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Vliv kompenzačního cvičení na míru protrakce ramenních kloubů u sportovních lezců / Impact of compensation exercises on forward shoulder posture in sport climbersChládková, Karolína January 2017 (has links)
Title Impact of compensation exercises on forward shoulder posture in sport climbers Aims The aim is to decide whether in climbers regulary performing compensation excercises occurs lower rate of forward shoulder posture than in non-excercising climbers. Methods The diploma thesis is a pilot study of quantitative nature with participation of 48 probands. The probands were sports climbers, men and women aged 18-35 with no shoulder pain or disorder. The minimal requiered climbing level was determined to VII UIAA. The data were gained by caliper measure of two anatomical points; cranial part of sternum and anterior part of acromion, both in natural posture and upright posture. All measurements were one-off with the aim to gather the data that were consequently processed and statistically analyzed. Results The results confirmed that compensation exercises have impact on forward shoulder posture. The results did not confirm the same values of protraction on both shoulders. Key words forward shoulder posture, exercise, sports climbers, caliper, physiotherapy, shoulder
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Functional morphology of the hominoid shoulder, past and presentBerger, Lee Rogers 18 July 2016 (has links)
A thesis submitted to the Faculty of Science, University of the Witwatersrand, Johannesburg, in fulfilment of the requirements for the degree of Doctor of Philosophy. Johannesburg 1994. / This thesis presents an :investigation into the
functional morphology and form of the skeletal
elements of" the shoulder girdle of extant h0111inoids
and extinct hO)ll.inids\~hich inhabited the Afr:i.c~n
continent during the Late pliocene and Elarly \Ii Ii \Ii,
ill Partic'l.l.lcu: emphasis is placed o\~\the \' i\.
form of the scapula, clavicle and humerus. \Ii
variation in the bony, arthrological and 41.yoloQif\;Lcal
I" anatomy' Of this region in extant hominoids is I
Pleistocene.
examined. In light of biomechaniq~l models
II
reSUlting from this work, the bony,;anatomy of u
hominid shoulder girdle elements examined and
i.
.1
r;:I~t>. ssil .1,1 .
"
biomechanical interpretations are made.
The fossil shoulder girdle elements exan\ine~ in
this study are grouped into four species samples.
The first sample (Australopithecus a.:friCaIlUS)
comprises Pliocene ,fossils from sterkfontein, South
Africa. 'rhe second sampJ.e (A. afarelJ.si.s) i.s
comprised of fossilo front Hadar, Ethiopia. The
third (Homo habilis) and, fourth (ii. boisei) samples
comprise fossils from C'lduvai GorgeI Ta:nzania,
Koobi For~ll, Ke!nya and t.ne omo Valley ~ Ethiopia.
When the t!;ossil homi.ndd. remains are scrt.ed into
specf.ea, jl~heI:;houlder g;l.rdle elements InelYd:>e used to
const.zuct; and contrast specd.es specijSiq '1· . )
bitOmechar1,ic::aml odelS of th~ shoulder. Th~~se
models e:>fltP10re differernoes in form amon~,r.;tj;ossil
hominid. species that may'be reJ,ated to dii.:;eetenc;:.es
in behaviour. The models may also be appU.ed to the :~......,..~
interpretation of systemat.ic relationShips amongst
early hominids.
In o:(.~ierto construct models of early homi:p,ids
it is first necessary to establish the,movement,
myology and oste0logy of the extant hominoid
shoulder. Chapters 4,5 and 6 sUl'l.1Il1ar~n,$eew data and
available in,formation concel:"ning shoulder girdle
mo.Jementand form. Chapter 7 presents detailed
C';escriptiQns Of the fossil hominid ma.terial (u:::::19)
available for study. 'rhis descriptive information,
in conibination with all of the information derived
from Chapters 4 through 6, is then used to
inte1.pret, compaxe and contrast the fu.nctional
morphology Of the shoulder girdle elements of each
species of early hotninid. pa:q:ticuJ.ar emphasis is
placed .on those features that cart be. directly
related to specific :functiOl'l~ Model.s ,,.l the
functional morphology of each of t1Je four species
are then created. comparisons are made between
indJ.vidual Shoulder girdle elements 'cg,fthe different
homj.nid spacd.es as well as between the interpreted
total morphology of each species' shoulder girdle.
The study concludes that the functional
m~>l':phologyof the shoulder girdle Qf A. afriaanus is
unique ~unorJ.gstknown hominoic1~mode'l.s in that it
poasesaes shoul<;ier girdle mo;t,'ph.oo.)gy adapted to bobh
suspen ory behaviour and bipE~d;;d~i.srn. TIte
suspensory adaptations are :Lndi9ated by the overall
ape ..like morphology of the humeri, claviculae and
heCid.of the scapulae, whilst bipedalism is mainly
(J
G indicated. by a broad, human-like inf.Ell:'ior'an9,'].eof "
=
the scapula. Several' RpparentlY prim.itive featu:r:es"
are present in,..the A. africanus Ejcapl,1la,incl~dirtg a
0i,? ..... . _ .. '. \
shortened scapular 'n~ck, that ind:l.Cate'-\poss~ple
ancestry f.roma quadru:pedal form. ~p.e functi<:>tJ.al.
morphology of the A. afarens.ts shoulder is founa .to
be more diffi.cult to interpret d'.le to poor f(i:;
,pre.~ervationt but the hypothesised znodel'~does not
diffe):: substantially from th~t constructed for A.
