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Journal of Medical Engineering & Technology Volume 46, 2022 - Issue 8
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Research Articles

Parallel assistive robotic system for knee rehabilitation: kinematic and dynamic modeling validation

Andrés GuatibonzaEngineering Department, Universidad Militar Nueva Granada, Bogotá, ColombiaCorrespondence[email protected]
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,
Leonardo SolaqueEngineering Department, Universidad Militar Nueva Granada, Bogotá, ColombiaView further author information
&
Alexandra VelascoEngineering Department, Universidad Militar Nueva Granada, Bogotá, ColombiaView further author information
Pages 637-647 | Received 30 Sep 2021, Accepted 18 May 2022, Published online: 08 Jul 2022

References

  • Jabeen T, Kazmi S, Rehman A, et al. Upper and lower limbs disability and personality traits. J Ayub Med College. 2016;28:348–352.
  • WHO. World report on disability. Geneva: World Health Organization; 2011.
  • Pascual CM, Pérez VR, Calvo JS. Epidemiología de las lesiones deportivas. Fisioterapia. 2008;30(1):40–48.
  • Medlineplus. Knee Injuries – Knee Disorders – Medline – Plus. 2017; [cited 2020 Sep 17]. Available from: https://medlineplus.gov/kneeinjuriesanddisorders.html.
  • Koller-Hodac A, Leonardo D, Walpen S, et al. A novel robotic device for knee rehabilitation improved physical therapy through automated process. In: 2010 3rd IEEE RAS EMBS International Conference on Biomedical Robotics and Biomechatronics; Sept; 2010. p. 820–824.
  • Umivale PS. Patología de la rodilla: Guía de manejo clínico; 2011.
  • Jochen Gerstne B. Manual de semiología del aparato locomotor. Universidad del Valle. Cali, Colombia: Facultad de salud. Sección Ortopedia y traumatología, Hospital universitarios del Valle; 2004.
  • de Salud MS. Prevención, Diagnóstico y Tratamiento de Rehabilitación en el Paciente Adulto con Osteoartrosis de Rodilla en los Tres Niveles de Atención; 2014; [cited 2017 Oct 12]. Available from: [http://www.cenetec.salud.gob.mx/interior/catalogoMaestroGPC.html.
  • Saba AM, Dashkhaneh A, Moghaddam MM, et al. Design and manufacturing of a gait rehabilitation robot. In: 2013 First RSI/ISM International Conference on Robotics and Mechatronics (ICRoM); Feb; 2013. p. 487–491.
  • Beutler A. Knee pain. 2017; [cited 2020 Sep 17]. Available from: https://www.uptodate.com/contents/knee-pain-beyond-thebasics?view=print.
  • Linda N, Maia M, Hennen L, et al. Assistive technologies for people with disabilities – part II: Current and emerging technologies. 2018; 01.
  • Olanrewaju OA, Faieza AA, Syakirah K. Application of robotics in medical fields: re-habilitation and surgery. Int J Comput Appl Technol. 2015;52(4):251–256.
  • Huo W, Mohammed S, Moreno JC, et al. Lower limb wearable robots for assistance and rehabilitation: a state of the art. IEEE Syst J. 2016;10(3):1068–1081.
  • Ballantyne R, Rea PM. A game changer: ‘the use of digital technologies in the management of upper limb rehabilitation. In: Advances in experimental medicine and biology. Springer: Springer International Publishing; 2019. p. 117–147.
  • Molteni F, Gasperini G, Cannaviello G, et al. Exoskeleton and end-effector robots for upper and lower limbs rehabilitation: narrative review. Pm R. 2018;10(9 Suppl 2):S174–S188.
  • Munih M, Bajd T. Rehabilitation robotics. Technol Health Care. 2011;19(6):483–495.
  • Vanderborght B, Verrelst B, Ham RV, et al. Exploiting natural dynamics to reduce energy consumption by controlling the compliance of soft actuators. Int J Robotics Res. 2006;25(4):343–358.
  • Grioli G, Wolf S, Garabini M, et al. Variable stiffness actuators: the user’s point of view. Int J Robotics Res. 2015;34(6):727–743.
  • Garabini M, Santina CD, Bianchi M, et al. Soft robots that mimic the neuromusculoskele- tal system. Cham: Springer International Publishing; 2017. p. 259–263.
  • Vanderborght B, Albu-Schaeffer A, Bicchi A, et al. Variable impedance actuators: a review. Rob Auton Syst. 2013;61(12):1601–1614.
  • Araujo-Gómez P, Mata V, Díaz-Rodríguez M, et al. Design and kinematic analysis of a novel 3ups/RPU parallel kinematic mechanism with 2t2r motion for knee diagnosis and rehabilitation tasks. J Mech Rob. 2017;9(6):e4037800.
  • Aginaga J, Iriarte X, Plaza A, et al. Kinematic design of a new four degree-of-freedom parallel robot for knee rehabilitation. J Mech Des. 2018;140(9):e4040168.
  • Chaparro-Rico BD, Castillo-Castaneda E, Maldonado-Echegoyen R. Design of a parallel mechanism for knee rehabilitation. In: Multibody mechatronic systems. Springer: Springer International Publishing; 2014. p. 501–510.
  • Rico BDMC, Castañeda EC. Design of a 2dof parallel mechanism to assist therapies for knee rehabilitation. Ingeniería e Investigación. 2016;36(1):98–104.
  • R J Greenfield J, Francis Hwang H, Davies TC, et al. Soft-stop knee brace for rehabilitation from ligament injuries: Design and pilot trial. IEEE Int Conf Rehabil Robot. 2017;2017:352–357.
  • Guatibonza AF, Solaque L, Velasco A. Kinematic and dynamic modeling of a 5-bar assistive device for knee rehabilitation. In: 2018 IEEE Third Ecuador Technical Chapters Meeting (ETCM); Oct. IEEE. 2018.
  • Romero A ML, Valbuena Y, Velasco A, et al. Soft-actuated modular knee-rehabilitation device: Proof of concept. In: Proceedings of the International Conference on Bioinformatics Research and Applications 2017; New York, NY, USA. ACM; 2017. p. 71–78; ICBRA 2017. 10.1145/3175587.3175593.
  • Chaurand R, León L, Muñoz E. Dimensiones antropométricas de población latinoamericana: México, cuba, Colombia, chile. Universidad de Guadalajara, Centro Universitario de Arte, Arquitectura y Diseño, División de Tecnología y Procesos, Departamento de Producción y Desarrollo. Centro de Investigaciones en Ergonomía; 2001.
  • Institute NN. Cribado nutricional. guía Para rellenar el formulario mini nutricional assessment. 1st ed.; 2015.
  • Siciliano B, Sciavicco L, Villani L, et al. Robotics: Modelling, planning and control. 1st ed. Springer: Springer Publishing Company, Incorporated; 2008.
  • Balbastre M, Hervás M. Patología de la rodilla guía de manejo clínico; 2011; [cited 2018 Jun 5]; Available from: https://umivalesalud.files.wordpress.com/2011/09/guiarodilla2011.pdf.
  • Beer FP. Vector mechanics for engineers: Statics and dynamics. New York: McGraw-Hill Science/Engineering/Math; 2003.
  • Yu H. Modeling and control of hybrid machine systems – a five-bar mechanism case. Int J Automat Comput. 2006;3(3):235–243.
  • Solaque L, Romero M, Velasco A. Knee rehabilitation device with soft actuation: an approach to the motion control. In: Proceedings of ICINCO; 2018.

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