| Record ID | marc_university_of_toronto/uoft.marc:5431017844:1801 |
| Source | University of Toronto |
| Download Link | /show-records/marc_university_of_toronto/uoft.marc:5431017844:1801?format=raw |
LEADER: 01801cam 22001937a 4500
008 040309s2004 onc b 000 0 eng d
020 $a9780494164082
039 $fWS
100 1 $aRolfson, Robert P.
245 14 $aThe design, biomechanics and ergonomics of a novel patient lifting interface$h[microform].
260 $a,2004.
300 $a189 leaves.
500 $aSource: Masters Abstracts International, Volume: 44-06.
502 $aThesis (M.A.Sc.) -- University of Toronto, 2004.
520 $aAcute and long-term care patients are regularly transferred between supine and upright-sitting positions, such as from bed to chair. Mechanical Lifting Devices (MLD) were created to lift people without causing injuries to caregivers. MLD commonly use a hammock-like sling to interface between patient and MLD. Current slings and MLD have unresolved safety and comfort issues: bodies tend to slump into the sling without postural control creating a need for caregivers to make additional repositioning maneuvers. This thesis demonstrates that safe and comfortable postures in a six-strap sling can be controlled from supine to sitting by means of rotating spreader bars and variable-length middle straps. Furthermore, Spreader Bar Angle and Middle Strap Length can be simultaneously adjusted, resulting in simplified and safer operator control. Ideal strap attachment point locations on the spreader bars are also presented. An increase in the safety of caregivers and patients is anticipated by implementing these recommendations.
653 $aMechanical engineering.
653 $aBiomedical research.
856 $uhttp://proquest.umi.com/pqdweb?did=1166575921&sid=2&Fmt=2&clientId=12520&RQT=309&VName=PQD
949 $atheses masters$wALPHANUM$c1$i6072399-2001$j3$lMICROTEXT$mMEDIA_COMM$rN$sY$tMICROFORM$u16/2/2007