Flexion Initiation Test: Difference between revisions
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=== Purpose === | === Purpose === | ||
The Flexion Initiation Test is a diagnostic test for | The Flexion Initiation Test is a diagnostic test for Distal Biceps Tendon Tears. | ||
=== Technique === | === Technique === | ||
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=== Evidence === | === Evidence === | ||
In 2021, the study was done in 125 patients. the study shows the flexion initiating test has | In 2021, the Evidence-Based Diagnostic Algorithm study was done in 125 patients. the study shows the flexion initiating test has | ||
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!Overall | !Overall | ||
!Complete tear and high grade partial tear | !Complete tear and high grade partial tear | ||
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also, in this study shows using both hook test and flexion initiating test have high accuracy for the examine both complete and high grade partial tear of Distal Biceps Tendon Tears | |||
FIT, which is aimed at improving diagnostic acuity of high-grade partial thickness tears, demonstrated a 93% sensitivity and 96% specificity overall and a 100% sensitivity for complete ruptures and high-grade partial tears. The evidence-based diagnostic algorithm using the combination of the FIT and hook test demonstrates high accuracy for the diagnosis of both complete and high-grade partial DBTTs. The methodology may help to prevent diagnosis delays, improve patient education, and preserve the option for timely primary surgical repair in the treatment of DBTTs. | |||
The FIT, which is aimed at improving diagnostic acuity of high-grade partial thickness tears, demonstrated a 93% sensitivity and 96% specificity overall and a 100% sensitivity for complete ruptures and high-grade partial tears. The evidence-based diagnostic algorithm using the combination of the FIT and hook test demonstrates high accuracy for the diagnosis of both complete and high-grade partial DBTTs. The methodology may help to prevent diagnosis delays, improve patient education, and preserve the option for timely primary surgical repair in the treatment of DBTTs. | The FIT, which is aimed at improving diagnostic acuity of high-grade partial thickness tears, demonstrated a 93% sensitivity and 96% specificity overall and a 100% sensitivity for complete ruptures and high-grade partial tears. The evidence-based diagnostic algorithm using the combination of the FIT and hook test demonstrates high accuracy for the diagnosis of both complete and high-grade partial DBTTs. The methodology may help to prevent diagnosis delays, improve patient education, and preserve the option for timely primary surgical repair in the treatment of DBTTs. | ||
Revision as of 19:14, 28 September 2021
Purpose[edit | edit source]
The Flexion Initiation Test is a diagnostic test for Distal Biceps Tendon Tears.
Technique[edit | edit source]
Step 1. Patient position in sitting or standing position.
Step 2. Patient’s arm is positioned in complete extension and supination.
Step 3. Examiner applies resistance on the palmar wrist, then ask the patient to flex the elbow against resistance.
Step 3. Positive test indicates when patient unable to first 10 to 15 degree of the elbow flexion.
Evidence[edit | edit source]
In 2021, the Evidence-Based Diagnostic Algorithm study was done in 125 patients. the study shows the flexion initiating test has
| Overall | Complete tear and high grade partial tear |
|---|---|
| sensitivity 93% | sensitivity 100% |
| specificity 96% |
also, in this study shows using both hook test and flexion initiating test have high accuracy for the examine both complete and high grade partial tear of Distal Biceps Tendon Tears
FIT, which is aimed at improving diagnostic acuity of high-grade partial thickness tears, demonstrated a 93% sensitivity and 96% specificity overall and a 100% sensitivity for complete ruptures and high-grade partial tears. The evidence-based diagnostic algorithm using the combination of the FIT and hook test demonstrates high accuracy for the diagnosis of both complete and high-grade partial DBTTs. The methodology may help to prevent diagnosis delays, improve patient education, and preserve the option for timely primary surgical repair in the treatment of DBTTs.
The FIT, which is aimed at improving diagnostic acuity of high-grade partial thickness tears, demonstrated a 93% sensitivity and 96% specificity overall and a 100% sensitivity for complete ruptures and high-grade partial tears. The evidence-based diagnostic algorithm using the combination of the FIT and hook test demonstrates high accuracy for the diagnosis of both complete and high-grade partial DBTTs. The methodology may help to prevent diagnosis delays, improve patient education, and preserve the option for timely primary surgical repair in the treatment of DBTTs.
