Study Results
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Basic Information
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COMPLETED
NA
44 participants
INTERVENTIONAL
2020-12-30
2021-06-30
Brief Summary
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Detailed Description
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According to Johnston County Osteoarthritis Project prevalence of symptomatic knee OA was recorded to be 16% and 28% for radiographic knee OA. Kellgren-Lawrence classified knee osteoarthritis based on the appearance of osteophytes in knee AP radiographs. Grades 0-4 were assigned with \>2 indicating radiographic OA. Pain and stiffness are significant clinical features of OA which leads to reduced physical function while articular cartilage degeneration is considered to be important pathological feature of OA. Genetic factors, age-related physiological changes and biomechanical factors are considered risk factors of osteoarthritis. Several studies shows that increased age and BMI increases the risk of knee osteoarthritis. One of the important factors in knee osteoarthritis is being overweight.Physical inactivity is also associated with osteoarthritis. Most notable symptom of osteoarthritis is pain which is also determining factor of disability in patients with osteoarthritis. Pain increases physical inactivity which leads to increased body weight and eventually predispose the person to osteoarthritis.Quadriceps weakness may contribute to prompt clinical finding of knee osteoarthritis. Pain of osteoarthritis may causes reduced quadriceps strength. However some studies reveal that quadriceps weakness plays as a risk factor for knee osteoarthritis especially in females. Reduced muscle strength was reported in 24% of patients with Kellgren-Lawrence grade II knee OA. It is widely accepted that among the patients with knee osteoarthritis quadriceps weakness is caused by muscle atrophy which reduces muscle strength. It is reported that age-related quadriceps weakness is linked with functional limitations and increased rate of falling among elders.
Treatment options for osteoarthritis include pharmacological and non-pharmacological methods. The primary goal of these treatments is to relieve joint pain and improve functional quality of life. Non-steroidal anti inflammatory (NSAIDS) are used widely but their use is now limited due
to high frequency of side effects specially side effects of gastrointestinal tracts.Therefore non-pharmacological treatment is preferred for elderly patients. Non-pharmacological treatment includes weight reduction, manual therapy, strengthening exercises, electrical stimulation, ultrasound, interferential current and laser therapy.
Low level laser therapy (LLLT) is non-invasive and painless modality used for the treatment of knee osteoarthritis. Studies show that it markedly alleviates both acute and chronic conditions such as carpal tunnel syndrome, knee injuries, low back pain, chronic arthritis and rheumatoid arthritis. Due to its stimulatory effect on tissue metabolism and ability to regulate the inflammatory effect after knee injuries, LLLT is considered as a favorable therapeutic modality for OA. It is reported that LLLT was effective for fibroblast and osteoblast proliferation, bone regeneration, collagen synthesis, cellular oxygenation and release of neurotransmitters linked with pain modulation.
Evidence shows that regular physical activity reduces pain and improves physical function among the patients with knee OA. However being inactive and disuse of affected limb may disturbs joint mechanics leading to softening of articular cartilage which leads to rapid degeneration of cartilage. This study will focus on additive effects of LLL therapy on knee OA patients for improving pain and function. This study will provide an insight in traditional methods that are used in OA patients.
3\. LITERATURE REVIEW: Osteoarthritis is the most common form arthritis which is overall ranked among 50 common sequelae of injuries and diseases. Almost 250 million people or 4% of the world's population is affected by osteoarthritis. It is generally divided into primary OA and secondary OA. Etiology of primary OA is not clear but some factors such as genetic factor, ethnicity, age related changes and biomechanical factors play an important role. Post traumatic, dysplastic, infectious, inflammatory or biomechanical etiologies are common cause of secondary OA.
Females are more affected with hand, feet and knee OA. Women are more subjected to severe knee OA than men especially after menopause due to the role of estrogen. Oestrogen unmasks the symptoms of OA by increasing pain sensitivity(1). According to a study male to female ratio affected by OA in Pakistan is 3:8.
Most significant symptom of knee OA is pain leading to increased physical inactivity which increases body weight and predispose the person to OA. Obesity is also a risk factor for developing knee OA.
Pain in knee OA also reduces strength in quadriceps muscle. Quadriceps weakness in OA may be associated with the action of quadriceps during gait. Shock absorption at the knee is provided by eccentric contraction of quadriceps. The spontaneous loading at the knee resulting from inability to compensate the large compressive forces leads to quadriceps weakness and osteoarthritic changes.
A number of evidence shows that exercise reduces the symptoms of OA and improves the knee joint function. However the most advantageous type or combination of exercises is uncertain. Physical inactivity and disuse of the affected limb result in loss of flexibility around knee joint leading to impaired joint mechanics and increased clinical findings of pain. Participation in physical activity and exercise has been recorded to improve joint function and beneficial for the treatment of knee OA.
