6 SA JOURNAL OF PHYSIOTHERAPY 2006 VOL 62 NO 3 RELIABILITY OF DIAGNOSTIC TESTS IN ROTATOR CUFF MUSCLE PATHOLOGY R E S E A R C H A R T I C L E BACKGROUND AND PURPOSE Thomson et al. (1996) in their study on cadavers’ shoulders, found that up to 80% had a full thickness tear of the rotator cuff and that the incidence increased with the age of the person. It is therefore necessary to accurately diagnose this condition to be able to treat it efficiently. Several tests have been identified to assist in the diagnosis of rotator cuff impairment, such as cuff tears or tendinopathies, but there is controversy as to the accuracy and reliability of these tests (Itoi et al, 1997). The tests suggested are the empty can and full can tests for the integrity of the supraspinatus ten- don; the lift off test for the intergrity of the subscapularis tendon and the lateral rotation test for the integrity of the infra- spinatus muscle. The reader is referred to Table 1 for a detailed description of the tests, according to Kelly et a,l (1996) & Itoi et al, (1999). Clark and Harryman (1992) proved that all four tendons fuse to form a common insertion on the tuberosities of the humerus. Fibres from both the subscapularis and infraspinatus muscles interdigitate with those of the supra- spinatus muscle. This statement is sup- ported by Itoi et a,l (1997), who confirmed that the posterior fibres of the supra- spinatus merge with the oblique fibres of the infraspinatus tendon. Although the muscles blend at their insertions, each still has a separate movement function. Due to the complexity of the insertion, pathology in the one may compromise the vector of the other, resulting in rela- tive weakness in the unaffected muscle. This leads to the theory that pathology in a specific muscle has an influence on the biomechanical pull of the other and in so doing, influencing the accuracy of specific tests performed. The purpose of this study was to investigate the reliability of the rotator cuff muscle tests and whether these tests can be used as diagnostic tools in general physiotherapy practice. METHODOLOGY A cross-sectional diagnostic study, of a descriptive nature, was performed at the Jacaranda Private Hospital in Pretoria during August and September 2003. A convenience sample test was used to col- lect the data. The patients were asked to complete a general information sheet to capture the inclusion and exclusion criteria. The inclusion criteria included patients with unilateral shoulder pain who were diagnosed by means of ultra- sonic imaging. Exclusion criteria included ABSTRACT: Background: Several tests to assist it in the diagnoses of rota- tor cuff impairment have been described in the literature but controversy still exists as to the accuracy of these tests. A study was therefore conducted to determine the reliability of the rotator cuff muscle tests (empty can, full can, lift off and external rotation) as a diagnostic tool. Methodology: Fifty three patients experiencing shoulder pain were assessed using manual muscle tests (empty can; full can; lift off and external rotation tests). Both pain and weakness were recorded using numerical scales adapted from tests performed by Itoi et al, (1999). These results were compared to ultrasonic diagnoses made by a surgeon. Informed consent was obtained and anonymity was ensured for all participants. Results: A test was false positive when ultrasonic diagnosis indicated no tear in the muscle (although oedema or calcification may have been present), but the manual muscle test was positive regarding pain and weakness. A test on the other hand was false negative when the ultrasonic diagnosis indicated a muscle tear but the manual muscle tests indicated no pain or muscle weakness. Reliability was tested using sensitivity and specificity tests. The sensitivity of all four tests was high (80%), but the specificity was low (20% to 40%), implying that a large number of false positive diagnoses can be made. The major contributors to the false positive results were sub-acromial sub-deltoid bursitis and a decreased acromio-humeral space. When considering pain alone for a positive result the correlation increased a little, however, taking both pain and muscle weakness into account, the correlation increased even more. Conclusion: The manual muscle tests were not as reliable