Fracture healing redefined

Abstract It is well established that local mechanical conditions and interfragmentary movement are important factors for successful bone healing and may vary dramatically with patient fracture-load and activity. Up until now however it was technically impossible to use these key influence parameters...

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Veröffentlicht in:	Medical hypotheses 2015-12, Vol.85 (6), p.940-943
Hauptverfasser:	Braun, B.J, Rollmann, M, Veith, N, Pohlemann, T
Format:	Artikel
Sprache:	eng
Schlagworte:	Biomechanical Phenomena Clinical Trials as Topic Computer Simulation Databases, Factual Female Fracture Healing - physiology Gait Humans Internal Medicine Male Software Tibial Fractures - therapy
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container_title	Medical hypotheses
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creator	Braun, B.J Rollmann, M Veith, N Pohlemann, T
description	Abstract It is well established that local mechanical conditions and interfragmentary movement are important factors for successful bone healing and may vary dramatically with patient fracture-load and activity. Up until now however it was technically impossible to use these key influence parameters in the aftercare treatment process of human lower extremity fractures. We propose a theory that with state of the art sensor technology these biomechanical influences can not only be monitored in vivo, but also used for individualized therapy protocols. Local measurement systems for fracture healing are available but remain research tools, due to various technical issues. To investigate the biomechanical influences on healing right away surrogate sensor tools are needed. Various gait characteristics have been proposed as surrogate measures. Currently available sensor tools could be modified with the appropriate support structure to allow such measurements continuously over the course of a fracture healing. Interdisciplinary work between clinicians, software engineers with computer and biomechanical simulations is needed. Through such a sensor system human boundary conditions for fracture healing could not only be defined for the first time, but also used for a unique, extendible aftercare system. With this tool critical healing situations would be detected much earlier and could be prevented with easy activity modifications, reducing patient and socioeconomic burden of disease. The hypothesis, necessary tools and support structures are presented.
doi_str_mv	10.1016/j.mehy.2015.09.006
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Up until now however it was technically impossible to use these key influence parameters in the aftercare treatment process of human lower extremity fractures. We propose a theory that with state of the art sensor technology these biomechanical influences can not only be monitored in vivo, but also used for individualized therapy protocols. Local measurement systems for fracture healing are available but remain research tools, due to various technical issues. To investigate the biomechanical influences on healing right away surrogate sensor tools are needed. Various gait characteristics have been proposed as surrogate measures. Currently available sensor tools could be modified with the appropriate support structure to allow such measurements continuously over the course of a fracture healing. Interdisciplinary work between clinicians, software engineers with computer and biomechanical simulations is needed. Through such a sensor system human boundary conditions for fracture healing could not only be defined for the first time, but also used for a unique, extendible aftercare system. With this tool critical healing situations would be detected much earlier and could be prevented with easy activity modifications, reducing patient and socioeconomic burden of disease. 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Through such a sensor system human boundary conditions for fracture healing could not only be defined for the first time, but also used for a unique, extendible aftercare system. With this tool critical healing situations would be detected much earlier and could be prevented with easy activity modifications, reducing patient and socioeconomic burden of disease. 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source	MEDLINE; ScienceDirect Journals (5 years ago - present)
subjects	Biomechanical Phenomena Clinical Trials as Topic Computer Simulation Databases, Factual Female Fracture Healing - physiology Gait Humans Internal Medicine Male Software Tibial Fractures - therapy
title	Fracture healing redefined
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