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Seat Functions & Evidence-Based Practice

Explore the importance of evidence-based practice in determining the best seat functions for assistive technology devices. Learn about the barriers to using evidence-based practice and how position papers can aid in decision-making.

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Seat Functions & Evidence-Based Practice

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  1. Seat Functions & Evidence-Based Practice Mark R. Schmeler, Ph.D., OTR/L, ATP Julianna Arva, M.S.

  2. Evidence Based Practice DEFINITION (Sackett et al, 1997) • Systematic Process of: • Finding • Analyzing • Using • Best available, scientifically sound research

  3. Evidence Based Practice • Guide to decision making • Ensure treatment is most: • Powerful • Effective • Safe

  4. Barriers to Use of EBP(Dysarf & Tomlin, 2002) • Therapists occasionally access research • Cost of continuing education • Time to research information • Weak research analysis skills • Value on clinical experience

  5. Levels of evidence • Level I - systematic reviews or meta-analysis of well-designed studies • Level II – one or more well-designed study using randomization • Level III – a well designed study but without randomization • Level IV – well designed non-experimental study from more than one facility or research group • Level V - subjective opinions of well known respected authorities based on clinical experience, case studies, or expert committee reports • also known as expert opinions

  6. Client Evidence Research Evidence Professional Expertise Integration Clinical Decision Making Professional Expertise in EBP(Rappolt, 2003)

  7. What is a RESNA position paper? • Official statement by the organization that, based on the consensus of experts, summarizes current research and best-practice trends in relevant areas.  • These position papers are the first in the wheeled mobility and seating industry issued by an international professional organization declaring the medical and functional necessity of specific assistive technology devices

  8. Why do we need position papers? • Best summary of related scientific evidence • considers “clinical evidence” • It comprehensively reviews all benefits and disadvantages • Fills a void resulting from the lack of scientific evidence

  9. Use of a position paper • Teaching tool in colleges and universities • Teaching tool in the clinical setting, whether to help educate other team members or the client • Guide to practitioners in the development and provision of interventions • Support material to help obtain funding • Evidence in organized lobbying efforts for policy changes

  10. The birth of a position paper • Someone has to take the lead and do the work. • Goes through / involved with appropriate SIG • Get in touch with previous authors on methodology, follow format and some wording from previous papers • Assemble a group of experts, and keep circulating document for feedback. Keep it small (5-6 people) • Submit proposal for review session on Resna conference, or ISS (great feedback and lot of interest) • After public review, make changes, finalize document, submit to Resna via Sig chair • BOD review -> make requested changes • Publish on Resna website, hopefully in AT Journal

  11. Current Papers Completed • Seat elevation • Wheelchair standers • Pediatric Powered Mobility • Tilt. Recline, and elevating legrests In Progress • Ultralight weight wheelchairs • Transportation of wheelchairs • Stationary standers

  12. Where to find them? • To be published on RESNA’s website • Or, www.rstce.pitt.edu

  13. Seat Elevators • Summary/Introduction • Definition • Addresses the following medical needs: • Transfers • Reach • Psychological considerations • Additional physiological aspects • Pediatric considerations • Summary • Case examples • References

  14. Physician’s note example • The client meets criteria for a seat elevator by the 2005 RESNA Position; a seat elevator is medically necessary because it will improve ADLs that might not otherwise be able to be performed without this function, and it will improve transfers. (Dr. Brad Diciano, UPMC)

  15. Standing • Summary/introduction • Definitions • Functional reach and access to ADLs • Passive Range of Motion, Contractures • Vital Organ Capacity • Respiration • Gastro-intestinal problems • Bowel function • Bladder emptying • Urinary Tract Infections • Bone Mineral Density • Loss of BMD • Fractures and loss of independence • Supplements • Mechanical weight loading • Dynamic loading • Maintenance of weight bearing

  16. Standing • Circulation • Tone • Spasticity • Pressure sores • Skeletal deformities • Community environments • Additional benefits • Psycho-social indications • Contraindications • Frequency of Standing • Summary • Case Examples • References (43)

  17. Tilt, Recline, Elevating Legrests Review: • Body not designed to sit • 90-90-90 doesn’t always work • Sitting can be pathological • Different positions for functions • Body wants to move • What can we do?