_c,~) . ..' .', 1) (;
a£ricanus. The few robust aURtra.lopithecine,.,(A.
boi.se:1) sho~~der girdle elements appear to possess ~,..
similar morpJ;lologi.esto A. a.:falyrnsis and )1-
africanus. There ara .no'l:.SUfi:'lc:tently well
preServedoH. habili.s shoulder girdle elements
preserved to 'makemeffilningfulinterpreta.tions about
the functional morphology of this, specie~:'
.' n the lack of comparable elements amongst the two (I
1arger samples (...21.. a:faJ;'ensi.s and ,fl. arr:J;canus) I .it
'..':::/
is not knownwhether the features found to be
apparently unique to either species are useful as
n taxonomic indicators.
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Job coach model for occupational shoulder soft tissue injuries rehabilitation. / CUHK electronic theses & dissertations collectionJanuary 2006 (has links)
A "Job Coach" model was developed based on sports medicine and rehabilitation principles for athletes, and individual placement and supported employment for people with psychiatric disabilities. This is a biopsychosocial model, emphasising workplace-based intervention. / Background. Occupational musculoskeletal soft tissue injuries represent a major source of work disability. There has been a gradual rise in the occurrence of occupational musculoskeletal injuries of the upper extremity, including both acute injuries and more chronic health problems. Return to work following an occupational injury is a multifactoral process, although traditional clinic-based rehabilitation programmes do not appreciate the importance of contextual factors. / Conclusion. Workplace work hardening programmes are a further development of work rehabilitation programmes. The therapeutic use of actual work facilities and the work environment can effectively facilitate the successful return to work process of the injured worker. More importantly, many of the psychosocial problems associated with separation from the work routine, peer group and/or the employer are minimised by the presence of the Job Coach. The results of this study confirm that workplace-based rehabilitation intervention is more effective than conventional clinic-based rehabilitation programmes in terms of prevention of further work disability, improvement in functional capabilities and decrease in perceived pain and disability. / Keywords. Job coach, workplace-based rehabilitation, rotator cuff injury, work disability, return to work intervention. / Methodology. A randomised controlled trial was conducted on 94 workers recruited from Workers' Compensation insurers. These workers had all sustained occupational rotator cuff injury and had lost more than 90 workdays. The workers were randomly assigned into control or experimental groups. The control group received a traditional work hardening programme and the experimental group received a workplace work hardening programme using the Job Coach model. The return to work outcomes of the two groups were compared. Areas of comparison included return to work rate after training, job retention ability and impact on earning capacity. Other outcome measures included change in active range of motion of the shoulder joint, eight basic functional capacities and the worker's perception of shoulder pain and disability based on the Shoulder Pain and Disability Index (SPADI). / Results. After one-month of the training programme, a higher return to work rate was obtained in the experimental group compared to the control group (71.4% against 37%, chi2=11.095, p=0.001). For job retention ability, 93.5% of the workers in the experimental group were still at work compared to 72.9% of workers in the control group (chi 2=7.031, p=0.008). No obvious salary change was noted between the two groups. / The SPADI was statistically significantly lower in the experimental group than in the control group (p=0.032), meaning that workers in the experimental group had fewer shoulder problems after training. Other significant improvements were noted in active shoulder flexion (p=0.001), arm lift strength (p=0.01), high-near lift strength (p=0.014), dynamic carrying strength (p=0.007) and overhead work tolerance (p=0.032), all of which were found to be statistically significantly higher in the experimental group than in the control group. / Cheng Shu-kei. / "July 2006." / Adviser: Leung Kim Hung. / Source: Dissertation Abstracts International, Volume: 68-03, Section: B, page: 1568. / Thesis (Ph.D.)--Chinese University of Hong Kong, 2006. / Includes bibliographical references (p. 216-238). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [200-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstracts in English and Chinese. / School code: 1307.
