More than half a century of skeletal muscle research is continuing at Padua University (Italy) under the auspices of the Interdepartmental Research Centre of Myology (CIR-Myo), the European Journal of Translational Myology (EJTM) and recently also with the support of the A&CM-C Foundation for Translational Myology, Padova, Italy. The Volume 30(1), 2020 of the EJTM opens with the collection of abstracts for the conference "2020 Padua Muscle Days: Mobility Medicine 30 years of Translational Research". This is an international conference that will be held between March 18-21, 2020 in Euganei Hills and Padova in Italy. The abstracts are excellent examples of translational research and of the multidimensional approaches that are needed to classify and manage (in both the acute and chronic phases) diseases of Mobility that span from neurologic, metabolic and traumatic syndromes to the biological process of aging. One of the typical aim of Physical Medicine and Rehabilitation is indeed to reduce pain and increase mobility enough to enable impaired persons to walk freely, garden, and drive again. The excellent contents of this Collection of Abstracts reflect the high scientific caliber of researchers and clinicians who are eager to present their results at the PaduaMuscleDays. A series of EJTM Communications will also add to this preliminary evidence.
Keywords: %MVC; 2020 Padua Muscle Days; 3D strain imaging; Aging; Aging Muscle; Aging muscle; Amyotrophic Lateral Sclerosis; Anti-oxidant; BME; Biomarkers; C. elegans; C2C12 Myotubes; CTX; Ca2+ entry unit (CEU); Central Core Disease (CCD); Color Computed Tomography; Computed Tomography; EDA; ETFDH; Elderly; Electrostimulation; Extra-cellular matrix; FBXL4; FES; FPP®; Fermented Papaya; Fermented papaya product; Functional Electrical Stimulation (FES); Gymnastic; HERG Expression; IL-10; IL-17; IL-4; IMMUNAGE; Interferon gamma; M. Zygomaticus; Masters World records; Mitochondria; Mitochondrial disease; Mobility Medicine; Multiple Sclerosis; Multiple acyl-CoA dehydrogenase deficiency; Multiple sclerosis; Muscle architecture; Muscle spindle; Neuromuscular diseases; Neurotrophins; Neutral lipid storage disease with myopathy; Nutrition; P300; P50; PABPN1; Padova Anatomy School; Performance; Physical Activity; Preventive Medicine; QOL for seniors; Ryanodine Receptor type-1 (RYR1); SCL; SCR; Spinal Cord Injury; Telomeres; Transcranial direct current stimulation (tDCS); Transcutaneous vagus nerve stimulation (tANS); UPP; VO2max; Vitamin C; Wartenberg pendulum test; acetylcholine receptors; adipose content; adipose triglyceride lipase; age; ageing; aging; aging muscle; agonist; arousal; atrophy; atrophy and flattening; auricular nerve; bed rest; biology of aging; blood contamination; brain aging; calcium; cancer cachexia; cancer prevention; capsule; cardiovascular conditions; circulating myokines; clinical outcomes; cochlea; cochlear implant; cognitive aging; comorbidities; compressed sensing; connective tissue; connective tissue content; control of energy metabolism; cortisol; cvxEDA; cymba conchae; cytokines; denervated degenerating muscle; denervation; dietary phosphorus overload; diffusion MRI; diffusion modeling; dynamic MRI; early aging; electric stimulation; electromyography; endocannabinoid; endoplasmic reticulum stress; endurance; endurance exercise; energy metabolism; epicatechins; epigenetics; excitation contraction (EC) coupling; excitation-contraction (EC) coupling; exercise; fascia; fasciae; fatty acid oxidation; fermented papaya preparation; fibrinogen; finite element model; functional recovery; gender differences; gene upregulation; growth factors; health; high density EEG; home Functional Electrical Stimulation; home-based full-body in-bed gym; hyaluronan; hypogonadism; imaging flow cytometry; immobilization; label-free microscopy; lipid droplets; machine learning; mdx mouse; mechanics; microRNAs; mitObesity; mitochondria; mitochondrial Ca2+ signalling; mitochondrial database; mitochondrial fusion and fission; mitochondrial metabolism; mitochondrial permeability transition pore; mitochondrial respiration; mitochondrial respiratory capacity; mitochondrial transplantation; mouse models; mouth fluids; multi arrays electrodes; muscle; muscle and neural fatigue; muscle atrophy; muscle co-activation; muscle fiber conduction velocity; muscle regeneration; muscle tendon-unit; muscle trophism; muscle ultrasound; muscle wasting; muscles; myomiRs; nanotechno- logical devices; natural products; neuromuscular activity; neuromuscular junction; neuromuscular maladaptation; non-coding RNAs; non-invasive analyses; nucelar aggregates; numerical model; oculopharyngeal muscular dystrophy; older adults; older and oldest persons; oxytocin; pain; peripheral effect; permeabilized muscle fibers; platinum electrodes; postural exercise program; power; prevention; radiodensity; rate of performance decay; reactive oxygen species; reference values; rehabilitation; rejuvenation; reliability; reproducibility crisis; riboflavin; sarcomere; sarcopenia; sarcoplasmic reticulum (SR); schizophrenia; seniors; serological biomarkers; serum proteins; shear wave elastography; single myofiber; skeletal muscle; skeletal muscle atrophy; skin; spasticity; spinal cord injury; spinal muscular atrophy; stem cells; store-operated Ca2+ entry (SOCE); strategies; strength; strength and resistance training; stress; stroke; super-aging society; survival motor neuron 1; testosterone; training; transcranial magnetic stimulation; translational research; type 1 diabetes; ultrasound; unilateral facial paralysis; variability; vasopressin; vesicles; young people’s education; zebrafish; ”anti-aging”.