Osteoarthritis

Course #94954 - $60-


Study Points

  1. Discuss the prevalence of osteoarthritis in the context of demographic variables.
  2. Describe what is known about the etiology and pathogenesis of osteoarthritis.
  3. List the risk factors for the development of osteoarthritis.
  4. Identify the diagnostic criteria for osteoarthritis at various anatomic sites.
  5. Describe the roles of radiography and patient-related factors in the diagnosis of osteoarthritis.
  6. Recommend lifestyle changes and education strategies that should be incorporated into the osteoarthritis treatment plan.
  7. Apply evidence-based guidelines for the appropriate use of oral and topical analgesics to manage osteoarthritis symptoms.
  8. Analyze the appropriateness of intra-articular medications for the treatment of osteoarthritis.
  9. Discuss alternative therapies that lack evidence to support their routine use in the management of osteoarthritis.
  10. Identify operative procedures used to manage osteoarthritis.

    1 . Of the following, secondary osteoarthritis occurs most often in the
    A) hip.
    B) knee.
    C) hand.
    D) shoulder.

    OVERVIEW OF OSTEOARTHRITIS

    Osteoarthritis is classified as primary or secondary. The cause of primary osteoarthritis is idiopathic; no abnormality is the cause of changes in the joint [9]. Secondary osteoarthritis is the result of a known cause, most often trauma/injury or systemic diseases. Secondary osteoarthritis is most often found in the shoulder, elbow, and ankle and is more likely to become clinically apparent at a younger age than primary osteoarthritis [9,30,31,32]. A population-based study showed that secondary osteoarthritis related to trauma accounts for approximately 12% of the overall prevalence of symptomatic osteoarthritis of the knee, hip, or ankle [33]. Injuries sustained in sports activities comprise a large portion of post-traumatic osteoarthritis [34]. A wide variety of systemic diseases have been identified as frequent causes of secondary osteoarthritis; these conditions include metabolic diseases, endocrine disorders, bone dysplasias, and crystal deposition diseases (Table 1) [9,35].

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    2 . Which of the following systemic diseases may be associated with secondary osteoarthritis of the metacarpophalangeal (MCP) joints?
    A) Paget disease
    B) Chondrocalcinosis
    C) Avascular necrosis
    D) Calcium pyrophosphate deposition disease

    OVERVIEW OF OSTEOARTHRITIS

    SYSTEMIC CONDITIONS ASSOCIATED WITH SECONDARY OSTEOARTHRITIS

    DiseaseJoint Affected
    Metabolic Diseases
    HemochromatosisKnee, hip, ankle
    Gaucher diseaseKnee, hip
    Hemoglobinopathies (e.g., sickle cell disease and thalassemia)Knee, hip
    Wilson disease (hepatolenticular degeneration)Knee, hip
    OchronosisKnee, hip
    Ehlers-Danlos syndrome (and other joint hypermobility)Knee, hip
    Avascular necrosisHip, ankle
    Endocrine Diseases
    AcromegalyKnee, hip
    Hypothyroidism (severe stages)Knee, hip
    HyperparathyroidismKnee, hip
    Bone Dysplasias
    Multiple epiphyseal dysplasiaKnee, hip
    Spondyloepiphyseal dysplasiaKnee, hip
    Progressive hereditary arthro-ophthalmopathy (Stickler syndrome)Knee, hip
    Osteo-onychodystrophy (nail-patella syndrome)Knee, hip
    Epiphyses-related conditionsKnee, hip
    Osteochondritis dissecansElbow, ankle
    Calcium Crystal Deposition Diseases
    Calcium pyrophosphate deposition diseaseKnee, hip, MCP joint (especially middle and index fingers)
    Apatite crystal deposition diseaseKnee, hip
    GoutHip
    Other Systemic Diseases
    Neuropathic arthropathy (Charcot joints)Knee, hip
    Paget disease (osteitis deformans)Knee, hip
    OsteopetrosisKnee, hip
    ChondrocalcinosisHip
    MCP = metacarpophalangeal.
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    3 . According to population-based studies, the overall prevalence of symptomatic osteoarthritis of the knee is approximately
    A) 8%.
    B) 12%.
    C) 16%.
    D) 24%.