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Equilíbrio de força muscular e retardo eletromecânico na articulação do ombro entre atletas de diferentes modalidades esportivasMinozzo, Felipe January 2017 (has links)
O objetivo deste estudo foi avaliar e comparar o equilíbrio de força muscular e o tempo de retardo eletromecânico na articulação do ombro entre atletas de diferentes modalidades esportivas, os quais utilizam predominantemente rotações internas e externas de ombro durante as suas práticas esportivas. Fizeram parte do estudo 41 sujeitos do sexo masculino, sendo 15 atletas profissionais de Voleibol (24,07 ± 5,13 anos; 91,60 ± 11,67 kg; 198,47 ± 5,90 cm), 14 atletas profissionais de Judô (26,64 ± 7,30 anos; 87,36 ± 15,20 kg; 178,07 ± 6,90 cm) e 12 atletas universitários de Handebol (23,17 ± 4,70 anos; 84,75 ± 13,50 kg; 182,08 ± 6,20 cm). Para a mensuração de força máxima, de diferença contralateral (i.e. lados direito vs. esquerdo) e para o cálculo das razões entre rotação interna e externa de ombro, os participantes realizaram testes de dinamometria isocinética em condições isométricas e isocinéticas. Durante os testes isométricos foi realizada a coleta do sinal eletromiográfico dos músculos peitoral maior e infraespinal, o que possibilitou o cálculo do retardo eletromecânico. Os resultados demonstram que atletas de Judô possuem força isométrica de rotação interna de ombro significativamente (p<0,01) maior quando comparados com atletas de Voleibol e de Handebol. Atletas de Judô apresentam valores de razão agonista/antagonista isométrica de membro direito significativamente (p<0,03) inferiores aos grupos Voleibol e Handebol, bem como significativamente (p<0,01) inferiores ao grupo Voleibol em relação ao membro esquerdo O tempo de retardo eletromecânico apresentou diferenças entre os grupos somente na rotação externa, em que o grupo Voleibol apresentou valores do membro direito significativamente (p<0,01) mais curtos quando comparados com o grupo Handebol e valores de membro esquerdo significativamente (p<0,01) mais curtos quando comparados com os grupos Handebol e Judô. Picos de torque isocinéticos apresentaram diferença somente para rotação interna de membro direito, em que o grupo Judô apresentou valores significativamente (p<0,001) maiores quando comparados com o grupo Voleibol. Já para membro esquerdo, detectou-se diferença significativa (p<0,01) no ângulo de pico de torque de rotação interna de membro esquerdo entre o grupo Judô e Handebol. Os resultados do estudo permitem concluir que a prática de cada modalidade esportiva avaliada neste estudo promoveu adaptação dos músculos do ombro, de acordo com a demanda da modalidade esportiva. Assim, atletas de Judô necessitam realizar reforço dos músculos rotadores externos do ombro, tanto concêntrica quanto excentricamente, visto o desequilíbrio muscular causado pela especificidade da modalidade. Por outro lado, atletas de Voleibol apresentam satisfatório equilíbrio muscular na articulação do ombro por conta de altos níveis de força excêntrica de rotação externa exigidos na prática deste esporte; além disso, os curtos períodos de tempo de retardo eletromecânico apresentados por estes atletas reforçam a constatação de equilíbrio desta articulação. Atletas de Handebol apresentam satisfatório equilíbrio muscular na articulação do ombro, entretanto apresentam valores altos de retardo eletromecânico, sendo indicado que estes atletas realizem reforço de rotação externa de ombro, sobretudo em velocidade elevada, com o objetivo de diminuir o tempo necessário para ativar estes grupos musculares. / The purpose of this study was to evaluate and compare the muscular balance and the electromechanical delay time of the shoulder joint between athletes of different sports modalities who use predominantly internal and external rotations of the shoulder. The study consisted of a total of 41 male subjects, of whom 15 were professional Volleyball players (n = 15, 24.07 ± 5.13 years, 91.60 ± 11.67 kg, 198.47 ± 5.90 cm), 14 professional Judo athletes (26.64 ± 7.30 years, 87.36 ± 15.20 kg, 178.07 ± 6.90 cm) and 12 university Handball athletes (23.17 ± 4.70 years, 84.75 ± 13.50 kg, 182.08 ± 6.20 cm). To evaluate peak torque, upper limb side-to-side asymmetry and for the calculation of conventional and functional ratios, all subjects performed isokinetic dynamometry tests under isometric and dynamic conditions. During the isomeric tests, the electromyographic signal was collected from the pectoralis major and infraspinal muscles, which allowed the calculation of the electromechanical delay. The results demonstrate that Judo athletes have internal shoulder rotation isometric strength significantly (p<0.01) higher when compared to Volleyball and Handball athletes. Judo athletes presented isometric agonist/antagonist ratio of right limb significantly (p<0.03) lower than the Volleyball and Handball groups, as well as significantly (p<0.01) lower than the Volleyball group in relation to the left limb. The electromechanical delay time presented differences between the groups only in the external shoulder rotation, which the Volleyball group presented significantly lower values of right limb (p<0.01) when compared to the Handball group and left limb times significantly (p<0.01) shorter when compared with the Handball and Judo groups Dynamic peak torque presented difference only for internal shoulder rotation of the right limb, which the Judo group presented values significantly (p<0.001) higher when compared to the Volleyball group. For the left upper limb, a significant difference (p<0.01) was detected in the peak torque angle of internal shoulder rotation between the Judo and Handball groups. The results of the study allow to considering that the practice of each evaluated sports modalities adapts the shoulder of its athletes in different ways. Judo athletes need to perform external shoulder rotation muscular strengthening, both in concentric and eccentric modes due to muscle imbalance caused by the specificity of the modality. Volleyball athletes have reasonable muscle balance in the shoulder joint due to the high levels of eccentric strength of external rotation, in addition the short time periods of electromechanical delay presented by these athletes reinforce even more the balance of this joint. Handball athletes have reasonable muscle balance in the shoulder joint; however, they presented high values of electromechanical delay, so it is indicated that these athletes need to perform muscular strengthening of external rotation of the shoulder in order to reduce the time required to activate these muscles.
