Tag Archives: Arthritis

Physical Therapy for Arthritis Pain

How Physical Therapy Manages Arthritis Pain

Physical Therapy for Arthritis Pain

Dealing with arthritis pain can significantly affect your lifestyle. However, physical therapy for arthritis can help you manage your symptoms and help you do your daily activities.

Regardless of whether you’re dealing with Rheumatoid Arthritis or Osteoarthritis, physical therapists are uniquely qualified to help patients reduce pain, improve mobility, and boost overall functionality.

Your physical therapist will customize a treatment plan designed for your needs. They will direct you on safe and efficient exercises for arthritis management, with a focus on your affected joints and muscles.

Moreover, they will teach you the correct exercise techniques, the use of assistive devices if necessary, and how to adjust activities to prevent further joint damage.

What Are the Key Benefits to Managing Arthritis Pain?

Some notable benefits of physical therapy for arthritis include:

  • Alleviating pain and inflammation: Physical therapists use modalities like heat, ice, ultrasound, and electrical stimulation to relieve pain and reduce joint inflammation. These methods increase blood flow, promote healing, and decrease discomfort.
  • Enhancing joint mobility and flexibility: Arthritis often leads to stiffness and restricted movement. Physical therapists may prescribe exercises and stretches to improve joint mobility and flexibility. By strengthening the muscles around the affected joint, we can help restore function and improve movement.
  • Strengthening muscles and boosting endurance: Weak muscles can exacerbate arthritis symptoms and add stress to the joints. Physical therapy includes targeted exercises to strengthen the muscles around the affected joints, providing better support and stability, reducing pain, and improving overall function.

3 Great Physical Therapy Techniques for Arthritis

Here are a few physical therapy techniques that can ease your arthritis:

  • Manual therapy techniques: This involves hands-on manual adjustments made by a physical therapist. This includes joint mobilizations, soft tissue mobilizations, and manual stretching. Manual therapy aids in improving joint function, reducing pain, and increasing range of motion.
  • Therapeutic exercises: These are specific exercises designed to improve strength, flexibility, and endurance. These exercises are customized to your needs and may include low-impact activities like swimming or cycling. They help stabilize joints, improve balance, and alleviate pain and stiffness.
  • Thermotherapy and cryotherapy: These are common modalities in physical therapy. Thermotherapy relaxes muscles, increases blood flow, and reduces pain, while cryotherapy reduces inflammation and numbs the area for pain relief.  Your treatment plan may include one or both of these modalities to help manage your symptoms.

Is Exercise Good for Managing Arthritis Pain?

Yes! You bet it’s good! Here are some great exercises you should try for effective arthritis pain management:

  • Low-impact exercises: Activities such as walking, swimming, cycling, and using an elliptical machine are gentle on the joints and promote cardiovascular health.
  • Range of motion exercises: These exercises aim to improve joint flexibility and reduce stiffness. Gentle stretches, yoga, tai chi, and foam roller exercises help maintain and increase joint mobility.
  • Strengthening exercises: These exercises target the muscles surrounding the affected joints, providing them with increased support. Resistance training with light weights or bands, or using your body weight can help build muscle strength.

It’s crucial to consult with a physical therapist before starting any exercise program. They can provide personalized guidance based on your current fitness level, arthritis severity, and any other health conditions.

How to Safely Exercise with Arthritis

Exercise is a great way to manage arthritis pain. Here are a few tips to keep in mind:

  • Warm-up and cool-down routines: Always warm up your muscles and joints before starting an exercise routine. After exercising, cool down to reduce stiffness and soreness.
  • Use of assistive devices: Depending on the severity of your arthritis, you may need assistive devices to support your joints during exercise. Consult with your physical therapist to determine suitable devices for your needs.
  • Avoid overexertion: Pay attention to your body’s signals and avoid pushing yourself too hard. Start with low-impact activities and gradually increase the intensity and duration per your body’s tolerance.

By following these safety tips, you can exercise with arthritis in a way that aids pain management and improves your overall mobility. Always consult a physical therapist to create a personalized exercise plan tailored to your needs and limitations.

Physical Therapy Appointment

How physical therapy can treat Rheumatoid Arthritis

How Physical Therapy Can Treat Rheumatoid Arthritis

How physical therapy can treat Rheumatoid Arthritis

What is Rheumatoid Arthritis (RA)?

Rheumatoid Arthritis (RA) is a chronic inflammatory and autoimmune disease that has the potential to impact many different joints and organs in the human body. RA can cause inflammation and swelling in the joints. While medications are necessary in most cases to help slow the progression of RA, programs such as physical therapy can relieve the symptoms and improve the overall quality of life when living with RA

How Does RA Happen?

While there are many different types, Rheumatoid Arthritis is the most common form of autoimmune arthritis. This disease occurs because of a faulty immune response that causes the body to attack its tissue. Specifically, RA attacks the lining, or synovium, of a joint, leading to swelling and eventually erosion in the joint itself over time.

While in the early set stages, RA typically affects the smaller joints in your body such as the hand, wrist, and toes. However, as RA progresses, larger joints including the knees, hips, and shoulders along with vital organs such as the heart, lungs, and eyes can also be impacted.

Benefits of Physical Therapy for Rheumatoid Arthritis

While Rheumatoid Arthritis can have an effect on the joints and organs of the body, physical therapy can provide several meaningful benefits. Physical therapy can help ease symptoms and enhance your quality of movement, making everyday life easier for people suffering from RA.

When seeing a physical therapist about pain resulting from RA, a therapist will evaluate your posture, muscle imbalances, and the overall mechanics of your body. They’ll teach you to improve how to move to prevent injury and reduce pain.

Your therapist can also create a customized stretching and exercise plan that helps ease pain, increase your range of motion, and improve your movement patterns.

Things that physical therapy can do to help with RA include:

  • Create a HEP (Home Exercise Program)
  • Improve your overall level of fitness
  • Increase your endurance
  • Help eliminate stiffness in your joints
  • Decrease fatigue
  • Improve your balance and stability
  • Increase coordination

Other Physical Therapy Treatments for Rheumatoid Arthritis

There are passive ways that PT can help with rheumatoid arthritis. A physical therapist performs these treatments.

Massage Therapy
This relaxing treatment can help target specific muscles and release tension. Massage can also stimulate healthy blood circulation and manage stress.
Note that massage therapy is not recommended for painful joints during a rheumatoid arthritis flare-up.

Hydrotherapy
This type of therapy involves submerging the affected area or the whole body into warm water to relieve arthritis pain.
Hydrotherapy can be passive therapy or active therapy. Some physical therapists assist rheumatoid arthritis patients in performing light movements and exercises in the water.

Cryotherapy Therapy
This therapy is performed by putting a cold compress on the affected area to reduce swelling and help alleviate pain.

Heat Therapy
Heat therapy is done by placing a warm towel on the affected area to promote circulation. This therapy may also stimulate blood flow and soothe muscle tension and pain.

Ultrasound
Therapeutic ultrasound uses vibrations from sound waves to reduce stiffness and pain, improving joint function.

For help with your arthritis pain please reach out to a physical or occupational therapist near you.  We can work to manage your symptoms and still keep you doing the activities you love most!

Exercises to Help with Rheumatoid Arthritis

Many people with RA tend to avoid exercise, as they are worried that the activity might worsen their pain. However, exercise is a key treatment to help reduce the disability often associated with RA.

Regular exercise can produce stronger muscles that can better support the joints and improve flexibility which can aid joint function. Regular exercise can also reduce fatigue and boost your mood. Better overall fitness helps prevent heart disease and diabetes, two life-shortening ailments that often accompany RA.

Some low-intensity exercises are recommended for people with rheumatoid arthritis.

Walking
Low-impact and straightforward exercises are great for rheumatoid arthritis. Make sure to start your pace slowly and constantly drink water to stay hydrated. Walking promotes aerobic conditioning and boosts your mood.

Stretching
Stretching can help reduce joint stiffness, promoting flexibility among people with rheumatoid arthritis. Developing a stretching routine may help improve your range of motion. You can start your stretching routine with a warm-up for three to five minutes and proceed with mild stretching. Remember to hold the stretch for 10 to 20 seconds before releasing the stretch. You can repeat each stretch exercise two to three times.

Cycling
Low-impact aerobic exercises like cycling benefit the joints. Cycling may have beneficial effects on your cardiovascular health, which may be at risk when you have rheumatoid arthritis. You can ride a bike outside or cycle on a stationary bike with the supervision of a physical therapist.