Physical therapy interventions for knee OA include electrical stimulation, manual therapy, strengthening exercises, ultrasound, interferential current therapy, laser therapy and orthotic devices. Low level laser therapy (LLLT) has been widely used for relieving pain in many
musculoskeletal disorders. It has been considered as non-invasive and safe treatment for knee OA due its stimulatory effect on tissue metabolism and ability to regulate inflammatory process after injury Osteoarthritis is more common in females as compared to males. Pain, joint stiffness and reduced physical activity are prominent symptoms of knee OA. Genetic factors, reduced BMI, overweight, age related physical changes and quadriceps weakness are considered risk factors for knee OA. Physical inactivity disturbs the knee biomechanics and increases the symptoms of knee OA. Studies show that exercise helps to improve the symptoms of knee OA and enhance physical function. Low level laser therapy is non-invasive and painless therapeutic modality used for treating knee OA. Evidence proves that LLLT helps in relieving pain of OA and improving microcirculation due to its stimulatory effect on tissue metabolism.
Conditions
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Study Design
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RANDOMIZED
PARALLEL
TREATMENT
SINGLE
Study Groups
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Low level Laser Therapy
Low Level Laser Therapy and Conventional Exercise therapy
Low level laser therapy
* Gallium aluminium arsenide laser device will be used with wavelength of 850nm, power 100 mW, spot size of 1.0 mm and energy of 6J/point for 60seconds. Total 8 points will be irradiated. It will take 20 minutes.
* Patient will receive treatment in supine position with the affected knee(s) slightly flexed supported by the pillow or rolled towel.
* On the affected knee the laser probe will placed with full contact with skin at 8 points. Three points at medial side of the knee, three points at lateral side and two points at the medial edge of the bicep femoris muscle tendon and semitendinosus muscle tendon in the popliteal fossa
Conventional Exercise Therapy
1. Quadriceps isometric strengthening exercises.
2. Range of motion and active stretching exercises applied to hamstring and quadriceps muscle.
3. Hamstring muscle isometric exercises
4. Active ankle pump.
5. Short arc terminal extension exercises for the knee joint.
6. Static and dynamic strengthening exercises for the hip abductors, adductors and extensor group of muscles.
7. Non-weight bearing progressive resistance exercises with weighted cuffs, with progression to closed chain exercises as patient's pain allows.
8. Isometric exercises were applied with 6 second contractions and rest period of 2 seconds. Isotonic exercises were started as 10 repetitions with half of weight of 10 RM, 10 repetitions with three fourth of this weight and 10 repetitions with whole 10 RM
Conventional ExerciseTherapy
Conventional ExerciseTherapy
Conventional Exercise Therapy
1. Quadriceps isometric strengthening exercises.
2. Range of motion and active stretching exercises applied to hamstring and quadriceps muscle.
3. Hamstring muscle isometric exercises
4. Active ankle pump.
5. Short arc terminal extension exercises for the knee joint.
6. Static and dynamic strengthening exercises for the hip abductors, adductors and extensor group of muscles.
7. Non-weight bearing progressive resistance exercises with weighted cuffs, with progression to closed chain exercises as patient's pain allows.
8. Isometric exercises were applied with 6 second contractions and rest period of 2 seconds. Isotonic exercises were started as 10 repetitions with half of weight of 10 RM, 10 repetitions with three fourth of this weight and 10 repetitions with whole 10 RM
Interventions
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Low level laser therapy
* Gallium aluminium arsenide laser device will be used with wavelength of 850nm, power 100 mW, spot size of 1.0 mm and energy of 6J/point for 60seconds. Total 8 points will be irradiated. It will take 20 minutes.
* Patient will receive treatment in supine position with the affected knee(s) slightly flexed supported by the pillow or rolled towel.
* On the affected knee the laser probe will placed with full contact with skin at 8 points. Three points at medial side of the knee, three points at lateral side and two points at the medial edge of the bicep femoris muscle tendon and semitendinosus muscle tendon in the popliteal fossa
Conventional Exercise Therapy
1. Quadriceps isometric strengthening exercises.
2. Range of motion and active stretching exercises applied to hamstring and quadriceps muscle.
3. Hamstring muscle isometric exercises
4. Active ankle pump.
5. Short arc terminal extension exercises for the knee joint.
6. Static and dynamic strengthening exercises for the hip abductors, adductors and extensor group of muscles.
7. Non-weight bearing progressive resistance exercises with weighted cuffs, with progression to closed chain exercises as patient's pain allows.
8. Isometric exercises were applied with 6 second contractions and rest period of 2 seconds. Isotonic exercises were started as 10 repetitions with half of weight of 10 RM, 10 repetitions with three fourth of this weight and 10 repetitions with whole 10 RM
Eligibility Criteria
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Inclusion Criteria
* Patients with age 45-65 years
* Patients with knee OA of grade II or III according to Kellgren-Lawrence grade.
* Pain intensity ranging between\> 5 measured by Numeric Pain Rating Scale.
* Patients who had minimum score of 25 on the Western Ontario McMaster Universities Osteoarthritis Index (WOMAC) total score.
* Patients having knee pain for at least 3 months.
Exclusion Criteria
* Patients with symptomatic hip osteoarthritis.
* Patients with knee surgery in last 6 months.
