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31	Efeito do treinamento muscular inspiratório sobre a capacidade funcional e a qualidade de vida de pacientes com hipertensão pulmonar crônica / The effect of inspiratory muscle training on fuctional capacity and quality of life in patients with chronic pulmonary hypertension Ferreira, Glória Menz January 2012 (has links) Introdução: Pacientes com hipertensão pulmonar (HP) além de apresentar redução da capacidade funcional, da qualidade de vida e da sobrevida, apresentam fraqueza dos músculos respiratórios, o que pode contribuir para o aumento dos sintomas de fadiga e dispneia. Objetivos: Verificar o efeito do treinamento muscular inspiratório (TMI) sobre a capacidade funcional, a qualidade de vida, a força muscular respiratória, pressão sistólica da artéria pulmonar, a função pulmonar e o nível de atividade física de pacientes com HP. Métodos: Doze pacientes com HP foram randomizados em um grupo controle (n=7) e um grupo TMI (n=5). O protocolo do TMI foi realizado durante 8 semanas. Foram feitas avaliações da pressão arterial pulmonar média, através do ecocardiograma; da qualidade de vida, através do questionário SF-36; da capacidade funcional, através do teste de caminhada de 6 minutos e da força muscular respiratória, através de transdutor de pressão. Todos os pacientes foram avaliados na fase pré e pós protocolo. Resultados: A força muscular inspiratória aumentou significativamente no grupo TMI quando comparado ao grupo controle (105,2±6,6 vs 82,9±6,1; p=0,01), e o escore de saúde mental avaliado pelo questionário SF-36 aumentou no grupo TMI (de 70,4±21,6 para 80±14,4; p=0,05). Entretanto a capacidade funcional não apresentou alteração após o protocolo de TMI de 8 semanas. Conclusão: O TMI é capaz de aumentar a força muscular inspiratória e melhorar a qualidade de vida, em relação a saúde mental, de pacientes com HP. / Introduction: Besides showing pulmonary hypertension (PH), decreased functional capacity, quality of life and survival, patients also present respiratory muscle weakness, which may contribute to increased fatigue and dyspnea symptoms. Objectives: Evaluate the effects of inspiratory muscle training (IMT) on functional capacity, quality of life, respiratory muscle strength, pulmonary artery pressure, pulmonary function and level of physical activity. Methods: Twelve chronic PH patients randomized to a control group (n = 7) and an IMT group (n = 5) were studied. The IMT program was performed for 8 weeks. The following measures were obtained before and after the program: respiratory muscle function; function capacity (6-min walk test); pulmonary artery pressure; quality of life (SF-36); and level de physical activity (IPAQ). Results: Maximal inspiratory pressure (PI,max) was higher in the IMT group than in the control group (105.2±6.6 vs 82.9±6.1; p=0.01), and the mental health score by SF-36 increased in de IMT group (from 70.4±21.6 to 80±14.4; p=0.05). However, the six-min walk test did not change after the IMT program. Conclusions: This study indicates that IMT results in improvement in inspiratory muscle strength and in the quality of life regarding PH. Hipertensão pulmonar Qualidade de vida Exercícios respiratórios Ventilação pulmonar Pulmonary hypertension Respiratory muscle weakness Inspiratory muscle training Pulmonary function Function capacity Quality of life
32	Efeito do treinamento muscular inspiratório sobre a capacidade funcional e a qualidade de vida de pacientes com hipertensão pulmonar crônica / The effect of inspiratory muscle training on fuctional capacity and quality of life in patients with chronic pulmonary hypertension Ferreira, Glória Menz January 2012 (has links) Introdução: Pacientes com hipertensão pulmonar (HP) além de apresentar redução da capacidade funcional, da qualidade de vida e da sobrevida, apresentam fraqueza dos músculos respiratórios, o que pode contribuir para o aumento dos sintomas de fadiga e dispneia. Objetivos: Verificar o efeito do treinamento muscular inspiratório (TMI) sobre a capacidade funcional, a qualidade de vida, a força muscular respiratória, pressão sistólica da artéria pulmonar, a função pulmonar e o nível de atividade física de pacientes com HP. Métodos: Doze pacientes