Yoga 
Building your strength through these low-intensity exercises may increase your muscle strength and joint flexibility. These activities encourage flowing movements and deep breathing that are also advantageous for balance to avoid falls.

Safety Tips for Exercising with Rheumatoid Arthritis

Exercising is beneficial for RA if you do it safely. Before beginning, consult your physical therapist. They can recommend appropriate exercises and suggest techniques that can subside your pain.

Some safety tips for exercising with RA include:

Make sure to stretch: Warm up before each session and end by cooling down. Stretch all the major muscle groups before working out, especially the joints in your body that are prone to pain and stiffness.

Take it slow:  Start with short workouts, build up your endurance, and work within your limitations. Listen to your body, especially if you are going through a flare-up, and take as many breaks as necessary. Allow yourself plenty of rest between workouts.

Do low-impact exercises:  Low-impact exercises reduce stress and pressure on the joints. These exercises include swimming, walking, cycling, yoga, and many more. Avoid any workouts that cause severe pain or worsen your symptoms.

Here are some helpful hand stretches that you can try.
Patients with RA present differently and may benefit from an appointment with a hand or physical therapist.  Here are some general stretches that may help.
(Images Provided by The Hale Hand Center)

  • Making a Fist
    Start this simple exercise by stretching out your hand with your fingers straight, and then slowly draw them together to form a fist. Make sure that your thumbs are not tucked under your fingers. Hold the fist for a minute and repeat it as many times as you want.

    Rheumatoid Arthritis Stretches  

  • Touching Fingers
    Start by opening your hand again. Move your thumb to touch each finger lightly.

    Hand Stretches for Rheumatoid Arthritis    

  • Lifting Your Fingers
    Place your hand facing down on a flat surface. One by one, slowly lift each of your fingers, starting from your thumb to your pinky. Hold the finger lift for a second or two before lowering it.

    How physical therapy can treat Rheumatoid Arthritis  

  • Stretching Fingers
    You can do this stretch by slowly and gently opening your hand and stretching out your fingers for several seconds. This stretch can strengthen the muscles and reduce the stiffness of finger joints.

For help with Rheumatoid Arthritis, please reach out to a physical or occupational therapist near you. We can work to manage your symptoms and keep you active so you can continue living life to the fullest and doing the activities you love most!

physical therapy near me

arthritis facts

Arthritis: Facing the Facts

arthritis facts

There are several types of arthritis, which can be defined as an inflammation, degeneration, or infection of a joint. Some types of arthritis just affect a few joints and are called oligoarthritis. Others affect many joints in the body and are called polyarthritis. Arthritis can be symmetric, meaning the pain and inflammation is roughly the same on both sides of the body. It can also be asymmetric, affecting just about any joint in the body at any given point in time. This article will talk about several of the major types of arthritis, including osteoarthritis, rheumatoid arthritis, septic (infectious) arthritis, and crystal arthritis (which includes gout).

OSTEOARTHRITIS (OA)

Osteoarthritis (OA) is slowly-developing form of arthritis that can affect nearly every joint and that can affect individuals as they age. Joints that take a lot of pressure or that have repetitive motion are at the greatest risk for OA. The disease can be relatively asymptomatic or severely debilitating, affecting the patient’s ability to participate in activities of daily living.

The primary problems with OA are joint pain and stiffness. Symptoms can affect just one joint or several joints. The pain is worse with movement and relieved by rest. There are three stages of pain. The first is stage 1 (predictable, sharp pain with movement). The second is stage 2 (more constant pain that affects daily activities). The third is stage 3 (constant dull/aching pain with unpredictable sharp flares). The pain is usually worse in the late afternoon and evening but can also be worse after awakening. It may interfere with sleep.

OA can be localized or generalized and can affect one single joint or multiple joints at a time. The joints that are particularly a problem for OA include the knees, hips, interphalangeal (hand) joints, facet joints of the neck and back, first great toe joint, and thumb joints. The other joints are less commonly affected, particularly if they are not moveable joints.

Patients with generalized arthritis usually have the distal interphalangeal joints of the fingers involved, the base of the thumbs, the first great toe joint, the spinal facet joints, knees, and hips. Gradually, more joints become involved and the patient becomes more debilitated. The main clinical marker for OA is Heberden’s nodes, which are hard lumps at the distal finger joints.

Diagnosis of OA

Imaging can help diagnose OA. The best test for osteoarthritis is the conventional x-ray. It allows for detection of the usual features of OA (including osteophyte formation, cysts on the bone, and joint space narrowing). An x-ray, however, isn’t very sensitive and doesn’t often correlate with symptoms.

As to specific joints seen on x-ray, the hands are usually bilaterally and symmetrically involved. The distal interphalangeal joints at the tip of the fingers are characteristically affected. Other joints affected are the other finger joints and the base of the thumb. There is a lot of aching and stiffness of the joints. The patient with Heberden’s nodes has nodal OA. Most individuals with nodal OA are female with a family history of the disease.

Erosive osteoarthritis is a rare but aggressive type of hand OA. There is subacute or insidious pain with soft tissue swelling and numbness of multiple finger joints. There is tenderness, redness, and soft-tissue swelling of the hands that is not seen in ordinary OA. Erosive OA is not connected to generalized OA as it affects mostly the finger joints and spares the thumb and metacarpal phalangeal joints. Erosive OA has a worsened outcome than regular OA and can be seen on x-ray showing joint erosions (wearing down) in up to 8% of patients.

The knee is a common site of OA and the most common cause of lower-limb disability in older adults. It is usually bilateral to some extent. The patellofemoral joint or the medial tibial femoral joint is most affected. Pain from patellofemoral joint OA is made worse by prolonged sitting, standing up from a low chair, and climbing stairs or inclines (coming down often being more painful than going up).

Osteoarthritis of the hip can be seen as increased pain, stiffness, aching sensation, and restricted movement of the hip joint. Pain secondary to hip arthritis is felt in the anterior groin but may involve the upper thigh and buttocks. It commonly radiates down the leg with thigh pain and knee pain common complaints. The pain is made worse by rising from a seated position and during the initial phases of walking.

Facet joint arthritis generally goes along with intervertebral disc degeneration—a term called “spondylosis”. The pain is localized primarily to the lumbar or cervical spine and, in the low back, the pain radiates to the groin, buttock, or thighs, ending at the knees. It is worse in the morning and when active with rotation or bending motions (or with neck rotation and lateral flexion in the neck).

OA can be differentiated from other diseases by clinical history and physical examination. Rarely are things like lab tests and x-ray recommended. The clinical findings are of persistent pain in overused joints, age older than 45 years, and stiffness of less than 30 minutes in the morning. Imaging and lab tests can be done if the person doesn’t meet the obvious clinical features (by history or physical examination). Constitutional symptoms (like weight loss and fatigue) or signs of inflammation of the joint point away from OA and need further evaluation.

Risk Factors for OA

OA has been found to be a complex interaction of many factors, including genetics, mechanical forces, joint integrity, and certain biochemical processes. Genetics is probably the rarest interaction, while things like occupation, aging, trauma, and repetitive movement play a stronger role. These are stronger for the hand and knee and less strong for OA of the hip. Common risk factors include age, being female, being obese, having no osteoporosis, certain occupations, playing certain sports, having an injury, muscle weakness, and proprioceptive deficits. Less common risk factors include genetics, having acromegaly, and having CPPD disease. Advancing age is the strongest risk factor. It occurs in less than 0.1 percent of those under 34 years but is present in more than 80 percent in those older than 55 years.

Previous injury seems to increase the risk of osteoarthritis of the knee and having congenital hip dysplasia enhances the risk of hip arthritis. Long-distance runners have an increased risk of knee injury and knee osteoarthritis. Having an injury during this sport will increase the risk of osteoarthritis of the knee. Knee meniscus injuries are common in OA of the knee. Having an amputation of one leg increases the pressure to the other leg and increases the chances of OA of the unaffected leg. Genetics play a small role in getting osteoarthritis. There is a genetic influence in getting osteoarthritis of the hands and knees.

Treatment of OA

The goals of the treatment of osteoarthritis are to decrease pain, improve function, and modify the process of joint damage. This depends on changing modifiable risk factors as there are no disease-modifying OA drugs. Usually a combination of treatments is recommended. Things like hyaluronic acid injections in the knee are not recommended because they do not work any better than placebo.

