Concordancia entre los valores de fuerza prensil medidos por pablo y por dinamometría manual
| datacite.rights | http://purl.org/coar/access_right/c_f1cf | |
| dc.contributor.advisor | Polo Gallardo, Raúl Octavio | |
| dc.contributor.advisor | Herazo Beltrán, Aliz Yaneth | |
| dc.contributor.author | Baiz Kleebauer, Félix Andrés | |
| dc.date.accessioned | 2024-10-30T21:42:45Z | |
| dc.date.available | 2024-10-30T21:42:45Z | |
| dc.date.issued | 2024 | |
| dc.description.abstract | Introducción: La fuerza prensil (FP) ha sido reconocida como un biomarcador esencial en la evaluación de la salud muscular, asociado con desenlaces clínicos como la longevidad, calidad de vida y funcionalidad general. Tradicionalmente, la FP ha sido medida mediante dinamometría manual, con el dinamómetro Jamar ampliamente utilizado en investigaciones y prácticas clínicas. Sin embargo, los avances tecnológicos han permitido el desarrollo de dispositivos automatizados como el sistema robótico PABLO, que promete ofrecer mediciones más precisas y estandarizadas. Objetivo: Determinar la concordancia entre los valores de FP obtenidos mediante el dinamómetro Jamar y el sistema PABLO en una muestra de estudiantes universitarios. Materiales y Métodos: Se llevó a cabo un estudio observacional transversal en una muestra de 100 estudiantes universitarios seleccionados de manera aleatoria. Se midió la fuerza de prensión manual en ambas manos utilizando los dos dispositivos bajo protocolos estandarizados. Para el análisis de concordancia entre las mediciones, se emplearon pruebas estadísticas como el coeficiente de correlación de Pearson y el análisis de Bland-Altman. Resultados: Las mediciones obtenidas mediante ambos dispositivos mostraron una alta concordancia, con una correlación significativa entre los valores de FP registrados por el dinamómetro Jamar y el sistema PABLO, indicando que ambos instrumentos pueden ser utilizados de manera intercambiable para medir la FP. Conclusión: El dinamómetro Jamar y el sistema PABLO se presentan como herramientas fiables y precisas para la medición de la FP en contextos de investigación y aplicaciones clínicas. Dicho sistema, gracias a su capacidad para automatizar las mediciones, podría ofrecer una alternativa eficiente y estandarizada que minimiza la variabilidad introducida por el evaluador, lo que lo convierte en una opción valiosa para su implementación en diversos entornos, como clínicas, laboratorios y programas de salud comunitaria. Además, la validación de este sistema en estudios futuros podría ampliar su aplicabilidad en diferentes poblaciones y mejorar la precisión en la evaluación de la funcionalidad muscular. | spa |
| dc.description.abstract | Introduction: Grip strength (GS) has been recognized as an essential biomarker in the assessment of muscle health, associated with clinical outcomes such as longevity, quality of life, and general functionality. Traditionally, GS has been measured using manual dynamometry, with the Jamar dynamometer widely used in research and clinical practice. However, technological advances have led to the development of automated devices such as the PABLO robotic system, which promises more accurate and standardized measurements. Objective: To determine the concordance between GS values obtained with the Jamar dynamometer and the PABLO system in a sample of university students. Materials and Methods: A crosssectional observational study was conducted with a randomly selected sample of 100 university students. Grip strength was measured in both hands using the two