as expected, but concurrent pathologies may be the main factor influencing the results of the tests. The combination of muscle strength and pain could be recommended as criteria for a positive test. The empty can and full can tests could both be recommended in predicting a torn supraspinatus tendon, as they were equally sensitive KEY WORDS: DIAGNOSTIC TOOL, ROTATOR CUFF MUSCLES. Sandenbergh R, (MphysT, UP)1 Marais A, (MphysT, UP)1 1 Department of Physiotherapy, Faculty of Health Sciences, University of Pretoria. CORRESPONDENCE TO: Annemarie Marais 244 Maroela Road, Centurion 0157 South Africa Fax: +2712 354-1226 Tel: (012) 354-2023(w) (012) 654-7785(h) Cell: 082 8131831 Email: amarais@postillion.up.ac.za JRLSEP2006 Web 31/8/06 10:53 am Page 6 SA JOURNAL OF PHYSIOTHERAPY 2006 VOL 62 NO 3 7 patients with bilateral shoulder pain and surgery to either of the shoulders in the past six months. The data capturing sheet was designed in concurrence with the Department of Statistics at the University of Pretoria. The questions were adapted from two studies previously conducted by Kelly et al, (1996) and Itoi et al, (1999). The questionnaire was trail-tested on five subjects after which it was adapted to the current form. Data analysis of the study was done using frequency tables for the descriptive statistics and one or two way tables to test the relationships between the variables. Reliability of the four tests was tested according to sensi- tivity, specificity and the correlation with the doctor's diagnosis. Data collection After written informed consent was obtained, forty-five patients who met the inclusion criteria were assessed by means of the following tests: empty can, full can, lift off and external rotation, (Table1). Both muscle strength and pain were noted. Grading is described in Tables 2 and 3 (adapted from Itoi et al, 1999). The researcher was blinded as to the diagnosis of the patients, avoiding bias that may have influenced the objec- tivity of the assessment. Thereafter the diagnoses made by the radiologist with ultrasound imaging, were compared to the results of the manual muscle testing. The radiologist used the Bouffard classification (Bouffard et al, 2000) to make a diagnosis. The ultrasound examination was done with a Siemens Sonoline Elegra Ultrasound machine. High-resolution linear-array transducers were used with a broadband frequency capability between 7.5 - 9 MHz. Ethical considerations Participation in the study was voluntary and the patient signed an informed consent form before being included in the study. The Ethics committee of the University of Pretoria approved the study prior to the commencement of the evaluations. RESULTS AND DISCUSSION General results During August and September 2003, 52 patients presenting with unilateral shoulder pain at pre-selected orthopedic surgeons were assessed. The sample included 27 males and 25 females, ranging in age from 14 years to 79 years. Most of the patients included in the sample were older than 40 years of age (85%). Results of rotator cuff muscle tests The results in this section are based on the results of the comparison between the doctor's diagnosis for a specific mus- cle and the manual muscle test described in the literature. The empty can, full can and external rotation tests all had about 50% correlation with the ultrasonic diagnosis of a muscle tear, while the lift off test had an 84% chance of misdiag- nosing a muscle tear. The test was noted as a false positive, when the ultrasonic imaging indicated no tear in the muscle (although tendinopathy or calcification may have been present), but the manual Empty can Full can Lift Off External Rot. The sitting patient's arm was The patient is positioned in The sitting patient places the The sitting patient was asked positioned in 90( of elevation sitting. The arm is maintained arm behind his or her back to bend the elbows to 90° in the scapular plane and at 90°of scapular elevation with the dorsum of the hand while maintaining zero full internal rotation of the and 45°of external rotation resting in the midlumbar area. degrees of abduction. humerus. Resistance was of the humerus. Resistance The dorsum of the hand is The arm was then moved to applied in a downward was applied in a downward then raised from the back, 45° of internal rotation. direction and the