The mainstay of treatment for OA is nonpharmacologic interventions. These include weight management, orthotic devices, braces (if necessary). Exercise has been found to be as good as NSAID therapy with strengthening and aerobic exercises good choices. A loss of 10 percent of the body weight will decrease pain by 50 percent with knee arthritis and hip arthritis. Splints and knee braces are good for thumb and knee arthritis, respectively.

Second-line things for osteoarthritis include drugs, such as capsaicin, nonsteroidal anti-inflammatory drugs, duloxetine, and intra-articular corticosteroids. A combination of these can be tried. Duloxetine is also called Cymbalta, which is an SSRI antidepressant that works for arthritic and musculoskeletal pain disorders. If a few joints are affected, a topical NSAID is recommended, with oral NSAIDs used only if topical medications don’t work. Acetaminophen has a risky side effect profile and a negligible effect on OA pain, so it isn’t recommended. Opioids are not recommended as they don’t work well for OA and have a long-term dependence and abuse potential.

Surgery usually means total joint replacement—usually done for advanced hip and knee arthritis. Other surgical options include a partial meniscectomy or debridement of cartilage but these have no clinical benefit over placebo. Hip arthroscopy can be done but may not be beneficial in OA.

RHEUMATOID ARTHRITIS (RA)

RA is a symmetric, inflammatory, peripheral arthritis, affecting many joints. The untreated patient will have degeneration of the cartilage and deformities of the joints in a symmetrical way. The prompt recognition and treatment of the condition with DMARDs, which are disease-modifying antirheumatic drugs, will help manage but will not cure the disease. The presentation in the beginning is similar to other arthritis patients but, over time, there will be distinctive evidence of RA, with joint erosions, extraarticular manifestations, and rheumatoid nodules.

Clinical Findings in RA

The synovial joints are what are affected most in RA. The arthritis is usually symmetrical, leading to destruction of joints secondary to bony and cartilaginous erosion. It starts in the hands and feet and moves centrally so locomotion becomes difficult within 10-20 years after onset. The onset is gradual and involves many joints, although some people will have a single joint involved in the beginning. Systemic symptoms occur in about 33 percent of patients and include muscle aches, low-grade fever, depression, weight loss, and fatigue.

In “classic” RA, the patient has morning stiffness, joint pain, and swelling of joints. The MCP (metacarpophalangeal) joint and the PIP (proximal interphalangeal) joints of the hand are the main joints involved initially; however, a few patients can have thumb, wrist, or metatarsophalangeal (MTP) joint involvement. Eventually other synovial joints of both the upper and lower limbs eventually become affected. Morning stiffness is the most common feature of active RA. It tends to last longer than an hour in RA and less than an hour in people with other inflammatory diseases.

Physical signs and symptoms include joint pain and swelling of the small joints (primarily), plus the typical morning stiffness and decreased grip strength. The spine is usually not involved. There is progressive joint damage and deformities, with loss of physical impairment. Late findings of untreated disease include anemia, rheumatoid nodules, eye inflammation, blood vessel inflammation, neuropathy, and pericarditis.

The hands are typically involved at the MCP and PIP joints. Redness and thickening of the flexor tendons may be seen in the palm; nodules may be seen in these tendon sheaths, causing trigger finger and possible tendon rupture. In established RA, there may be an ulnar deviation of the MCP joints.

The second most common areas of involvement are the wrists. Loss of extension happens early on in the disease process and, later on, there is volar subluxation and radial drift of the wrist. The elbow may become fixed in the flexed position. Olecranon bursitis is very common. Shoulder involvement is a late finding, seen in just half of patients after 15 years.

Lower extremity involvement is usually with the forefoot and ankles. Hip involvement is a late finding. Knee involvement can lead to Baker’s cysts. The MTP joints of the feet are the primary joints in early disease with eventual lateral drift of the toes and plantar subluxation of the metatarsal heads. Heel pain will show itself and the ankle may be swollen. Knee swelling is also common and restriction of flexion can be seen. There will be weakness of the quadriceps muscles.

Lab and Imaging Studies in RA

Lab findings in RA include those things seen in the synovial fluid and blood, indicating that the disease is both local and systemic. Things that are seen include inflammatory joint fluid, anemia of chronic disease, and lab tests that are positive for rheumatoid factor (RF) and ACPA (anti-citrullinated peptide antibodies). About 80 percent of patients will be positive for RA and/or ACPA. About 25 percent will have a positive antinuclear antibody titer.

Plain films can tell a lot about the state or RA. There will be joint space narrowing and bony erosions—especially of the hands and feet. These erosions are cardinal findings in RA. MRI testing is more sensitive in detecting synovial inflammation. It is also more sensitive for bony erosions than plain films. Ultrasound is also sensitive for detecting joint inflammation. Doppler ultrasound is nearly as good as an MRI and is cheaper than the MRI examination.

Evaluation of Suspected RA

This disease is usually present in adults and the main finding will be inflammatory polyarthritis. The affected person will have joint pain and at least thirty minutes of stiffness in the morning. Peripheral joints tend to be prominently involved. Symptoms lasting less than six weeks might be a viral polyarthritis instead of RA. In such patients, an anti-cyclic citrullinated peptide (CCP) antibody titer, rheumatoid factor, and acute phase reactants can be done. It may take many visits to get a clear diagnosis.

The examination includes a thorough joint evaluation, expecting symmetric polyarthritis, limited ROM of the muscles, and some extraarticular findings, like rheumatoid nodules. The lab tests will often include an RF and anti-CCP antibodies as a positive result that will increase the chances of it being RA. In an initial evaluation, however, these will be positive only in 50 percent of patients with early disease.

Other tests that are done include the ANA titer (which can exclude lupus and other rheumatic diseases). The ANA titer, however, will be positive in a third of RA patients so follow-up testing, like the anti-dsDNA and the anti-Smith antibody test should be done as these are highly specific for lupus. The CBC is done to check for anemia of chronic disease, liver and kidney function tests are done, and a serum uric acid level is drawn.

Baseline plain x-ray will be done of the hands, feet, and wrists in order to document a baseline so as to monitor disease progression. Joint erosions may or may not be seen initially. There are other specific findings seen in other joint diseases that will point to other diagnoses as well. Arthrocentesis is done to exclude crystal disease like gout. Gram-staining, cell counts, crystal search, and cultures are done on the fluid. MRI and ultrasound are not routinely done but they are more sensitive tests and can be done in patients with normal plain x-rays.

Treatment of Rheumatoid Arthritis

The treatment of RA depends on controlling the synovitis in the joint and preventing injury to the joint. Treatment strategies have changed remarkably over the last twenty years with the institution of DMARD therapy earlier in the course of the disease process. The goals include early diagnosis, care by a rheumatologist, early use of DMARDs, and tight control having a goal of remission or significantly reduced activity. Now, NSAIDs and glucocorticoids are adjunctive therapies instead of primary therapies. DMARDs have become the primary therapy.

Making the diagnosis as early as possible is important because DMARD therapy works best if there isn’t any joint damage. Once diagnosed, the patient needs a rheumatology referral and follow-up care performed by a rheumatologist (as the disease outcome is better). These patients need comprehensive care that includes drug therapy, education, psychosocial interventions, physical and occupational therapy, nutrition counseling, screening for osteoporosis, and things like vaccines to prevent disease in their immunosuppressed state.

Therapies include NSAIDs and intraarticular steroid injections, biologic and nonbiologic DMARDs, and an oral janus kinase inhibitor. Conventional, nonbiologic DMARDs include hydroxychloroquine, sulfasalazine, methotrexate, and leflunomide. There are a number of biologic DMARD drugs, including TNF-alpha inhibitors (etanercept, infliximab, adalimumab, golimumab, and certolizumab pegol), anakinra (an IL-1 receptor antagonist drug), and tocilizumab (an IL-6 receptor antagonist drug).

DMARD therapy is started as soon as possible. With active RA, an NSAID and corticosteroid are used along with methotrexate (as a first line agent). Patients who can’t take methotrexate should have hydroxychloroquine, sulfasalazine, or leflunomide. Nonbiologic DMARDs can be taken with biologic DMARDs. NSAIDs and prednisone are used temporarily as adjunctive therapy.

