Outcome
| Type |
Measure |
Description |
Time frame |
Safety issue |
| Other |
Serum Hormone Measurement Surgery |
Blood will be drawn and the following serum laboratory values will be collected: testosterone, bio-available testosterone, estradiol, all of which are reported in ng/dL. |
To be collected at the time of surgery. |
|
| Other |
Luteinizing Hormone Measurement Surgery |
Blood will be drawn and serum luteinizing hormone values will be collected. These are reported in IU/L. |
To be collected at the time of surgery. |
|
| Other |
Serum Hormone Measurement 12 weeks |
Blood will be drawn and the following serum laboratory values will be collected: testosterone, bio-available testosterone, and estradiol, all of which are reported in ng/dL. |
To be collected at 12 weeks (±2 weeks) post-operatively. |
|
| Other |
Luteinizing Hormone Measurement 12 weeks |
Blood will be drawn and serum luteinizing hormone values will be collected. These are reported in IU/L. |
To be collected at 12 weeks (±2 weeks) post-operatively. |
|
| Other |
Pill Count Surgery |
Subjects will be asked how many pills they have taken to determine patient compliance. Deviations from protocol will be recorded. |
To be collected at the time of surgery. |
|
| Other |
Pill Count 6 weeks |
Subjects will be asked how many pills they have taken to determine patient compliance. Deviations from protocol will be recorded. |
To be collected at six weeks (±2 weeks) post-operatively. |
|
| Other |
Pill Count 12 weeks |
Subjects will be asked how many pills they have taken to determine patient compliance. Deviations from protocol will be recorded. |
To be collected at 12 weeks (±2 weeks) post-operatively. |
|
| Other |
Pill Count 6 months |
Subjects will be asked how many pills they have taken to determine patient compliance. Deviations from protocol will be recorded. |
To be collected at 6 months (±4 weeks) post-operatively. |
|
| Other |
Averse Event Assessment Surgery |
At each visit patients will be queried regarding adverse events. Patients will asked about the following specific adverse events side effects: anxiety, decreased energy/fatigue, mood instability, difficulty sleeping, decreased libido, visual changes, bleeding, infection, complications from anesthesia, the need for further surgery. In addition, any post-operative injections will be recorded. |
To be collected at the time of surgery. |
|
| Other |
Averse Event Assessment 6 weeks |
At each visit patients will be queried regarding adverse events. Patients will asked about the following specific adverse events side effects: anxiety, decreased energy/fatigue, mood instability, difficulty sleeping, decreased libido, visual changes, bleeding, infection, complications from anesthesia, the need for further surgery. In addition, any post-operative injections will be recorded. |
To be collected at six weeks (±2 weeks) post-operatively. |
|
| Other |
Averse Event Assessment 12 weeks |
At each visit patients will be queried regarding adverse events. Patients will asked about the following specific adverse events side effects: anxiety, decreased energy/fatigue, mood instability, difficulty sleeping, decreased libido, visual changes, bleeding, infection, complications from anesthesia, the need for further surgery. In addition, any post-operative injections will be recorded. |
To be collected at 12 weeks (±2 weeks) post-operatively. |
|
| Other |
Averse Event Assessment 6 months |
At each visit patients will be queried regarding adverse events. Patients will asked about the following specific adverse events side effects: anxiety, decreased energy/fatigue, mood instability, difficulty sleeping, decreased libido, visual changes, bleeding, infection, complications from anesthesia, the need for further surgery. In addition, any post-operative injections will be recorded. |
To be collected at 6 months (±4 weeks) post-operatively. |
|
| Primary |
Magnetic Resonance Imaging (MRI) tendon healing Post-op |
MRI scans will be assessed by observers blinded to the patient's allocation. For each patient, the post-operative MRI will be categorized as either "healed" or "non-healed". On post-operative MRI only those patients without tendon defects will be considered to be healed. This will be the primary outcome of the study. The investigators have previously demonstrated this measurement to be reliable. |
To be collected at 6 months (±4 weeks) post-operatively. |
|
| Secondary |
American Shoulder and Elbow Surgeons (ASES) Score Pre-op |
The ASES score is a patient survey that creates a score on a 100 point scale incorporating questions regarding shoulder pain and shoulder function. This survey contains 11 questions and takes ~3 minutes to complete. Higher scores indicate a better outcome. |
To be collected within six months pre-operatively. |
|
| Secondary |
American Shoulder and Elbow Surgeons (ASES) Score 6 weeks |
The ASES score is a patient survey that creates a score on a 100 point scale incorporating questions regarding shoulder pain and shoulder function. This survey contains 11 questions and takes ~3 minutes to complete. Higher scores indicate a better outcome. |
To be collected at six weeks (±2 weeks) post-operatively. |
|
| Secondary |