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Exercícios para disfunção de ombro em pacientes tratados com câncer de cabeça e pescoço: Revisão Sistemática e Metanálises / Exercise interventions for shoulder dysfunction in patients treated for head and neck cancerCarvalho, Alan Pedrosa Viegas de [UNIFESP] 29 June 2011 (has links) (PDF)
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Publico-12656.pdf: 1584644 bytes, checksum: 78457732f7188608681861e109e401bd (MD5) / Objetivo: Avaliar a efetividade e segurança de exercícios para tratamento da disfunção de ombro causada pelo tratamento de câncer de cabeça e pescoço. Método: Revisão sistemática de ensaios clínicos randomizados. Foi realizada busca nas bases: Cochrane Ear, Nose and Throat Disorders Group Trials Register; the Cochrane Central Register of Controlled Trials (CENTRAL); PubMed; EMBASE; CINAHL; LILACS; KoreaMed; IndMed; PakMediNet; Web of Science; BIOSIS Previews; Cambridge Scientific Abstracts; ISCTRN; além de outras fontes para identificação de ensaios clínicos publicados e não publicados. A data da busca foi 20 de agosto de 2010. Foram examinadas as listas de referências das publicações identificadas e contatados os autores dos estudos para referências adicionais. Foram incluídos apenas ensaios clínicos randomizados comparando qualquer tipo de terapia através de exercício com qualquer outro tipo de intervenção em pacientes com disfunção de ombro causada pelo tratamento de câncer de cabeça e pescoço. A seleção dos estudos, avaliação do risco de viés e extração de dados foram feitas independentemente por dois autores. Os autores dos estudos também foram contatados para informações não disponíveis nos artigos publicados. Resultados: Três ensaios envolvendo 104 pessoas foram incluídos. Um estudo foi classificado como baixo risco de viés, os outros tiveram limitações e foram julgados como alto risco de viés. Dois estudos aplicaram exercício de resistência progressiva (ERP) combinado a exercícios de amplitude de movimento e alongamento, o grupo controle foi o tratamento padrão. Um estudo utilizou uma variedade de técnicas: exercícios ativos livres, alongamento, cuidados posturais, reeducação de musculatura postural escapulo torácica, e fortalecimento, por um período de 3 meses após a cirurgia, este estudo não demonstrou diferenças significativas entre os grupos nos desfechos função de ombro e qualidade de vida. Os dados agrupados de dois estudos demonstraram diferenças significativas favorecendo o grupo de pacientes que recebeu ERP nos seguintes desfechos: dor em ombro (DM: -6,26 95% IC -12,20 a -0,31), disfunção de ombro (DM: -8,48 95% IC -15,07 a -1,88), amplitude de movimento ativa em rotação externa (DM: 14,51 graus; 95% IC 7,87 a 21,14), amplitude de movimento passiva em abdução (DM: 7,65 graus; 95% IC 0,64 a 14,66), flexão (DM: 6,20 graus; 95% IC 0,69 a 11,71), rotação externa (DM: 7,17 graus; 95% IC 2,20 a 12,14) e abdução horizontal (DM: 7,34 graus; 95% IC 2,86 a 11,83). Os estudos não demonstraram diferenças estatísticas para qualidade de vida. Apenas dois efeitos adversos foram relatados no grupo de pacientes que utilizou ERP comparado a nenhum no grupo controle. Conclusões: ERP é uma intervenção efetiva para a disfunção de ombro em pacientes tratados com câncer de cabeça e pescoço, melhorando a dor, disfunção e amplitude de movimento da articulação do ombro. Esses achados devem ser interpretados com cautela, pois os ensaios identificados incluíram pacientes com uma variedade de tempo desde a cirurgia até o início da intervenção. É necessário o desenvolvimento de estudos que apliquem exercícios no período pós-operatório imediato e com maior acompanhamento. / TEDE / BV UNIFESP: Teses e dissertações
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Equilíbrio de força muscular e retardo eletromecânico na articulação do ombro entre atletas de diferentes modalidades esportivasMinozzo, Felipe January 2017 (has links)
O objetivo deste estudo foi avaliar e comparar o equilíbrio de força muscular e o tempo de retardo eletromecânico na articulação do ombro entre atletas de diferentes modalidades esportivas, os quais utilizam predominantemente rotações internas e externas de ombro durante as suas práticas esportivas. Fizeram parte do estudo 41 sujeitos do sexo masculino, sendo 15 atletas profissionais de Voleibol (24,07 ± 5,13 anos; 91,60 ± 11,67 kg; 198,47 ± 5,90 cm), 14 atletas profissionais de Judô (26,64 ± 7,30 anos; 87,36 ± 15,20 kg; 178,07 ± 6,90 cm) e 12 atletas universitários de Handebol (23,17 ± 4,70 anos; 84,75 ± 13,50 kg; 182,08 ± 6,20 cm). Para a mensuração de força máxima, de diferença contralateral (i.e. lados direito vs. esquerdo) e para o cálculo das razões entre rotação interna e externa de ombro, os participantes realizaram testes de dinamometria isocinética em condições isométricas e isocinéticas. Durante os testes isométricos foi realizada a coleta do sinal eletromiográfico dos músculos peitoral maior e infraespinal, o que possibilitou o cálculo do retardo eletromecânico. Os resultados demonstram que atletas de Judô possuem força isométrica de rotação interna de ombro significativamente (p<0,01) maior quando comparados