RA will naturally have flareups that need management. DMARD therapy may need adjusting. Flareups of just one or a few joints can be treated with intraarticular glucocorticoid injections. Widespread flareups are treated with an increased glucocorticoid dose (oral or IM). IV methylprednisolone done three times daily can be effective in reducing a flareup. Increased doses of methotrexate can help as will increased doses of infliximab.

SEPTIC ARTHRITIS

Septic arthritis is an infection in the joint, usually caused by a bacterial organism; however, it can be caused by mycobacterial species or fungi. These types of infectious processes can result in severe joint destruction and later arthritis. Among adults presenting with an acutely painful joint, septic arthritis represents 8-27 percent of cases, depending on the location in the world. The average is about 10 percent of cases. Some patients will have gonococcal disease, while others will have prostheses that get infected.

Risk Factors for Septic Arthritis

About ten percent of cases of patients with an acutely painful joint have septic arthritis. Risk factors for the disease include age greater than 80 years, having a diagnosis of diabetes mellitus, having rheumatoid arthritis, having a prosthetic joint, having recent joint surgery, IV drug use, being an alcoholic, having a concurrent skin infection, and having a previous corticosteroid injection. Each of these risk factors is small but together they add up.

If a patient has bacteremia, they are more likely to have the bacteria harbor in an arthritic joint when compared to a normal joint. About 40 percent of septic arthritis patients had preexisting RA or OA in the joint affected by sepsis. RA predisposes the patient to septic arthritis to a greater degree than OA but less common joint problems, like gout, pseudogout, and Charcot joint disease can be predisposing factors. Being on immunosuppressive therapy for RA is a predisposing factor, making RA a slightly higher risk than the other joint diseases.

Most cases of septic arthritis come from a blood infection that spreads to the joint. Trauma, direct inoculation, extension of bone infection, or animal/human bite are other less common causes. Risk factors for bloodborne spread include IV drug use, the presence of indwelling catheters, immunocompromised states (like HIV), being a neonate, and being older.

When the infective organism is Staphylococcus aureus, enterococcus, or streptococcus, endocarditis should be suspected and IV drug use is the most common reason for this infective endocarditis. Most of these patients will have negative cultures of the blood because the bacteremia was transient and self-limited. It is unknown why only a small percentage of patients with bacteremia develop septic arthritis.

Bacterial arthritis can occur along with bacterial meningitis. The most common organism associated with both septic arthritis and bacterial meningitis is meningococcus. Rare cases of septic arthritis can stem from catheter insertion (such as hip arthritis and sternoclavicular arthritis). A ruptured colonic diverticulum can also cause septic hip arthritis by spreading through the tissues.

While many pathogens can cause nongonococcal bacterial septic arthritis, the most common bacterial species causing this in adults is MRSA (methicillin-resistant S. aureus). Less common organisms include S. pneumoniae, Enterococcus, Escherichia coli, and other gram-negative bacilli. Almost all cases are from a single organism (except for those caused by penetrating trauma to the joint space, polymicrobial bacteremia, or ruptured diverticulum causing a hip infection).

Clinical Signs and Symptoms of Septic Arthritis

These patients tend to present with a single inflamed, painful, and swollen joint. There is usually warmth and restricted movement. Crepitus would not be noticed and there are no nodules. Many patients are feverish but will not have chills or spiking fever. There may be evidence of other infections present that point toward the original source of the infection.

The knee is involved in more than half of all septic arthritis cases, with lesser joints being the hips, ankles, and wrists. Rarely, the pubic symphysis can become infected after pelvic surgery. About 20 percent of the time, the situation is oligoarticular or polyarticular, especially with those individuals having RA or another connective tissue disease (and in severely septic patients).

Diagnosis of Septic Arthritis

The definitive test is to identify the bacteria in the synovial fluid. There should be a joint aspiration before starting antibiotics with synovial fluid sent for Gram stain, culture, leukocyte count (and differential), and crystal analysis. The tap may need to be done under fluoroscopic, ultrasound, or CT guidance. The results of the fluid analysis would be as follows:
• There will be purulence with a WBC count of 50,000-150,000 cells per microliter (mostly neutrophils). The higher the WBC count, the greater is the chance of sepsis.
• The Gram-stain is positive in 30-50 percent of cases.
• The culture should be done and will be positive in most patients who haven’t recently been on antibiotics. Blood cultures are generally positive in 50 percent of cases so they should be done.

Treatment of Septic Arthritis

The two components of acute bacterial arthritis include antibiotics and drainage of the joint. The choice of antibiotic depends on the presentation, Gram stain, and probable organism. Gram-positive cocci deserve vancomycin as an empiric treatment as this might be MRSA. If it is found not to be MRSA but to be methicillin-susceptible S. aureus, then the agents of choice include cefazolin, nafcillin, or oxacillin. Second-line treatments for MRSA include daptomycin, linezolid, or clindamycin.

If the Gram stain shows gram-negative bacilli, the treatment is a third-generation cephalosporin, such as ceftriaxone, cefotaxime, and ceftazidime. IV drug users are at risk for Pseudomonas infections and should have a combination of ceftazidime or ciprofloxacin plus gentamicin (or another aminoglycoside). Immunocompetent patients with negative gram stain should be treated with vancomycin. Ultimately, the culture and sensitivities will help detect the correct antibiotic choice. Intraarticular antibiotics are not recommended.

GOUT

Gouty arthritis is a type of arthritic condition that causes extreme pain and swelling in the joints. It stems from having high uric acid levels in the bloodstream that form crystals of monosodium urate (MSU) in the joint space. The crystals are very irritating to the joint and will cause swelling and redness of the affected joint space. About a third of all patients with high uric acid levels will develop gouty arthritis. It isn’t clear why some people get gouty arthritis and why others will not get gouty arthritis.

It should be noted that the joints aren’t the only place where uric acid crystals can develop. They can precipitate in the kidneys (impairing kidney function) or in other parts of the urinary tract, causing pain and possible obstruction of the urinary system.

Gout is completely different from CPPD (calcium pyrophosphate dihydrate) deposition disease or “pseudogout”. The crystals are completely different and the etiologies are different. Some of the symptoms are the same, however, so it pays to have an arthrocentesis and crystal analysis in order to define what type of crystal disease a person has.

Risk Factors for Gout

Gout is an adult disease that usually is first manifest in men between the ages of 30-45 years or in women over the age of 55 years. There is no gender difference above 65 years. The prevalence is about 4 percent of all adults in the US. Risk factors for gout include hypertension, obesity, chronic renal insufficiency, fasting, and consuming alcohol on a regular basis. Overeating, especially those things with high fructose corn syrup, meats, and seafood, will increase the risk of gout. Diuretics will increase the uric acid level.

Flareups of gout in patients already known to have gout can include fasting, recently having surgery or an injury, drinking too much alcohol (especially wine), overeating, and taking certain medications.

Symptoms of Gout

Gouty arthritis flares or gout attacks involve the sudden onset of joint pain that is relatively severe and associated with tenderness, swelling, and redness of the joint. It usually affects one joint but can affect a few. The flareups are worse in the middle of the night and in the early morning hours. The inflammation reaches its peak at 12-24 hours and can improve within a few days or weeks. No one knows how the body resolves a gouty flare. The white blood cells increase in the joint space because of the crystals causing irritation of the lining of the joints.

Gouty Arthritis Phases

There are three basic phases of gout: the gout flare, intercritical gout, and tophaceous gout. In a gout flare, the big toe or knee becomes inflamed to begin with or multiple flareups can occur—accompanied by a fever. Some osteoarthritic patients will have flareups in the fingers instead of the toes. Intercritical gout is the time between flareups, which is generally less than two years, even with treatment.

Tophaceous gout is the type of gout where urate crystals build up around the joints, bursae, skin, bones, and cartilage. The buildups are called “tophi”. They may have bony erosion and joint damage called gouty arthropathy as a result. They usually aren’t painful but can inflame like joints, causing redness and tenderness. Tophaceous gout is rare with current treatment protocols except if a person cannot tolerate the medications, is taking cyclosporine for organ transplant, or is a woman past menopause on diuretic pills.

