The ideal dynamic extension splint should produce a constant and consistent force through its therapeutic range at 90° to the digit and allow ease of use to aid compliance. Currently available splints work either by stretching a spring or an elastic band via a fixed outrigger pulley.
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References
1.
PrasserR (1996): Splinting in the management of proximal interphalangeal joint contractures. J Hand of Therapy9:378–86.
2.
BrowneE ZRibikC A (1989): Early Dynamic Splinting for extensor tendon injuries. J Hand Surg14A:72–6.
3.
ChowJ ADovelleS (1989): A comparison of Extensor Tendon Repair follwed by Early Controlled Mobilisation versus Static Immobilisation. J Hand Surg14B:18–20.
4.
ListerG DKleinertJ E (1977): Primary Flexor Tendon Repair followed by Immediate Controlled Mobilisation. J Hand Surg2:6:441–51.
5.
GelbermanR HVandebergJ S (1985): The Early Stages of Flexor Tendon Healing A Morphological Study of the First 14 Days. J Hand Surg10A:776–84.
6.
ManskeP RGelbermanR H (1984): Intrinsic Flexor Tendon Repair. J Bone and Joint Surgery66A:385–96.
7.
HitchcockT FLightT R (1987): The effect of Immediate Constrained Digital Motion on the Strength of Flexor Tendon Repairs in Chickens. J Hand Surg12A:590–5.
8.
KetchumL DMartinNKappelD (1977): Factors Affecting Tendon Gap and Tendon Strength at the Site of Tendon Repair. Plastic Reconstr Surg59:708–19.
9.
BrandP WHollisterA (1985): Clinical Mechanics of the Hand. Second Ed. St. Louis, Mosby.
10.
FlowersK RLa StayoP (1994): Effect of Total End Range Time on Improving Passive Range of Motion. J Hand Ther7:150–7.
11.
EvansR BThompsonD E (1992): An Analysis of Factors that Support Early Active Short Arc Motion of the Repaired Central Slip. J Hand Ther5:187–201.