  18. Provide Movement

  19. Powered Seat Functions Not a luxury “There is nothing luxurious about having a disability”, Darren Jernigan.

  20. Popular among Clients • Survey study of people with ALS; • tilt, recline, & elevating legrests were the most desirable features Trail, Nelson, Van, Appel, & Lai, 2001

  21. Postural Alignment Tilt & Recline; • Alter center of gravity by altering angles to gain balance & stability (Kreutz, 1997; Lange, 2006) • important for children or adults with progressive or static scoliosis (Lange, 2000b)

  22. Postural Realignment • Contoured Backs • maintains the appropriate angles for contact with the shape of the backrest • (Kreutz, 1997) • Recline can cause shear forces • further compounded with a contoured backrest • Low-shear Recline (Pfaff, 1993) • Consider using tilt in combination with recline to maintain contact

  23. Function • Functional reach - ADLs • Balance/Stability • Safe positioning during braking • Ground clearance • Vehicle loading • Stability when driving downhill • Carrying objects in lap • Pediatric stimulation/access to environment Nwaobi, 1987; R. A. Cooper, Dvorznak, O'Connor, Boninger, & Jones, 1998; Janssen-Potten, Seelen, Drukker, Spaans, & Drost, 2002; Garcia-Navarro et al., 2000

  24. Orthostatic Hypotension • High prevalence in the general population (Bradley & Davis, 2003) • Cardiac Disease, Spinal Cord Injury (SCI), Diabetes, Neuropathy, Multiple Sclerosis, & Parkinsonism. • Management - assuming a recumbent/semi-recumbent position (Claydon, Steeves, & Krassioukov, 2006) • Using a combination of tilt, recline, & power legrests can help to achieve such a position (Kreutz, 1997) • Sleeping in bed with the head elevated at 10 to 20 improves symptoms (Ten Harkel, Van Lieshout, & Wieling, 1992)

  25. Other Functions(D. Cooper, 2004; Kreutz, 1997; Lange, 2000a,; Lange, 2006) Visual Orientation • Orient the trunk and head position • Improve line of sight Stimulate the vestibular system Allow for better communication Maximize breathing and speaking ability • Reduce risk for aspiration Improve digestion after meals • Rotational Tilt

  26. Bowel & Bladder • Changing protective undergarments • Intermittent self-catheterization • Reduce assistance needed • (Wyndaele, 2002) • Increase compliance • reduce urinary tract infections and morbidity • (Salomon et al., 2006)

  27. Transfers & Biomechanics • Shoulder forces = 2.5 times mean arterial pressure • (Bayley, Cochran, & Sledge, 1987) • Better positioning = Reduced Loading on Shoulders • (Herberts, Kadefors, Hogfors, & Sigholm, 1984) • Enhance sliding transfers or add momentum to transfers • Preservation of upper limb function using seat elevators • (Boninger & Stripling, 2007) • Reduce need for assistance & caregiver injury • (Edlich, Heather, & Galumbeck, 2003; Fragala & Bailey, 2003) • Reduce frequency of transfers

  28. Spasticity/Tone • Independent management of tone • Tilt systems maintain static joint angles • muscle fiber length • positional changes w/out increasing tone • (Kreutz, 1997) • Judiciously prescribe recline systems • can increase tone • especially in spine extensors • (Lange, 2006)

  29. Orthopedic Issues • Static seating systems = contractures, hamstrings • (Lange, 2006) • Power elevating legrests; • manage contractures or orthopedic deformities • (Levy, Berner, Sandhu, McCarty, & Denniston, 1999) • passive movement to the knee joints • (Lange, 2006) • adjusted to prevent undue tension on the hamstrings and hip joints. • combination with recline when passive extension is limited • Extending near end range can elicit reflex spasticity • Tilt and/or recline systems used for limited hip flexion, with seat to back angle appropriately configured (Kreutz, 1997) • The impact of seat to back angle on function must always be considered

  30. Edema • Power elevating legrests help manage edema • (Levy et al., 1999) • Lower limbs of wheelchair users may act as a reservoir • (Kinzer & Convertino, 1989) • Elevate the legs above the heart • (Abu-Own, Scurr, & Coleridge Smith, 1994; Douglas & Simpson, 1995; O'Brien, Chennubhotla, & Chennubhotla, 2005) • reduction in venous pressure • increases arterio-venous pressure and capillary flow • most effective when legrests used in combination with tilt • Sometimes must be combined with both tilt and recline systems for adequate elevation of legs

  31. Pressure Relief • Higher pressure focused over smaller surface areas in those w/ disabilities • (Aissaoui, Kauffmann, Dansereau, & de Guise, 2001; Hobson, 1992; Vaisbuch, Meyer, & Weiss, 2000) • A tissue’s tolerance for pressure depends on disability & number of factors • (Edlich et al., 2004; Sprigle, 2000). • Good overviews of types of forces responsible • (Sprigle, 2000) & (Bennett, Kavner, Lee, & Trainor, 1979). • Claims more than 32 mmHg are harmful • Historical article (Landis, 1930) – nailbed • Reconfirmed with microscopic studies (Kosiak, 1959, 1961) • no scientific cutoff value known to cause ulcer formation • Cushions inadequate if the individual sits too long • (Lacoste et al., 2003) • Provide cushion AND means for position changes • (Henderson, Price, Brandstater, & Mandac, 1994)

  32. Pressure Relief • Pushups often done every 15-30 seconds • (Coggrave & Rose, 2003) • recommendations ranging from 1/min to 1/hr • (Boninger & Stripling, 2007) • each lift should last nearly 2 minutes, regardless of frequency • (Coggrave & Rose, 2003) • predispose to repetitive strain injuries • (Bayley et al., 1987; Reyes, Gronley, Newsam, Mulroy, & Perry, 1995) • Forward or side to side leaning • Can be effective • (Coggrave & Rose, 2003; Henderson et al., 1994; Hobson, 1992; Vaisbuch et al., 2000) • not all have the UE strength or trunk control required to perform (Lacoste et al., 2003) • autonomic dysreflexia or neurogenic bladder limiting (Vaisbuch et al., 2000) • may not be effective with some cushions (Koo, Mak, & Lee, 1996)

  33. Pressure Relief • Best tilt 20-25 degrees • Better combined w/ recline & ELR • (Aissaoui, Heydar, Dansereau, & Lacoste, 2000) • (Carlson, Payette, & Vervena, 1995). • (Vaisbuch et al., 2000) • (Aissaoui, Lacoste, & Dansereau, 2001) • (Pellow, 1999) • (Henderson et al., 1994) • (Hobson, 1992). • (Aissaoui, Lacoste et al., 2001) • (Stinson, Porter-Armstrong, & Eakin, 2003) • Recline used alone can increase shear but reduce seating interface pressure • (Hobson, 1992) • (Aissaoui, Lacoste et al., 2001) • (Gilsdorf, Patterson, Fisher, & Appel, 1990),

  34. Pressure Relief • No studies on “shear reducing” recline systems • (Pfaff, 1993) • Less than 35% used these features for pressure relief • (Lacoste et al., 2003) • Insufficient research on duration and frequency • clinicians estimate a duration of 30 seconds with a frequency of 15-30 minutes or 60 seconds every 60 minutes • (Coggrave & Rose, 2003; PVA 2000; Vaisbuch et al., 2000)

  35. Pain, Fatigue, Sitting Tolerance • Comfort does not equal anthropometry • (Kolich, 2003) • Seating should not be configured based on static postures • (Porter, Gyi, & Tait, 2003) • More than 2 hours are needed to observe most of the postures • (Gyi & Porter, 1999) • Higher pressure may be related to seating tolerance • (de Looze, Kuijt-Evers, & van Dieen, 2003; Goossens, Teeuw, & Snijders, 2005). • Users primarily use features to promote comfort • (Lacoste et al., 2003) • Back pain is one of the most common symptoms • (Porter & Gyi, 2002),(Gyi & Porter, 1998)

  36. Dynamic Movement • People are usually in constant motion • (Branton, 1969) • Cannot tolerate unsupported and static sitting • (S. Reinecke, Bevins, Weisman, Krag, & Pope, 1985) • Need to change position constantly • (Lueder, 2005) • Change postures up to 30 times per hour while sitting • (Graf, Guggenbuhl, & Kreuger, 1991) • Static seating restricts the variety of postures that are natural • (Bendix & Biering-Sorensen, 1983) • (Bhatnager, Drury, & Schiro, 1985) • (Kroemar, 1994)

  37. Dynamic Movement • Dynamic movement is healthy for the spine. • (S. M. Reinecke, Hazard, & Coleman, 1994) • (Andersson, 1981) • (Kolditz, Kramer, & Gowin, 1985) • (Holm & Nachemson, 1983) • (M. Adams & Hutton, 1983) • (M. A. Adams, Green, & Dolan, 1994) • (M. Adams & Hutton, 1985) • (Kumar, 2004) • (M. Adams & Hutton, 1985) • (Bendix & Biering-Sorensen, 1983) • (Andersson, Murphy, Ortengren, & Nachemson, 1979) • (Keegan, 1953; Lueder, 2005; Nachemson, 1981) • Most need varying degrees of recline to maintain function • (Lueder, 2005) • (Grandjean, Hunting, & Pidermann, 1983) • (Engstrom, 1993).

  38. Contents • Philosophical/Historical attitudes towards power mobility and parental acceptance II. Physiological demands of mobility A. Physiological demands of ambulation B. Physiological demands of manual wheelchair propulsion C. Physiological demands of power mobility D. Mobility and exercise

  39. III. Relationship between mobility and child development A. Intellectual and psycho-social development B. Vision IV. Determining Readiness A. Cognition B. Age C. Safety D. Contraindications V. Additional considerations Summary, Case Studies, References (42)

  40. Ultralight weight wheelchairs

  41. UE pain prevelance • 3.5 km/day, 3500 strokes per day • As many as 73% experiencing UE pain • Time spent in wheelchair is related to UE pain • CTS up to 66% • Shoulder, rotator cuff up to 65% in papraplegics, up to 78% in tetraplegics • Elbow pain up to 16%

  42. Effects of UE pain • Lower quality of life and increased dependence on helpers • With UEP, 28% reported limited independence • Effects perception of life satisfaction • UEP major reason for functional recline in SCI • UEP functionally and economically likens the person to one with higher lesion level • Employment directly related to UEP (21.4% vs. 7.1%)

  43. Vibration • W/C propulsion produces vibration above ISO 2631-01 standards • Users can have secondary injuries due to vibration • Rear suspension helps but has other drawbacks

  44. Need to customize • Forces on pushrim create equal upwards force on UE – minimize this and the moment arm • Higher propulsion frequency is related to more median nerve dysfunction • Greater range for propulsion makes better nerve function, takes less force and fewer strokes • More forward axle position decreases rolling resistence and increases efficiency

  45. Value and preference • ULs less effort due also to components (less O2 & increased speed) • ULs more comfortable due to orthotic fit • UL have half Class III failure (total), and no titanium Class IIIs only aluminium • UL fatigue life is 1,009,108 cycles vs 187,370 (5.4 times) • UL is 2.3 times more cost effective • Suspension elements do not improve fatigue life but the cost lowers value

  46. New research • Peak shoulder and elbow moments much higher at lifting and curbs • Body weight and fittness effecting shoulder forces and efficiency • More forward axle shows decreases in Pectoralis Major and less peak intensities • Air tyres even at 50% inflation show better rolling resistence then solids • Handrim studies – non-traditional choices can releave impact

  47. Conclusion?

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