com atletas de Voleibol e de Handebol. Atletas de Judô apresentam valores de razão agonista/antagonista isométrica de membro direito significativamente (p<0,03) inferiores aos grupos Voleibol e Handebol, bem como significativamente (p<0,01) inferiores ao grupo Voleibol em relação ao membro esquerdo O tempo de retardo eletromecânico apresentou diferenças entre os grupos somente na rotação externa, em que o grupo Voleibol apresentou valores do membro direito significativamente (p<0,01) mais curtos quando comparados com o grupo Handebol e valores de membro esquerdo significativamente (p<0,01) mais curtos quando comparados com os grupos Handebol e Judô. Picos de torque isocinéticos apresentaram diferença somente para rotação interna de membro direito, em que o grupo Judô apresentou valores significativamente (p<0,001) maiores quando comparados com o grupo Voleibol. Já para membro esquerdo, detectou-se diferença significativa (p<0,01) no ângulo de pico de torque de rotação interna de membro esquerdo entre o grupo Judô e Handebol. Os resultados do estudo permitem concluir que a prática de cada modalidade esportiva avaliada neste estudo promoveu adaptação dos músculos do ombro, de acordo com a demanda da modalidade esportiva. Assim, atletas de Judô necessitam realizar reforço dos músculos rotadores externos do ombro, tanto concêntrica quanto excentricamente, visto o desequilíbrio muscular causado pela especificidade da modalidade. Por outro lado, atletas de Voleibol apresentam satisfatório equilíbrio muscular na articulação do ombro por conta de altos níveis de força excêntrica de rotação externa exigidos na prática deste esporte; além disso, os curtos períodos de tempo de retardo eletromecânico apresentados por estes atletas reforçam a constatação de equilíbrio desta articulação. Atletas de Handebol apresentam satisfatório equilíbrio muscular na articulação do ombro, entretanto apresentam valores altos de retardo eletromecânico, sendo indicado que estes atletas realizem reforço de rotação externa de ombro, sobretudo em velocidade elevada, com o objetivo de diminuir o tempo necessário para ativar estes grupos musculares. / The purpose of this study was to evaluate and compare the muscular balance and the electromechanical delay time of the shoulder joint between athletes of different sports modalities who use predominantly internal and external rotations of the shoulder. The study consisted of a total of 41 male subjects, of whom 15 were professional Volleyball players (n = 15, 24.07 ± 5.13 years, 91.60 ± 11.67 kg, 198.47 ± 5.90 cm), 14 professional Judo athletes (26.64 ± 7.30 years, 87.36 ± 15.20 kg, 178.07 ± 6.90 cm) and 12 university Handball athletes (23.17 ± 4.70 years, 84.75 ± 13.50 kg, 182.08 ± 6.20 cm). To evaluate peak torque, upper limb side-to-side asymmetry and for the calculation of conventional and functional ratios, all subjects performed isokinetic dynamometry tests under isometric and dynamic conditions. During the isomeric tests, the electromyographic signal was collected from the pectoralis major and infraspinal muscles, which allowed the calculation of the electromechanical delay. The results demonstrate that Judo athletes have internal shoulder rotation isometric strength significantly (p<0.01) higher when compared to Volleyball and Handball athletes. Judo athletes presented isometric agonist/antagonist ratio of right limb significantly (p<0.03) lower than the Volleyball and Handball groups, as well as significantly (p<0.01) lower than the Volleyball group in relation to the left limb. The electromechanical delay time presented differences between the groups only in the external shoulder rotation, which the Volleyball group presented significantly lower values of right limb (p<0.01) when compared to the Handball group and left limb times significantly (p<0.01) shorter when compared with the Handball and Judo groups Dynamic peak torque presented difference only for internal shoulder rotation of the right limb, which the Judo group presented values significantly (p<0.001) higher when compared to the Volleyball group. For the left upper limb, a significant difference (p<0.01) was detected in the peak torque angle of internal shoulder rotation between the Judo and Handball groups. The results of the study allow to considering that the practice of each evaluated sports modalities adapts the shoulder of its athletes in different ways. Judo athletes need to perform external shoulder rotation muscular strengthening, both in concentric and eccentric modes due to muscle imbalance caused by the specificity of the modality. Volleyball athletes have reasonable muscle balance in the shoulder joint due to the high levels of eccentric strength of external rotation, in addition the short time periods of electromechanical delay presented by these athletes reinforce even more the balance of this joint. Handball athletes have reasonable muscle balance in the shoulder joint; however, they presented high values of electromechanical delay, so it is indicated that these athletes need to perform muscular strengthening of external rotation of the shoulder in order to reduce the time required to activate these muscles.