Diagnosis of Gout

Gout can mimic many other diseases. It is strongly suspected when a joint or few joints become acutely inflamed and then resolve within a few days, leaving behind no symptoms. The best way to confirm gout is to take a quantity of synovial fluid using an arthroscopy. The fluid can be evaluated under specialized light microscopy to see if the characteristic needle-shaped crystals can be seen. There will also be an excess of white blood cells in the synovial fluid. Crystals can be extracted from tophi as well. If arthroscopy cannot be done, the diagnosis is based on acute onset of symptoms, inflammation of one joint (usually the great toe), elevated uric acid levels, and complete resolution of symptoms between flareups.

Treatment of Gouty Flareups

The goal of treating gouty flareups is to decrease pain and inflammation. This is a short-term process that is based on the presence or absence of bleeding disorders, history of stomach ulcers, or history of kidney disease. If these are negative, NSAID drugs are the treatment of choice as well as glucocorticoid drugs. Corticosteroids can be given orally, injected into the joint or by injection. Commonly-used glucocorticoids include prednisolone, prednisone, and methylprednisolone. They can be used when NSAIDs or colchicine aren’t tolerated.

NSAIDs are okay if there are no bleeding problems (no warfarin), no stomach ulcers, and no kidney disease. Aspirin is not recommended because it can affect the uric acid level in the bloodstream. Colchicine is good with decreased kidney function and ulcer risk but can cause abdominal symptoms (like nausea, vomiting, diarrhea, and abdominal cramps). It is only taken orally.

There are preventative drugs that will decrease or reduce the number of gouty flareups. Colchicine is one drug that can do this and can be given in lower doses than is necessary to treat gouty arthritis flareups.

Some patients require long-term uric acid-lowering treatment. Lifestyle changes can help the situation. Medications can increase the uric acid excretion by the kidneys, decrease the production of uric acid, or can convert urate to allantoin (which is more easily excreted). These drugs are used when a flareup has resolved itself. Allopurinol works by preventing uric acid formation and is the most commonly used drug for this problem. Febuxostat does the same thing but cannot be used by people at risk for heart disease.

Probenecid increases uric acid excretion by the kidneys. Losartan is an antihypertensive drug used to decrease uric acid levels. Lesinurad is a second-line drug used with allopurinol or febuxostat. Pegloticase works by turning uric acid into allantoin, which is then excreted. It is given by IV and is used to rapidly lower the uric acid level. Allergic reactions and high cost make this prohibitive in many situations. The goal is a uric acid level of below 6 grams per deciliter. It shouldn’t be done too quickly and the individual requires excess fluid during the treatment time.

Arthritis- An infographic by GeriatricNursing.org

Website Sources for Arthritis

1. Understanding Arthritis. This is the site to start your search for arthritis answers. It’s a site created by the Arthritis Foundation and has a wealth of information on the site.
2. What is Rheumatoid Arthritis? This is a site designed by the Arthritis Foundation specifically about rheumatoid arthritis. It’s a good site for people who know they have RA and want to know the latest in diagnosis and treatment of this joint disease.
3. Let’s Dig Into Everything about RA-This is a site put out by a RA support organization that delves into rheumatoid arthritis and its management. They have resources for experimental RA treatment.
4. Septic Arthritis– This is a comprehensive review of septic arthritis designed for people who are health professionals or learned patients wanting to learn all they can about this condition.
5. Gout and Pseudogout– The patient with crystal arthritis will learn all they want to know on this comprehensive site. It’s designed for the person who wants to know the science and medicine behind these two types of arthritis.
6. The American College of Rheumatology puts out this information site for patients and caregivers who want to know about osteoarthritis and its manifestations.
7. Find a Rheumatologist – It isn’t always easy to find a rheumatologist near you if you have an arthritic condition. This site from the American College of Rheumatology will help you get the help you need from a board-certified rheumatologist.
8. Rheumatoid Arthritis – This is a medical site that shows pictures of patients with rheumatoid arthritis plus a comprehensive review of the pathophysiology, presentation, workup, and treatment of this type of arthritis.
9. Gout – This is a lecture series on gout that gives many slides showing pictures of gout and images that easily explain the disease state.
10. Osteoarthritis – This is a picture-filled slide presentation on osteoarthritis. For individuals wanting a visual image of what this disease looks like plus valuable information on the disorder, this is the site to visit.

True or False: Changes in the Weather Can Make Your Joints Stiff or Achy

For many people, the flare-up of an arthritic knee or shoulder appears to signal a change in the weather—usually hinting that a storm is imminent.

The belief that achy joints accompany a weather change is so widespread, in fact, that it has just about been accepted as reality. Many doctors listen to patients complain that they experience stiff or aching joints before, during, or after changes in temperature, barometric pressure, or humidity.

Yet, in spite of the widespread belief in a connection between aches and pains and inclement weather, medical researchers have come up with little evidence to support it.

Evidence for the Health Claim
Changes in the weather such as barometric pressure, humidity, and temperature could theoretically affect the synovial fluid that lines and lubricates the joints if, for example, they had a chemical effect on the fluid which somehow increased inflammation (which causes pain). However, there is no conclusive evidence that supports this theory.

Since at least the mid-1800s, a number of medical, and so-called bio-meteorologic research studies have been carried out in an effort to establish a connection between health and changing weather conditions.

The results of these studies have been varied. Based primarily on a compilation of patient anecdotes (reports of arthritis sufferers, for instance), increased barometric pressure (in fair weather conditions) has been associated with increased joint pain. Conversely, others studies have shown a relationship between increased joint pain and decreased barometric pressure (in stormier weather). Still other studies have suggested that changing weather conditions can cause immediate pain in some patients and delayed pain in others.

weather changes

Evidence Against the Health Claim

It is important to note that because most studies on this subject have been based on anecdotal reports rather than carefully designed observational studies, their conclusions don’t constitute reliable scientific evidence. Furthermore, many doctors claim that the wide variety of arthritic conditions and sheer complexity of atmospheric variability makes coming up with meaningful connections between joint pain and weather conditions next to impossible.

There is also a psychological aspect to this belief. What are the chances that the connection between health and the weather is simply coincidental? Is it possible that arthritis sufferers link their stiff and achy joints to changes in the weather as a way of explaining an otherwise mysterious exacerbation of their condition? Some doctors suggest that patients who observe weather conditions when they experience pain may pay little or no attention to the weather when they don’t have any pain.

Furthermore, there is no definitive evidence that moving to a warmer or drier climate provides a cure for aching joints. Some doctors report that many patients claim that the pain disappears for a while, only to return a few months later.

by Rhianon Davies

REFERENCES:
Aches and Pains Index. UK Weather Channel Interactive Web site. Available at http://uk.weather.com/activities/health/achesandpains/achesandpainsindex.html. Accessed July 25, 2006.

Cold Weather Can Cause More Aches and Pains for Arthritis Sufferers. Marshall University Orthopaedics Web site. Available at http://musom.marshall.edu/medctr/orthopaedics/cold weather.asp. Accessed July 25, 2006

Shmerling RH. Whether Weather Matters For Arthritis. Available at http://www.intelihealth.com/IH/ihtIH/8799/9273/35323/341624.html?d=dmtHMSContent. Accessed July 25, 2006.

Weather and Joint Pain. Any Connection? Mayo Clinic Web site. Available at http://www.mayoclinic.com/health/joint-pain/AN00102. Accessed July 25, 2006.

Weather and Our Physical Health. BBC News Web site. Available at http://www.bbc.co.uk/weather/weatherwise/living/effects/. Accessed July 25, 2006.

EBSCO Information Services is fully accredited by URAC. URAC is an independent, nonprofit health care accrediting organization dedicated to promoting health care quality through accreditation, certification and commendation.

physical therapy knee pain

How Physical Therapy Helps Knee Rehabilitation

How physical therapy helps knee rehabilitation and how physical therapy provides knee rehabilitation.

Physical therapists can provide more than pre/post surgical knee rehabilitation for patients experiencing knee pain.

What Causes Knee Pain?
The knee is a relatively simple joint required to do a complicated job…to provide flexible mobility while bearing considerable weight. While walking down the street, our knees bear three to five times our body weight. When the knee is overstressed in sports or in everyday activities, these structures can break down — and a knee injury occurs.