    OVERVIEW OF OSTEOARTHRITIS

    COMPARISON OF JOINT-SPECIFIC OSTEOARTHRITIS IN MEN AND WOMENa

    JointRadiographic OsteoarthritisbSymptomatic Osteoarthritis
    OverallWomenMenOverallWomenMen
    Knee0.9%1.2%0.4%12.1%13.6%10.0%
    Hip2.5%2.5%2.6%9.7%11.1%8.3%
    Hand7.3%9.5%4.8%8.0%8.9%6.7%
    aThe prevalence of knee and hand osteoarthritis was determined in adults 60 years of age and older, and the prevalence of hip osteoarthritis was determined in adults 55 years of age and older.
    bRadiographic osteoarthritis defined as evidence of moderate-to-severe changes.
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    4 . The primary component of normal adult articular cartilage is
    A) cytokines.
    B) chondrocytes.
    C) proteoglycans.
    D) extracellular matrix.

    OVERVIEW OF OSTEOARTHRITIS

    Normal adult articular cartilage is made up of extracellular matrix (approximately 98% to 99%) and chondrocytes (1% to 2%) [75]. The chondrocytes secrete enzymes and cytokines that help regulate the normal cycle of degradation and repair of articular cartilage by inhibiting the production of proteoglycans and collagen, the two major components of the extracellular matrix [75]. Damage to the extracellular matrix interferes with its ability to bind or exclude water, resulting in edema and subsequent softening of the cartilage and expansion of the matrix, which makes the matrix vulnerable to further injury and breakdown of its components [9,76,77,78].

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    5 . Which of the following is a characteristic of an osteoarthritic joint rather than an aging joint?
    A) Osteopenia
    B) Atrophy of the synovium
    C) Subchondral bone remodeling
    D) Loss of water content in the cartilage

    OVERVIEW OF OSTEOARTHRITIS

    DIFFERENCES BETWEEN OSTEOARTHRITIC JOINTS AND AGING JOINTS

    FeatureOsteoarthritic JointAging Joint
    Fibrillation in cartilagePrimarily weight-bearing jointsNonweight-bearing joints
    Cartilage massHypertrophy, erosionNo change
    Water content of cartilageEdema (early stage)No change or dehydration
    Cell activityIncreased activity and proliferationReduced
    SynoviumMild focal superficial inflammationAtrophy
    Bone changesSubchondral bone remodelingOsteopenia
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    6 . Which of the following statements regarding genetic risk factors for osteoarthritis is TRUE?
    A) Specific genes may be involved with osteoarthritis at specific joints.
    B) There is a strong genetic predisposition for osteoarthritis of the ankle.
    C) Three genes have been confirmed as being responsible for osteoarthritis.
    D) The familial risk factor for osteoarthritis of the knee, hip, and hand has ranged from 70% to 80%.

    RISK FACTORS

    Studies have indicated that there may be a genetic factor to the development of osteoarthritis, and the familial risk factor for osteoarthritis of the knee, hip, and hand has ranged from 27% to 60% [35,57,84]. It is thought that most genes related to osteoarthritis affect the development of the disease at any joint but that specific genes may also be involved at specific joints [35,84]. Over the past several years, a candidate gene study and several genome-wide association studies have collectively established 15 loci associated with knee or hip osteoarthritis that have been replicated with genome-wide significance, providing further evidence of joint-specific effects in osteoarthritis [19,84,85,90,91,92,93,94]. In 2019, researchers performed a genome-wide association study with more than 77,000 participants and identified 64 loci, 52 of them being novel. Of these 64 loci, therapeutics are currently available or in clinical trials for 10 of the effector genes, making them a future prospect for effective treatment of osteoporosis [95]. Despite the increased reports of potential risk loci for osteoarthritis, some research indicates that epigenetic changes may have a role in the pathogenesis of osteoarthritis [96].