devices under standardized protocols. Statistical tests such as Pearson’s correlation coefficient and the Bland-Altman analysis were employed to assess the concordance between the measurements. Results: The measurements obtained with both devices showed a high concordance, with a significant correlation between the GS values recorded by the Jamar dynamometer and the PABLO system, indicating that both instruments can be used interchangeably for GS measurement. Conclusion: The Jamar dynamometer and the PABLO system are reliable and accurate tools for measuring GS in research and clinical contexts. The PABLO system, thanks to its ability to automate measurements, could offer an efficient and standardized alternative that minimizes evaluator variability, making it a valuable option for implementation in various settings, such as clinics, laboratories, and community health programs. Furthermore, the validation of this system in future studies could expand its applicability in different populations and improve the accuracy of muscle functionality assessments. | eng |
| dc.format.mimetype | ||
| dc.identifier.uri | https://hdl.handle.net/20.500.12442/15917 | |
| dc.language.iso | spa | |
| dc.publisher | Facultad de Ciencias de la Salud | spa |
| dc.publisher | Ediciones Universidad Simón Bolívar | spa |
| dc.rights.accessrights | info:eu-repo/semantics/embargoedAccess | |
| dc.subject | Fuerza de agarre | spa |
| dc.subject | Fuerza prensil | spa |
| dc.subject | Fuerza de prensión manual | spa |
| dc.subject | Fuerza de prensión palmar | spa |
| dc.subject | Fuerza máxima de agarre | spa |
| dc.subject | PABLO | spa |
| dc.subject | Sensor de mano | spa |
| dc.subject.keywords | Grip strength | eng |
| dc.subject.keywords | Handgrip strength | eng |
| dc.subject.keywords | Manual grip strength | eng |
| dc.subject.keywords | Palmar grip strength | eng |
| dc.subject.keywords | Maximum grip strength | eng |
| dc.subject.keywords | PABLO | eng |
| dc.subject.keywords | Hand sensor | eng |
| dc.title | Concordancia entre los valores de fuerza prensil medidos por pablo y por dinamometría manual | spa |
| dc.type.driver | info:eu-repo/semantics/masterThesis | |
| dc.type.spa | Trabajo de grado máster | |
| dcterms.references | Xu Z yang, Gao D fa, Xu K, Zhou Z qi, Guo Y kun. The Effect of Posture on Maximum Grip Strength Measurements. Journal of Clinical Densitometry. 2021 Oct 1;24(4):638–44. | eng |
| dcterms.references | Domínguez-Gabriel CM, Pacheco-Preciado AR, Franco-Escobar C, Petro JL, Calvo Betancur VD. Handgrip strength, body composition, physical activity and food consumption in workers of a higher education institution. Revista Facultad Nacional de Salud Publica. 2020 May 1;39(2). | eng |
| dcterms.references | Guzmán-Guzmán IP, Delgado-Floody P, Gutiérrez-Pérez IA, Caamaño-Navarrete F, Jerez-Mayorga D, Zaragoza-García Ó, et al. Association between relative handgrip strength and abdominal obesity, type-2 diabetes and hypertension in a Mexican population. Nutr Hosp. 2022 Jan 1;39(1):82–92. | eng |
| dcterms.references | Giovanny Arenas-Sánchez, Antonio Huerta-Armijo, Edgardo Molina-Sotomayor, José González-Jurado, Alexis Espinoza-Salinas. Effect of hand grip strength training of ascending intensity on blood pressure and muscle oxygenation kinetics in elderly people with hypertension type 1. Revista de la Universidad Industrial de Santander Salud, vol 52, núm 4, pp 372-379, 2020. 2020 Sep 30;vol.52(n.4):372–9. | eng |
