REFERENCES
- BoningerMLCooperRABaldwinMAShimadaSDKoontzA. 1999. Wheelchair pushrim kinetics: body weight and median nerve function. Arch Phys Med Rehabil.80:910–915.
- BoningerMLImpinkBGCooperRAKoontzAM. 2004. Relation between median and ulnar nerve function and wrist kinematics during wheelchair propulsion. Arch Phys Med Rehabil.85:1141–1145.
- FaessenHGMSteeMJvdRozendalRH. 1989. Normering von polsbelasting. Amsterdam: Vrije Universiteit.
- KuorinkaIAForcierL. 1995. Les lésions attribuables au travail répétitif, ouvrage de référence sur les lésions musculo-squelettiques reliées au travail. ed. 512. Québec: Editions Multi-Mondes.
- MulroySJFarrokhiSNewsamCJPerryJ. 2004. Effects of spinal cord injury level on the activity of shoulder muscles during wheelchair propulsion: an electromyographic study. Arch Phys Med Rehabil.85:925–934.
- NeishlossLI. 1973. Origin and development of wheelchair bowling. Rehabil Lit.34:173–175.
- SenkMChezeL. 2006. Rotation sequence as an important factor in shoulder kinematics. Clin Biomech.21(Suppl. 1):S3–S8.
- VeegerHEMeershoekLSVan der WoudeLHLangenhoffJM. 1998. Wrist motion in handrim wheelchair propulsion. J Rehabil Res Dev.35:305–313.
- VeegerHERozendaalLAvan der HelmFC. 2002. Load on the shoulder in low intensity wheelchair propulsion. Clin Biomech.17:211–218.
- WuGvan der HelmFCVeegerHEMakhsousMVan RoyPAnglinCNagelsJKardunaARMcQuadeKWangXet al.2005. ISB recommendation on definitions of joint coordinate systems of various joints for the reporting of human joint motion – Part II: Shoulder, elbow, wrist and hand. J Biomech.38:981–992.