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Equilíbrio de força muscular e retardo eletromecânico na articulação do ombro entre atletas de diferentes modalidades esportivasMinozzo, Felipe January 2017 (has links)
O objetivo deste estudo foi avaliar e comparar o equilíbrio de força muscular e o tempo de retardo eletromecânico na articulação do ombro entre atletas de diferentes modalidades esportivas, os quais utilizam predominantemente rotações internas e externas de ombro durante as suas práticas esportivas. Fizeram parte do estudo 41 sujeitos do sexo masculino, sendo 15 atletas profissionais de Voleibol (24,07 ± 5,13 anos; 91,60 ± 11,67 kg; 198,47 ± 5,90 cm), 14 atletas profissionais de Judô (26,64 ± 7,30 anos; 87,36 ± 15,20 kg; 178,07 ± 6,90 cm) e 12 atletas universitários de Handebol (23,17 ± 4,70 anos; 84,75 ± 13,50 kg; 182,08 ± 6,20 cm). Para a mensuração de força máxima, de diferença contralateral (i.e. lados direito vs. esquerdo) e para o cálculo das razões entre rotação interna e externa de ombro, os participantes realizaram testes de dinamometria isocinética em condições isométricas e isocinéticas. Durante os testes isométricos foi realizada a coleta do sinal eletromiográfico dos músculos peitoral maior e infraespinal, o que possibilitou o cálculo do retardo eletromecânico. Os resultados demonstram que atletas de Judô possuem força isométrica de rotação interna de ombro significativamente (p<0,01) maior quando comparados com atletas de Voleibol e de Handebol. Atletas de Judô apresentam valores de razão agonista/antagonista isométrica de membro direito significativamente (p<0,03) inferiores aos grupos Voleibol e Handebol, bem como significativamente (p<0,01) inferiores ao grupo Voleibol em relação ao membro esquerdo O tempo de retardo eletromecânico apresentou diferenças entre os grupos somente na rotação externa, em que o grupo Voleibol apresentou valores do membro direito significativamente (p<0,01) mais curtos quando comparados com o grupo Handebol e valores de membro esquerdo significativamente (p<0,01) mais curtos quando comparados com os grupos Handebol e Judô. Picos de torque isocinéticos apresentaram diferença somente para rotação interna de membro direito, em que o grupo Judô apresentou valores significativamente (p<0,001) maiores quando comparados com o grupo Voleibol. Já para membro esquerdo, detectou-se diferença significativa (p<0,01) no ângulo de pico de torque de rotação interna de membro esquerdo entre o grupo Judô e Handebol. Os resultados do estudo permitem concluir que a prática de cada modalidade esportiva avaliada neste estudo promoveu adaptação dos músculos do ombro, de acordo com a demanda da modalidade esportiva. Assim, atletas de Judô necessitam realizar reforço dos músculos rotadores externos do ombro, tanto concêntrica quanto excentricamente, visto o desequilíbrio muscular causado pela especificidade da modalidade. Por outro lado, atletas de Voleibol apresentam satisfatório equilíbrio muscular na articulação do ombro por conta de altos níveis de força excêntrica de rotação externa exigidos na prática deste esporte; além disso, os curtos períodos de tempo de retardo eletromecânico apresentados por estes atletas reforçam a constatação de equilíbrio desta articulação. Atletas de Handebol apresentam satisfatório equilíbrio muscular na articulação do ombro, entretanto apresentam valores altos de retardo eletromecânico, sendo indicado que estes atletas realizem reforço de rotação externa de ombro, sobretudo em velocidade elevada, com o objetivo de diminuir o tempo necessário para ativar estes grupos musculares. / The purpose of this study was to evaluate and compare the muscular balance and the electromechanical delay time of the shoulder joint between athletes of different sports modalities who use predominantly internal and external rotations of the shoulder. The study consisted of a total of 41 male subjects, of whom 15 were professional Volleyball players (n = 15, 24.07 ± 5.13 years, 91.60 ± 11.67 kg, 198.47 ± 5.90 cm), 14 professional Judo athletes (26.64 ± 7.30 years, 87.36 ± 15.20 kg, 178.07 ± 6.90 cm) and 12 university Handball athletes (23.17 ± 4.70 years, 84.75 ± 13.50 kg, 182.08 ± 6.20 cm). To evaluate peak torque, upper limb side-to-side asymmetry and for the calculation of conventional and functional ratios, all subjects performed isokinetic dynamometry tests under isometric and dynamic conditions. During the isomeric tests, the electromyographic signal was collected from the pectoralis major and infraspinal muscles, which allowed the calculation of the electromechanical delay. The results demonstrate that Judo athletes have internal shoulder rotation isometric strength significantly (p<0.01) higher when compared to Volleyball and Handball athletes. Judo athletes presented isometric agonist/antagonist ratio of right limb significantly (p<0.03) lower