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    7 . Which of the following is the most important modifiable risk factor for severe osteoarthritis of the knee?
    A) Trauma/injury
    B) Level of activity
    C) Muscle weakness
    D) Overweight/obesity

    RISK FACTORS

    Clinical studies have long demonstrated that the risk of osteoarthritis is higher for individuals who are overweight or obese, and obesity has been referred to as the most important modifiable risk factor for severe osteoarthritis of the knee and, to a lesser extent, of the hips [9,97,98,99]. In a meta-analysis, those who were obese or overweight were nearly three times as likely to report osteoarthritis of the knee [100]. Overweight as a risk factor is thought to be related to the increased load on weight-bearing joints; however, some studies have indicated an association between obesity and osteoarthritis of the hand and shoulder, which suggests factors other than joint overload [30,36,57]. Factors that have been proposed are a metabolic intermediary (such as diabetes or lipid abnormalities) or an increased production of humoral factors (produced by excess adipose tissue), which alters the metabolism of articular cartilage [9,101].

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    8 . Which of the following is NOT among the general differential diagnosis of osteoarthritis?
    A) Bursitis
    B) Infection
    C) Malalignment
    D) Overuse syndromes

    DIAGNOSIS

    The differential diagnosis of osteoarthritis varies according to the anatomic site as well as such patient-related factors as age, gender, and history (Table 5) [30,32,38,40,170,171,172]. In general, the differential diagnosis includes infection, traumatic injuries, bursitis, other types of arthritis, and overuse syndromes [40]. In addition, clinicians should consider secondary osteoarthritis in patients who have metabolic bone disorders, endocrine diseases, and other systemic conditions, as described earlier [40]. Ancillary testing should be done for patients who have joint pain at night, who have progressive joint pain, or who have a strong family history of inflammatory arthritis [79]. Many features on clinical evaluation and imaging studies are characteristic of osteoarthritis, and some features differ according to joint site (Table 6) [30,31,38,58,171].

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    9 . Ancillary testing should be done for patients who have
    A) joint pain at night.
    B) joint line tenderness.
    C) family history of osteoarthritis.
    D) stiffness of the joint after inactivity.

    DIAGNOSIS

    The differential diagnosis of osteoarthritis varies according to the anatomic site as well as such patient-related factors as age, gender, and history (Table 5) [30,32,38,40,170,171,172]. In general, the differential diagnosis includes infection, traumatic injuries, bursitis, other types of arthritis, and overuse syndromes [40]. In addition, clinicians should consider secondary osteoarthritis in patients who have metabolic bone disorders, endocrine diseases, and other systemic conditions, as described earlier [40]. Ancillary testing should be done for patients who have joint pain at night, who have progressive joint pain, or who have a strong family history of inflammatory arthritis [79]. Many features on clinical evaluation and imaging studies are characteristic of osteoarthritis, and some features differ according to joint site (Table 6) [30,31,38,58,171].

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    10 . The strongest sign of hip osteoarthritis on physical examination is
    A) crepitus.
    B) instability.
    C) gait abnormality.
    D) pain on internal or external rotation.

    DIAGNOSIS

    The strongest sign of hip osteoarthritis on physical examination is pain that is exacerbated by internal or external rotation of the hip with the knee in full extension [38,177]. Other signs include crepitus and gait abnormalities (resulting from alterations in walking to avoid pain) [186]. Deformity and instability are late signs of severe osteoarthritis, but they are uncommon [186]. Both hips should be examined if osteoarthritis is suspected, as the disease occurs bilaterally in approximately 20% of individuals [38].

