The Benefit 1002 KAFO Kit

KAFO-1002-KIT

This kit provides everything needed to fabricate a KAFO, except for the leather.Includes: One pair 1002 Modified Ring Lock knee joints, one pair Slim Line 2825 Double Action ankle joints, aluminum band material, padding for band, aluminum and stainless steel rivets, chafes and loops, and hook and loop.

Item No	Reference	UOM	Name	Joint Size	Upright Dimensions	Stirrup	Material

KAFO-1002-KIT-A10	KAFO-1002-KIT-A	EA	Benefit 1002 KAFO KIT, ALUM, 1/4 x 3/4, 10 STP	A	1/4in x 3/4in	10in	Round Edge Aluminum
KAFO-1002-KIT-A10.5	KAFO-1002-KIT-A	EA	Benefit 1002 KAFO KIT, ALUM, 1/4 x 3/4, 10.5 STP	A	1/4in x 3/4in	10.5in	Round Edge Aluminum
KAFO-1002-KIT-A11	KAFO-1002-KIT-A	EA	Benefit 1002 KAFO KIT, ALUM, 1/4 x 3/4, 11 STP	A	1/4in x 3/4in	11in	Round Edge Aluminum
KAFO-1002-KIT-A8	KAFO-1002-KIT-A	EA	Benefit 1002 KAFO KIT, ALUM, 1/4 x 3/4, 8 STP	A	1/4in x 3/4in	8in	Round Edge Aluminum
KAFO-1002-KIT-A8.5	KAFO-1002-KIT-A	EA	Benefit 1002 KAFO KIT, ALUM, 1/4 x 3/4, 8.5 STP	A	1/4in x 3/4in	8.5in	Round Edge Aluminum
KAFO-1002-KIT-A9	KAFO-1002-KIT-A	EA	Benefit 1002 KAFO KIT, ALUM, 1/4 x 3/4, 9 STP	A	1/4in x 3/4in	9in	Round Edge Aluminum
KAFO-1002-KIT-A9.5	KAFO-1002-KIT-A	EA	Benefit 1002 KAFO KIT, ALUM, 1/4 x 3/4, 9.5 STP	A	1/4in x 3/4in	9.5in	Round Edge Aluminum
KAFO-1002-KIT-B6.75	KAFO-1002-KIT-B	EA	Benefit 1002 KAFO KIT, ALUM, 3/16 x 5/8, 6.75 STP	B	3/16in x 5/8in	6.75in	Round Edge Aluminum
KAFO-1002-KIT-B7.5	KAFO-1002-KIT-B	EA	Benefit 1002 KAFO KIT, ALUM, 3/16 x 5/8, 7.5 STP	B	3/16in x 5/8in	7.5in	Round Edge Aluminum
KAFO-1002-KIT-B8.25	KAFO-1002-KIT-B	EA	Benefit 1002 KAFO KIT, ALUM, 3/16 x 5/8, 8.25 STP	B	3/16in x 5/8in	8.25in	Round Edge Aluminum
KAFO-1002-KIT-B9	KAFO-1002-KIT-B	EA	Benefit 1002 KAFO KIT, ALUM, 3/16 x 5/8, 9 STP	B	3/16in x 5/8in	9in	Round Edge Aluminum
KAFO-1002-KIT-C4.5	KAFO-1002-KIT-C	EA	Benefit 1002 KAFO KIT, ALUM, 3/16 x 1/2, 4.5 STP	C	3/16in x 1/2in	4.5in	Round Edge Aluminum
KAFO-1002-KIT-C5.25	KAFO-1002-KIT-C	EA	Benefit 1002 KAFO KIT, ALUM, 3/16 x 1/2, 5.25 STP	C	3/16in x 1/2in	5.25in	Round Edge Aluminum
KAFO-1002-KIT-C6	KAFO-1002-KIT-C	EA	Benefit 1002 KAFO KIT, ALUM, 3/16 x 1/2, 6 STP	C	3/16in x 1/2in	6in	Round Edge Aluminum
KAFO-1002-KIT-C6.75	KAFO-1002-KIT-C	EA	Benefit 1002 KAFO KIT, ALUM, 3/16 x 1/2, 6.75 STP	C	3/16in x 1/2in	6.75in	Round Edge Aluminum

PDF file Downloadable Version

Knee Joint Selection Guide

Discretion in choosing a joint size and designing an appropriate orthosis should be used by the orthotist in all cases. We would reference and support the approach described by Lunsford and agree that successful orthotic management requires a clear understanding of the condition being treated and a realistic plan to address the biomechanical deficits presented.

For optimal orthotic management, the mechicanical demands to be placed upon the orthosis for any given treatment must be understood prior to material selection.

The selection of the correct materials is often the difference between success and failure and we believe that the orthotist is trained and the best qualified to match the characteristics of the material to the biomechanical and functional needs of the patient.