com HP foram randomizados em um grupo controle (n=7) e um grupo TMI (n=5). O protocolo do TMI foi realizado durante 8 semanas. Foram feitas avaliações da pressão arterial pulmonar média, através do ecocardiograma; da qualidade de vida, através do questionário SF-36; da capacidade funcional, através do teste de caminhada de 6 minutos e da força muscular respiratória, através de transdutor de pressão. Todos os pacientes foram avaliados na fase pré e pós protocolo. Resultados: A força muscular inspiratória aumentou significativamente no grupo TMI quando comparado ao grupo controle (105,2±6,6 vs 82,9±6,1; p=0,01), e o escore de saúde mental avaliado pelo questionário SF-36 aumentou no grupo TMI (de 70,4±21,6 para 80±14,4; p=0,05). Entretanto a capacidade funcional não apresentou alteração após o protocolo de TMI de 8 semanas. Conclusão: O TMI é capaz de aumentar a força muscular inspiratória e melhorar a qualidade de vida, em relação a saúde mental, de pacientes com HP. / Introduction: Besides showing pulmonary hypertension (PH), decreased functional capacity, quality of life and survival, patients also present respiratory muscle weakness, which may contribute to increased fatigue and dyspnea symptoms. Objectives: Evaluate the effects of inspiratory muscle training (IMT) on functional capacity, quality of life, respiratory muscle strength, pulmonary artery pressure, pulmonary function and level of physical activity. Methods: Twelve chronic PH patients randomized to a control group (n = 7) and an IMT group (n = 5) were studied. The IMT program was performed for 8 weeks. The following measures were obtained before and after the program: respiratory muscle function; function capacity (6-min walk test); pulmonary artery pressure; quality of life (SF-36); and level de physical activity (IPAQ). Results: Maximal inspiratory pressure (PI,max) was higher in the IMT group than in the control group (105.2±6.6 vs 82.9±6.1; p=0.01), and the mental health score by SF-36 increased in de IMT group (from 70.4±21.6 to 80±14.4; p=0.05). However, the six-min walk test did not change after the IMT program. Conclusions: This study indicates that IMT results in improvement in inspiratory muscle strength and in the quality of life regarding PH. Hipertensão pulmonar Qualidade de vida Exercícios respiratórios Ventilação pulmonar Pulmonary hypertension Respiratory muscle weakness Inspiratory muscle training Pulmonary function Function capacity Quality of life
33	Avaliação do desempenho dos músculos respiratórios, da capacidade funcional, da fadiga e da qualidade de vida em candidatos à transplante de fígado / Evaluation of respiratory muscle performance, function capacity, fadigue and quality of life in liver transplantation candidates Veloso-Guedes, Cristina Aparecida 17 August 2018 (has links) Orientadores: Ilka de Fátima Santana Ferreira Boin, Sebastião Araújo / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-17T15:36:26Z (GMT). No. of bitstreams: 1 Veloso-Guedes_CristinaAparecida_D.pdf: 3771546 bytes, checksum: f2d5f8f351e50deb3e9c94af3a3cb55c (MD5) Previous issue date: 2011 / Resumo: Antecedentes. O comprometimento muscular na disfunção hepática grave é bemdiscutido na literatura. Porém, o grau de comprometimento da musculatura respiratória e sua relação com a função hepática, capacidade funcional (CF), fadiga e qualidade de vida (QV) não é bem conhecido. Objetivo: Avaliar o desempenho dos músculos respiratórios (DMR), a CF, a sensação de fadiga e QV em indivíduos com cirrose hepática candidatos à transplante, correlacionando as variáveis entre si e com o MELD. Método: Estudo prospectivo e transversal, realizado no Gastrocentro-Unicamp entre janeiro/2008 e junho/2009. O DMR foi avaliado pela mensuração da força dos músculos respiratórios (PIMAX e PEMAX) e da capacidade vital (CV) e a CF pela distância percorrida no teste de caminhada de seis minutos (TC6). A fadiga foi avaliada por meio da Escala de Gravidade de Fadiga (EGF) e a QV pelo instrumento genérico SF-36 (item-36 short-form health survey). Resultados: São expressos como média±DP: MELD=16±4, CV=4,0±0,9L (97%±16% do valor predito); PEMAXVR=77±28cmH2O e PEMAXCPT=76±26cmH2O (71±25% e 76±26% do predito, respectivamente). A distância percorrida no TC6 