Document Type : Original Article
Authors
1 Department of orthopedic-EL Fayoum general hospital
2 Department of Orthopedic Surgery Faculty of Medicine AL-Azhar University
Abstract
Keywords
INTRODUCTION
The shoulder joint is one of the body's most flexible joints, this mobility that contributes to the high incidence of injury and degenerative pathology of the joint.1
Rotator cuff tendinopathy is one of the most common causes for shoulder pain however; the sub acromial bursa is a common cause of pain also and may contribute to the development of supraspinatus tendinopathy.2
Tendinopathies and partial tears are often difficult to differentiate between, so care must be taken in the physical examination.3 Pain is the major presenting symptom of rotator cuff tendinopathy, Other signs may be weakness and/or pain on movement, particularly in overhead actions like reaching, throwing a ball, or swimming and also during rotation of the arm at the shoulder joint.4
MRI is the main noninvasive investigatory module used for diagnosis.5
The ultimate goal of any therapeutic intervention for shoulder pain is the
restoration of paināfree function.6 Different modules of treatment are used such as:
physiotherapy7, non-steroidal anti-inflammatory drugs (NSAIDs)6, nitric oxide (NO)
therapy8, Hyperthermia9, Stem cell injection10, Corticosteroid injection11 and platelet- rich plasma (PRP) injection.12
A blood derivative with a platelet concentration higher than that of entire blood, platelet-rich plasma (PRP), becomes a recent regenerative therapy to tissue damage and deterioration. The use of PRP in the management of tendinopathy and a growing number of randomized controlled trials (RCTs) examining the efficacy of PRP in the management of tendinopathy are of widespread interest.13
The present work aimed to assess the efficacy of platelet rich plasma injection in the treatment of rotator cuff tendinopathy.
PATIENT AND MATERIALS
This study was approved by the Ethical Committee of Al-Azhar University. From September 2018 till March 2020, 20 patients who underwent single PRP injection in sub- acromial space at Alazhar university hospitals were followed prospectively after 6 months (mean age, 44.9. age range, 20–61 years; 13 females and 7 males).
Inclusion criteria: Supraspinatus tendinopathy including small partial tear of supraspinatus tendon and patients not responding to NSAIDS and physiotherapy.
Exclusion criteria: Frozen shoulder, or severe shoulder arthritis, sub acromial impingement due to a bony cause, prior shoulder joint operation, rotator cuff tendon calcification and severe medical comorbidities such as malignant neoplasms, dyscrasia of the blood and severe infection.
All patients were examined generally and locally and shoulder plain radiograph, and MRI were done for all of them. Pre injection and post injection visual analogue scale (VAS) and constant Murley score were obtained to assess pain and function. Patient counseling was a crucial part of the procedure and written consent was acquired from every patient.
Preparation of Platelets rich plasma and injection technique: Under closed system blood withdrawal technique, 30 ml volume of autologous blood became taken from every sufferer onto 4 vacutainer tubes, each one comprising 1 ml anticoagulant citrate dextrose solution (ACD). In order to obtain the baseline entire blood platelets and leukocytes (WBC) value, an extra 2 mL of entire blood became collected into the ethylenediaminetetraacetic acid (EDTA) tube. PRP became prepared accordingly to a protocol for double-centrifugation.
First centrifugation: Using a laboratory centrifuge, separation of blood cell components has been carried out. The tubes became centrifuged for 6 mins at room temp at 1400 G, leading to two fundamental elements: the lower fraction blood cell component (BCC) and the upper fraction serum component (SEC).
Second centrifugation: Six mm under the line separating the BCC from the SEC, a mark was made. All contents over this point were pipetted to raise the overall quantity of platelets obtained for the second centrifugation and transfer without anticoagulant to one other 5 ml vacutainer tube. The specimen had been then centrifuged once more for 2 min at 4000 G, leading to two components: SEC and PRP. The PRP was separated from the SEC (approximately 4 cm). One ml sample was used for platelets count after the preparation of PRP. For best results, it should be 3-6 folds of platelets count of whole blood. Activation of PRP was done immediately before injection by adding calcium chloride 0.1 ml for every 1ml of PRP.
Injection technique: After Skin dis-infection with betadine, the patients were seated with his arm in the modified crass position. Identifying the spine of the scapula by palpation and follow it laterally to reach the acromion process. Using the postero- lateral approach a sterile needle of 5-ml. syringe was inserted percutaneously, 4 milliliters of PRP with concurrent usage of one ml of local anesthetic, was administered in the sub-acromial space.
Post –injection protocol: Acetaminophen was only allowed as an analgesic after injection.