patient direction and the patient while maintaining a constant Resistance is applied in an was asked to resist the was asked to resist the elbow flexion angle. Internal inward direction movement in correlation to movement, in correlation to rotation is increased or the resistance applied. the resistance applied. maintained, while extension of the shoulder is increased. Resistance was applied in a posterior-anterior direction. Table 1: Rotator cuff muscle tests adapted from Kelly et al. (1996) and Itoi et al. (1999). Grade Resistance Interpretation 4 equal amount of resistance to applied force (no movement) Normal 3 amount of resistance less than (4), but force is still applied Partial thick= ness tear PTT (weakness in relation to other shoulder) 2 ability to maintain position against gravity, no force applied PTT 1 not able to hold against gravity if arm is moved passively Full thickness tear (FTT) into the testing position 0 patient was not able to attain the required position A grading of 4 was regarded as a negative result, while 1, 2 and 3 were noted as positive. A result of 0 was noted as an inability to perform the test. Both the symptomatic and asymptomatic arm was evaluated. Table 2: Grading of manual muscle tests according to muscle strength adapted from Itoi et al. (1999). JRLSEP2006 Web 31/8/06 10:53 am Page 7 8 SA JOURNAL OF PHYSIOTHERAPY 2006 VOL 62 NO 3 muscle test indicated positive for pain and weakness. A test on the other hand was false negative when the ultrasonic diagnoses indicated a muscle tear but the manual muscle tests indicated no pain or muscle weakness. In all four tests the number of false positives far exceeded the number of false negatives, implying high sensitivity but low specificity. Supraspinatus tests Comparing the doctor's diagnosis in relation to a muscle tear and other pathologies e.g. tendinosis and calcifying tendonitis, with the result of the manual muscle test, (empty can test) the inci- dence of a correct diagnosis increased to 67%. When this criterion is applied to the full can test the percentage increased to 61% (previously 51%). The false positive tests were com- pared to the other pathologies (calcifying tendonitis and tendinosis), the condition of the sub-acromial sub-deltoid (SASD) bursa, as well as the acromio-humeral distance. When considering the empty can test, most of the false positives were patients diagnosed with a decreased acromio-humeral distance i.e. less than 11mm (61.90%). Fourteen percent of the patients suffered from a bursitis and only 4.76% had either a tendinosis or calcifying tendonitis. Only 14.3% of the patients diagnosed with a false positive had a normal muscle and tendon. When considering the false positive results of the full can test, 5.26% of patients had a tendinosis; while10.53% of patients had a SASD bursitis. Sixty- three percent of the patients diagnosed with a false positive, had a decreased subacromial space. When considering a combination of pain and loss of muscle power (both areas scored a 3 or less) compared to the doctor’s diagnosis (empty can test), no significant difference (53% compared to 50%), was noted. The test still only had a 53% chance of predicting a correct diagnosis, and the distribution of the false positives and negatives stayed the same. The same can be said for the full can test, where there was a 57% chance of a correct diagnosis when using the combination method. The sensitivity for the empty can test was 76.1% and for the full can test 71.43%. The latter, therefore has a slightly lower chance of predicting a tear in the muscle of the supraspinatus if a tear is present in the muscle. The full can test was slightly more specific than the empty can test (38.7% to 32.26%). From the literature (Kelly et al, 1996), it was expected that the empty can test would have a much higher incidence of false positive results than the full can test, due to the internal rotation of the arm. However, both tests had approxi- mately a 50% chance of making a true or a false diagnosis. Although the empty can test is performed in the impinge- Grade Amount of pain 4 No pain 3 Pain is present, but not limiting functionality 2 Pain is a limiting factor to the muscle strength 1 Muscle strength is severely limited by pain 0 No movement possible due to pain Table 3: Grading of manual muscle tests according to pain adapted from Itoi et al. (1999) Empty can Full can Infraspinatus Lift off The patient is seated on The same as for the “empty The same as for the “empty The sitting patient places a plinth with the feet can” test.