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    11 . Which of the following statements about diagnosis of osteoarthritis of the hand is TRUE?
    A) Radiographic findings are an established diagnostic criterion.
    B) The joint at the base of the thumb is not usually affected by osteoarthritis.
    C) Osteoarthritis of the hand usually affects all of the joints in one or both hands.
    D) Heberden and Bouchard nodes are the most characteristic clinical finding.

    DIAGNOSIS

    Osteoarthritis of the hand is characterized by pain with use, which affects one or a few joints at any one time, and mild stiffness in the morning and/or after a period of inactivity [178]. The severity of osteoarthritis-related pain varies, and the pain may be intermittent. The joints most often affected are the distal and proximal interphalangeal joints and the base of the thumb [176,177,178]. Individuals who have evidence of osteoarthritis at several joints in the hand are at increased risk for generalized osteoarthritis, and clinicians should evaluate such patients as appropriate [178].

    Osteoarthritis of the hand may be associated with substantial limitations in function, and the clinician should ask the patient whether he or she has difficulty with such tasks as dressing, eating, writing, handling or fingering small objects, and carrying or lifting 10 pounds [44,56]. Several validated questionnaires are available to assess function of the hand, and the choice of questionnaire depends primarily on the clinical question [171]. Individuals with symptomatic osteoarthritis of the hand also may have reduced maximal grip strength [44,56].

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    12 . A hallmark feature of osteoarthritis of the ankle is
    A) pain at rest.
    B) previous infection.
    C) history of ankle fracture.
    D) malalignment of the foot.

    DIAGNOSIS

    A history of ankle fracture or ligamentous injury is a hallmark feature of osteoarthritis of the ankle [32]. Diagnostic evaluation includes radiographs of the ankles made with the patient standing. MRI is also recommended, as it can provide evidence of osteonecrosis as well as indicate the amount of involvement, the extent of bone loss, and the size of subchondral cysts [32].

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    13 . In its guideline for the treatment of osteoarthritis of the knee, the American Academy of Orthopaedic Surgeons recommends achieving and/or maintaining a BMI less than or equal to
    A) 20.
    B) 25.
    C) 30.
    D) 35.

    TREATMENT OPTIONS

    Given the strong correlation between overweight/obesity (defined as a BMI greater than 25) and osteoarthritis of the knee and hip, weight reduction and maintenance of a healthy weight are central to guidelines on the management of osteoarthritis at these sites [185,198,206,223,224]. A systematic review showed that a moderate weight-loss program (0.25% of body weight per week) can reduce pain and physical disability for individuals with osteoarthritis of the knee [225]. In its 2021 guideline for the treatment of osteoarthritis of the knee, the AAOS recommends weight reduction, specifically, achieving and/or maintaining a BMI ≤25 [198].

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    14 . Which of the following is a contraindication to an exercise program for osteoarthritis?
    A) Severe pain
    B) Unstable angina
    C) Age older than 80
    D) Multiple comorbidities

    TREATMENT OPTIONS

    Some patients may fear that regular exercise will exacerbate pain, but a review of the literature has shown that moderate exercise does not increase the risk for progression of osteoarthritis, provided that care is taken to avoid injury [110,227]. The goal of an exercise program is to control pain, increase flexibility, and improve muscle strength and endurance [228]. The exercise program should be individualized to the patient, with consideration given to the patient's age, comorbidities, and mobility [229]. Guidelines suggest that exercise should be prescribed for all patients with osteoarthritis, regardless of age, severity of pain and disability, and comorbidity [199]. The American Geriatric Society notes that absolute contraindications to an exercise program include uncontrolled arrhythmias, third-degree heart block, changes on recent electrocardiography, unstable angina, acute myocardial infarction, and acute congestive heart failure [228]. Relative contraindications include cardiomyopathy, valvular heart disease, poorly controlled blood pressure, and uncontrolled metabolic disease [228].