| dcterms.references | Zaccagni L, Toselli S, Bramanti B, Gualdi-Russo E, Mongillo J, Rinaldo N. Handgrip strength in young adults: Association with anthropometric variables and laterality. Int J Environ Res Public Health. 2020 Jun 2;17(12):1–12. | eng |
| dcterms.references | Massy-Westropp NM, Gill TK, Taylor AW, Bohannon RW, Hill CL. Hand Grip Strength: Age and gender stratified normative data in a population-based study. BMC Res Notes. 2011;4. | eng |
| dcterms.references | Bohannon RW. Muscle strength: Clinical and prognostic value of hand-grip dynamometry. Vol. 18, Current Opinion in Clinical Nutrition and Metabolic Care. Lippincott Williams and Wilkins; 2015. p. 465–70. | eng |
| dcterms.references | Martin JA, Ramsay J, Hughes C, Peters DM, Edwards MG. Age and grip strength predict hand dexterity in adults. PLoS One. 2015 Feb 17;10(2). | eng |
| dcterms.references | Sánchez-Montoya LJ, Benavides-Cordoba V, Palacios-Gómez M. Association of grip strength with cardiovascular risk in sedentary workers. Revista de Salud Publica. 2021;23(2):1–6. | eng |
| dcterms.references | Lupton-Smith A, Fourie K, Mazinyo A, Mokone M, Nxaba S, Morrow B. Measurement of hand grip strength: A cross-sectional study of two dynamometry devices. South African Journal of Physiotherapy. 2022;78(1). | eng |
| dcterms.references | Díaz Muñoz GA, Calvera Millán SJ. Comparing the Camry dynamometer to the Jamar dynamometer for use in healthy Colombian adults. Revista Salud Bosque. 2019 Dec 8;9(2):21–9. | eng |
| dcterms.references | Lustosa LP, Diogo KG, Ribeiro-Samora GA, Kakehasi AM, Alencar MA. Concurrent validity of handgrip strength between the jamar and bulb dynamometers in women with rheumatoid arthitis. Fisioterapia em Movimento. 2020;33. | eng |
| dcterms.references | Ayala-Gutiérrez JA, Gómez-Bull KG, Hernández-Arellano JL, Vargas-Salgado MM. Determinación de fuerza de agarre en operadores de producción de una industria médica de Ciudad Juárez. Cultura Científica y Tecnológica. 2022;19(2). | spa |
| dcterms.references | Xie B, Ma C. Association of grip strength with quality of life in the chinese oldest old. Int J Environ Res Public Health. 2021 Dec 1;18(23). | eng |
| dcterms.references | Cheng-Chung Wei J, Bigman G, Sakkattu Rao M, Liu Z, Copyright fnmol, Huang J, et al. Association between grip strength and cognitive impairment in older American adults. | eng |
| dcterms.references | Guihao L - Yunlian X - Sheng W - Yuhu Z - Qingshan G. Association between hand grip strength and stroke in China: a prospective cohort study. 2021. Available from: www.aging-us.com | eng |
| dcterms.references | Petermann-Rocha F, Gray SR, Forrest E, Welsh P, Sattar N, Celis-Morales C, et al. Associations of muscle mass and grip strength with severe NAFLD: a prospective study of 333,295 UK Biobank participants. | eng |
| dcterms.references | Porto JM, Nakaishi APM, Cangussu-Oliveira LM, Freire Júnior RC, Spilla SB, Abreu DCC de. Relationship between grip strength and global muscle strength in community-dwelling older people. Arch Gerontol Geriatr. 2019 May 1;82:273–8. | eng |
| dcterms.references | Jiang R, Westwater ML, Noble S, Rosenblatt M, Dai W, Qi S, et al. Associations between grip strength, brain structure, and mental health in > 40,000 participants from the UK Biobank. BMC Med. 2022 Dec 1;20(1). | eng |
| dcterms.references | Huerta-Ojeda ÁC, Barahona-Fuentes G, Galdames-Maliqueo S, Cáceres-Serrano P, Castillo N, Ortiz-Marholz P. Fuerza prensil como factor predictor de Ansiedad- Rasgo en estudiantes universitarias. Univ Salud. 2021 Apr 30;23(2):100–8. | spa |
