Search results for " Fast-Twitch"

showing 5 items of 15 documents

Regulation of type IV collagen gene expression and degradation in fast and slow muscles during dexamethasone treatment and exercise.

2003

Glucocorticoids have anti-anabolic effects on many tissues and can cause muscle atrophy. However, their effects on type IV collagen gene expression and degradation in skeletal muscle have not been studied previously. Rats were treated daily with dexamethasone or saline. Half the groups of experimental and control animals were also subjected to daily endurance or uphill running exercise to determine the possible preventive effects of exercise. After an experimental period of 3 or 10 days, the extensor digitorum longus, soleus and tibialis anterior muscles were studied. Dexamethasone treatment for 10 days reduced muscle weight and type IV collagen mRNA abundance in all muscles. Gene expressio…

Collagen Type IVmedicine.medical_specialtyPhysiologyClinical BiochemistryAnti-Inflammatory AgentsRadioimmunoassayMatrix metalloproteinaseDexamethasoneRats Sprague-DawleyType IV collagenPhysiology (medical)Internal medicinePhysical Conditioning AnimalGene expressionmedicineAnimalsRNA MessengerReceptorMuscle SkeletalGlucocorticoidsDexamethasoneRegulation of gene expressionTissue Inhibitor of Metalloproteinase-2ChemistrySkeletal muscleBlotting NorthernMuscle atrophyRatsEndocrinologymedicine.anatomical_structureMuscle Fibers Slow-TwitchGene Expression RegulationMuscle Fibers Fast-TwitchMatrix Metalloproteinase 2Femalemedicine.symptommedicine.drugPflugers Archiv : European journal of physiology
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Absence of an aging-related increase in fiber type grouping in athletes and non-athletes

2020

The ageing-related loss of muscle mass is thought to be partly attributable to motor neuron loss and motor unit remodelling that result in fibre type grouping. We examined fibre type grouping in 19- to 85-year-old athletes and non-athletes and evaluated to which extent any observed grouping is explained by the fibre type composition of the muscle. Since regular physical activity may stimulate reinnervation, we hypothesised that fibre groups are larger in master athletes than in age-matched non-athletes. Fibre type grouping was assessed in m. vastus lateralis biopsies from 22 young (19-27 years) and 35 healthy older (66-82 years) non-athletes, and 14 young (20-29 years), 51 middle-aged (38%6…

MaleBiopsy030204 cardiovascular system & hematologyMuskel- und KnochenstoffwechselQuadriceps Muscleudc:612.74:612.660302 clinical medicinegroupingOrthopedics and Sports MedicineFibre typeAged 80 and overMotor NeuronsDenervationbiologyFiber typestaranjemišična vlaknaMiddle Agedfibre typeMuscle Fibers Slow-Twitchmedicine.anatomical_structureMuscle Fibers Fast-TwitchreinervacijaFemaleSportsReinnervationAdultmedicine.medical_specialtyPhysical Therapy Sports Therapy and RehabilitationYoung Adult03 medical and health sciencesInternal medicinevastus lateralismedicineHumansAgeddenervationbusiness.industryAthletesaging030229 sport sciencesMotor neuronbiology.organism_classificationfiber typereinnervationMotor unitdenervacijaCross-Sectional StudiesEndocrinologyAgeingbusiness
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Muscle fiber-type distribution predicts weight gain and unfavorable left ventricular geometry: a 19 year follow-up study

2006

Abstract Background Skeletal muscle consists of type-I (slow-twitch) and type-II (fast-twitch) fibers, with proportions highly variable between individuals and mostly determined by genetic factors. Cross-sectional studies have associated low percentage of type-I fibers (type-I%) with many cardiovascular risk factors. Methods We investigated whether baseline type-I% predicts left ventricular (LV) structure and function at 19-year follow-up, and if so, which are the strongest mediating factors. At baseline in 1984 muscle fiber-type distribution (by actomyosin ATPase staining) was studied in 63 healthy men (aged 32–58 years). The follow-up in 2003 included echocardiography, measurement of obes…