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    15 . Which of the following statements regarding the pharmacologic treatment of osteoarthritis is TRUE?
    A) No evidence has been found to support the use of capsaicin.
    B) The benefits of opioids for osteoarthritis- related pain outweigh the risks.
    C) Nonsteroidal anti-inflammatory drugs (NSAIDs) should be prescribed at the lowest effective dose.
    D) Cyclooxygenase-2 (COX-2)-selective NSAIDs are more effective than nonselective NSAIDs.

    TREATMENT OPTIONS

    Some guidelines recommended acetaminophen as the initial analgesic for the management of mild-to-moderate pain related to osteoarthritis, but this recommendation has since been shown to be questionable [193]. A comparative effectiveness study conducted by the AHRQ found good evidence that acetaminophen is modestly inferior in efficacy compared with NSAIDs but has a lower risk of gastrointestinal complications [244]. An update to this study found that no currently available analgesic offered a clear overall advantage compared with the others [200]. Its original findings on acetaminophen remained the same, with the addition that acetaminophen poses a higher risk of liver injury [200]. Other research has shown that NSAIDs are more effective than acetaminophen for relieving osteoarthritis-related pain, especially moderate-to-severe pain [245]. The 2021 AAOS guideline provides a strong recommendation for oral acetaminophen to improve pain and function in the treatment of knee osteoarthritis when not contraindicated [198]. The working group noted that when oral acetaminophen was compared to NSAIDs, the use of oral NSAIDs provided a significant reduction in pain and improved function. As a result, providers may consider using oral NSAIDs instead of acetaminophen when a contraindication to oral NSAIDs does not exist [198]. NSAIDs should be prescribed at the lowest effective dose, and their long-term use should be avoided [193]. A COX-2 selective agent or an NSAID with a prescription for a gastroprotective agent (such as a proton-pump inhibitor) may be used for patients who have an increased risk for gastrointestinal complications [193].

    There is good evidence that nonselective NSAIDs and COX-2-selective NSAIDs have comparable efficacy and that COX-2-selective agents are comparable to each other [200,246]. Although COX-2-selective agents have better tolerability in general compared with NSAIDs, there is considerable variability across individual drugs in terms of protection against serious gastrointestinal events [246]. In addition, some COX-2 selective NSAIDs have been associated with an increased risk of myocardial infarction, and these drugs should be used with caution in patients with cardiovascular risk factors [200,246].

    Studies have found that opioids were more effective overall than control interventions with respect to pain relief and improved function, but the beneficial effects were small to moderate and were outweighed by a substantial increase in the risk of adverse events [247,248]. The authors of the review concluded that opioids should not be used routinely for individuals with osteoarthritis, even for severe pain. Some guidelines suggest the use of weak narcotics or opioids for pain that has been refractory to other pharmacologic agents; however, the guidelines note that strong opioids should be used sparingly [193]. The 2021 AAOS guideline on the treatment of knee osteoarthritis emphasizes the importance of removal of oral narcotics from the medications prescribed due to the rise of the opioid epidemic in the United States [198]. The ACR guidelines conditionally recommend against using opioid analgesics for osteoarthritis of the hand [185].

    In reviewing the literature for its guidelines on the treatment of osteoarthritis of the glenohumeral joint, the AAOS was not able to find sufficient evidence to support several pharmacologic treatments, including acetaminophen, NSAIDs, opioids, or narcotics. As a result, the AAOS states it is unable to recommend for or against the use of any of these options for the initial treatment of patients with osteoarthritis of this joint [197].

    Moderate-quality evidence indicates that compared with placebo, tramadol alone or in combination with acetaminophen probably has no important benefit on mean pain or function in people with osteoarthritis, although slightly more people in the tramadol group report an important improvement (defined as 20% or more). Moderate-quality evidence shows that adverse events probably cause substantially more participants to stop taking tramadol. The increase in serious adverse events with tramadol is less certain, due to the small number of events [249].

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    16 . According to the American Academy of Orthopaedic Surgeons, there is insufficient evidence to recommend oral analgesics for osteoarthritis of the
    A) hip.
    B) ankle.
    C) elbow.
    D) shoulder.

