Biomedical Engineering Reference
In-Depth Information
Cybulski GR , Jeager RJ. Standing performance of persons with paraplegia (1986). Arch Phys
Med Rehab 67: 103-108.
Stallard J, Major RE, Patrick JH (1989). A review of the fundamental design problem of
providing ambulation for paraplegic patients. Paraplegia 27: 70-75.
Subbarao JV (1991). Walking after spinal cord injury- Goal or wish? West J Med 154:
612-614.
Major RE, Stallard J, Rose GK (1981). The dynamics of walking using the hip guidance
orthosis (HGO) with crutches. Prosthet Orthot Int 5:19-22.
Douglas R, Larson PF, D'Ambrosia R, McCall RE (1983). The LSU reciprocation gait orthosis.
Orthopedics 6:834-9.
Jefferson RJ, Whittle MW (1990). Performance of three walking orthoses for the paralyzed:
a case study using gait analysis. Prosthet Orthot Int 14:103-110.
Saitoh E, Sonoda S, Imahori R, Sarai S, Suzuki M, Baba M, Domen K, Tomita Y, Hayashi M,
Tatematsu K (1992). A Power-Assisted Modified Medial Single Hip Joint for Paraplegic
Walking. IXth World Congress of International Society for Prosthetics and Orthotics;
1998 June; Amsterdam: North-Holland p355-6.
Saitoh E, Suzuki T, Sonoda S, Fujitani J, Tomita Y, Chino N (1996). Clinical experience with a
new hip-knee-ankle-foot orthotic system using a medial single hip joint for paraplegic
standing and walking. Am J Phys Med Rehabil 75: 198-203.
Saitoh E, Baba M, Sonoda S, Tomita Y, Suzuki M, Hayashi M (1997). A New Medial Single
Hip Joint for Paraplegic Walkers. In: Ueda S, Nakmura R, Ishigami N, editors. 8th
World Congress of International Rehabilitation Medicine Association. Bologna: Italy,
p1299-1305.
Suzuki T, Sonoda S, Saitoh E, Onogi K, Fujino H, Teranishi T, Oyobe T, Katoh M, Ohtsuka
K (2007). Prediction of gait outcome with the knee-ankle-foot orthosis with medial hip
joint in patients with spinal cord injuries: a study using recursive partitioning analysis.
Spinal Cord. 45:57-63.
Greene PJ, Granat MH (2003). A knee and ankle flexing hybrid orthosis for paraplegic
ambulation. Med Eng Phys. 25:539-45.
Greene PJ, Granat MH(2000). The effects of knee and ankle flexion on ground clearance in
paraplegic gait. Clin Biomech. 15:536-40.
Kagawa T. Uno Y. Muraoka Y. Saitoh E (2007). A human interface predicting intended
strides for a paraplegic locomotor device. The 3
rd
International Symposium on Mea-
surement, Analysis and Modeling of Human Functions. Lisbon: Portogal; 2007, p189-
196.
To CS, Kirsch RF, Kobetic R, Triolo RJ (2005). Simulation of a functional neuromuscular
stimulation powered mechanical gait orthosis with coordinated joint locking. IEEE
Trans Neural Syst Rehabil Eng. 13:227-35.
Popovic D, Tomovic R, Schwirtlich L (1989). Hybrid assistive system-the motor neuropros-
thesis. IEEE Trans Biomed Eng. 36:729-37.
Yoshioka S, Nagano A, Himeno R, Fukashiro S (2007). Computation of the kinematics and
the minimum peak joint moments of sit-to-stand movements. Biomed Eng Online.
3; 6:26, 2007. Available from: URL
:
http://www.pubmedcentral.nih.gov/ articleren-
Ohta Y, Yano H, Suzuki R, Yoshida M, Kawashima N, Nakazawa K (2007). A two-
degree-of-freedom motor-powered gait orthosis for spinal cord injury patients.
Proc Inst Mech Eng H. 221:629-39.
http://medgadget.com/archives/2008/03/re-
walk exoskeleton.html