Malelcsh:Diseases of the circulatory (Cardiovascular) systemTime Factors030204 cardiovascular system & hematologyDoppler echocardiographyWeight GainBody fat percentageCohort StudiesVentricular Dysfunction Left0302 clinical medicineReference Valuesmedicine.diagnostic_testIncidenceBiopsy NeedleMiddle AgedEchocardiography Dopplermedicine.anatomical_structureMuscle Fibers Slow-TwitchCardiovascular DiseasesMuscle Fibers Fast-TwitchCardiologyRegression Analysismedicine.symptomCardiology and Cardiovascular MedicineResearch ArticleAdultmedicine.medical_specialtyWaistRisk AssessmentSensitivity and Specificity03 medical and health sciencesAge DistributionPredictive Value of TestsInternal medicineHeart ratemedicineHumansObesityMuscle SkeletalAngiologyAgedProbabilityRetrospective Studiesbusiness.industrySkeletal muscle030229 sport sciencesMyocardial ContractionBlood pressurelcsh:RC666-701businessWeight gainFollow-Up StudiesBMC Cardiovascular Disorders
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Preferential Type II Muscle Fiber Damage From Plyometric Exercise

2012

Context: Plyometric training has been successfully used in different sporting contexts. Studies that investigated the effect of plyometric training on muscle morphology are limited, and results are controversial with regard to which muscle fiber type is mainly affected. Objective: To analyze the skeletal muscle structural and ultrastructural change induced by an acute bout of plyometric exercise to determine which type of muscle fibers is predominantly damaged. Design: Descriptive laboratory study. Setting: Research laboratory. Patients or Other Participants: Eight healthy, untrained individuals (age = 22 ± 1 years, height = 179.2 ± 6.4 cm, weight = 78.9 ± 5.9 kg). Intervention(s): Partici…

Reflex Stretchmedicine.medical_specialtyPhysical Therapy Sports Therapy and RehabilitationContext (language use)Plyometric ExerciseSarcomereYoung AdultHumansPlyometricsMedicineOrthopedics and Sports MedicineExercise physiologyMuscle SkeletalCreatine KinaseExerciseOriginal ResearchbiologySettore BIO/16 - Anatomia Umanabusiness.industrySkeletal muscleGeneral Medicinemedicine.anatomical_structureMuscle Fibers Fast-Twitchbiology.proteinPhysical therapyCreatine kinasemedicine.symptombusinessType II Muscle Fibereccentric exercise sarcomere Z-disk streaming electron transmission microscopy creatine kinase dystrophinMuscle ContractionMuscle contractionJournal of Athletic Training
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Acute exercise induced changes in rat skeletal muscle mRNAs and proteins regulating type IV collagen content

2001

This experiment tested the hypothesis that running-induced damage to rat skeletal muscle causes changes in synthesis and degradation of basement membrane type IV collagen and to proteins regulating its degradation. Samples from soleus muscle and red and white parts of quadriceps femoris muscle (MQF) were collected 6 h or 1, 2, 4, or 7 days after downhill running. Increased muscle β-glucuronidase activity indicated greater muscle damage in the red part of MQF than in the white part of MQF or soleus. In the red part of MQF, type IV collagen expression was upregulated at the pretranslational level and the protein concentration decreased, whereas matrix metalloproteinase-2 (MMP-2), a protein th…

medicine.medical_specialtyTime FactorsTranscription GeneticPhysiologyPhysical ExertionMatrix metalloproteinaseBiologyRunningType IV collagenPhysiology (medical)Internal medicineGene expressionmedicineAnimalsRNA MessengerRats WistarMuscle SkeletalGlucuronidaseSoleus muscleBasement membranechemistry.chemical_classificationTissue Inhibitor of Metalloproteinase-2Tissue Inhibitor of Metalloproteinase-1Skeletal muscleTissue inhibitor of metalloproteinaseRatsmedicine.anatomical_structureEndocrinologyGene Expression RegulationMatrix Metalloproteinase 9chemistryProtein BiosynthesisMuscle Fibers Fast-TwitchMatrix Metalloproteinase 2FemaleCollagenGlycoproteinAmerican Journal of Physiology-Regulatory, Integrative and Comparative Physiology
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