same time, within our sample both sexes out of 84 % comply with general recommendations regarding the volume and intensity of physical activity. Copyright 2023 by the author(s).
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Introduction: Coronavirus disease 2019 causes severe complications in subjects with risk factors: advanced age, diabetes, hypertension, obesity, among others. Patients with COVID-19 with severe disease have prolonged hospital stays, which causes dynapenia, muscle depletion, and sarcopenia, this induce a worse disease evolution and poor prognosis. Objective(s): Evaluate lung function in recovered COVID-19 with sarcopenia patients. Method(s): Cross-sectional study. 102 patients recovered from COVID-19 who required hospitalization wereincluded. Lung function was assessed using PIMAX, PEMAX, DLCO2 spirometry. Body composition was evaluated by electrical bioimpedance. Sarcopenia was diagnosed by appendicular muscle mass index (men: <7 kg / m, women <5.5 kg) and hand strength (men <27 kg, women <16 kg). Result(s): The population's average age was 44 years +/- 11.66, 58.88% were men, the subjects with sarcopenia had a higher prevalence of diabetes (26.32% vs 7.81%, p=0.039) hypertension (28.95% vs 12.5%, p = 0.039) compared with those without sarcopenia. Subjects with sarcopenia had worse respiratory parameters of FEV1(2.73lt vs 3.19lt, p=0.003), FEV1 post (2.70lt vs 3.24 lt, p=0.0005), FVC (3.19lt vs 3.9lt, p<0.001), FVCpost (3.22lt vs 3.90lt, p<0.001), FEV1/FVC (81.83 vs 84.17, p=0.040), DLCO (25.21 vs 31.83, p<0.001), and exercise tolerance (464.16 m vs 535.84 m, p<0.001) compared to the subjects withoout sarcopenia. Conclusion(s): COVID-19 recovered patients with a higher amount and sarcopenia developed a worse pulmonary and probably poor prognosis.
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Introduction: Protein energy wasting (PEW) is an established entity in adults with CKD but is not well studied in children. The burden of PEW has been observed to be higher in Indian children with CKD compared to the chronic kidney disease in children (CKiD) cohort. The impact of PEW on outcomes needs to be addressed in these children with CKD. This prospective longitudinal study was undertaken in children with CKD 2-5D to assess the association of PEW with clinical outcomes of infection related hospital admissions (IRHA). Method(s): Children (age 2-18 years) with CKD 2-5D, from a tertiary care center were recruited for PEW assessment from January 2017 following ethical committee approval and informed consent. Children with evidence of infection in the last month and those on dialysis for less than a month were excluded. Demographic characteristics and clinical outcomes of hospital admissions were recorded till June 2022. Based on the CKiD study, PEW was diagnosed and categorized using 5 criteria: 1. Muscle mass (Mid arm muscle circumference);2. Body mass (body mass index);3. Biochemical parameters (serum cholesterol, serum albumin, serum transferrin, and C-reactive protein);4: Appetite and 5. Short stature. PEW was further categorized as mild (> 2 criteria), standard (> 3 criteria), and modified (> 3 criteria with short stature). Infections that needed hospitalization included viral hemorrhagic fever, COVID-19 infection, sepsis, urinary tract infection, lower respiratory tract infection, peritonitis, and catheter-related blood stream infection. Result(s): Among 136 children (45 on dialysis, mean age 122 + 46 months, 70% males) 72 (53%) had PEW. The proportions of those with mild, standard, and modified PEW were 8%, 13%, and 32% respectively. Over a mean follow-up of 38 + 21 months, 104 (76%) children required hospital admissions of which 69% were due to infections. Death was noted in 2%, and 12% got transplanted. The proportion of children needing hospital admissions was significantly higher in those with PEW compared to those without PEW (85% vs 66% respectively, p=0.011). IRHA was observed in 68% of children with PEW compared to 36% without PEW (p<0.001). The proportion of IRHA in those with dialysis with or without PEW ((87% vs 50%, p=0.001) was significantly higher compared to those with CKD 2-5 (54% vs 32%, p= 0.03). In the overall cohort, the proportion of IRHA was significantly higher with modified PEW compared to other PEW categories (p<0.001), [modified: 74.4%, standard: 58.0%, mild: 59%, no PEW: 36%]. On multivariable analysis, by adjusting for age, gender, etiology of CKD, and dialysis, the presence of PEW and dialysis status were independent factors associated with IRHA [Adjusted OR 3.58 (1.62,7.89), p=0.002] and [OR 3.29 (1.4,7.75), p=0.006, respectively]. Similarly, the presence of inflammation was independently associated with IRHA [OR 3.93 (1.49, 10.3), p=0.002]. Figure 1 shows the risk factors associated with IRHA based on PEW categories and inflammation status. [Formula presented] Conclusion(s): In children with CKD 2-5D, the presence of PEW and inflammation were significantly associated with IRHA. Children with modified PEW had nearly 5 times more risk of developing IRHA, reinforcing the importance of growth as a unique parameter of PEW in these children. No conflict of interestCopyright © 2023
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Introduction: Following hospitalisation with SARS-Cov2 infection a large proportion of individuals report fatigue as a persisting symptom. Here, we performed a detailed study of the muscle for insight into underlying mechanisms. Method(s): Adults were recruited at 5-7 months following hospital discharge for severe SARS-Cov2 infection (n=21), along with control volunteers (n=10) of a similar age, gender, ethnicity and body mass. Perceived fatigue was estimated using the fatigue severity scale. The short physical performance battery test determined habitual functionality, alongside isometric quadriceps strength normalised for appendicular mass and isokinetic force loss during 20 knee extensions (Cybex Norm dynamometer). Leg muscle volume, and phosphocreatine (PCr) resynthesis during recovery from ischemic plantar flexion exercise (an index of muscle metabolic resilience) were quantified using MRI and 31P MRS. Student t-test was used to detect differences between groups and all data are mean (SD). Result(s): Patients (P) reported greater perception of fatigue and demonstrated worse habitual functionality compared to controls (C). However, leg volume [P: 2,578 (303) cm3/m2 vs C: 2,384 (289) cm3/m2, p=0.1], strength [P: 21.8 (4.1) Nm/kg vs C: 21.1 (4.5) Nm/kg, p=0.7], force loss [P: 25% (6) vs C: 21% (10), p=0.1] and PCr recovery kinetics (Qmax) [P: 25.8 (11.3) vs C: 22.8 (8.7), p=0.5] were not different. Conclusion(s): Despite greater perception of fatigue and lower habitual functionality, patients recovering from severe COVID-19 infection did not have altered muscle volume, strength, fatiguability or metabolic resilience compared to controls.
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Introduction: After COVID-19 pneumonia, nearly two-thirds of patients have residual dyspnea and muscle deconditioning. This symptomatology is the main indication for exercise rehabilitation in these patients. Aim(s): To assess the impact of a post-COVID-19 muscle retraining program on the functional and clinical status. Method(s): Prospective study, including 17 patients declared cured of a Covid-19 infection, but who kept at least 1 month after the acute episode a state of tiredness and dyspnea affecting their daily quality of life. A functional and a muscular assessment (spirometry, six-minute walk test, measurement of thoracic amplification, muscle testing and impedancemetry) were carried out before and after the respiratory rehabilitation protocol. Result(s): We noted a reduction in the frequency of the pulmonary restriction from 49% to 19% and of the aireway obstruction from 10% to 7% (p=0.003). Six-minute walking distance increased from 260+/-70 meters to 360+/-120 meters (p=0.002). The mean Borg score decreased from 2.8 +/- 1.4 to 8.8 +/- 1.2 (p = 0.001) and the mean mMRC stage decreased from 2.8 to 1.9 (p = 0.001). We noted an increase in muscle mass (22% vs 33%;p = 0.04) and thoracic expansion (4.64 vs 6.12 cm;p = 0.001). Muscle testing revealed a significant improvement in strength (p=0.002) and movement (p=0.01) of upper and lower limb muscles. Conclusion : These results confirm the interest of muscle retraining as an essential therapeutic means for patients suffering from residual dyspnea post-Covid-19. this even in the absence of anterior respiratory pathology.
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Exercise capacity is impaired after severe Covid 19. Exercise tests have different characteristics and are necessary to better understanding the recovery phase. Aim(s): To evaluate the physiological variables in 1 Minute Sit to Stand (1STST) and Cardiopulmonary Exercise Test (CPET) in severe Covid 19 recovery at 90 days after the onset of symptoms. Method(s): We assessed 25 post-severe Covid 19 individuals after 90 days the onset of symptoms. We performed bioelectrial impedance to verify skeletal muscle mass (SMM), hand grip (HG) to determine muscle strength, 1STST and CPET to verify exercise capacity. Result(s): In 1STST, 28% of the sample presented performance below the reference for Brazilian population (Furlanetto, K. et al. Arch Phys Med Rehabil 2022;103(1): 20-28). The impairment was found in 5 first repetitions, as in the number of repetitions performed in 1 minute. The physiological responses of the 1STST proved to be a submaximal test (RER = 0.97). In CPET, we found a maximum effort (RER = 1.22) and peripheral muscle limitation. Performance was reduced in 68% of the individuals. In both tests, good and significant correlations were observed with SMM and HG. Conclusion(s): After 90 days of Covid-19, we still found significant correlations of peripheral muscle disfunction and exercise performance in both tests. Interventions focusing on peripheral muscle rehabilitation might be highly relevant in critical Covid-19.