Discretion in choosing a joint size, selecting the Side Bar Material, and designing an appropriate orthosis should be used by the orthotist in all cases. The following factors are commonly used by orthotists to help determine the level of Biomechanical Deficit. Practical issues including compliance, occupation, environment and social factors should also be taken into consideration.

Biomechanical Deficit Factors

Single or multiple plane involvement
Single or multiple segment involvement
Muscle strength/weakness
Range-of-motion
Skeletal and/or joint alignment — malalignment
Mobile or fixed deformity
Presence and magnitude of joint contracture
Presence/extent of spasticity
Proprioceptive and cognitive skills
Progressive or non progressive condition

Biomechanical Deficit		Mild									Moderate									Severe
Activity Level		Low			Moderate			High			Low			Moderate			High			Low			Moderate			High
Patients Weight LBS (kg)		80-140 (36-64)	140-210 (64-95)	210-320 (95-145)	80-140 (36-64)	140-210 (64-95)	210-320 (95-145)	80-140 (36-64)	140-210 (64-95)	210-320 (95-145)	80-140 (36-64)	140-210 (64-95)	210-320 (95-145)	80-140 (36-64)	140-210 (64-95)	210-320 (95-145)	80-140 (36-64)	140-210 (64-95)	210-320 (95-145)	80-140 (36-64)	140-210 (64-95)	210-320 (95-145)	80-140 (36-64)	140-210 (64-95)	210-320 (95-145)	80-140 (36-64)	140-210 (64-95)	210-320 (95-145)
	1001	B	A	—	B	A	—	B/A	A	—	B	A	—	B	A	—	B/A	A	—	B/A	A	A	B/A	A	—	B/A	A	—
	1002	B	A	—	B	A	—	B/A	A	—	B	A	—	B	A	—	B/A	A	—	B/A	A	A**	B/A	A	A**	B/A	A**	—
	1003	B	A	—	B	A	—	B/A	A	—	B	A	—	B	A	—	B/A	A	—	B/A	A	—	A	—	—	A	—	—
	1004	B	A	—	B	A	—	B/A	A	—	B	A	—	B	A	—	B/A	A	—	B/A	A	—	A	A	—	A	—	—
	1006*	B	A	—	B	A	—	B/A	A	—	B	A	—	B	A	—	B/A	A	—	B/A	A	—	A	A	—	—	—	—
	1007*	B	A	—	B	A	—	B/A	A	—	B	A	—	B	A	—	B/A	A	—	B/A	A	—	A	—	—	—	—	—
	1010*	B	A	—	B	A	—	B/A	A	—	B	A	—	B	A	—	B/A	A	—	B/A	A	—	A	—	—	—	—	—
	1012	B	A	—	B	A	—	B/A	A	—	B	A	—	B	A	—	B/A	A	—	B/A	A	—	B/A	A	—	—	—	—
	1013*	—	A	—	—	A	—	A	A	—	—	A	—	—	A	—	A	A	—	A	A	—	A	—	—	—	—	—
	1015	B	A	—	B	A	—	B/A	A	—	B	A	—	B	A	—	B/A	A	—	B/A	A	A	A	A	—	—	—	—
	1017	B	A	—	B	A	—	B/A	A	—	B	A	—	B	A	—	B/A	A	—	B/A	A	—	B/A	A	—	A	A	—
	1017-A38*	—	—	A	—	—	A	—	—	A	—	—	A	—	—	A	—	—	A	A	A	A	A	A	A	A	A	A
	2004*	B	B	—	B	B	—	—	—	—	B	B	—	B	B	—	—	—	—	B	—	—	—	—	—	—	—	—
	2009*	B	A	—	B	A	—	B/A	A	—	B	A	—	B	A	—	B/A	A	—	B/A	A	—	A	A	—	A	—	—
	S2001*	B	A	—	B	A	—	B/A	A	—	B	A	—	B	A	—	B/A	A	—	B/A	A	—	A	A	—	A	—	—
	S2003*	B	A	—	B	A	—	B/A	A	—	B	A	—	B	A	—	B/A	A	—	B/A	A	—	A	A	—	A	—	—

* Not available with titanium uprights.
** Consider ordering with Heavy Duty Rings, Model 1002-A#4HD.
NOTE: Model 1017-A38 is available with aluminum uprights only.

Steel and Aluminum Alloys

Steel is stronger and stiffer than aluminum allow; aluminum allow has a lower density making it lighter. Steel is fatigure resistant and combines high rigidity, or ductility depending on the alloy. The main disadvantage of steel is its weight. The major benefit of aluminum in orthotics is its high strength to weight ratio. Aluminum does however have a lower endurance limit under repreated dynamic loading conditions than does steel. A common clinical question relates to the upright of a lower extremity orthosis in which deformation under bending stresses is very important. In general terms, if loading conditions are known to be great or highly repetitive, steel is superior to aluminum.