Common Knee Problems Seen by Our Physical Therapists:

  • Strain / Sprain
  • Arthritis Pain
  • Muscle Weakness
  • Ligament Sprains
  • ACL Tears
  • Tendinitis (ie: Patellar, Pes Anserinus)
  • Chondromalacia Patella
  • Patellofemoral Syndrome / Knee Pain
  • Pre / Post Operative Therapy

How Physical Therapy Provides Knee Rehabilitation
Rehabilitation acutely after knee surgery or a knee injury primarily centers around decreasing swelling in the knee joint. Even a small amount of fluid inhibits the quadriceps muscle on the front of knee by slowing the signal for movement traveling from the brain to the muscle. Manual techniques to decrease muscle spasm and improve length tension relationships of soft tissue are also incorporated. Gradually, exercises to increase strength, range of motion and functional mobility are introduced.

Treatments Offered Include:

  • Comprehensive evaluation with an emphasis on determining the source of the problem
  • Individualized and specific exercise programs
  • Manual therapy (hands-on treatment)
  • Modalities as needed
  • Work and sport specific simulations
  • Progressive home program to help restore independence and self-management

Knee Rehabilitation Goals:

  • Reduce Pain
  • Improve Mobility
  • Movement Awareness/Gait Training
  • Functional Strength
  • Patient Education

For more information on knee injuries visit our PT & Me Knee Injury Center page by clicking here.

The PT & Me Injury Center goes over diagnoses on how physical therapists treat specific injuries.

To find or search for a local participating PT & Me physical therapy clinic in your local area please click here.

PT News

This Month in PT News. Featuring articles from PTandMe partnering clinics!

1. Does Wearing a New Knee Brace Help?
Written by the Therapy Team at the Jackson Clinics Physical Therapy – Northern Virginia

As the largest joint in the body and because of its exposed position, the knee is especially vulnerable to injury during sports activities. Read more

2. Is Apple Cider Vinegar the Remedy You Need?
Written by the Erin Clason, PT at the Center for Physical Rehabilitation and Therapy – Grand Rapids, MI

Apple cider vinegar (ACV) has been used for centuries as a folk remedy to treat everything from warts and the common cold to acid reflux and arthritis. Read more

3. Therapeutic Ultrasound
Written by Angeline Peterson, PT at Intermountain Physical Therapy and Hand Rehabilitation – Meridian, ID

“Are you checking for a foot baby?” That question is not one you may hear very often and may spark further conversation. Read more

Juvenile Rheumatoid Arthritis

Juvenile Rheumatoid Arthritis (JRA; Juvenile Chronic Polyarthritis; Stills Disease)

JRA_FBsize
DEFINITION
Juvenile rheumatoid arthritis (JRA), also known as juvenile idiopathic arthritis, is a disease of the joints in children. It can affect a child over a long period of time. JRA often starts before the child is 16 years old.

In JRA, the joint becomes swollen. It will make the joint painful and difficult to move. JRA can also lead to long term damage to the joint. For some, JRA can interfere with the child’s growth and development.

There are 5 major types of JRA:

  • Pauciarticular JRA—4 or less joints are affected in the first 6 months of illness
  • Polyarticular JRA—5 or more joints are affected in the first 6 months of illness
  • Enthesitis associated arthritis—swelling of the tendon at the bone
  • Psoriatic arthritis—associated with a skin disease called psoriasis
  • Systemic onset JRA (also called Stills disease)—affects the entire body, least common type of JRA

CAUSES
JRA is caused by a problem of the immune system. The normal job of the immune system is to find and destroy items that should not be in the body, like viruses. With JRA, the immune system attacks the healthy tissue in the joint. It is not clear why this happens. The immune system problems may be caused by genetics and/or factors in the environment.

RISK FACTORS

Girls are more likely to get JRA than boys.

There are no clear risk factors for JRA. Factors that may be associated with some types of JRA include:

  • Family history of:
  • Arthritis and a family history of psoriasis in a first-degree relative (for psoriatic arthritis)

SYMPTOMS
Symptoms may include:

  • Joint stiffness, especially in the morning or after periods of rest
  • Pain, swelling, tenderness, or weakness in the joints
  • Fever
  • Weight loss
  • Fatigue or irritability
  • Swelling in the eye—especially associated with eye pain, redness, or sensitivity to light
  • Swollen lymph nodes
  • Growth problems, such as:
    • Growth that is too fast or too slow in one joint (may cause one leg or arm to be longer than the other)
    • Joints grow unevenly, off to one side
    • Overall growth may be slowed

Some symptoms are specific to each type of JRA. For example:

  • Symptoms common with polyarticular JRA include:
    • Problems found most often in small joints of the fingers and hands. May also affect weight-bearing joints like the knees, hips, ankles, and feet.
    • Joints on both sides of the body are affected. For example, if the left hand is affected, then the right hand will also be affected.
    • May also have a blood disorder called anemia. This is an abnormally low number of red blood cells.
    • One type of polyarticular JRA may occur with:
      • A low-grade fever
      • Nodules—bumps on parts of body that receive a lot of pressure such as elbows
  • Symptoms common with pauciarticular JRA include:
    • Problems most often found in large joints. These joints include knees, ankles, wrists, and elbows.
    •  If the left-side joint is affected, then the right-side similar joint will not be affected. For example, if the right knee is affected, then the left knee will be healthy.
    •  May also have swelling and pain at on the tendons and ligaments attached to the bon
  • Symptoms common with systemic onset JRA include:
    • Some of the first signs may be a high fever, chills, and a rash on the thighs and chest. May appear on and off for weeks or months
    • May have swelling in the heart, lungs, and surrounding tissues
    • The lymph nodes, liver, and/or spleen may become enlarged
  • Children with enthesitis arthritis often have tenderness over the joint where the pelvis and spine meet.
  • Children with psoriatic arthritis often have finger or toe swelling. There may also be damage on fingernails.

Often, there are remissions and flare-ups. Remission is a time when the symptoms improve or disappear. Flare-ups are times when symptoms become worse.

arthritis_card_dealt

DIAGNOSIS
You will be asked about your child’s symptoms. You will also be asked about your family medical history. A physical exam will be done. An eye examination may also be done to check for swelling in the eye. Your child may be referred to a specialist if Juvenile rheumatoid arthritis is suspected. The specialist is a doctor that focuses on diseases of the joints.

Images may be taken of your child’s bodily structures. This can be done with x-rays.

Your child’s bodily fluids may be tested. This can be done with:

  • Blood tests
  • Urine tests
  • Tests of joint fluid

JUVENILE RHEUMATOID ARTHRITIS TREATMENT
Talk with your doctor about the best plan for your child. The plan will work to control swelling, relieve pain, and control joint damage. The goal is to keep a high level of physical and social function. This will help keep a good quality of life.

PHYSICAL THERAPY FOR JUVENILE RHEUMATOID ARTHRITIS
Exercise is done to strengthen muscles and to help manage pain. Strong nearby muscles will support the joint. It also helps to recover the range of motion of the joints. Normal daily activities are encouraged. Non-contact sports and recreational activities may be good options. Physical activities can also help boost a child’s confidence in their physical abilities.

Physical therapy may be needed. This will help to make the muscles strong and keep the joints moving well.

JUVENILE RHEUMATOID ARTHRITIS MAINTENANCE DEVICES
Splints and other devices may be recommended. They may be worn to keep bone and joint growth normal. Some joints may get stuck in a bent position. These devices can help prevent this.

PREVENTION
There is no known way to prevent Juvenile rheumatoid arthritis.

by Jacquelyn Rudis

RESOURCES:
American College of Rheumatology
http://www.rheumatology.org

Arthritis Foundation
http://www.arthritis.org

CANADIAN RESOURCES:
The Arthritis Society
http://www.arthritis.ca

Health Canada
http://www.hc-sc.gc.ca

REFERENCES:
Hofer MF, Mouy R, et al. Juvenile idiopathic arthritides evaluated prospectively in a single center according to the Durban criteria. J Rheumatol. 2001. 28:1083.

Juvenile idiopathic arthritis (JIA) enthesitis related. EBSCO DynaMed Plus website. Available at: http://www.dynamed.com/topics/dmp~AN~T506592/Juvenile-idiopathic-arthritis-JIA-enthesitis-related. Updated July 15, 2016. Accessed September 29, 2016.

Juvenile idiopathic arthritis (JIA) oligoarticular. EBSCO DynaMed Plus website. Available at: http://www.dynamed.com/topics/dmp~AN~T114122/Juvenile-idiopathic-arthritis-JIA-oligoarticular. Updated July 16, 2016. Accessed September 29, 2016.