| dcterms.references | Aboytes-Menchaca C, Ledesma-González M, Casas-Villa J. Utilidad de la fuerza prensil como predictor de abatimiento funcional en pacientes mayores de 60 años con fractura de cadera. Acta Ortop Mex. 2021;35(4):348–53. | spa |
| dcterms.references | Lin MH, Chang CY, Wu DM, Lu CH, Kuo CC, Chu NF. Relationship of multimorbidity, obesity status, and grip strength among older adults in Taiwan. Int J Environ Res Public Health. 2021 Jul 2;18(14). | eng |
| dcterms.references | Pinto Pereira SM, Garfield V, Farmaki AE, Tomlinson DJ, Norris T, Fatemifar G, et al. Adiposity and grip strength: a Mendelian randomisation study in UK Biobank. BMC Med. 2022 Dec 1;20(1). | eng |
| dcterms.references | Leal Cárcamo H, San-Martín Correa M, Martínez-Huenchullán S, Barría RM. Grip strength in Chilean healthy adults from 20 to 69 years: A cross-sectional study. Fisioterapia. 2021 May 1;43(3):136–42. | eng |
| dcterms.references | Chiu HT, Shih MT, Chen WL. Examining the association between grip strength and testosterone. Aging Male. 2021;23(5):915–22. | eng |
| dcterms.references | Nikodelis T, Savvoulidis S, Athanasakis P, Chalitsios C, Loizidis T. Comparative Study of Validity and Reliability of Two Handgrip Dynamometers: K-Force Grip and Jamar. Biomechanics (Switzerland). 2021 Jun 1;1(1):73–82. | eng |
| dcterms.references | Qiu S, Cai X, Yuan Y, Xie B, Sun Z, Wang D, et al. Muscle strength and prediabetes progression and regression in middle-aged and older adults: a prospective cohort study. J Cachexia Sarcopenia Muscle. 2022 Apr 1;13(2):909–18. | eng |
| dcterms.references | Ekiz T, Kara M, Özçakar L. Measuring grip strength in COVID-19: A simple way to predict overall frailty/impairment. Heart and Lung. 2020 Nov 1;49(6):853–4. | eng |
| dcterms.references | Pratt J, De Vito G, Narici M, Segurado R, Dolan J, Conroy J, et al. Grip strength performance from 9431 participants of the GenoFit study: normative data and associated factors. Geroscience. 2021 Oct 1;43(5):2533–46. | eng |
| dcterms.references | Lee MT, Howe TH, Chen CC, Wu CY, Hsieh YW. Grip strength differences in middleaged and older adults and individuals with stroke. Eur J Phys Rehabil Med. 2023 Jun 1;59(3):294–302. | eng |
| dcterms.references | Parra-Soto S, Pell JP, Celis-Morales C, Ho FK. Absolute and relative grip strength as predictors of cancer: prospective cohort study of 445 552 participants in UK Biobank. J Cachexia Sarcopenia Muscle. 2022 Feb 1;13(1):325–32. | eng |
| dcterms.references | Song J, Liu T, Zhao J, Wang S, Dang X, Wang W. Causal associations of hand grip strength with bone mineral density and fracture risk: A mendelian randomization study. Front Endocrinol (Lausanne). 2022 Dec 12;13. | eng |
| dcterms.references | Sánchez Flores FA. Fundamentos Epistémicos de la Investigación Cualitativa y Cuantitativa: Consensos y Disensos. Revista Digital de Investigación en Docencia Universitaria. 2019 Apr 24;101–22. | spa |
| dcterms.references | Savas S, Kilavuz A, Kayhan Koçak FÖ, Cavdar S. Comparison of Grip Strength Measurements by Widely Used Three Dynamometers in Outpatients Aged 60 Years and Over. J Clin Med. 2023 Jul 1;12(13). | eng |
| dcterms.references | Roberts HC, Denison HJ, Martin HJ, Patel HP, Syddall H, Cooper C, et al. A review of the measurement of grip strength in clinical and epidemiological studies: Towards a standardised approach. Vol. 40, Age and Ageing. 2011. p. 423–9. | eng |
| dcterms.references | Huang L, Liu Y, Lin T, Hou L, Song Q, Ge N, et al. Reliability and validity of two hand dynamometers when used by community-dwelling adults aged over 50 years. BMC Geriatr. 2022 Dec 1;22(1). | eng |
