104 research outputs found
Proteomic analysis of plasma after 4 weeks of intermittent fasting in mice
A proteomic approach was used to identify
proteins differentially expressed in the plasma of mice
following alternate day fasting. Male mice (C57Bl6,
9 months old) were randomly assigned to ad libitum (AL,
n = 10) and calorie-restricted (IF, n = 10, AL on alternate
day basis) groups for 4 weeks. After staining, the gels were
imaged and differential protein expression patterns were
interrogated using image analysis software. Spots showing
a different expression level were identified through a
comparison with 2D maps found in databases officially
recognized (ExPASy). Master gels of AL and IF mice
exhibited slightly different 2-DE patterns as only 14 spots
out of 500 appeared differentially expressed: 12 spots were
downregulated and identified as apolipoprotein E (APO-E),
haptoglobin (HPT), alpha-1-antitrypsin (A1AT), prothrombin,
and serum amyloid P component (SPA), whereas
two spots were unidentified. In conclusion 4 weeks of
alternate feeding results in a slight perturbation of the host
plasma proteome. Of particular interest is the reduced
plasma content in APO-E and acute-phase proteins HPT,
A1AT and SPA that confirms a powerful anti-inflammatory
effect of this dietary regimen.
Keywords Alternate day fasti
Il Mostro nel cinema
Trattazione sulla mostruosità nell'arte, con particolare riguardo del suo ruolo in ambito cinematografico. Si discute la centralità del mostro nelle opere odierne, ovvero l'utilità narrativa e sociale, nonché della rivalutazione del suo contributo culturale. Inoltre viene analizzata l'emarginazione come caratteristica comune alla figura del mostruoso, in varie sfumature dello stesso tema
Branched-chain amino acids, mitochondrial biogenesis, and healthspan: an evolutionary perspective
Malnutrition is common among older persons, with important consequences increasing frailty and morbidity and reducing health expectancy. On the contrary, calorie restriction (CR, a low-calorie dietary regimen with adequate nutrition) slows the progression of age-related diseases and extends the lifespan of many species. Identification of strategies mimicking key CR mechanisms – increased mitochondrial respiration and reduced production of oxygen radicals – is a hot topic in gerontology. Dietary supplementation with essential and/or branched chain amino acids (BCAAs) exerts a variety of beneficial effects in experimental animals and humans and has been recently demonstrated to support cardiac and skeletal muscle mitochondrial biogenesis, prevent oxidative damage, and enhance physical endurance in middle-aged mice, resulting in prolonged survival. Here we review recent studies addressing the possible role of BCAAs in energy metabolism and in the longevity of species ranging from unicellular organisms to mammals. We also summarize observations from human studies supporting the exciting hypothesis that dietary BCAA enriched mixture supplementation might be a health-promoting strategy in aged patients at risk
Proteomic analysis of plasma after branched chain enriched mixture supplementation in mice
Background: Branched chain amino acid (BCAA) supplementation is a recently identified strategy to promote
longevity in mice. A proteomic approach was used to identify proteins which are differentially expressed in the sera
of mice following supplementation with selected branched chain amino acid enriched mixture (BCAAem).
Findings: 12 male mice (C57Bl6, 9 months-old) were randomly assigned to unsupplemented (Control, n = 6) and
supplemented (BCAA, n = 6, 0.1 mg/gr/day in drink water for 4 weeks). At the end of treatment total plasma
samples from Control and BCAAem mice were separated by two-dimensional gel electrophoresis (2-DE). After
staining, the gels were imaged and differential protein expression patterns were interrogated using image analysis
software. Spots showing a different expression level were identified through a comparison with 2D maps found in
databases officially recognized (ExPASy).
Master gels of Control and BCAA mice exhibited slightly different 2-DE patterns as only 10 spots out of 500
appeared differentially expressed: 8 were upregulated (corresponding to Apolipoprotein A-I (APOA1), Complement
factor B, Complement C3, Immunoglobulin light chain) and 2 appeared downregulated (Alpha-1-antitrypsin and
unknown).
Conclusions: Supplementation with BCAAem in mice results in a slight perturbation of the host serum proteome.
Of particular interest is the increased Apolipoprotein A-I (APOAI) following treatmen
Evaluation of performance fatigability through surface EMG in health and muscle disease: state of the art
In literature, it is commonly reported that the progress of performance fatigability may be indirectly assessed through the changes in the features of the surface electromyogram (sEMG) signal. In particular, during isometric constant force contractions, changes in the sEMG signal are caused by several physiological factors, such as a decay in muscle fibers conduction velocity (CV), an increase of the degree of synchronization between the firing times of simultaneously active motor units (MUs), by the central nervous system, and a reduction of the recruitment threshold and a modulation of MUs firing rate. Amplitude and spectral parameters may be used to characterize the global contributions to performance fatigability, such as MU control properties and fiber membrane properties, or central and peripheral factors, respectively. In addition, being CV a physiological parameter, its estimation is of marked interest to the study of fatigue both in physiological and in presence of neuromuscular diseases
Validity and reliability of a non-invasive test to assess Quadriceps and Hamstrings strength in athletes.
Modifiable risk factors for hamstring injury include lack of strength, fatigue and muscle strength asymmetry. Assessing lower body strength in the field is problematic as “gold standard assessment” are expensive, non-portable and assessment is time-consuming. Therefore, the objective of this study was to examine the validity and reliability of an adapted aneroid sphygmomanometer test of hamstring and quadricep strength. In 14 active males (age 23.1 ± 2.5 years; height 180.9 ± 8.2 cm; weight 88.4 ± 8.5 kg). concurrent validity was assessed by comparing the adapted sphygmomanometer assessment at 30 and 90° of knee flexion to isokinetic dynamometry using Pearson product-moment correlation. The reliability of the adapted sphygmomanometer was assessed in 10 professional rugby players (age 21.5 ± 2.6 years; height 177.2 ± 5.8 cm; weight 92.7 ± 5.8 kg ) across two visits. Sphygmomanometer strength assessments of hamstring and quadriceps were associated with isokinetic measures (Quadricep: right, r = 0.386, 95% CI = 0.136–0.866, p < 0.05; left, r = 0.431, 95% CI = 0.193–0.880, p < 0.05), hamstring strength at 90° of knee flexion (Hamstring: right, r = 0.545, 95% CI = 0.342–0.912, p < 0.01; left, r = 0.643, 95% CI = 0.473–0.935, p < 0.001) and hamstring strength at 30° of knee flexion (right, r = 0.329, 95% CI = 0.062–0.846, p < 0.05; left, r = 0.387, 95% CI = 0.138–0.867, p < 0.05). However, the adapted test was not able to identify bilateral or hamstring to quadricep asymmetry. Test–retest reliability was high for most assessments (ICC range: 0.64–0.92), and SEM measures ranged between 5 and 12%, with the smallest change representing a change in strength ranging between 3 and 4%. In conclusion, an adapted sphygmomanometer test for hamstring and quadricep strength assessment was valid and reliable in assessing hamstring and quadricep strength but not bilateral or hamstring and quadricep asymmetry
Identification of muscle innervation zones using linear electrode arrays: a fundamental step to measure fibers conduction velocity
Fiber conduction velocity (CV) is a parameter correlated to the physiological membrane properties of the skeletal muscle fibers. Changes in muscle fiber CV are correlated to the gradation of force and fatigue, and can be measured by means of surface electromyography EMG (sEMG). sEMG measurement of CV during muscle contractions requires the correct identification of the skeletal muscle innervation zone (IZ). In superficial muscles, IZ location can be detected using linear electrode arrays and visually identified as the point of inversion of the detected motor unit action potential (MUAP) propagation. In the present work, we present a method for the effective and fast detection of the IZ location, through the following procedures: (1) identification of the target superficial muscle considering the muscle fiber architecture; (2) electrode array selection based on interelectrode distance and number of electrodes; (3) subject training to perform submaximal isometric contractions of the target muscle/s; (4) electrode array positioning along the muscle surface to investigate the IZ position during the contractions by visual identification of MUAP patterns
An integrated approach in a case of facioscapulohumeral dystrophy
BACKGROUND:
Muscle fatigue, weakness and atrophy are basilar clinical features that accompany facioscapulohumeral dystrophy (FSHD) the third most common muscular dystrophy.No therapy is available for FSHD.
CASE PRESENTATION:
We describe the effects of 6mo exercise therapy and nutritional supplementation in a 43-year-old woman severely affected by FSHD.
CONCLUSION:
A mixed exercise program combined with nutritional supplementation can be safely used with beneficial effects in selected patients with FSHD
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