American Shoulder and Elbow Surgeons (ASES) Score 12 weeks |
The ASES score is a patient survey that creates a score on a 100 point scale incorporating questions regarding shoulder pain and shoulder function. This survey contains 11 questions and takes ~3 minutes to complete. Higher scores indicate a better outcome. |
To be collected at 12 weeks (±2 weeks) post-operatively. |
|
| Secondary |
American Shoulder and Elbow Surgeons (ASES) Score 6 months |
The ASES score is a patient survey that creates a score on a 100 point scale incorporating questions regarding shoulder pain and shoulder function. This survey contains 11 questions and takes ~3 minutes to complete. Higher scores indicate a better outcome. |
To be collected at 6 months (±4 weeks) post-operatively. |
|
| Secondary |
Simple Shoulder Test (SST) Score Pre-op |
The SST score is a patient survey that creates a score on a 12 point scale incorporating questions regarding shoulder function. This survey contains 12 questions and takes ~3 minutes to complete. Higher scores indicate a better outcome. |
To be collected within six months pre-operatively. |
|
| Secondary |
Simple Shoulder Test (SST) Score 6 weeks |
The SST score is a patient survey that creates a score on a 12 point scale incorporating questions regarding shoulder function. This survey contains 12 questions and takes ~3 minutes to complete. Higher scores indicate a better outcome. |
To be collected at six weeks (±2 weeks) post-operatively. |
|
| Secondary |
Simple Shoulder Test (SST) Score 12 weeks |
The SST score is a patient survey that creates a score on a 12 point scale incorporating questions regarding shoulder function. This survey contains 12 questions and takes ~3 minutes to complete. Higher scores indicate a better outcome. |
To be collected at 12 weeks (±2 weeks) post-operatively. |
|
| Secondary |
Simple Shoulder Test (SST) Score 6 months |
The SST score is a patient survey that creates a score on a 12 point scale incorporating questions regarding shoulder function. This survey contains 12 questions and takes ~3 minutes to complete. Higher scores indicate a better outcome. |
To be collected at 6 months (±4 weeks) post-operatively. |
|
| Secondary |
Visual Analogue Score (VAS) for pain Pre-op |
The VAS pain score is a patient survey that creates a score on a 10 point scale incorporating a single question regarding shoulder pain. This survey takes <1 minute to complete. Lower scores indicate a better outcome. |
To be collected within six months pre-operatively. |
|
| Secondary |
Visual Analogue Score (VAS) for pain 6 weeks |
The VAS pain score is a patient survey that creates a score on a 10 point scale incorporating a single question regarding shoulder pain. This survey takes <1 minute to complete. Lower scores indicate a better outcome. |
To be collected at six weeks (±2 weeks) post-operatively. |
|
| Secondary |
Visual Analogue Score (VAS) for pain 12 weeks |
The VAS pain score is a patient survey that creates a score on a 10 point scale incorporating a single question regarding shoulder pain. This survey takes <1 minute to complete. Lower scores indicate a better outcome. |
To be collected at 12 weeks (±2 weeks) post-operatively. |
|
| Secondary |
Visual Analogue Score (VAS) for pain 6 months |
The VAS pain score is a patient survey that creates a score on a 10 point scale incorporating a single question regarding shoulder pain. This survey takes <1 minute to complete. Lower scores indicate a better outcome. |
To be collected at 6 months (±4 weeks) post-operatively. |
|
| Secondary |
Magnetic Resonance Imaging (MRI) proximal humeral bone quality Pre-op |
Both the pre-operative and post-operative MRI scans will include a ultra-short time-echo (UTE) coronal sequence. On the UTE sequence, maximum humeral cortical thickness will be measured orthogonal to the axis of the shaft five, ten, and fifteen cm distal to the top the head, as we have previously demonstrated this measurement to be accurate and reliable. |
To be collected within six months pre-operatively. |
|
| Secondary |
Magnetic Resonance Imaging (MRI) proximal humeral bone quality Post-op |
Both the pre-operative and post-operative MRI scans will include a ultra-short time-echo (UTE) coronal sequence. On the UTE sequence, maximum humeral cortical thickness will be measured orthogonal to the axis of the shaft five, ten, and fifteen cm distal to the top the head, as we have previously demonstrated this measurement to be accurate and reliable. |
To be collected at 6 months (±4 weeks) post-operatively. |
|
| Secondary |
Strength Assessment Pre-op |
Rotator cuff strength, as measured with a handheld dynamometer, will be measured. Abduction strength will be measured at 30 degrees of flexion, 30 degrees of abduction, neutral rotation, and full elbow extension. External rotation strength will be measured with the arm in adduction, neutral rotation, and 90 degrees of elbow flexion. These measures will be performed by a single research coordinator. |
To be collected within six months pre-operatively. |
|
| Secondary |
Strength Assessment 6 weeks |
