CRUTCH, ALUM PSH-BTN ADJ ADLT 350LB (8PR/CS) | Quantity - 1x CS
CRUTCH, ALUM PSH-BTN ADJ ADLT 350LB (8PR/CS)
Underarm Crutches McKesson Adult 5 Foot 2 Inch to 5 Foot 10 Inch User Height Aluminum Frame 350 lbs. Weight Capacity
* Fully adjustable height and arm length to properly fit 96% of all adults 5'2" to 5'10"
* The saddle grips naturally and is well-ventilated for continuous air circulation.
* Articulated saddle design pivots and rotates in tandem with body movement.
* 1.25 inches of built-in dampening
* The pliable membrane sling provides suspended support, creating a rest for the underarm of unparalleled comfort.
* Ergonomic handgrips contour to the hand, maintain a natural wrist angle and evenly distribute load across the palm.
* Handgrips are specifically left/right handed.
* The legs are offset to provide hip clearance and limit the potential for tripping.
* Rocker feet with over-molded, natural rubber pads maintain full contact throughout the stride and are proven to require less exertion.
Original: $25.19
-65%$25.19
$8.82Product Information
Product Information
Shipping & Returns
Shipping & Returns
Description
CRUTCH, ALUM PSH-BTN ADJ ADLT 350LB (8PR/CS)
Underarm Crutches McKesson Adult 5 Foot 2 Inch to 5 Foot 10 Inch User Height Aluminum Frame 350 lbs. Weight Capacity
* Fully adjustable height and arm length to properly fit 96% of all adults 5'2" to 5'10"
* The saddle grips naturally and is well-ventilated for continuous air circulation.
* Articulated saddle design pivots and rotates in tandem with body movement.
* 1.25 inches of built-in dampening
* The pliable membrane sling provides suspended support, creating a rest for the underarm of unparalleled comfort.
* Ergonomic handgrips contour to the hand, maintain a natural wrist angle and evenly distribute load across the palm.
* Handgrips are specifically left/right handed.
* The legs are offset to provide hip clearance and limit the potential for tripping.
* Rocker feet with over-molded, natural rubber pads maintain full contact throughout the stride and are proven to require less exertion.