Juvenile idiopathic arthritis (JIA) polyarticular. EBSCO DynaMed Plus website. Available at: http://www.dynamed.com/topics/dmp~AN~T116580/Juvenile-idiopathic-arthritis-JIA-polyarticular. Updated July 15, 2016. Accessed September 29, 2016.

Juvenile idiopathic arthritis (JIA) systemic-onset. EBSCO DynaMed Plus website. Available at: http://www.dynamed.com/topics/dmp~AN~T115968/Juvenile-idiopathic-arthritis-JIA-systemic-onset. Updated July 15, 2016. Accessed September 29, 2016.

JAMA Patient Page. Juvenile idiopathic arthritis. JAMA. 2005;294:1722.

Petty RE, Southwood TR, et al. Revision of the proposed classification criteria for juvenile idiopathic arthritis: Durban, 1997. J Rheumatol.1998; 25:1991.

2/5/2013 DynaMed Plus Systematic Literature Surveillance http://www.dynamed.com/topics/dmp~AN~T115968/Juvenile-idiopathic-arthritis-JIA-systemic-onset: De Benedetti F, Brunner HI, Ruperto N, et al. Randomized trial of tocilizumab in systemic juvenile idiopathic arthritis. N Eng J Med. 2012;367(25):2385-95.

2/24/2014 DynaMed Plus Systematic Literature Surveillance http://www.dynamed.com/topics/dmp~AN~T115968/Juvenile-idiopathic-arthritis-JIA-systemic-onset: Limenis E, Grosbein HA, et al. The relationship between physical activity levels and pain in children with juvenile idiopathic arthritis. J Rheumatol. 2014 Feb;41(2):345-351.

9/2/2014 DynaMed Plus Systematic Literature Surveillance http://www.dynamed.com/topics/dmp~AN~T115968/Juvenile-idiopathic-arthritis-JIA-systemic-onset: Guzman J, Oen K, et al. The outcomes of juvenile idiopathic arthritis in children managed with contemporary treatments: results from the ReACCh-Out cohort. Ann Rheum Dis. 2014 May 19.

Last reviewed December 2015 by Kari Kassir, MD Last Updated: 12/20/2014

EBSCO Information Services is fully accredited by URAC. URAC is an independent, nonprofit health care accrediting organization dedicated to promoting health care quality through accreditation, certification and commendation.

hip pain physical therapy

What is Causing Your Hip Pain?

The hip is a large weight bearing ball and socket joint. We use our hips to help move our legs, and for the most part it’s stable and doesn’t give us a whole lot of trouble.  That’s not the case for everyone however. Let’s take a look at hip pain and what the main culprits are.

The Most Common Types of Hip Pain
The most common type of hip pain is arthritis which literally means” swelling of the joint”. Osteoarthritis, rheumatoid arthritis, and traumatic arthritis are 3 types of arthritis that may ultimately require surgical intervention such as a hip replacement. Other traumatic injuries, birth deformity or childhood hip disease can also cause hip joint damage.

Osteoarthritis is caused by wear and tear of the joint and is typically seen in people 50 years or older. The articular cartilage becomes soft and wears down causing pain, loss of range of motion, and swelling.

Rheumatoid Arthritis is an autoimmune disease whereby your body’s immune system attacks your joints causing pain and swelling.

Traumatic Arthritis can occur following a severe hip injury or fracture. In this case, the trauma causes cartilage damage which can lead to hip pain and stiffness over time. Avascular Necrosis is a condition following a traumatic injury to the hip whereby the blood supply to the femoral head is compromised resulting in pain and damage to the articular cartilage.

For more information on hip pain or what to expect from hip replacement recovery check the articles below:

       
This article about hip pain was provided by PTandMe physical therapy partner: STAR Physical Therapy. More information about STAR Physical Therapy and their 65 locations throughout TN  can be found on their website at www.STARpt.com
Chronic Disease Relief

Exercise for Chronic Disease Relief


For people in need of chronic disease relief, exercise can decrease discomfort, improve daily functioning, and enhance overall quality of life. There are many activity choices. Overall, find something that you enjoy doing and a place that is comfortable for you to do it in. Although being physically active is good for anyone, some exercises provide specific benefits. Here is how different types of exercise can help people with specific chronic diseases.

CHRONIC DISEASE RELIEF : TYPES OF EXERCISE
There are 3 basic categories of exercise:

Aerobic Exercise
These are exercises that raise your heart rate through repetitive movement of large muscles groups. The 2 types of aerobic exercise are:

  • Weightbearing exercise —Your muscles work against the force of gravity. Examples include jogging, walking, and dancing.
  • Non-weightbearing exercise —The force of gravity does not play a major role. Examples include biking, swimming, and rowing.

Strength Training Exercise
These are exercises that increase the power, tone, and efficiency of individual muscles by contracting isolated muscles against resistance. An example is lifting weights. The increase in heart rate is short-lived compared to aerobic exercise.

Stretching

These are exercises that improve or maintain the flexibility of your muscles. Good flexibility is important to keeping a full range of motion and decreasing your chances of injury. Ideally, you should stretch after each exercise session.

DISEASE IMPACT
Overall, all 3 types of exercises are important in a chronic disease relief program. However, the list below demonstrates how a certain types of exercise can directly impact your specific health condition.

Heart Disease
Researchers and healthcare professionals have found that regular exercise reduces the risk of having a heart attack, particularly for people with coronary artery disease (CAD).

Specific benefits of exercise for people with heart disease include:

  • Stronger heart muscle
  • Reduced cholesterol
  • Reduced plaque build-up inside the arteries
  • Better weight and blood pressure control

Type of exercise that can reduce risk of heart disease and heart attack: Aerobic

High Cholesterol
Cholesterol is found in cells throughout your body. Although it tends to get a bad rap, cholesterol is actually essential for life. It only contributes to heart disease when you have too much of certain types of cholesterol or too little of other types.

Exercise can help reduce cholesterol, and even better, it can help raise your HDL (good) cholesterol. Aim for at least 30 minutes of exercise most days of the week. Even short, 10-minute spurts of exercise can help. Exercise also has the added benefit of weight loss, which can also help to lower cholesterol levels.

Type of exercise that has been shown to improve cholesterol levels: Aerobic

Diabetes

Diabetes is a disorder of the body’s insulin production and usage, and it is a major risk factor for coronary artery disease. If there is not enough insulin, glucose (fuel for all cells) cannot get from the blood to the cells. As a result, the body is essentially starved and the glucose builds up in the blood. Exercise can make the cells more sensitive to insulin, and more glucose can move from the blood into cells.

Since exercise changes the way your body reacts to insulin, you may need to check your blood sugar before and after exercising. Talk to your doctor before you begin an exercise program to learn about what your levels should be.

Types of exercise that influence insulin sensitivity and cardiovascular risk factors: Aerobic and strength training

High Blood Pressure
The risk of high blood pressure increases as we age. Exercise can help to lower your risk and even control your blood pressure if it’s already high. Exercise helps with blood pressure by making your heart work more efficiently. This means your heart does not have to work as hard to pump blood, so there is less pressure on your arteries.

A good target for blood pressure is 120/80 mm Hg. Adding moderate physical activities to your normal routines can help you get there. You should aim for at least 30 minutes of aerobic activity on most days of the week. Even several 10-minute spurts throughout the day can help.

Types of exercise that have been shown to lower blood pressure: Aerobic and strength training

Stroke
A stroke occurs when not enough blood is reaching part of the brain. This causes the cells in that area to die. People who have already had a stroke are at increased risk for recurrent stroke or other cardiovascular problems.

A stroke can create some physical impairments. Exercise may improve strength and coordination of the affected muscles. Exercise recommendations may vary depending on the severity of the stroke and the person’s limitations.

Type of exercise for stroke recovery: Aerobic, strength training, and stretching

Cancer
Studies suggest that people with cancer who do not have depression have a better chance of survival than those who do. Exercise is a great way to avoid depression and improve your overall mood. It’s not clear exactly how exercise impacts mood, but it probably works by causing the brain to release chemicals, like endorphins, and increase body temperature, which can have a calming effect.

Types of exercise found to boost energy and mood: Aerobic and strength training

Lung Disease
Chronic obstructive pulmonary disease (COPD), including emphysema and chronic bronchitis, is the most common form of lung disease in adults. Exercise improves activity levels and decreases symptoms.

Types of exercise shown to improve respiratory ability: Aerobic

Arthritis

Continuous motion is essential for the health of your joints, especially arthritic ones. Regular exercise promotes strength and flexibility, and helps preserve the resiliency of joint surfaces.