than the Volleyball and Handball groups, as well as significantly (p<0.01) lower than the Volleyball group in relation to the left limb. The electromechanical delay time presented differences between the groups only in the external shoulder rotation, which the Volleyball group presented significantly lower values of right limb (p<0.01) when compared to the Handball group and left limb times significantly (p<0.01) shorter when compared with the Handball and Judo groups Dynamic peak torque presented difference only for internal shoulder rotation of the right limb, which the Judo group presented values significantly (p<0.001) higher when compared to the Volleyball group. For the left upper limb, a significant difference (p<0.01) was detected in the peak torque angle of internal shoulder rotation between the Judo and Handball groups. The results of the study allow to considering that the practice of each evaluated sports modalities adapts the shoulder of its athletes in different ways. Judo athletes need to perform external shoulder rotation muscular strengthening, both in concentric and eccentric modes due to muscle imbalance caused by the specificity of the modality. Volleyball athletes have reasonable muscle balance in the shoulder joint due to the high levels of eccentric strength of external rotation, in addition the short time periods of electromechanical delay presented by these athletes reinforce even more the balance of this joint. Handball athletes have reasonable muscle balance in the shoulder joint; however, they presented high values of electromechanical delay, so it is indicated that these athletes need to perform muscular strengthening of external rotation of the shoulder in order to reduce the time required to activate these muscles.
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MUSCLES ACTIVATIONS DURING "SHOULDER MOUNT" POLE ACROBATIC EXERCISESanni, Modinat January 2016 (has links)
Author: Bc. Modinat Sanni Supervisor: Ing. Miroslav Vilímek, PhD Title: MUSCLES ACTIVATION DURING "SHOULDER MOUNT"POLE ACROBATIC EXERCISE Purpose: This study is an empirical - theoretical study presents the literature review regarding to the topic of the shoulder function anatomy, kinesiology, biomechanics, non-traumatic injuries of the shoulder and their prevention by using the available literatures. Further, the study also compares by surface electromyography the amplitudes, shapes and durations of myoelectric signals of m. latissimus dorsi, m. pectoralis maior, m. biceps brachii, m. infraspinatus and m. supraspinatus of dominant shoulder in two healthy individuals during acrobatic exercise on vertical pole known as "Shoulder Mount". The purpose was monitor the changes in two different conditions; i.e. kinesiotape and elbow brace and compare with the control condition for the reason of finding out their ability to affect the myoelectric activities of selected muscles. Further, the Shoulder Mount exercise had recorded by six Qualisys cameras for motion analyses. Methods and materials: The potentially eligible scientific articles perform a search of studies on the topic of kinesiotapes and tennis elbow brace as measured by EMG mainly on myoelectric activity of the shoulder complex were seared from...
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Multifaktoriální etiologie syndromu zmrzlého ramene a možné intervence z pohledu fyzioterapie / Multifactorial etiology of frozen shoulder syndrome and intervention possibilities of physical therapyPilátová, Markéta January 2020 (has links)
Theoretical part of the thesis is a scientific research of latest articles about frozen shoulder syndrome with accent to immunohistochemical level. At the same time, based on scientific literature it aims to clarify and statistically prove multifactorial causes of this syndrome especially in women going through hormonal changes. Psychosocial factors are also taken into account in this study and examined by unique questionnaire that was made expressly for this thesis. The questionnaire originates from internationally accepted clinimetrics such as VAS, SPADI, DASH score and most importantly SF-36. The theoretical research part also consists of "Therapy" chapter which describes latest trending treatment method for this condition. Experimental part, which consists of few case reports, focuses on a group of female patients who underwent range of motion measurement including functional testing of the affected limb. Next step followed was consecutive twelve minutes exercise on bicycle. They were controlled not to cross over anaerobic threshold. Level of exercise was controlled by predicted heart rate and estimation of the threshold by basic calculation and also by subjective Borg's scale of effort determined by the patient. After the bicycle exercise the range of motion was measured again and compared to the...