foi 453,9±81,2m (73±13% do valor predito); a EGF=34±17 e a QV mostrou-se comprometida em todos domínios, principalmente os aspectos físicos (48±41), emocionais (57±41), vitalidade (58±26) e estado geral (58±24). A CV predita mostrou correlação negativa com MELD (r=-0,2558; p=0,0034) e positiva com a força dos músculos respiratórios e com o TC6 (r=0,2094, p=0,0217). Maiores distâncias no TC6 foram associadas a maior força dos músculos respiratórios, melhor qualidade de vida e menor fadiga. Maiores escores da EGF determinaram pior QV. Conclusão: Os candidatos apresentaram diminuição do desempenho dos músculos respiratórios e da capacidade funcional, fadiga e comprometimento da qualidade de vida. A queda da CV esteve relacionada com a gravidade da doença hepática, com a diminuição da força muscular respiratória e também com a capacidade funcional, que, por sua vez, determinou maior fadiga e pior qualidade de vida / Abstract: Backgrounds. Muscle impairment in severe hepatic dysfunction is well known in the literature. Nevertheless, the level of respiratory muscle impairment and its relation with hepatic function, functional capacity (FC), fatigue and quality of life (QOL) are not well understood. Objective: To evaluate the performance of respiratory muscles (PRM), the FC, fatigue sensation, and QOL in individuals with hepatic cirrhosis, candidates to hepatic transplantation, correlating its variables together and with the MELD score. Methods. Prospective, cross-section study, conducted in Gastrocentro-Unicamp between January 2008 and June 2009. PRM was evaluated by the measurement of respiratory muscle strength (PIMAX and PEMAX) and of vital capacity (VC), and the FC was assessed by the distance achieved during the 6-minute walk test (6WT). Fatigue was evaluated by Fatigue Severity Score (FSS), and quality of life by the SF-36 (item-36 short-form health survey) generic instrument. Results. Expressed as mean±SD: MELD=16±4, VC=4,0±0,9L (97%±16% from predicted value); PIMAX=77±28cmH2O and PEMAXVR=77±28cmH2O (71±25% and 76±26% from predicted values, respectively). The walked distance during the 6WT was 453,9±81,2m (73±13% from predicted value); the FSS=34±17 and QOL showed to be compromised in every aspect, mainly the physical aspects (48±41), emotional aspects (57±41), vitality (58±26) and general status (58±24). The predicted VC showed negative correlation with MELD (r=0,2558; p=0,0034) and positive correlation with the strength of respiratory muscle and with the 6WT (r=0,2094; p=0,0217). Greater 6WT distances were associated with more strength of respiratory muscles, better quality of life and less fatigue. Greater FSS scores determined worse QOL. Conclusion. Candidates showed decrease in the performance of respiratory muscles, decrease in functional capacity, fatigue and an impairment of quality of life. Decrease in VC was associated with hepatic disease severity, with impairment of respiratory muscle strength and also with functional capacity, with, in turn, determined more fatigue and worse quality of life / Doutorado / Fisiopatologia Cirúrgica / Doutor em Ciências Fígado - Transplante Músculos respiratórios Capacidade vital Aptidão física Fadiga Qualidade de vida Liver transplantation Respiratory muscle Vital capacity Physical fitness Fatigue Quality of life
34	Beräkning och validering av maximal respiratorisk muskelstyrka / Measurement and validation of maximal respiratory muscle strength Karlsson, Gabriella January 2021 (has links) Introduktion: Respiratorisk muskelsvaghet är förekommande vid olika respiratoriska och neuromuskulära sjukdomar. Mätning av maximala inspiratoriska trycket (MIP) och maximala exspiratoriska trycket (MEP) är en metod som visar på den neuromuskulära funktionen utan lungans påverkan. Studiens syfte var att genomföra mätningar av MIP och MEP på friska individer och sedan validera resultatet utifrån två publicerade normalvärdesmaterial från Wilson et. al. och Karvonen et. al. Metod och material: Studien genomfördes på 8 män och 19 kvinnor mellan 23 och 63 år. MIP och MEP beräknades genom att deltagarna utförde kraftiga inandningar och utandningar i ett spirometermunstycke mot ett motstånd. För att validera resultatet gentemot de publicerade normalvärdesmaterial