The patients were advised to carry out a sluggish, un-resisted range of movement for 2 days after the injection. The sufferer started a band-resistant series of motion exercises in abduction, flexion, and internal and external rotation starting on the third day after the injection. Gradual return to activity.
Statistical Methods: Microsoft Excel software is used to codify, enter and analyse data collected through history, basic clinical evaluation, lab tests and result measures. Data was then imported into the analysis software Statistical Package for Social Sciences (SPSS version 20.0). Depending on the type of qualitative data, the quantitative continuous group represents a mean ± SD as a number and percentage.
RESULTS
The mean score of VAS before injection was (5.5±0.83) and mean pain was (7.75±1.3), mean ADL was (15.1±1.8), mean ROM was (30.6±2.5), mean strength, and mean strength was (13.45±2.4) mean total constant score was (66.9±5.4). (Table 1).
|
Variables |
Mean |
SD |
Range |
|
Pre injection |
|||
|
VAS score |
5.5 |
0.83 |
4-7 |
|
Pain |
7.75 |
1.3 |
5-10 |
|
ADL |
15.1 |
1.8 |
12-18 |
|
ROM |
30.6 |
2.5 |
26-34 |
|
Strength |
13.45 |
2.4 |
10-18 |
|
Constant |
66.9 |
5.4 |
59-78 |
Table 1: Description of VAS and constant score pre injection.
After 6 months follow up the mean VAS score was (5.35±1.5) and mean pain was (8.6±3.2), mean ADL was (15.2±3.1), mean ROM was (31±4.4), mean strength was (14±3.5), and mean total constant score was (68.8±12.7) (Table 2).
|
Variables |
Mean |
SD |
Range |
|
After 6 m |
|||
|
VAS score |
5.35 |
1.5 |
4-8 |
|
Pain |
8.6 |
3.2 |
4-14 |
|
ADL |
15.2 |
3.1 |
10-18 |
|
ROM |
31 |
4.4 |
20-36 |
|
Strength |
14 |
3.5 |
9-20 |
|
Constant |
68.8 |
12.7 |
48-84 |
Table 2: Description of VAS and constant score after 6 months.
The results showed that there was no statistical significant improvement at end of treatment with p-value >0.05 in VAS score follow up. Table (3)
|
Follow up |
VAS score |
p-value |
Sig. |
|
|
Mean |
SD |
|||
|
Pre injection |
5.5 |
0.83 |
0.92 |
NS |
|
After 6 m |
5.35 |
1.5 |
||
Table 3: Comparison of VAS score follow up among study group
In addition, there was no statistical significant improvement at end of treatment with p-value >0.05 in total constant score follow up. Table (4)
|
Follow up |
Total constant score |
p- value |
Sig. |
|
|
Mean |
|
|||
|
Pre injection |
66.9 |
5.4 |
0.81 |
NS |
|
After 6 m |
68.8 |
12.7 |
||
Table 4: Comparison of total constant score follow up among study group
DISCUSSION
An important source of joint pain in the shoulder and a major cause of disabilities and work losses is rotator cuff tendinopathy (RCT). It becomes a common disease, with its incidence rising with age.2 There is a multifactorial origin of rotator cuff tendinopathy. Extrinsic elements, such as anatomical problems and changes in the kinematics of the joint or intrinsic elements, such as age-related degenerative alterations and vascular alterations, can play a function in the development of the RCT. The underlying mechanisms may differ between younger and older patients14
Platelets rich plasma (PRP) is a plasma cellular component acquired through centrifugation of entire blood and has a better platelet concentration than entire blood. This involves different growth factors, which may play a position in the regeneration of tissues.15
Despite several researches in the literary works investigating PRP management for the treatment of chronic tendinopathy, there is controversial proof thus far displaying the benefits of PRP injections.
An important source of joint pain in the shoulder and a major cause of disabilities and work losses is rotator cuff tendinopathy (RCT). It becomes a common disease, with its incidence rising with age.2 There is a multifactorial origin of rotator cuff tendinopathy. Extrinsic elements, such as anatomical problems and changes in the kinematics of the joint or intrinsic elements, such as age-related degenerative alterations and vascular alterations, can play a function in the development of the RCT. The underlying mechanisms may differ between younger and older patients14
Platelets rich plasma (PRP) is a plasma cellular component acquired through centrifugation of entire blood and has a better platelet concentration than entire blood. This involves different growth factors, which may play a position in the regeneration of tissues.15
Despite several researches in the literary works investigating PRP management for the treatment of chronic tendinopathy, there is controversial proof thus far displaying the benefits of PRP injections.
Further trials with a greater numbers of sufferers and longer follow-up times are required.
CONCLUSION
At 6 months follow-up, a single injection of PRP in sub acromial space for the treatment of RC tendinopathy showed no significant improvement at reducing pain or improving function.
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