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The Role of the Subacromial Bursa in Rotator Cuff Tendon Response to Injury and HealingMarshall, Brittany Paige January 2022 (has links)
Rotator cuff injuries cause pain, disability, and loss of shoulder function in over 17 million individuals in the United States that result in over 500,000 surgeries performed annually, though with alarming failure rates of 20-94% (Colvin et al., 2012; Galatz et al., 2004; Harryman et al., 1991; Jain et al., 2014; Mather et al., 2013; Oh et al., 2007; Vitale et al., 2007; Yamaguchi et al., 2006). These surgeries involve repair or reconstruction of the damaged rotator cuff tendon(s) along with enlargement of the subacromial space by debriding the overlying bone (acromion) and removing the subacromial bursa (Beard et al., 2018; Burkhart et al., 2016; Dines et al., 2006; Lo & Burkhart, 2003; Rossi & Ranalletta, 2020).
The subacromial bursa is a synovial-like tissue that is situated between the acromion and the tendons of the rotator cuff. This tissue has been long understood to serve a primarily mechanical role by providing cushioning and protecting from friction-wear from the acromion on the underlying tendons. More recently, the identification of a robust vascular network within the bursa, a resident population of mesenchymal stem cells, and inflammatory responsiveness to rotator cuff pathology have supported the existence of a biological role of this tissue in addition to its mechanical one (Blevins et al., 1997; Gotoh et al., 1998, 2001; Põldoja et al., 2017; Rathbun & Macnab, 1970; Steinert et al., 2015; Yepes et al., 2007).
These observations make surgical excision of the bursa problematic, given our current lack of understanding of the implications of removing the bursa on the biological response to tendon injury. Therefore, the goals of this dissertation were three-fold: (1) to determine the role of the subacromial bursa in the rotator cuff tendon response to injury and healing, (2) to interrogate patterns of cellular crosstalk between the subacromial bursa and the rotator cuff following injury, and (3) to demonstrate therapeutic potential of targeting the subacromial bursa for modulating inflammation and improving tendon healing.Motivated by clinically observed phenotypic changes in the subacromial bursa with rotator cuff pathology, the profiles of human bursa and rotator cuff tendon tissues were assessed using histology, proteomics, and transcriptomics. This data set, analyzed in the context of patient demographics and diagnoses, revealed distinct bursa proteomes according to tissue phenotype (i.e., fibrous, vascular, or fatty), patient age, and presence of a tear in the underlying rotator cuff. These results suggested the presence of crosstalk between the rotator cuff and the bursa that had not been previously appreciated.
Employing multiple methods of validation, including histology, microcomputed tomography, gene expression, and flow cytometry, the rat bursa was established as an appropriate animal model of the human bursa. Therefore, we used the rat model to investigate the role of the bursa in tendon injury response and healing; tendon injuries were created surgically with or without a subsequent repair to study healing and responses to injury, respectively. The role of the bursa in the response to injury was assessed using gene expression, transcriptomics, and histology. The bursa promoted inflammatory gene expression in the injured supraspinatus but resolved inflammatory gene expression in the intact infraspinatus. The role of the bursa in tendon healing was assessed using gene expression, histology, microcomputed tomography, and tensile mechanical testing of the cuff tendons. Consistent with responses during the inflammatory phase of healing, the bursa promoted expression of genes related to aberrant, scar-mediated healing in the supraspinatus, whereas it promoted tenogenic and tendon extracellular matrix gene expression in the intact infraspinatus. Mechanical testing demonstrated that the bursa protected the infraspinatus from the inflammatory environment caused by the supraspinatus injury but had a limited functional effect on the healing supraspinatus. Microcomputed tomography also indicated bursa-dependence in cortical and trabecular bone remodeling following tendon injury.
Cross-talk between the bursa and the tendon was then studied in a novel tissue explant co-culture platform using gene expression and nitric oxide release as outcome measures. These experiments revealed that the activated bursa engaged in immunomodulation of tendon fibroblast responses to inflammatory stimulus. The in vitro platform also established the glucocorticoid dexamethasone as a viable therapeutic candidate for bursa-targeted treatment based on its capacity to regulate the bursa’s response to an inflammatory stimulus and enhance the bursa’s immunomodulatory potential. Therefore, in the final component of this thesis, dexamethasone was delivered via PLGA microspheres in vivo to the bursa to modulate the post-injury inflammatory response in the supraspinatus and the infraspinatus tendons. Results supported the therapeutic potential of this treatment approach to improve rotator cuff healing outcomes.
This body of work demonstrated a robust involvement of the bursa in rotator cuff responses to injury, with distinct roles in the underlying injured and intact tendons. This work also established, for the first time, the immunomodulatory capacity of the activated bursa and provided strong evidence against the clinical practice of bursectomy. Finally, use of sustained-release dexamethasone to dampen the inflammatory responses to rotator cuff injury offers a new direction for harnessing the inherent properties of the subacromial bursa therapeutically for improved rotator cuff tendon healing.
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