användes Z-score som statistisk metod. Resultat: Resultatet står sig bäst i förhållande till Karvonen et. al. där MEP-värdenas lägre normalvärdesgräns blev –1,8 SD för kvinnor och –1,8 SD för män. MIP-värdena står sig mindre bra med undantag för männens värden i förhållande till Wilson et. al. där högsta värdet låg 1,3 SD och lägsta värdet låg –1,8 SD ifrån det förväntade värdet. Slutsats: Denna studie visar att de uppmätta trycken överlag tycks stämma bäst överens med MEP-värden från Karvonen et. al. och männens MIP-värden från Wilson et. al. Deltagarnas medverkan, det tekniska tillvägagångssättet och tolkningen av resultatet har stor betydelse för utfallet. / Introduction: Weakness of respiratory muscle strength is occurring in different lung diseases and neuromuscular diseases. Measurement of the maximal inspiratory pressure (MIP) and maximal expiratory pressure (MEP) are a method that assess the neuromuscular function without the impact of the lung. The aim of this study was to perform measurements of MIP and MEP on healthy individuals and validate the results based on two published normal values from Wilson et. al. and Karvonen et. al. Method and materials: The measurements were performed on 8 men and 19 women ranging between 23 and 63 years old. MIP and MEP were measured by the participants performing strong inhalations and exhalations against a blocked mouthpiece. Z-score was used as statistical method to validate the results based on the published normal values. Result: The result was best compared with normal values from Karvonen et. al. for MEP lower limits of normal, –1,8 SD for women and –1,8 SD for men. The MIP values are not comparable except for men´s values compared with normal values from Wilson et. al. where the highest value was 1,3 SD and the lowest value was –1,8 SD from the predicted. Conclusion: The study shows that the measured pressures were generally best compared with normal MEP values from Karvonen et. al. and men´s MIP values from Wilson et. al. The effort of the participants, the technical approach and the interpretation of the results are of great importance for the outcome. Respiratory muscle strength maximal inspiratory pressure maximal expiratory pressure normal values Respiratorisk muskelstyrka maximalt inspiratoriskt tryck maximalt exspiratoriskt tryck normalvärden Biomedical Laboratory Science/Technology
35	Maximal Respiratory Pressure Reference Values for Navajo Children Ages 6-14 Arnall, David A., Nelson, Arnold G., Owens, Beatrice, Iranzo, Maria Dels Àngels CebriàI., Sokell, Geri Ann, Kanuho, Verdell, Interpreter, Christina, Coast, J. Richard 01 August 2013 (has links) Background Since anthropometric variables are critical to the creation of pulmonary nomograms for FVC, FEV1, and other volumes and capacities, it is logical that anthropometric variables also influence the values of the maximal respiratory pressures (MRPs). Since nomograms are race-specific, it is important that tribe-specific tables of normal maximal inspiratory pressure (MIP) and maximal expiratory pressure (MEP) be developed. To date normal tables for MRPs do not exist for Navajo children. Objective Therefore the purpose of this study was to derive MRP normative reference values for Navajo children in the age range of 6-14 years. Methods - Participants and Measurements A cross-sectional study was undertaken with a representative sample of 534 healthy children, ages 6-14 years, attending Navajo Nation elementary schools in Arizona. MIP and MEP were measured. Results Test results from 275 girls and 259 boys met American Thoracic Society quality control standards and showed that MRPs all increased with height. Mean MIP in cm H2O was 77 for boys and 67 for girls with lower limits of 44 and 40, respectively. Mean MEP in cm H2O was 75 for boys and 66 for girls with the lower limits of 42 and 38, respectively. Conclusion Since the data were collected from the population of interest, the resulting MIP and MEP reference equations should be used when testing Navajo children ages 6-14 years. maximal expiratory pressure maximal inspiratory pressure maximal respiratory pressures Native Americans Navajo children normative values reference equations respiratory muscle strength Rehabilitative Sciences