(Itoi et al. : 1997). can” test (Kelly et al.: 1996). the arm behind his supported, hips and knees back with the dorsum of at 90 degrees of flexion, the hand resting in the without back support midlumbar area (Itoi et al.: 1997). (Kelly et al.: 1996). The patient is asked to The patient is asked to The patient is asked to The dorsum of the hand is abduct the arm in the abduct the arm in the bend the elbows to 90 raised from the back, while scapular plane (45 degrees scapular plane (45 degrees degrees while maintaining maintaining a constant of flexion) and maintain this of flexion) and maintain this zero degrees of abduction. elbow flexion angle. position while the arm is position while the arm is The arm is then moved to Internal rotation is increased internally rotated. externally rotated. 45 degrees of internal or maintained, while (Thumbs facing down) (Thumbs facing upwards) rotation. extension of the shoulder is increased. Manual resistance is Manual resistance is applied Manual resistance is Manual resistance is applied applied to both the arms to both the arms at the applied at the wrists in an in a posterior- anterior at the elbows. Pain and elbows. Pain and weakness inward direction. direction on the hand. weakness are noted. are noted. The patient relaxes and The patient relaxes and Return to starting position. Return to starting position. returns the arms to the sides. returns the arms to the sides. Table 4: Protocol for evaluation of rotator cuff muscle tests. S ta rt in g p o si ti o n A ct io n M a n u a l te st In te - ri m JRLSEP2006 Web 31/8/06 10:53 am Page 8 SA JOURNAL OF PHYSIOTHERAPY 2006 VOL 62 NO 3 9 ment position (Rowe, 1988), which enlarges the subacromial space to some extent, it jams the supraspinatus tendon against the acromion. According to Ballantyne et al, (1993) the insertion of the supraspinatus muscle is moved out from underneath the acromial arch during external rotation of the arm. Jobes and Moynes (1982) as well as Ballantyne et al, (1993) suggested the use of both pain and decreased muscle strength as an indicator of a positive test for rotator cuff tears. The results of this study show that neither one of these indicators, when used either alone, or in combination, are significantly superior when compared to the golden standard (doctor's diagnosis). Therefore, any one of these criteria may be used with equal power of predictability. Patients diagnosed with a false posi- tive result had a moderate incidence of other pathologies in the muscle. This may be helpful in explaining the high number of false positive results. According to Andrews and Wilk (1994) calcifying tendonitis may cause pain due to a functional narrowing of the subacromial space, therefore influencing the muscle strength through pain inhibi- tion. The same applies to a patient with either a bursitis or a tendinosis. This fur- ther correlates with the findings of Ballantyne et al, (1993) and Andrews and Wilk (1994), which state that pain during the test influences the reliability of the test. Subscapularis test The lift off test only demonstrated a 15% chance of predicting the correct diagnosis for the subscapularis muscle. The rate of false positives was very high and accounted for the other 85% of the sam- ple. Taking the doctor’s diagnosis (normal or abnormal muscle) the results improved to 54% false positives and a 47% chance of making the correct diagnosis. No false negatives were scored. Sixty percent of the false positives were diagnosed with a decreased acromio- humeral space while 5% of the patients had a tendonitis. However, only 16% of the patients who tested as false positive had a bursitis of the SASD bursa. Seven percent of the patients presented with a normal muscle and tendon. If the criteria for a positive test are based on the general condition of the muscle, then the amount of false posi- tives decreases drastically from 44 patients to 25 patients. Nineteen of the patients are then correctly diagnosed with pathology to the subscapularis. The combination criteria also made a differ- ence to the result; an increase of 100% was noted for