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Introduction: COVID-19 is caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). This emerging disease has become a public health emergency worldwide. Acute Kidney Injury (AKI) secondary to COVID-19 has been described in different studies, but information characterising patients with subsequent AKI is limited. The cause of kidney involvement in COVID-19 is thought to be multifactorial. Cardiovascular comorbidity and predisposing factors (e.g. sepsis and nephrotoxins) are considered as important contributors. The tubular damage has been linked to the cytopathic effects of kidney-resident cells and cytokine storm syndrome. To gain better understanding of the effect of COVID-19 on renal function, large clinical and register based studies have been requested. The objective of this study was to quantify the risk of acute kidney injury during and after covid-19. Method(s): This was a Swedish prospective cohort study where Generalised Estimating Equation methods (GEE) was used to map the kinetics of kidney injury markers such as serum-creatinine (s-creatinine), cystatin and eGFR for the hospitalised patients in the cohort, comparing patients with moderate and severe COVID-19 during and after the acute infection. Furthermore, we will investigate if patients with kidney dysfunction during COVID-19 have more severe disease outcome compared with the whole cohort, adjusting for age, sex, and comorbidities. We will also compare start values of kidney injury markers with the latest values and count the percentage worsening among all disease severity groups. Cohort: Approximately 550 COVID-19 patients were recruited to the study following informed and signed consent at 2 Swedish University Hospitals. A case report form was filled in at pre-specified time points, and samples collected consecutively. A database was then created containing dates and information regarding symptoms, laboratory samples, complications, and disease severity (e.g., need of oxygen, intensive care, mechanical ventilation, death). Result(s): There was a significant increase in s-creatinine among hospitalised and intensive care unit patients (n=126) during the acute phase of COVID-19 (day 0-6 post disease onset) when compared to the follow up samples after 90 days from disease onset. There was also a decrease in s-creatinine in day 11-21 and 31-70 among hospitalised and intensive care unit COVID-19 patients when compared to the same follow up samples. This analysis was adjusted for age and sex. See figure 1. [Formula presented] Conclusion(s): Our preliminary results show that s-creatinine was increased during the first days of COVID-19 followed by decreased levels compared to baseline. The higher levels of s-creatinine day 0-6 of COVID-19 could be an effect of the acute infection, but it could also be caused by other factors such as dehydration or medication. The lower levels of s-creatinine might be caused by dietary changes or loss of muscle mass due to immobilisation during hospitalisation. Knowledge about fluctuations in s-creatinine in COVID-19 patients may be of use for treating physicians. Conflict of interest Potential conflict of interest: Funding from: Swedish Kidney Foundation Central and local ALF funding Vasterbotten County Council, Sweden Arnerska Research Fund, Umea University, SwedenCopyright © 2023
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Background: The spread of coronavirus disease 2019 (COVID-19) has dramatically altered the lifestyles of many people worldwide. Several studies reported that body weight of young adults increased during the COVID-19 pandemic; however, weight loss has been observed in the elderly population. Therefore, trends in body composition due to the COVID-19 pandemic may vary depending on the characteristics of the population. This study aimed to investigate the changes in body mass index (BMI), muscle mass, and fat mass before and during the COVID-19 pandemic among patients undergoing hemodialysis. Methods: In this retrospective longitudinal study, we enrolled 115 clinically stable outpatients (mean age: 65.7 ± 11.2 years, 62.6% men) who underwent hemodialysis thrice a week. Baseline data were collected between April 2019 and March 2020, before the declaration of the COVID-19 emergency by the Japanese government. The follow-up measurements were performed between July 2020 and March 2021 during the COVID-19 pandemic. Patient characteristics, laboratory data, and BMI measurements were collected from the medical records. Muscle mass and fat mass were measured using bioelectrical impedance analysis. Results: BMI and fat mass among the study participants were significantly higher during the COVID-19 pandemic than before the pandemic (p < 0.01), but no significant change in muscle mass was observed. A restricted cubic spline function showed that the increase in BMI appeared to correlate well with fat mass, but not with muscle mass. Conclusions: BMI and fat mass of patients on hemodialysis significantly increased due to preventive measures against the COVID-19 pandemic in Japan. These findings may provide useful information in making nutritional management decisions for patients undergoing hemodialysis during and after the COVID-19 pandemic.
