Power wheelchairs (PWCs) come in many shapes and sizes, from small foldable devices to standing devices. If you are newer to prescribing complex PWCs, programming may not be something you have thought much about, or even know what it could be. Drive wheel configurations, power seat functions, and even suspension are often easier to see, understand and apply to the user you are working with. Programming unfortunately can then become almost an afterthought, or an ‘if I have time’ plan at delivery. The potential for programming is huge in complex PWCs, and so is the functional impact it can have for a user.
June webinar registration: https://attendee.gotowebinar.com/register/5045105144510555486?source=AU+Other
Why program?
How a PWC is programmed can be a defining experience for a user during a trial. If you have had users say things like – “it is too fast”, “it is too sensitive”, “it doesn’t go where I want it to” – these could all be due to the programming rather than the PWC itself. Sadly, it may mean that a PWC is ruled out as a solution based only on its speed and responsiveness, both which could have potentially been easily adjusted to meet the user’s needs. Before programming changes, the user should have an appropriate seating system that provides a stable and functional base of support.
Customisation may also be a consideration such as individualised wedges on the footplate. Supporting the foot when there is limited reducibility of deviation, can reduce the risk of further postural deformity. Additional supports on the footplate may need to be considered to assist in maintaining appropriate alignment. Think about the points of control and opposite and equal forces and how this can be achieved.
Programming is often an essential component for users such as:
What can be programmed?
Please note that options discussed are based off Permobil PWCs, including Power Platform. Different models and manufacturers may or may not offer the same options.
Joystick/ controller:
Changing how quickly the PWC accelerates and drives when the joystick is deflected, as well as decelerates once contact is removed.
Attendant control: Up to the same options as the main control.
Profiles: A profile remembers parameters such as ranges of speed, acceleration and power settings. Once a profile is created, speed can still be adjusted on the controller (within the parameters of that specific profile), but other settings such as acceleration, torque and stopping speed cannot. Created profiles can be accessed through the controller. Examples could be:
Memory positioning: Options are dependent on the power actuator(s) (or which power seat functions) are on the PWC.
Independent Repositioning Mode: Specifies an order for power seat functions, often tilt, then elevating leg supports, then recline. Reduces user displacement compared with a memory position.
Latching: This is when one input (such as pressing a button) creates a complete action from the PWC, rather than requiring continual input (such as holding a button and the PWC moves until you let go or the action is finished). Examples include:
Assigning buttons: Tactile buttons on the controller can perform multiple commands each with the input typically being a short or long hold. These could be for a huge variety of options such as a specific PSF, memory position, or light setting.
A switchbox is an additional item which acts like a ‘quick access’ to power seat functions. The order of these can be changed depending on preferred functions and visuals.
User weight: The user weight should be programmed into the chair. There are weight ranges used, so if the user has significant weight changes, this needs to be updated.
The suspension will be set to the relevant user weight range.
How does programming occur?
It can be challenging especially for therapists to understand the software without further training due to the software layout and unfamiliar terminology. The technician or dealer would often have the responsibility of explaining the different programming options available to the therapist and user.
The app graphics and design aids in simplifying the options available without limiting them. This may assist therapists and users to have greater understanding and therefore involvement in programming a PWC.
Please reach out to our team if you have any questions. We hope to see you at our webinar on the 13th June where the functional benefits of programming will be explored. Please register here: https://attendee.gotowebinar.com/register/5045105144510555486?source=AU+Other
Author
Clinical Services Specialist
Roseanna Tegel joined Permobil in May 2023 as a Clinical Services Specialist. She graduated from Western Sydney University in 2016 with a Bachelor of Health Science/Master of Occupational Therapy and received the Prize in Undergraduate Occupational Therapy for Overall Achievement and the Cerebral Palsy Alliance scholarship. Roseanna began working at residential aged care facilities where her understanding of the need for suitable, person-centred equipment commenced. From there, she transitioned to work in community disability and quickly developed an interest for complex seating and mobility outcomes to benefit both the end user and wider network. She then stepped into a Team Leader role due to her passion for learning and best practice; supporting the Occupational Therapists with their own clinical needs and outcomes, and progressed to also provide external supervision to Occupational Therapists. Roseanna is motivated to support clinicians with their confidence and clinical reasoning allowing them to provide the best outcome for each individual user. Outside of work, Roseanna enjoys time with her dog, playing the 'cello, horse riding and aerial sports.