    TREATMENT OPTIONS

    In reviewing the literature for its guidelines on the treatment of osteoarthritis of the glenohumeral joint, the AAOS was not able to find sufficient evidence to support several pharmacologic treatments, including acetaminophen, NSAIDs, opioids, or narcotics. As a result, the AAOS states it is unable to recommend for or against the use of any of these options for the initial treatment of patients with osteoarthritis of this joint [197].

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    17 . Guidelines recommend intra-articular corticosteroids for hip and knee osteoarthritis, especially for patients with
    A) osteophytes.
    B) loose bodies.
    C) persistent stiffness.
    D) joint effusion when oral and topical treatments are contraindicated or ineffective.

    TREATMENT OPTIONS

    Certain guidelines conditionally recommend intra-articular injection of corticosteroids into the knee or hip, especially after aspiration of fluid in patients who have signs of local inflammation with joint effusion [9,185,206]. For example, the ACR recommends this therapy for knee and hip osteoarthritis if the patient does not have satisfactory response to acetaminophen and topical NSAIDs and if there is a contraindication to oral NSAIDs. The AAOS provides a moderate recommendation for the use of intra-articular corticosteroid therapies. Extended release agents are recommended over immediate release to improve patient outcomes [198].]. Although the approach is otherwise widely recommended, it is acknowledged that intra-articular corticosteroids provide short-term relief only [35,253,254]. A meta-analysis of 28 trials (1,973 patients) of knee osteoarthritis showed a benefit of pain relief for two to four weeks, with no benefit in terms of functional improvement and no benefit in either pain or function beyond four weeks [253]. An update to the meta-analysis, which included 27 trials (1,767 patients), found that the overall quality of the evidence did not clearly support a benefit of intra-articular corticosteroid use after one to six weeks [254]. Despite the short-term benefit found in most studies, clinical experience has shown longer relief in many patients [35]. Because of the potential side effects of intra-articular injections, which include long-term damage to joint cartilage, flare after injection, and infection, most physicians do not recommend more than three to four injections per joint per year [9,35]. Intra-articular injection is more technically difficult in the hip joint than in the knee, and radiographic or ultrasonographic guidance has been suggested, although there are no comparative data to provide evidence that accuracy is increased with such guidance [9,223].

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    18 . Studies have shown that intra-articular corticosteroids provide pain relief for up to
    A) four weeks.
    B) eight weeks.
    C) three months.
    D) six months.

    TREATMENT OPTIONS

    Certain guidelines conditionally recommend intra-articular injection of corticosteroids into the knee or hip, especially after aspiration of fluid in patients who have signs of local inflammation with joint effusion [9,185,206]. For example, the ACR recommends this therapy for knee and hip osteoarthritis if the patient does not have satisfactory response to acetaminophen and topical NSAIDs and if there is a contraindication to oral NSAIDs. The AAOS provides a moderate recommendation for the use of intra-articular corticosteroid therapies. Extended release agents are recommended over immediate release to improve patient outcomes [198].]. Although the approach is otherwise widely recommended, it is acknowledged that intra-articular corticosteroids provide short-term relief only [35,253,254]. A meta-analysis of 28 trials (1,973 patients) of knee osteoarthritis showed a benefit of pain relief for two to four weeks, with no benefit in terms of functional improvement and no benefit in either pain or function beyond four weeks [253]. An update to the meta-analysis, which included 27 trials (1,767 patients), found that the overall quality of the evidence did not clearly support a benefit of intra-articular corticosteroid use after one to six weeks [254]. Despite the short-term benefit found in most studies, clinical experience has shown longer relief in many patients [35]. Because of the potential side effects of intra-articular injections, which include long-term damage to joint cartilage, flare after injection, and infection, most physicians do not recommend more than three to four injections per joint per year [9,35]. Intra-articular injection is more technically difficult in the hip joint than in the knee, and radiographic or ultrasonographic guidance has been suggested, although there are no comparative data to provide evidence that accuracy is increased with such guidance [9,223].