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BACKGROUND: Little is known about the changes in organs and tissues that may make elder patients more vulnerable to acute stressors such as SARS-CoV-2 infection. METHODS: In 80 consecutive elderly patients with SARS-CoV-2 infection, we evaluated the association between the descending thoracic aorta calcium score, L1 bone density and T12 skeletal muscle density measured on the same scan by high-resolution computed tomography. RESULTS: At median regression, the ln-transformed DTA calcium score was inversely associated with L1 bone density (-0.02, 95%CI -0.04 to -0.01 ln-Agatston units for an increase of 1 HU) and with T12 muscle density (-0.03, -0.06 to -0.001 ln-Agatston units for an increase of 1 HU). At penalized logistic regression, an increase of 1 ln-Agatston unit of DTA calcium score was associated with an OR of death of 1.480 (1.022 to 2.145), one of 1 HU of bone density with an OR of 0.981 (0.966 to 0.996) and one of 1 HU of muscle density with an OR of 0.973 (0.948 to 0.999). These relationships disappeared after correction for age and age was the stronger predictor of body composition and death. CONCLUSIONS: Age has a big effect on the relationship between vascular calcifications, L1 bone density and T12 muscle density and on their relationship with the odds of dying.
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Objectives: Behavioral restrictions and staying at home during the COVID-19 pandemic have affected lifestyles. It was hypothesized that patients with rheumatoid arthritis (RA) decreased their activities of daily living (ADL) and exercise during the pandemic. The aim of this study is to investigate the changes in lifestyle and body composition. Methods: Data were obtained from an observational study (CHIKARA study). Of 100 RA patients, 70 (57 women, 13 men) were followed-up with measurements of grip strength, as well as muscle mass, fat mass, and basal metabolic rate by a body composition analyzer. Changes in ADL and exercise were evaluated using a visual analog scale. The relationships between changes in ADL or exercise and body composition were investigated. Results: Muscle mass and grip strength were significantly lower after behavioral restrictions compared to the periods before restrictions (34.0 vs 34.7 kg, P < 0.001; 16.2 vs 17.2 kg, P = 0.013, respectively). Fat mass was significantly greater after behavioral restrictions compared to the periods before restrictions (16.2 vs 15.5 kg, P = 0.014). The mean decrease in ADL was 44%, whereas that of exercise was 20%.The change in muscle mass (ß = -0.335, P = 0.007) was the only independent factor for the change in exercise on multivariate analysis. Conclusions: Muscle mass and grip strength decreased and fat mass increased in RA patients with the behavioral restrictions of the COVID-19 pandemic. Muscle mass decreased in patients without exercise. Maintenance of muscle mass may be important during the COVID-19 pandemic.
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BACKGROUND: The coronavirus disease 2019 (COVID-19) pandemic has restricted people's activities and necessitated the discontinuation of cardiac rehabilitation (CR) programs for outpatients. In our hospital, CR for outpatients had to be discontinued for 3 months. We investigated the influence of this discontinuation of CR on physical activity, body composition, and dietary intake in cardiovascular outpatients. METHOD: Seventy-eight outpatients who restarted CR were investigated. We measured body composition, balance test, stage of locomotive syndrome, and food frequency questionnaire (FFQ) results at restart and 3 months later. We also investigated the results of examination that were obtained before discontinuation. RESULTS: With regard to baseline characteristics, the percentage of male was 62.7% (n = 49), and average age and body mass index were 74.1 ± 8.5 years and 24.9 ± 7.0 kg/m2, respectively. Stage of locomotive syndrome and the results of FFQ did not change significantly. The one-leg standing time with eyes open test significantly worsened at restart (p < 0.001) and significantly improved 3 months later (p = 0.007). With regard to body composition, all limb muscle masses were decreased at restart and decreased even further 3 months later. CONCLUSIONS: Discontinuation of CR influenced standing balance and limb muscle mass. While the restart of CR may improve a patient's balance, more time is required for additional daily physical activities. The recent pandemic-related interruption of CR should inspire the development of alternatives that could ensure the continuity of CR in a future crisis.
ABSTRACT
COVID-19 negatively impacts several organs and systems weeks or months after initial diagnosis. Skeletal muscle can be affected, leading to fatigue, lower mobility, weakness, and poor physical performance. Older adults are at increased risk of developing musculoskeletal symptoms during long COVID. Systemic inflammation, physical inactivity, and poor nutritional status are some of the mechanisms leading to muscle dysfunction in individuals with long COVID. Current evidence suggests that long COVID negatively impacts body composition, muscle function, and quality of life. Muscle mass and function assessments can contribute toward the identification, diagnosis, and management of poor muscle health resulting from long COVID.