36	Maximal Respiratory Pressure Reference Values for Navajo Children Ages 6-14 Arnall, David A., Nelson, Arnold G., Owens, Beatrice, Iranzo, Maria Dels Àngels CebriàI., Sokell, Geri Ann, Kanuho, Verdell, Interpreter, Christina, Coast, J. Richard 01 August 2013 (has links) Background Since anthropometric variables are critical to the creation of pulmonary nomograms for FVC, FEV1, and other volumes and capacities, it is logical that anthropometric variables also influence the values of the maximal respiratory pressures (MRPs). Since nomograms are race-specific, it is important that tribe-specific tables of normal maximal inspiratory pressure (MIP) and maximal expiratory pressure (MEP) be developed. To date normal tables for MRPs do not exist for Navajo children. Objective Therefore the purpose of this study was to derive MRP normative reference values for Navajo children in the age range of 6-14 years. Methods - Participants and Measurements A cross-sectional study was undertaken with a representative sample of 534 healthy children, ages 6-14 years, attending Navajo Nation elementary schools in Arizona. MIP and MEP were measured. Results Test results from 275 girls and 259 boys met American Thoracic Society quality control standards and showed that MRPs all increased with height. Mean MIP in cm H2O was 77 for boys and 67 for girls with lower limits of 44 and 40, respectively. Mean MEP in cm H2O was 75 for boys and 66 for girls with the lower limits of 42 and 38, respectively. Conclusion Since the data were collected from the population of interest, the resulting MIP and MEP reference equations should be used when testing Navajo children ages 6-14 years. maximal expiratory pressure maximal inspiratory pressure maximal respiratory pressures Native Americans Navajo children normative values reference equations respiratory muscle strength Rehabilitative Sciences
37	MÄTNING AV ANDNINGSMUSKELSTYRKA - JÄMFÖRELSE AV NORMALVÄRDEN MELLAN NY OCH BEFINTLIG UTRUSTNING Kellersson, Elin January 2012 (has links) 1MÄTNING AV ANDNINGSMUSKELSTYRKAJÄMFÖRELSE AV NORMALVÄRDEN MELLAN NY OCH BEFINTLIG UTRUSTNINGELIN KELLERSSONKellersson E, Jämförelse av andningsmuskelstyrke mätning på ny utrustning. Examensarbete i biomedicinsk laboratorievetenskap 15 poäng. Malmö högskola:Hälsa och Samhälle, enheten för biomedicinsk Laboratorievetenskap, 2012.Svaghet i andningsmuskulatur är vanligt hos neuromuskulärt sjuka, lungsjuka och hos vissa patienter som behandlas med steroider. Vid neuromuskulära sjukdomar utgör en progressiv försvagning av andningsmusklerna (främst diafragman) det allvarligaste hotet mot överlevnad. Andningsmuskelstyrkan kan mätas med hjälp av en spirometer, där det maximala inspiratoriska trycket (PI max) och det maximala exspiratoriska trycket (PE max) mäts med hjälp av tryckreceptorer vid en pnemotachograf. Trycket som uppmäts i munhålan reflekterar det tryck som utvecklas av andningsmusklerna. Mätningen av PI max och PE max är enkel att genomföra och ger en fingervisning om hur andningsmuskelstyrkan ser ut. Det finns i dag inget normalvärde för andningsmuskelstyrka på den nya utrustningen (Master Screen Body JEAGER). Syftet med studien är att validera Master Screen Body JEAGER för att undersöka om det referensmaterial som redan finns på kliniken kan användas på Master Screen Body JEAGER. Samt att jämföra ett hårt och ett mjukt munstycke mot varandra.I materialet ingick totalt 25 personer mellan 15-61 år (medelålder 35 år), 20 kvinnor och 5 män. För kvinnorna finns det signifikanta skillnader mellan PI max hårt mot mjukt munstycke på Jeager, PI max Siemens mot mjukt munstycke på Jeager, PI max Siemens mot hårt munstycke på Jeager, PE max hårt mot mjukt munstycke på Jeager och PE max Siemens mot hårt munstycke på Jeager. Det vill säga alla jämförelser förutom PE max Siemens mot mjukt munstycke på Jeager. För männen finns det signifikanta skillnader mellan PI max Siemens mot mjukt munstycke på Jeager och PI max Siemens mot hårt munstycke på Jeager. Det gick inte att bevisa signifikanta skillnader mellan någon av de andra jämförelserna för männen.Det går inte att använda det befintliga normalmaterialet på den nya utrustningen och det munstycke som enligt studien är bäst lämpad för undersökningen är det mjuka munstycket.Nyckelord: Andningsmuskelstyrka, Hårt munstycke, Master Screen Body JEAGER, Mjukt munstycke, PE max, PI max. / MEASUREMENT OF RESPIRATORY MUSCLE STRENGTCOMPARISION OF NORMAL VALUES BETWEEN NEW AND CURRENT EQUIPMENTELIN KELLERSSONKellersson E, Comparison of respiratory muscle strength in new and old equipment. Degree Project, Biomedical Science, 15 credit points, Malmo University: Health and Society, Department of Biomedical Laboratory Science, 2012Weakness in respiratory muscles is common in persons with neuromuscular diseases, respiratory diseases and in some persons with steroid treatment.Decreasing respiratory muscles (mainly the diaphragm) is the greatest threat against survival for persons with neuromuscular diseases. The respiratory muscle strength is gauged with a spirometer, where the maximal inspiratory pressure (PI max) and the maximal exspiratory pressure (PE max) is measured with pressure receptors in a pneumotachograph. The pressure, gauged in the mouth cavity, reflects the pressure produced by the respiratory muscles. Measuring PI max and PE max is simple to perform and gives a hint of the respiratory muscle strength. The new equipment (Master Screen Body JEAGER) has currently no normal values for the respiratory muscle strength. The point of this study is to validate the new equipment and see if the normal values of the current equipment can be used on the new equipment. And compare a hard and a soft type of mouthpiece towards each other.The study included 25 persons between 15-61 years (mean 35 years), 20 women and 5 men. For the women there were significant differences between PI max hard versus soft mouthpiece on Jeager, PI max Siemens versus soft mouthpiece on Jeager, PI max Siemens versus hard mouthpiece on Jeager, PE max hard versus soft mouthpiece on Jeager and PE max Siemens versus hard mouthpiece on Jeager. That is to say every comparison except PE max Siemens versus soft mouthpiece on Jeager. For the men there were only significant differences between PI max Siemens versus soft mouthpiece on Jeager and PI max Siemens versus hard mouthpiece on Jeager. It was not possible to prove any significant differences for any of the other comparison for the men. It is not possible to use the current normal value on the new equipment and the mouthpiece that is best, according to this study is the soft mouthpiece.Keyword: Hard mouthpiece, Master Screen Body JEAGER, PE max, PI max, Respiratory muscle strength, Soft mouthpiece. Andningsmuskelstyrka Hårt munstycke Master Screen Body JEAGER Mjukt munstycke PE max PI max Hard mouthpiece Respiratory muscle strength Soft mouthpiece Hard mouthpiece Medical and Health Sciences Medicin och hälsovetenskap
38	Sledování respiračních funkcí u pacientů po operaci hrudního koše dle Nusse / Monitoring of the Respiratory Functions in Patients after the Rib Cage Surgery according to Nuss Svobodová, Jana January 2011 (has links) Objective: The goal of the thesis "Monitoring of the Respiratory Functions in patients after the Rib Cage Surgery according to Nuss" was to confront the present knowledge about respiratory functions and the strength of respiratory muscles of patients with inherited pectoral deformity pectus excavatum, to compare it with my own measuring and to find out about their development after the surgical correction according to Nuss. Methodology: There were 15 patients being monitored (13 men and 3 women), who underwent spirometric and bodypletysmographic examination and the occlusal mouth pressures were determined before the surgery. The same pulmonary function tests were run in the course of 4 to 10 months (7.1 months on average) on all the patients, the control determination of mouth pressures is available for 13 of them. Results: In the entry tests, compared to adequate values the patients in this file had increased residual lung capacities (RV 142%, p=0.001; ITGV 116.2%, p=0.004; RV%TLC 133.8%, p=0.002; ITGV% 116.1%, p=0.001) at the expense of statistically lower vital lung capacity (VC 81.9%, p=0.0004) and inspiratory reserve capacity (IC 84.2%, p=0.0003), while the total lung capacity remained unaltered (TLC 99.7%, p=0.877). The obstructive parameters of these patients were significantly altered (FEV1 95.7%,...
39	Determinação de valores de referência para a força de preensão palmar e força muscular respiratória em adultos saudáveis / Determination of reference values for handgrip and respiratory muscle strength in healthy adults Chagas, Hannah Miranda Araújo 05 October 2018 (has links) Diversos testes têm sido realizados como parte da avaliação na população com doenças cardiovasculares para avaliação de força global, dentre eles está a força da musculatura respiratória que quando reduzida no pre operatório é um forte indicador de tempo de ventilação mecânica invasiva (VMI) prolongado, uma outra avaliação de força frequentemente aplicado no ambiente hospitalar é a avaliação da força de preensão palmar que está incluso na identificação do fenótipo da fragilidade física e índice nutricional. A consciência da importância da disfunção da musculatura respiratória em pacientes com insuficiência respiratória motivou o desenvolvimento de diversos estudos conduzidos em indivíduos saudáveis, a fim de se avaliar a força muscular de forma indireta através de valores de pressão inspiratória máxima (PIMÁX) e pressão expiratória máxima (PEMÁX). O objetivo deste trabalho foi determinar valores de referência e equações para predição da força de preensão palmar (FPP) e a força da musculatura respiratória em indivíduos adultos saudáveis da cidade de Ribeirão Preto (SP) e região. Foi utilizado um dinamômetro manual portátil hidráulico MN70142 - North Coast® (Sammons Preston). Foram estudados 114 voluntários, 71 mulheres e 70 homens, com idades entre 18 e 82 anos (média 47±16 anos). A FPP média da mão dominante foi de 28,4±9,7quilograma/força (kgf) para mulheres (percentil 25%:24kgf - percentil 75%: 32kgf) e 40,3±14,3kgf para homens ((percentil 25%:32kgf - percentil 75%: 46kgf) (p<0,001). A equação para predição da FPP da mão dominante obtida foi: FPP= -20,928 + idade x (-0,181) + estatura x (36,011) + gênero x (7,246). A Pressão Inspiratória máxima (PImáx) foi de 77,06cmH2O para o gênero feminino e 107,29cmH2O para o gênero masculino. A Pressão expiratória máxima (PEmáx) foi de 83,28cmH2O para o gênero feminino e de 112,07cmH2O para o gênero masculino. A equação para predição da PImáx obtida foi: PImáx=106,767+ gênero x (29,513) + idade x (-0,666). E a equação de predição da PEmáx obtida foi: PEmax = 7,382+ idade x (-0,309) + gênero x (21,534). O presente estudo forneceu valores de referência e equações para a predição da força de preensão palmar, da PImáx e da PEmáx de acordo com a faixa etária e o gênero, de indivíduos saudáveis residentes em Ribeirão Preto (SP) e região. / Several tests have been performed as part of the evaluation in the population with cardiovascular diseases for global strength assessment, among them is the strength of the respiratory muscles which, when reduced in the preoperative period, is a strong indicator of the time of prolonged invasive mechanical ventilation (IMV), a another assessment of force frequently applied in the hospital environment is the evaluation of palmar grip strength that is included in the identification of the physical fragility and nutritional index phenotype. The awareness of the importance of respiratory muscle dysfunction in patients with respiratory failure motivated the development of several studies conducted in healthy individuals to evaluate muscle strength indirectly through maximal inspiratory pressure (PIMÁX) and maximal expiratory pressure (PEMÁX). The aim of this study was to determine reference values and equations for the prediction of palmar grip strength (FPP) and respiratory muscle strength in healthy adults in the city of Ribeirão Preto (SP) and region. A MN70142 - North Coast® portable handheld hydraulic dynamometer (Sammons Preston) was used. A total of 114 volunteers, 71 women and 70 men, aged between 18 and 82 years (mean 47 ± 16 years) were studied. The mean FP of the dominant hand was 28.4 ± 9.7 kilograms (kgf) for females (25% percentile: 24kgf - 75% percentile: 32kgf) and 40.3 ± 14.3kgf for males (25th percentile The equation for predicting the FPP of the dominant hand obtained was: FPP = -20.928 + age x (-0.181) + height x (36.011) + gender x (7,246%) (p <0.001) The maximum inspiratory pressure (MIP) was 77.06cmH2O for the female gender and 107,29cmH2O for the male gender. The maximum expiratory pressure (MEP) was 83.28cmH2O for the female gender and 112.07cmH2O for the The prediction equation for PEmax obtained was: PEmax = 7.382+ age x (-0.309) + (-0.309) + gender x (29.513) + age x (-0.666) gender x (21,534) The present study provided reference values and equations for the prediction of palmar grip strength, MIP and MEP according to age group and gender, of individuals residents healthy duos in Ribeirão Preto (SP) and region.
40	Determinação de valores de referência para a força de preensão palmar e força muscular respiratória em adultos saudáveis / Determination of reference values for handgrip and respiratory muscle strength in healthy adults Hannah Miranda Araújo Chagas 05 October 2018 (has links) Diversos testes têm sido realizados como parte da avaliação na população com doenças cardiovasculares para avaliação de força global, dentre eles está a força da musculatura respiratória que quando reduzida no pre operatório é um forte indicador de tempo de ventilação mecânica invasiva (VMI) prolongado, uma outra avaliação de força frequentemente aplicado no ambiente hospitalar é a avaliação da força de preensão palmar que está incluso na identificação do fenótipo da fragilidade física e índice nutricional. A consciência da importância da disfunção da musculatura respiratória em pacientes com insuficiência respiratória motivou o desenvolvimento de diversos estudos conduzidos em indivíduos saudáveis, a fim de se avaliar a força muscular de forma indireta através de valores de pressão inspiratória máxima (PIMÁX) e pressão expiratória máxima (PEMÁX). O objetivo deste trabalho foi determinar valores de referência e equações para predição da força de preensão palmar (FPP) e a força da musculatura respiratória em indivíduos adultos saudáveis da cidade de Ribeirão Preto (SP) e região. Foi utilizado um dinamômetro manual portátil hidráulico MN70142 - North Coast® (Sammons Preston). Foram estudados 114 voluntários, 71 mulheres e 70 homens, com idades entre 18 e 82 anos (média 47±16 anos). A FPP média da mão dominante foi de 28,4±9,7quilograma/força (kgf) para mulheres (percentil 25%:24kgf - percentil 75%: 32kgf) e 40,3±14,3kgf para homens ((percentil 25%:32kgf - percentil 75%: 46kgf) (p<0,001). A equação para predição da FPP da mão dominante obtida foi: FPP= -20,928 + idade x (-0,181) + estatura x (36,011) + gênero x (7,246). A Pressão Inspiratória máxima (PImáx) foi de 77,06cmH2O para o gênero feminino e 107,29cmH2O para o gênero masculino. A Pressão expiratória máxima (PEmáx) foi de 83,28cmH2O para o gênero feminino e de 112,07cmH2O para o gênero masculino. A equação para predição da PImáx obtida foi: PImáx=106,767+ gênero x (29,513) + idade x (-0,666). E a equação de predição da PEmáx obtida foi: PEmax = 7,382+ idade x (-0,309) + gênero x (21,534). O presente estudo forneceu valores de referência e equações para a predição da força de preensão palmar, da PImáx e da PEmáx de acordo com a faixa etária e o gênero, de indivíduos saudáveis residentes em Ribeirão Preto (SP) e região. / Several tests have been performed as part of the evaluation in the population with cardiovascular diseases for global strength assessment, among them is the strength of the respiratory muscles which, when reduced in the preoperative period, is a strong indicator of the time of prolonged invasive mechanical ventilation (IMV), a another assessment of force frequently applied in the hospital environment is the evaluation of palmar grip strength that is included in the identification of the physical fragility and nutritional index phenotype. The awareness of the importance of respiratory muscle dysfunction in patients with respiratory failure motivated the development of several studies conducted in healthy individuals to evaluate muscle strength indirectly through maximal inspiratory pressure (PIMÁX) and maximal expiratory pressure (PEMÁX). The aim of this study was to determine reference values and equations for the prediction of palmar grip strength (FPP) and respiratory muscle strength in healthy adults in the city of Ribeirão Preto (SP) and region. A MN70142 - North Coast® portable handheld hydraulic dynamometer (Sammons Preston) was used. A total of 114 volunteers, 71 women and 70 men, aged between 18 and 82 years (mean 47 ± 16 years) were studied. The mean FP of the dominant hand was 28.4 ± 9.7 kilograms (kgf) for females (25% percentile: 24kgf - 75% percentile: 32kgf) and 40.3 ± 14.3kgf for males (25th percentile The equation for predicting the FPP of the dominant hand obtained was: FPP = -20.928 + age x (-0.181) + height x (36.011) + gender x (7,246%) (p <0.001) The maximum inspiratory pressure (MIP) was 77.06cmH2O for the female gender and 107,29cmH2O for the male gender. The maximum expiratory pressure (MEP) was 83.28cmH2O for the female gender and 112.07cmH2O for the The prediction equation for PEmax obtained was: PEmax = 7.382+ age x (-0.309) + (-0.309) + gender x (29.513) + age x (-0.666) gender x (21,534) The present study provided reference values and equations for the prediction of palmar grip strength, MIP and MEP according to age group and gender, of individuals residents healthy duos in Ribeirão Preto (SP) and region.

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