giving the same diagnosis as the doctor (16 compared to a previous 8), therefore the amount of false posi- tives decreased from 10% to 70%. The sensitivity of this specific test is very high (100%), but the specificity, is very low (10.2%). The lift off test was performed in accordance with specifications as described by Greis et al, (1996). In the total sample of 52 patients only three were diagnosed with a tear to the sub- scapularis muscle. This is supported by the statistics in a study conducted by Greis et al, (1996). The characteristics of the lift off test include extreme internal rotation of the arm in order to exclude the pectoralis major from the test through passive insuffiency; this once again results in the test being performed in the impingement position. A very high frequency of false positive results was present (44/52). Out of a possible 52 patients, 39 patients however suffered from a bursitis of the SASD bursa and 32 of the patients were diagnosed with a decreased acromio- humeral space, and a combination of pathologies including calcifying ten- donitis. Therefore, a relationship between a false positive result and a bursitis or a change in the subacromial space may be suggested. If a combination of pain and muscle strength, or pain alone, is used to evalu- ate the patients, the reliability of the test increases drastically. However, evaluating the muscle on pain alone may lead to another false positive result due to the high incidence of bursitis in the false positive group and low incidence of actual muscle tears in this sample group. No false negative results were noted; this may be due to the fact that the test is already difficult to perform due to the starting position and that the patients with a tear of the subscapularis muscle would most likely not be able to perform the desired action. Furthermore, the sen- sitivity of the test is 100%, implying that a patient with the pathology would definitely test positive. The low values for the specificity and accuracy could be attributed to the large influence that a bursitis has on the result of the test, which in turn can be related to the posi- tion of the arm. From the above statements it can be concluded that, although the test is very sensitive for pathology in the muscle, another test may be more specific for identifying a tear with a higher accuracy if the painful starting position can be eradicated. Infraspinatus test The manual muscle test relating to the integrity of the muscle has a 47% chance of predicting the correct diagnosis when compared to the doctor’s diagnosis. When compared to the general condition of the muscle, this decreases to 44%. Forty percent of the patients were diag- nosed with a false positive result. Most of these patients presented with a decreased subacromial space (70.37%). Fifteen percent of the false positive patients suffered from a bursitis of the SASD bursa. Fifteen percent of the false positive group had a normal muscle and tendon. The sensitivity of the test is high (80%), but the specificity low (42.55%). Once again the high frequency of other pathologies in the false positive group indicates that they play a role in the reliability of the test. When discussing the relationship between the doctor's diagnosis on the general condition of the tendon and the result of the muscle test, it does not make a great difference to the reliability of the test if it were designed to detect any pathology to the tendon. This may be due to the fact that the SASD bursa plays a role in all the tests, but is not considered a part of any of these muscles. This test is not performed in the impingement position, although muscle contraction may have an effect on the SASD bursa through increased tendon pressure. The sensitivity of this test for patho- logy in the infraspinatus muscle is high. This leads to the conclusion that a patient with a tear in the infraspinatus muscle would have decreased muscle JRLSEP2006 Web 31/8/06 10:53 am Page 9 10 SA JOURNAL OF PHYSIOTHERAPY 2006 VOL 62 NO 3 strength most of the time, but the low specificity implies that weakness is not necessarily an indicator of a tear to the muscle. Pain and rotator cuff pathology In literature pain is listed as one of the main symptoms of rotator cuff patholo- gies (Souza,1994). This is supported by the results of the relationship