SFX by Ex Libris Inc.

Title:	Bioimpedance system for monitoring muscle and cardiovascular activity in the stump of lower-limb amputees
Source:	Physiological Measurement [0967-3334] Hornero, G yr:2013

Basic

Full text

Full text available via Institute of Physics Historic Archive Purchase

Year:

Volume:

Issue:

Start Page:

Document delivery

Request document via Library/Bibliothek

Users interested in this article also expressed an interest in the following:
description	1.	Yao, J. "Sensory cortical re-mapping following upper-limb amputation and subsequent targeted reinnervation: A case report." NeuroImage: Clinical 8.C (2015): 329-36.
description	2.	Kassanos, P. "A CMOS Magnitude/Phase Measurement Chip for Impedance Spectroscopy." IEEE Sensors Journal 13.6 (2013): 2229-2236.
description	3.	Rajaraman, S. "Micromachined Three-dimensional Electrode Arrays for Transcutaneous Nerve Tracking." Journal of micromechanics and microengineering 21.8 (2011): 85014-85014.
description	4.	Gonzalez Landaeta, R. "Heart rate detection from plantar bioimpedance measurements." IEEE Engineering in medicine and biology society conference proceedings 1 (2006): 5113-6.
description	5.	Carlsen, Brian T. "Special Issue: Upper extremity limb loss: Functional restoration from prosthesis and targeted reinnervation to transplantation." Journal of Hand Therapy 27.2 (2014): 106-.
description	6.	Kuiken, T. "The use of targeted muscle reinnervation for improved myoelectric prosthesis control in a bilateral shoulder disarticulation amputee." Prosthetics and orthotics international 28.3 (2004): 245-53.
description	7.	Liao, L. "Design, fabrication and experimental validation of a novel dry-contact sensor for measuring electroencephalography signals without skin preparation." Sensors 11.6 (2011): 5819-5834.
description	8.	Tesio, L. "Surgical leg rotation." International journal of rehabilitation research 37.4 (2014): 323-333.
description	9.	Cheesborough, Jennifer E. "Targeted muscle reinnervation and advanced prosthetic arms." Seminars in plastic surgery 29.1 (2015): 62-72.
description	10.	Foreman, Shuyuann W. "Electrode Challenges in Amplitude-Integrated Electroencephalography (aEEG): Research Application of a Novel Noninvasive Measure of Brain Function in Preterm Infants." Biological research for nursing 13.3 (2011): 251-259.
description	11.	Marasco, Paul D. "Robotic touch shifts perception of embodiment to a prosthesis in targeted reinnervation amputees." Brain 134.Pt 3 (2011): 747-58.
description	12.	Li-Wen, H. "Silicide-Based Release of High Aspect-Ratio Microstructures." 23rd IEEE International Conference on Micro Electro Mechanical Systems (MEMS 2010). 2010.
description	13.	Dobrev, D. "Two-electrode low supply voltage electrocardiogram signal amplifier." Medical & biological engineering & computing 42.2 (2004): 272-6.
description	14.	Kung, Theodore A. "Innovations in prosthetic interfaces for the upper extremity." Plastic and reconstructive surgery 132.6 (2013): 1515-1523.
description	15.	Kuiken, T. "The effect of subcutaneous fat on myoelectric signal amplitude and cross-talk." Prosthetics and orthotics international 27.1 (2003): 48-54.
description	16.	Bueno, Jennifer A. "Targeted muscle reinnervation in the initial management of traumatic upper extremity amputation injury." Hand 9.2 (2014): 253-7.
description	17.	Hargrove, Levi J. "Pattern recognition control outperforms conventional myoelectric control in upper limb patients with targeted muscle reinnervation." IEEE Engineering in medicine and biology society conference proceedings 2013 (2013): 1599-1602.
description	18.	Marasco, Marasco D. "Sensory capacity of reinnervated skin after redirection of amputated upper limb nerves to the chest." Brain 132.Pt (2009): 1441-8.
description	19.	Dumanian, Gregory A. "Targeted Muscle Reinnervation in the Upper Extremity Amputee: A Technical Roadmap." The Journal of hand surgery 40.9 (2015): 1877-88.
description	20.	Miller, Laura A A. "Improved myoelectric prosthesis control using targeted reinnervation surgery: a case series." IEEE transactions on neural systems and rehabilitation engineering 16.1 (2008): 46-50.