* Patients with complaint of cancer, diabetes, neurological deficit or uncontrolled hypertension
45 Years
65 Years
ALL
No
Sponsors
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Riphah International University
OTHER
Responsible Party
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Principal Investigators
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Saima Zahid, PhD*
Role: PRINCIPAL_INVESTIGATOR
Riphah International University
Locations
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Allied Hospital
Faisalabad, Punjab Province, Pakistan
Countries
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References
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Johnson VL, Hunter DJ. The epidemiology of osteoarthritis. Best Pract Res Clin Rheumatol. 2014 Feb;28(1):5-15. doi: 10.1016/j.berh.2014.01.004.
Alghadir A, Omar MT, Al-Askar AB, Al-Muteri NK. Effect of low-level laser therapy in patients with chronic knee osteoarthritis: a single-blinded randomized clinical study. Lasers Med Sci. 2014 Mar;29(2):749-55. doi: 10.1007/s10103-013-1393-3. Epub 2013 Aug 3.
Akhter E, Bilal S, Kiani A, Haque U. Prevalence of arthritis in India and Pakistan: a review. Rheumatol Int. 2011 Jul;31(7):849-55. doi: 10.1007/s00296-011-1820-3. Epub 2011 Feb 18.
Lawrence RC, Felson DT, Helmick CG, Arnold LM, Choi H, Deyo RA, Gabriel S, Hirsch R, Hochberg MC, Hunder GG, Jordan JM, Katz JN, Kremers HM, Wolfe F; National Arthritis Data Workgroup. Estimates of the prevalence of arthritis and other rheumatic conditions in the United States. Part II. Arthritis Rheum. 2008 Jan;58(1):26-35. doi: 10.1002/art.23176.
Jordan JM, Helmick CG, Renner JB, Luta G, Dragomir AD, Woodard J, Fang F, Schwartz TA, Abbate LM, Callahan LF, Kalsbeek WD, Hochberg MC. Prevalence of knee symptoms and radiographic and symptomatic knee osteoarthritis in African Americans and Caucasians: the Johnston County Osteoarthritis Project. J Rheumatol. 2007 Jan;34(1):172-80.
Kohn MD, Sassoon AA, Fernando ND. Classifications in Brief: Kellgren-Lawrence Classification of Osteoarthritis. Clin Orthop Relat Res. 2016 Aug;474(8):1886-93. doi: 10.1007/s11999-016-4732-4. Epub 2016 Feb 12. No abstract available.
Jackson BD, Wluka AE, Teichtahl AJ, Morris ME, Cicuttini FM. Reviewing knee osteoarthritis--a biomechanical perspective. J Sci Med Sport. 2004 Sep;7(3):347-57. doi: 10.1016/s1440-2440(04)80030-6.
Jarvholm B, Lewold S, Malchau H, Vingard E. Age, bodyweight, smoking habits and the risk of severe osteoarthritis in the hip and knee in men. Eur J Epidemiol. 2005;20(6):537-42. doi: 10.1007/s10654-005-4263-x.
Christensen R, Bartels EM, Astrup A, Bliddal H. Effect of weight reduction in obese patients diagnosed with knee osteoarthritis: a systematic review and meta-analysis. Ann Rheum Dis. 2007 Apr;66(4):433-9. doi: 10.1136/ard.2006.065904. Epub 2007 Jan 4.
Rosemann T, Kuehlein T, Laux G, Szecsenyi J. Osteoarthritis of the knee and hip: a comparison of factors associated with physical activity. Clin Rheumatol. 2007 Nov;26(11):1811-7. doi: 10.1007/s10067-007-0579-0. Epub 2007 Mar 2.
Huang Z, Chen J, Ma J, Shen B, Pei F, Kraus VB. Effectiveness of low-level laser therapy in patients with knee osteoarthritis: a systematic review and meta-analysis. Osteoarthritis Cartilage. 2015 Sep;23(9):1437-1444. doi: 10.1016/j.joca.2015.04.005. Epub 2015 Apr 23.
Alqualo-Costa R, Thome GR, Perracini MR, Liebano RE. Low-level laser therapy and interferential current in patients with knee osteoarthritis: a randomized controlled trial protocol. Pain Manag. 2018 May;8(3):157-166. doi: 10.2217/pmt-2017-0057. Epub 2018 May 3.
Alfredo PP, Bjordal JM, Dreyer SH, Meneses SR, Zaguetti G, Ovanessian V, Fukuda TY, Junior WS, Lopes Martins RA, Casarotto RA, Marques AP. Efficacy of low level laser therapy associated with exercises in knee osteoarthritis: a randomized double-blind study. Clin Rehabil. 2012 Jun;26(6):523-33. doi: 10.1177/0269215511425962. Epub 2011 Dec 14.
Esser S, Bailey A. Effects of exercise and physical activity on knee osteoarthritis. Curr Pain Headache Rep. 2011 Dec;15(6):423-30. doi: 10.1007/s11916-011-0225-z.
Other Identifiers
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REC/RCRS/20/1040 Abeel Ashraf
Identifier Type: -
Identifier Source: org_study_id
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