between the doctor’s diagnosis for supraspinatus and the pain experienced by the patient (empty can and full can tests). Twenty- seven (80%) of the patients experiencing pain were diagnosed with pathology of the muscle, however when the relation- ship to tears of the muscle is considered, this advantage is lost; 20 of the 37 patients experiencing pain did not have a tear to the muscle. When comparing the empty can test with the full can test in relation with the pain experienced by the patient, 50% of the patients experienced no pain during both tests and 17% only slight pain. Several patients stated that the start- ing position of the test is a painful posi- tion when asked to move the arm to the starting position, adding a subjective inhibition to the test. It is interesting to note that a number of patients found it very difficult to perform the test with the healthy arm, not due to pain or per- ceived weakness (by the patient), but due to lack of understanding and ability to perform the action. This may influ- ence the reliability of the test since the pathological shoulder has pain inhibition to overcome as well as the lack of skill. CONCLUSION Although the manual muscle tests were designed to detect a torn muscle, other factors do play a role e.g., SASD bursitis and a decreased acromio humeral space. The main influence of these factors is due to pain during movement or muscle contraction, thereby functionally narrow- ing the subacromial space and causing a possible decrease in muscle power due to pain. A decrease in muscle strength would result in a false positive test indicating a torn muscle even when the muscle is intact. The reliability of the evaluated tests was not as high as expected. The sensi- tivity of these tests is high, although the specificity is low. The results of the study suggest that this could be attributed to several factors influencing muscle strength through pain e.g. decreased acromio- humeral space or a SASD bursitis. By definition a manual muscle test is only positive when an asymmetry is found between the affected muscle and the opposite side in relation to muscle strength. However, the correlation with the doctor’s diagnosis increased when pain alone or pain as well as muscle strength were used as criteria. Therefore, the author would recommend the use of both during an evaluation. Two tests for the supraspinatus were evaluated in this study. Although the full can test performed slightly better according to all the criteria, it was not significant, and therefore both the tests can be used as a diagnostic tool in the evaluation of the integrity of the supraspinatus tendon. The low correlation with doctor’s diagnosis must however be noted and considered when making a diagnosis. This implies that, although the test is positive, it may indicate a different pathology and not necessarily a tear to the muscle. The results of this study show an even higher correlation with the results of the sonography when any pathology of the muscle is considered as the criteria for the tests as opposed to a muscle tear alone From this follows the conclusion that the tests may be better suited to detect if pathology if present within the muscle and not a tear to the muscle as such. While these manual muscle tests are used in general practice to diagnose tears of the rotator cuff muscles, they may not be as accurate and reliable as has previously been assumed (Donatelli, 1991; Kelly et al, 1996;Greis et a,l 1996). Further studies with a bigger sample group to verify this statement is recom- mended. The tests may still be valuable to act as a preliminary diagnosis, how- ever, they should be used as part of an integrated evaluation and not as the gold standard. The study was limited mainly due to the following factors: • A limited period in which to complete the study, which influenced the size of the sample group. The author would like to make the following recommendations for further research in the field: • A bigger sample group with a wider distribution between the age groups. • Comparison between different tests for the subscapularis as well as the infraspinatus muscle. • Including the biceps tendon as one of the pathologies that may influence the results of the test. • Comparing the manual muscle tests with Magnetic Resonance Imaging (MRI), which is postulated to be a more accurate test than ultrasound. REFERENCES Andrews JR, Wilk KE 1994 The Athlete’s Shoulder. New York: Churchill Livingston. Ballantyne BT, O'Hare SJ, Paschall JL, Pavia-Smith MM, Pitz AM, Gillon, JF, Soderberg GL. 1993 Electomyographic activi- ty of selected shoulder muscles in commonly used therapeutic exercises. Physical Therapy. 73(10) October: 668-681 Bouffard JA, Lee S, Dhanju J 2000 Ultra- sonography of the shoulder. Seminars in Ultrasound, CT and MRI. 21(3): 164-191 Clark JM, Harryman DT, 1992 Tendons ligaments and capsule of the rotator cuff - gross and microscopic anatomy. Journal of Bone and Joint Surgery. 74A(5): 713-725 Greis PE, Kuhn JE, Schultheis J, Hintermeister R, Hawkins R 1996 Validation of the Lift-off Test and Analysis of Subscapularis Activity During Maximal Internal Rotation. The American Journal of Sports Medicine 24 (5): 589-5 93 Itoi E, Minagawa H, Sato T, Sato K, Tabata S 1997 Isokinetic Strength after Tears of the Supraspinatus Tendon. The Journal of Bone and Joint Surgery 79B(1) January: 77-82 Itoi E, Kido T, Sano A, Urayama M, Sato K 1999 Which is More Useful, the “full can” test or the “empty can” test in Detecting the Torn Supraspinatus Tendon? The American Journal of Sports Medicine 27(1): 65-68 Jobe FW, Moynes, DR 1982 Delineation of diagnostic criteria and a rehabilitation pro- gramme for rotator cuff injuries. The American Journal of Sports Medicine 10(6): 336-339 Kelly BT, Kadrmas WR, Speer KP 1996 The Manual Muscle Examination for Rotator Cuff Strength. The American Journal of Sports Medicine 24(5): 581-588 Rowe CR 1988 The Shoulder. New York: Churchill Livingstone Thompson WA, Debski RE, Boardman ND, Taskiran E, Warner JJP, Fu FH, Woo SL 1996 A Biomechanical Analysis of Rotator Cuff Defi- ciency in a Cadaveric Model. The American Journal of Sports Medicine 24(3): 286-292 JRLSEP2006 Web 31/8/06 10:53 am Page 10 SA JOURNAL OF PHYSIOTHERAPY 2006 VOL 62 NO 3 11 Appendix A: Questionnaire RELIABILITY OF ROTATOR CUFF MUSCLE DIAGNOSTIC TESTS Please answer each question by drawing a circle (O) around a number in a shaded box or by writing your answer into the shaded space provided Patient number 1. What is your age in completed years? 2. What is your gender? Male 1 Female 2 3. Have you injured a shoulder prior to this visit? Left shoulder 1 Right shoulder 2 Left and Right shoulder 3 4. Which shoulder is painful now? Left 1 Right 2 5. Are you on medication for the present shoulder pain? Yes 1 No 2 6. If you answered “Yes” in Question 5 above, what medication are you using? Pain killers 1 Anti-inflammatory 2 Pain killers and anti-inflammatory 3 7. Do you experience loss of function? Yes 1 No 2 8. If you answered “Yes” to Question 7 above, please indicate the area of dysfunction. Sleeping 1 Dressing 2 Lifting of arm above the shoulder 3 Other (specify): 9. Which hand is your dominant hand? Left 1 Right 2 V7 10 V8 11 V9 12 V10 13 V11 14 V12 15 V13 16 V6 9 V5 8 V4 7 V3 6 V2 4 V1 1 JRLSEP2006 Web 31/8/06 10:53 am Page 11 12 SA JOURNAL OF PHYSIOTHERAPY 2006 VOL 62 NO 3 V14 17 V15 18 V16 19 V17 20 V18 21 V19 22 V20 23 V21 24 V22 25 V23 26 V24 27 V25 28 V26 29 V27 30 V28 31 V29 32 V30 33 V10 34 V11 35 V33 36 V34 37 V35 38 V36 39 V37 40 V39 41 V39 42 V40 43 MANUAL MUSCLE TESTS 10. Empty Can - Manual Strength Left 4 3 2 1 0 Strength Right 4 3 2 1 0 Pain Left 4 3 2 1 0 Pain Right 4 3 2 1 0 11. Full Can - Manual Strength Left 4 3 2 1 0 Strength Right 4 3 2 1 0 Pain Left 4 3 2 1 0 Pain Right 4 3 2 1 0 12. Lift off - Manual Strength Left 4 3 2 1 0 Strength Right 4 3 2 1 0 Pain Left 4 3 2 1 0 Pain Right 4 3 2 1 0 13. External Rotation - Manual Strength Left 4 3 2 1 0 Strength Right 4 3 2 1 0 Pain Left 4 3 2 1 0 Pain Right 4 3 2 1 0 14. Doctor’s diagnosis - Muscles Muscle Normal Abnormal Supraspinatus 1 2 Subscapularis 1 2 Infraspinatus 1 2 15. Doctor’s diagnosis - Tear thickness Muscle Full tear Partial tear No tear Supraspinatus 1 2 3 Subscapularis 1 2 3 Infraspinatus 1 2 3 16. Doctor’s diagnosis - Calcification/Tendinopathy Muscle Calcification Tendinopathy Both None Supraspinatus 1 2 3 4 Subscapularis 1 2 3 4 Infraspinatus 1 2 3 4 17. Doctor’s diagnosis SASD Bursa Normal 1 Bursitis 2 18. Doctor’s diagnosis Acromio-humeral distance Greater than 11mm 1 8mm to 11mm 2 Less than 8mm 3 Thank you for your co-operation JRLSEP2006 Web 31/8/06 10:53 am Page 12