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    19 . Which of the following herbal products has proof of effectiveness in the treatment of osteoarthritis?
    A) Ginger
    B) Tumeric
    C) Vitamin E
    D) None of the above

    TREATMENT OPTIONS

    In a systematic review undertaken to evaluate the effectiveness of 22 herbal medicinal products, there was some evidence of pain relief with topical capsaicin, avocado-soybean unsaponifiables, and SKI306X (a Chinese herbal mixture). However, none of the 22 products had proof of effectiveness beyond doubt [277]. According to a review of studies involving antioxidant and anti-inflammatory supplements, the following cannot be recommended for the treatment of osteoarthritis: vitamin E (alone); a combination of vitamins A, C, and E; ginger; turmeric; omega-3 fatty acids; or Zyflamend (an extract of 10 different herbs) [278]. Additional clinical trials are needed before alternative supplements can be recommended.

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    20 . Which of the following statements regarding the surgical treatment of osteoarthritis is TRUE?
    A) Total arthroplasty of the elbow should be reserved for older patients.
    B) Arthroscopic treatment is not recommended for osteoarthritis of the shoulder.
    C) The benefit of arthroplasty of the hip may be better when it is done later in the course of disease.
    D) Gender-specific prostheses have been shown to improve outcomes in women undergoing total knee arthroplasty.

    TREATMENT OPTIONS

    Because there are anatomic differences in joint structure and size between men and women, a gender-specific knee prosthesis was designed specifically for women [287]. Researchers believed that the better fit would lead to improvements in recovery and outcomes for women who had total knee arthroplasty. In one study, 85 women who received a standard joint in one knee and the gender-specific joint in the other knee were followed up for two years after the surgery [287]. Patient satisfaction, range of motion while lying, and WOMAC scores were similar for both prostheses. The researchers did note that the standard prostheses appeared to fit at the distal part of the femur better than the gender-specific type; furthermore, the small size of the gender-specific prosthesis exposed more bone and resulted in more bleeding immediately after surgery. Although the study concluded that there were no benefits to the use of gender-specific prostheses in women undergoing total knee arthroplasty, research evaluating long-term effects is necessary.

    Postoperative rehabilitation is a necessary component of recovery after operative treatment of osteoarthritis and requires cooperation of the entire multidisciplinary team. In the case of total knee arthroplasty, patients should be guided on a postoperative exercise and rehabilitation plan that focuses on obtaining an acceptable level of joint function, range of motion, and quality of life (e.g., ability to perform activities of daily living unassisted). In some cases, a continuous passive motion device may be used. This device has been suggested as a means to obtain greater range of motion more quickly after surgery [288]. While this may be the case, no long-term benefits (e.g., ultimate range of motion) have been definitively proven, and evidence on the short-term effects are conflicting [286,288,289]. It is not a recommendation of the AAOS or the ACR at this time.

    In general, the institution of a structured exercise plan, guided by the physician and physical therapist, will assist patients in regaining range of motion and return to performing daily activities. A daily physical therapy program after total knee arthroplasty should continue for four to six weeks, at which point the patient's needs will be reassessed. According to one study, the greatest improvements in lower-extremity functional status after total knee arthroplasty were demonstrated in the first 12 weeks, with little improvement noted after 26 weeks [290]. By the end of physical therapy, the patient should be able to perform activities of daily living and progress to ambulating on flat surfaces and stairs. Strengthening and stretching exercises focusing on the hamstrings and quadriceps should be incorporated into the program.

    There is some debate regarding the importance of supervised outpatient physical therapy compared with exercise programs carried out in the patient's home. One meta-analysis of 10 randomized controlled trials found that supervised physical therapy provided no benefits for patients who were younger at the time of surgery and had few or no comorbidities [291]. However, the researchers noted that there is a lack of evidence regarding the use of outpatient physical therapy for older patients with comorbidities and those who have undergone more complicated surgeries.

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