Abstract
BackgroundIsometric exercises for a flexed finger have been reported to be effective for treating trigger finger as the flexor tendon widens the space under the first annular (A1) pulley towards the palmar destination during the exercise. This study aimed to evaluate the structural changes during the A1 pulley stretch in healthy volunteers and patients with trigger finger using ultrasonography.MethodsWe enrolled 25 male and 14 female patients (39 middle fingers). The thickness of the subcutaneous tissue (parameter a), A1 pulley (parameter b), and the flexor tendon (parameter c) and the distance between the dorsal surface of the flexor tendon and the palmar surface of the metacarpal head (parameter d) were measured using ultrasonography of the metacarpophalangeal joint of the middle finger flexed at 45° at rest (pattern A) and under isometric contraction of the flexor tendon against an extension force of the proximal interphalangeal joint (pattern B).ResultsThe average differences between patterns A and B in the healthy volunteers were 0.29 mm (parameter a; P = 0.02), 0.017 mm (parameter b; P = 0.63), 0.16 (parameter c; P = 0.26), and 0.41 (parameter d; P = 0.004), and those in patients with trigger finger were 0.22 mm (parameter a; P = 0.23), 0.019 mm (parameter b; P = 0.85), 0.03 mm (parameter c; P = 0.82), and 0.78 mm (parameter d; P < 0.001). The distance between the dorsal side of the A1 pulley and the palmar surface of the metacarpal head was also significantly increased by 0.57 mm (8.2%) in healthy volunteers (P < 0.001) and 0.81 mm (11%) in patients with trigger finger (P < 0.001).ConclusionsIn this study, the space under the A1 pulley was expanded under isometric contraction of the flexor tendon. These findings support the effectiveness of pulley stretch exercises for the trigger finger condition.
Highlights
Trigger finger is one of the most common diseases that can lead to long-term pain, deformity, and disability [1,2,3,4], in which the first annular (A1) pulley becomes stiff and thick [5]
The tendon accompanied by synovitis [6] becomes thick [7], which results in the A1 pulley lumen (A1PL) becoming relatively narrow for the tendon
We evaluated the structural changes around the A1 pulley under isometric contraction of the flexor tendon at 45° flexion of the middle finger at rest and under isometric contraction of the flexor tendon resisted against the force toward the proximal interphalangeal joint extension in healthy volunteers and patients with trigger finger using ultrasonography
Summary
Trigger finger is one of the most common diseases that can lead to long-term pain, deformity, and disability [1,2,3,4], in which the first annular (A1) pulley becomes stiff and thick [5]. Non-surgical treatments include the adjustment and modification of activities [8, 9], the use of orthoses and splints [10], and administration of hyaluronic acid [11] and steroid injections [12, 13]. Some drawbacks of steroid injections include pain during the procedure and the risk of tendon rupture [17]. The recurrence rate in the operated trigger finger has been reported to be as low as 0.5% [18]; patients may temporarily experience pain on the surgical site postoperatively [3]. Isometric exercises for a flexed finger have been reported to be effective for treating trigger finger as the flexor tendon widens the space under the first annular (A1) pulley towards the palmar destination during the exercise. This study aimed to evaluate the structural changes during the A1 pulley stretch in healthy volunteers and patients with trigger finger using ultrasonography
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