Types of exercise shown to improve joint health: Nonweightbearing aerobic, strength training, and stretching (water exercises are ideal)

Osteoporosis
Osteoporosis is a bone-thinning disease that can lead to fractures. Weightbearing exercises maintain bone density and strength by tipping the balance in favor of bone formation. Weightbearing activities include walking, jogging, hiking, dancing, stair climbing, tennis, and other activities that you do while on your feet.

Type of exercise shown to improve bone density: Weightbearing aerobic and strength training

In any condition, a well-rounded exercise program will have all 3 types of exercise involved. Aerobic exercise will increase your endurance and ability to get through longer workouts. Strength training will build muscle strength and allow you to tolerate higher intensities as well improve balance and agility. Stretching can decrease stiffness and increase mobility.

Talk to your doctor before beginning any exercise program. You can also consult with an exercise specialist to help you develop a routine.

by Carrie Myers Smith, BS

RESOURCES:
National Institutes of Health
http://www.nih.gov

The American Orthopaedic Society for Sports Medicine
http://www.aossm.org

CANADIAN RESOURCES:
Canadian Society of Exercise Physiology
http://www.csep.ca

Healthy Canadians
http://www.healthycanadians.gc.ca

REFERENCES:
Depression. EBSCO DynaMed website. Available at: http://www.ebscohost.com/dynamed. Updated February 11, 2016. Accessed March 23, 2016.

Exercises for arthritis. Arthritis Foundation website. Available at: http://www.arthritis.org/living-with-arthritis/exercise/. Accessed March 23, 2016.

Fagard RH. Exercise characteristics and the blood pressure response to dynamic physical training. Med Sci Sports Exerc 33. S484-S492; 2001.

Gordon NF, Gulanick M, Costa F, Fletcher G, Franklin BA, Roth EJ, Shephard T. AHA scientific statement: Physical activity and exercise recommendations for stroke survivors. Circulation. 2004;109: 2031-2041. Circulation website. Available at: http://circ.ahajournals.org/content/109/16/2031.full. Accessed March 23, 2016.

Junnila JL, Runkle GP. Coronary artery disease screening, treatment, and follow-up. Primary Care: Clinics in Office Practice. 2006 Dec; 33(4).

Onitilo AA, Nietert PJ, Egede LE. Effect of depression on all-cause mortality in adults with cancer and differential effects by cancer site. Gen Hosp Psychiatry. 2006 Sep; 28(5): 396-402.

Physical activity for cardiovascular disease prevention. EBSCO DynaMed website. Available at: http://www.ebscohost.com/dynamed. Updated December 21, 2015. Accessed March 23, 2016.

Physical activity guidelines for Americans. EBSCO DynaMed website. Available at: http://www.ebscohost.com/dynamed. Updated January 9, 2013. Accessed March 23, 2016.

Weightbearing exercise for women and girls. American Academy of Orthopaedic Surgeons Ortho Info website. Available at: http://orthoinfo.aaos.org/topic.cfm?topic=A00263. Updated October 2007. Accessed March 23, 2016.

Last reviewed March 2016 by Michael Woods, MD Last Updated: 5/8/2014

EBSCO Information Services is fully accredited by URAC. URAC is an independent, nonprofit health care accrediting organization dedicated to promoting health care quality through accreditation, certification and commendation.

cracking knuckles

True or False: Cracking Your Knuckles Can Lead to Arthritis

Cracking Knuckles Arthritis_FBsize

Crack. Pop. Click. These sounds jump from the joints of the many children and adults who are in the habit of cracking their knuckles.

If you cracked your knuckles as a child, you may have been warned that it could cause you to develop arthritis later in life. Is this true? Probably not, according to a handful of studies on the subject. While cracking your knuckles may not cause arthritis, some researchers believe that habitual cracking could create some problems later on. Not to mention that the incessant pops and clicks are likely to be a major annoyance to those around you.

Evidence for the Health Claim
Your knuckles are the joints in your fingers and toes. They are located where two bones meet, and they are bathed in a liquid called synovial fluid, which lubricates the joints. Sometimes a bubble of gas develops in the synovial fluid, and when the joint is manipulated in certain ways (eg, when a person is bending or compressing his or her hand), the bubble can burst, making an audible popping or cracking sound.

Arthritis is an extremely common problem for older adults, with the majority of people over age 65 have signs of the condition. There are two major forms of arthritis. Rheumatoid arthritis results from inflammation of the joints and can cause pain, redness, swelling, and eventually deformity and loss of function. Osteoarthritis, the most common form, results from wear and tear on the joints over time, which is why it tends to affect older adults.

While there is no reason to believe that knuckle cracking would lead to rheumatoid arthritis, it makes sense that habitual trauma to a joint might eventually cause tissues to break down and wear away leading to osteoarthritis. In fact, some researchers have reported cases of people who habitually cracked their knuckles and went on to develop osteoarthritis or other joint problems. For example, in a case report published in the British Medical Journal, researchers report that a man who habitually cracked and popped many of his joints had damage in his right hand indicative of arthritis.

Another study published in the Proceedings of the Institution of Mechanical Engineers simulated the act of cracking knuckles and found that the energy used to crack your knuckles is enough to damage the cartilage in your joints.

Do these reports mean knuckle cracking can lead to arthritis? Or are they just chance findings, since so many people develop osteoarthritis whether they crack their knuckles or not?

Evidence Against the Health Claim
While individual reports may cite cases in which voracious knuckle crackers develop arthritis, other studies tell a different story.

In 1975, Dr. Robert L. Swezey and Stuart E. Swezey conducted a study of 28 nursing home residents who could recall whether or not they had cracked their knuckles earlier in life. After performing x-rays on the participants’ hands, the researchers concluded that there was no link between habitual knuckle cracking and arthritis.

Another study, published in the Annals of Rheumatic Disease, looked at a group of 300 habitual knuckle crackers. The researchers found that the participants who cracked their knuckles regularly did not experience more cases of osteoarthritis. Knuckle crackers, however, were more likely to have hand swelling and reduced grip strength in their hands. Whether the knuckle-cracking caused the swelling and loss of hand function or those with hand problems were just more likely to crack their knuckles, the researchers could not say.

Researchers also compared a group of people with osteoarthritis in the hand with those who did not have the condition. The two groups were asked whether they cracked their knuckles and, if so, the duration and the frequency of this behavior. When the researchers analyzed the findings, they found no correlation between knuckle cracking and the development of osteoarthritis.

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Conclusion
Some people who crack their knuckles do it out of habit or boredom. Many others say it helps relieve joint pain and tension and allows for a greater range of motion in their joints. If you are in the habit of cracking your knuckles, the evidence available today suggests that it will not cause you to develop arthritis. While some insatiable knuckle crackers may go on to develop problems down the road, the occasional painless cracking is probably harmless.

Keep in mind, though, that while cracking your knuckles seems like nothing more than an innocent, mindless habit, for the person sitting next to you, it may be just as irritating as the sound of fingernails on a chalkboard.

by Krisha McCoy, MS

More PTandMe articles about arthritis can be found here:

   

 

REFERENCES:

Brodeus R. The audible release associated with joint manipulation.J Manipulative Physiol Ther. 1995;18:155-164.

Castellanos J, Axelrod D. Effect of habitual knuckle cracking on hand function.Ann Rheum Dis. 1990;49:308-309.

Protapapas MG, Cymet TC. Joint cracking and popping: understanding noises that accompany articular release.J Am Osteopath Assoc. 2002;102:306.

Swezey RL, Swezey SE. The consequences of habitual knuckle cracking.West J Med. 1975;122:377-379. Available at: http://www.pubmedcentral.gov/picrender.fcgi?artid=1129752&blobtype=pdf. Accessed July 11, 2006

Watson P, Hamilton A, Mollan R. Habitual joint cracking and radiological damage.Br Med J. 1989;299:1566.

Watson P Kernohan WG, Mollan RA. A study of the cracking sounds from the metacarpophalangeal joint.Proc Inst Mech Eng. 1989;203:109-118.

3/17/2011 DynaMed’s Systematic Literature Surveillance DynaMed’s Systematic Literature Surveillance: Deweber K, Olszewski M, Ortolano R. Knuckle cracking and hand osteoarthritis.J Am Board Fam Med.2011;24(2):169-174.

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