DEVELOPMENT OF INTEGRATED MULTIPLE ANKLE TECHNOLOGY DEVICE AND APPS DATABASE FOR NEUROMUSCULAR CONTROL
DOI:
https://doi.org/10.11113/jt.v77.6242Keywords:
Ankle rehabilitation, technology device, key issuesAnkle rehabilitation, key issuesAbstract
Rehabilitation technology device has attracted many researchers in this field, whereas the development of technology device for rehabilitation of sprained ankle is relatively new. During past few years, plenty of technology device have been proposed for ankle rehabilitation. To date, however no market products could be efficiently utilized to meet people’s ankle rehabilitation need in daily life. According to the development significance, this paper presents the background and details of existing devices for rehabilitation of ankle sprained, and proposes a new device based on existing product mechanism, gives a brief description of the new design specification of Integrated Multiple Ankle Technology Device (IMATD) and discusses the existing problems and the developing prospects in this fieldReferences
Takehito Kikuchi et. al 2007. Quasi-3DOF Rehabilitation System For Upper Limbs. 1-4244-1320-6/07.
Pengju Sui et.al 2011. Development and Key Issues Of The Ankle Rehabilitation Robots a12-416.
Timothy A. Mc guine and James S. keene. 2006 The Effect Of A Balance Training Program On The Risk Of Ankle Sprains in High School Atheletes. The American Journal Of Sports Medicine.34 (7). DOI: 10.1177/ 0363546505284191.
Blackburn T, Guskiewics KM, Petschauer MA, Prentice WE 2000. Balance and Joint Instability: The Relative Contribution Of Proprioception And Muscular Strength. J Sport Rehabili. 9:315-328.
Nicole bryan.2014. Does Vibration Training Increase Stability In Functionally Unstable Ankles. Philadelphia College Of Osteopathic Medicine.
Sebastian Felix Baumbach et.al 2013. Study Protocol: The Effect Of Whole Body Vibration On Acute Unilateral Unstable Lateral Ankle Sprain A Biphasic Randomized Controlled Trail. BMC Musculoskeletal Disorder. 1471-2474/14/22.
Gregory M. Gutierrez, Thomas w. Kaminski, Douex.2009. Neuromuscular Control And Ankle Instability. The American Academy Of Physical Medicine and Rehabilitation. DOI;10.1016/J.pmrj.2009.01.013.
C. Buz swanik, scott M. Lephart, Frank P. Glannantonio and Freddie H. fu. 1997. Reeastablishing Proprioception And Neuromusculular Control In The ACL – Injured Athlete. Journal Of Sport Rehabilitation. Human Kinetic Publishers.
Timothy E. Hewett, Mark V. Paterno, Gregory D. Mayer.2002. Strategies For Enhancing Proprioception and Neuromuscular Control Of TheKnee.DOI:10.1097/01.blo.00000026962.51742.99.
Bruce D. Beynon, Darlene F. murphy, Denise M. Alosa. 2002. Predictive Factors For Lateral Ankle Sprains : A Literature Review. Journal Of Athletic Training. 37(4): 376-380.
Amer suleman, Kyle D. Heffner .2009.Exercise Prescription. Sports Medicine.
Lim H-O,Tanie-K.2000.Human Safety Mechanism Of Human-Friendly Robots: Passive Viscoelastic Trunk And Passively Movable Base. The International Journal Of Robotic Research.19: 307-335.
Saintis AD,Siciliano B, LUCA ad, Bicchi A.2008. An Atlas Of Physical Human Robot Interaction. Mechanism and Machine Theory. 43: 253-270.
Downloads
Published
Issue
Section
License
Copyright of articles that appear in Jurnal Teknologi belongs exclusively to Penerbit Universiti Teknologi Malaysia (Penerbit UTM Press). This copyright covers the rights to reproduce the article, including reprints, electronic reproductions, or any other reproductions of similar nature.