| dcterms.references | Quattrocchi A, Garufi G, Gugliandolo G, De Marchis C, Collufio D, Cardali SM, et al. Handgrip Strength in Health Applications: A Review of the Measurement Methodologies and Influencing Factors. Vol. 24, Sensors. Multidisciplinary Digital Publishing Institute (MDPI); 2024. | eng |
| dcterms.references | Benton MJ, Spicher JM, Silva-Smith AL. Validity and reliability of handgrip dynamometry in older adults: A comparison of two widely used dynamometers. PLoS One. 2022 Jun 1;17(6 June). | eng |
| dcterms.references | Mutalib SA, Mace M, Seager C, Burdet E, Mathiowetz V, Goldsmith N. Modernising grip dynamometry: Inter-instrument reliability between GripAble and Jamar. BMC Musculoskelet Disord. 2022 Dec 1;23(1). | eng |
| dcterms.references | Vázquez-Alonso M, Díaz-López J, Lázaro-Huerta M, Guamán-González M. Medición de la fuerza de prensión y de las pinzas de la mano en pacientes sanos. Acta Ortop Mex. 2021;35(1):56–60. | spa |
| dcterms.references | Sousa-Santos AR, Amaral TF. Differences in handgrip strength protocols to identify sarcopenia and frailty - A systematic review. Vol. 17, BMC Geriatrics. BioMed Central Ltd.; 2017. | eng |
| dcterms.references | Kara Ö, Kara M, Akın ME, Özçakar L. Grip strength as a predictor of disease severity in hospitalized COVID-19 patients. Heart and Lung. 2021 Nov 1;50(6):743–7. | eng |
| dcterms.references | López-Bueno R, Andersen LL, Calatayud J, Casaña J, Grabovac I, Oberndorfer M, et al. Associations of handgrip strength with all-cause and cancer mortality in older adults: A prospective cohort study in 28 countries. Age Ageing. 2022 May 1;51(5). | eng |
| dcterms.references | Hsu NW, Lin CH, Yang NP, Chen HC, Chou P. Handgrip strength is associated with mortality in community-dwelling older adults: the Yilan cohort study, Taiwan. BMC Public Health. 2023 Dec 1;23(1). | eng |
| dcterms.references | Hogrel JY. Grip strength measured by high precision dynamometry in healthy subjects from 5 to 80 years. BMC Musculoskelet Disord. 2015 Jun 10;16(1). | eng |
| dcterms.references | Francisco Guede Rojas1 a, LJCR, CVR, JFC, FDP, MJVC. Fuerza prensil de mano y su asociación con la edad, género y dominancia de extremidad superior en adultos mayores autovalentes insertos en la comunidad. Un estudio exploratorio. | spa |
| dcterms.references | Vivas-Díaz JA, Ramírez-Vélez R, Andrés Vivas-Díaz J, Correa-Bautista JE, Izquierdo M. Handgrip strength of Colombian university students. 2019. | eng |
| dcterms.references | Lee SC, Wu LC, Chiang SL, Lu LH, Chen CY, Lin CH, et al. Validating the Capability for Measuring Age-Related Changes in Grip-Force Strength Using a Digital Hand- Held Dynamometer in Healthy Young and Elderly Adults. Biomed Res Int. 2020;2020. | eng |
| dcterms.references | Bohannon RW. Grip strength: An indispensable biomarker for older adults. Vol. 14, Clinical Interventions in Aging. Dove Medical Press Ltd.; 2019. p. 1681–91. | eng |
| dcterms.references | Hollingworth TW, Oke SM, Patel H, Smith TR. Getting to grips with sarcopenia: Recent advances and practical management for the gastroenterologist. Vol. 12, Frontline Gastroenterology. BMJ Publishing Group; 2021. p. 53–61. | eng |
| oaire.version | info:eu-repo/semantics/acceptedVersion | |
| sb.programa | Maestría en Actividad Física y Salud | spa |
| sb.sede | Sede Barranquilla | spa |
Archivos
Bloque de licencias
1 - 1 de 1
No hay miniatura disponible
- Nombre:
- license.txt
- Tamaño:
- 2.93 KB
- Formato:
- Item-specific license agreed upon to submission
- Descripción: