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March 2004 ISS-Instructional Course. Transportation Safety for Wheelchair Occupants. Linda van Roosmalen, PhD Douglas Hobson, PhD Department of Rehabilitation Science and Technology University of Pittsburgh Funding: National Institute on Disability and Rehabilitation Research.
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March 2004 ISS-Instructional Course Transportation Safety for Wheelchair Occupants Linda van Roosmalen, PhD Douglas Hobson, PhD Department of Rehabilitation Science and Technology University of Pittsburgh Funding: National Institute on Disability and Rehabilitation Research
Application to practice • Wheelchair transit and associated risks • Methods to prevent occupant injury • Safety guidelines and Standards • Resources
Wheelchair Transportation Safety • 1.6 million wheelchair users • Access to motor-vehicle transportation is the key to functioning in society • ADA prohibits discrimination in public transportation services • 2001 New Freedom initiative calls for integration of disabled persons into workforce and community - “transportation” critical factor in meeting this priority • 82% of wheelchair users indicate difficulty with using public transportation • Wheelchair users have 10% higher unemployment rate
Impact Severity • Injury Risk: • Proportional to velocity change • “Loading = velocity * body weight” • Occupant Restraints protect by: • Prevent occupant ejection from vehicle • Prevent excessive occupant motion • Reduce occupant loading • Increasing time of energy exposure
Safety Guidelines • Secure the wheelchair • Restrain the occupant • Remove loose accessories from wheelchair • Remove parts that can injure occupant during an impact • Lap trays, loose objects, postural supports, communication devices, neck rings
Sled Impact Testing Frontal 30mph 20g
Safety System #1 • Secure the Wheelchair to the Vehicle
Wheelchair Securement Systems • Four point strap type tie-downs • Docking systems • Other: wheel-clamps, hybrids • Rearward facing compartments (in large buses)
Strap type tie-down system • Advantages • Four securement points (improves crash response and stability) • Adaptable to most wheelchair types • No additional wheelchair hardware required • Withstands crash forces IMMI-Westfield (IN)
Strap type tie-down system • Disadvantages • Invasion of personal space • Lengthy securement times • Requires operator/attendant for securement • Tiedowns easily misplaced or soiled • Lack of defined wheelchair securement points • Requires operator training when securing a variety of wheelchairs
Docking Systems • Advantages • Quick securement times • Independent securement • Eliminates need for human judgment of securement point location • Minimizes error • Withstands crash forces EZ-Lock (Baton Rouge, LA)
Docking Systems • Disadvantages • Requires add-on hardware • Requires adaptations to all wheelchair types • Hardware adds weight and length • Hardware affects ground clearance • Fewer securement points (less stability and control of crash response)
Wheel Clamps • Disadvantages • Unable to safely withstand crash forces • Not compatible with all wheel types • Requires attendant for securement • Advantages • Fairly quick securement • Less invasive
Passive Restraint:Containment Wheelchair is positioned rearward facing in the vehicle
Passive Restraint:Containment • Easy to use • Quick • Non-constraining • Independent use HOWEVER…. • For use in ’low-g’ vehicles only • More research is needed to evaluate safety during emergency driving situations (Van Hool, Belgium)
Safety System #2 • Restrain the Occupant • To vehicle and/or wheelchair Lap belts mounted to wheelchair frames are generally for positioning purposes and NOT for safety during transit!!!
Occupant Restraints Reduce Risk of Injury • Prevent occupant ejection • Increasing time over which the occupant comes to a stop • Decreasing deceleration or “G-loads” • Higher weight means higher loads! • Decrease occupant forward travel • Reduce risk of occupant impact with vehicle interior
Sled Impact Testing without use of Occupant Restraints Frontal 30mph 20g
Sled Impact Testingwith proper Occupant Restraints Frontal 30mph 20g
3-Point Occupant Restraint Upper torso belt (shoulder belt) Pelvic belt (lap belt)
Harness Type Restraint EZ-On Vest Gorilla Car Seat Snug Seat Car Bed Carrie Bus Seat
Occupant Restraint Safety • Improperly positioned pelvic belt: • Abdominal injury due to ‘submarining’ • Lumbar vertebra injury in frontal crashes • Improperly positioned shoulder belt: • Excessive head excursions • Secondary impact with vehicle surfaces • Injuries to vital thoracic cavity organs Adomeit & Heger, 1975; Leung et al., 1985
Occupant Restraint Problems • Appropriate belt fit related to: • Shoulder belt anchor point • Pelvic belt anchor point • Wheelchair and occupant size • Location of wheelchair in securement zone • Available clearance for belt placement
Common Problems • Shoulder belt slip off user’s shoulder • Due to shallow angle of torso belt • Shoulder belt rubs against user’s neck • Discomfort, • Resistance to using belt • Decreased upper torso restraint • Anchoring upper torso restraint below shoulder may result in downward loading of torso and spine
Occupant Restraint “Best Practices” • Use both pelvic and shoulder belt to restrain the occupant • Lead restraints over bony anatomy • Shoulder restraint over the Sternum • Pelvic restraint over the (pelvis) Iliac Crests • Avoid loading soft tissues (abdomen) • Remove belt slack • Use a retractor to reduce upper torso belt slack • Restraint pre-tensioner reduces belt loading
Wheel clamps Sideward facing position
4-Point Tiedown Systems Twisted Belts Belt interferes with tires
Occupant Restraints& Postural Supports • No use of shoulder belts • Pelvic belt over armrests
Ongoing Research • Automated Wheelchair Securement • Universal docking • Customized Occupant Restraints • Wheelchair integrated • Consumer friendly
Safety System #3 • Support the Occupant • Wheelchair seating system • Wheelchair frame • Wheelchair components