Rotator cuff strength, as measured with a handheld dynamometer, will be measured. Abduction strength will be measured at 30 degrees of flexion, 30 degrees of abduction, neutral rotation, and full elbow extension. External rotation strength will be measured with the arm in adduction, neutral rotation, and 90 degrees of elbow flexion. These measures will be performed by a single research coordinator. |
To be collected at six weeks (±2 weeks) post-operatively. |
|
| Secondary |
Strength Assessment 12 weeks |
Rotator cuff strength, as measured with a handheld dynamometer, will be measured. Abduction strength will be measured at 30 degrees of flexion, 30 degrees of abduction, neutral rotation, and full elbow extension. External rotation strength will be measured with the arm in adduction, neutral rotation, and 90 degrees of elbow flexion. These measures will be performed by a single research coordinator. |
To be collected at 12 weeks (±2 weeks) post-operatively. |
|
| Secondary |
Strength Assessment 6 months |
Rotator cuff strength, as measured with a handheld dynamometer, will be measured. Abduction strength will be measured at 30 degrees of flexion, 30 degrees of abduction, neutral rotation, and full elbow extension. External rotation strength will be measured with the arm in adduction, neutral rotation, and 90 degrees of elbow flexion. These measures will be performed by a single research coordinator. |
To be collected at 6 months (±4 weeks) post-operatively. |
|
| Secondary |
Range of motion Pre-op |
Range of motion will be recorded. Research personnel experienced with the use of video will measure active abduction, active forward elevation, active internal rotation in adduction , and active external rotation in adduction. These will be measured sequentially during a single continuous video, first with the video viewing from anteriorly while the subject abducts while standing against a wall, then while viewing from laterally while the subject elevates while standing adjacent to a wall, then while viewing from posteriorly while the subject internally rotates in adduction, and then while viewing from superiorly while the subject externally rotates while sitting in a chair. This protocol has been previously used in many publications. These videos will be saved using subject numbers and then evaluated using a digital protractor by a third-party observer. |
To be collected within six months pre-operatively. |
|
| Secondary |
Range of motion 6 weeks |
Range of motion will be recorded. Research personnel experienced with the use of video will measure active abduction, active forward elevation, active internal rotation in adduction , and active external rotation in adduction. These will be measured sequentially during a single continuous video, first with the video viewing from anteriorly while the subject abducts while standing against a wall, then while viewing from laterally while the subject elevates while standing adjacent to a wall, then while viewing from posteriorly while the subject internally rotates in adduction, and then while viewing from superiorly while the subject externally rotates while sitting in a chair. This protocol has been previously used in many publications. These videos will be saved using subject numbers and then evaluated using a digital protractor by a third-party observer. |
To be collected at six weeks (±2 weeks) post-operatively. |
|
| Secondary |
Range of motion 12 weeks |
Range of motion will be recorded. Research personnel experienced with the use of video will measure active abduction, active forward elevation, active internal rotation in adduction , and active external rotation in adduction. These will be measured sequentially during a single continuous video, first with the video viewing from anteriorly while the subject abducts while standing against a wall, then while viewing from laterally while the subject elevates while standing adjacent to a wall, then while viewing from posteriorly while the subject internally rotates in adduction, and then while viewing from superiorly while the subject externally rotates while sitting in a chair. This protocol has been previously used in many publications. These videos will be saved using subject numbers and then evaluated using a digital protractor by a third-party observer. |
To be collected at 12 weeks (±2 weeks) post-operatively. |
|
| Secondary |
Range of motion 6 months |
Range of motion will be recorded. Research personnel experienced with the use of video will measure active abduction, active forward elevation, active internal rotation in adduction , and active external rotation in adduction. These will be measured sequentially during a single continuous video, first with the video viewing from anteriorly while the subject abducts while standing against a wall, then while viewing from laterally while the subject elevates while standing adjacent to a wall, then while viewing from posteriorly while the subject internally rotates in adduction, and then while viewing from superiorly while the subject externally rotates while sitting in a chair. This protocol has been previously used in many publications. These videos will be saved using subject numbers and then evaluated using a digital protractor by a third-party observer. |
To be collected at 6 months (±4 weeks) post-operatively. |
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