Rheumatoid arthritis

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Rheumatoid arthritis (RA) is traditionally considered a chronic, inflammatory autoimmune disorder that causes the immune system to attack the joints. It is a disabling and painful inflammatory condition, which can lead to substantial loss of mobility due to pain and joint destruction. RA is a systemic disease, often affecting extra-articular tissues throughout the body including the skin, blood vessels, heart, lungs, and muscles. About 60% of RA patients are unable to work 10 years after the onset of their disease.[1]

Rheumatoid arthritis appears to have been described in paintings more than a century before the first detailed medical description of the condition in 1800 by Landre-Beauvais.[2]

Etymology

The name is derived from the Greek. Rheumatos means "flowing", and this initially gave rise to the term 'rheumatic fever', an illness that can follow throat infections and which includes joint pain. The suffix -oid means "resembling", i.e. resembling rheumatic fever. Arthr means "joint" and the suffix -itis, a "condition involving inflammation". Thus rheumatoid arthritis was a form of joint inflammation that resembled rheumatic fever.

Features

Articular (joints)

The inflammatory activity leads to erosion and destruction of the joint surface as the pathology progresses, which impairs their range of movement and leads to deformity. The fingers are typically deviated towards the little finger (ulnar deviation) and can assume unnatural shapes. Classical deformities in rheumatoid arthritis are the Boutonniere deformity (Hyperflexion at the proximal interphalangeal joint with hyperextension at the distal interphalangeal joint), swan neck deformity (Hyperextension at the proximal interphalangeal joint, hyperflexion at the distal interphalangeal joint). The thumb may develop a "Z-Thumb" deformity with fixed flexion and subluxation at the metacarpophalangeal joint, and hyperextension at the IP joint.

Cutaneous manifestations

The most prominent cutaneous manifestations of rheumatoid arthritis are rheumatoid nodules and vasculitis.

Vasculitis

Rheumatoid arthritis is associated with a variety of forms of vasculitis. A benign form occurs as microinfarcts around the nailfolds. More severe forms include livedo reticularis, which is a network (reticulum) of erythematous to purplish discoloration of the skin due to the presence of an obliterative cutaneous capillaropathy. (This rash is also otherwise associated with the antiphospholipid-antibody syndrome, a hypercoagulable state linked to antiphospholipid antibodies and characterized by recurrent vascular thrombosis and second trimester miscarriages.

Other cutaneous manifestations

Rheumatoid arthritis is rarely associated with pyoderma gangrenosum, a necrotizing, ulcerative, noninfectious neutrophilic dermatosis. Other complications include erythema nodosum, lobular panniculitis, atrophy of digital skin, palmar erythema, diffuse thinning of the skin (rice paper skin), and skin fragility.

Rheumatoid nodules

The cutaneous (strictly speaking subcutaneous) feature most characteristic of rheumatoid arthritis is the rheumatoid nodule. The initial pathologic process in nodule formation is unknown but is thought to be related to small-vessel inflammation. The mature lesion is defined by an area of central necrosis surrounded by palisading macrophages and fibroblasts and a cuff of cellular connective tissue and chronic inflamed cells. The typical rheumatoid nodule may be a few millimetres to a few centimetres in diameter and is usually found over bony prominences, such as the olecranon, the calcaneum at the Achilles tendon insertion, the metacarpophalangeal joints, or other areas that sustain repeated mechanical stress. Nodules are associated with a positive RF titer and severe erosive arthritis. They can rarely occur throughout the body in internal organs.

Others

Pulmonary
The lungs may become involved as a part of the primary disease process or as a consequence of therapy. If such is the case, fibrosis may occur spontaneously or as a consequence of therapy (for example methotrexate). In addition, Caplan's nodules are found as are pulmonary effusions.
Renal
Amyloidosis in the kidney can occur.
Cardiovascular
Possible complications that may arise include: pericarditis, endocarditis, left ventricular failure, valvulitis and fibrosis. The risk of cardiovascular, specifically myocardial infarction (heart attack) or congestive heart failure are greater in individuals with RA. Over 1/3 of deaths of people with RA are directly attributable to cardiovascular death.
Ocular
Keratoconjunctivitis sicca (dry eyes), scleritis, episcleritis and scleromalacia are possible complications of rheumatoid arthritis.
Neurological
Peripheral neuropathy and mononeuritis multiplex may occur. The most common problem is carpal tunnel syndrome due to compression of the median nerve by swelling around the wrist. Atlanto-axial subluxation can occur, owing to erosion of the odontoid process and or/transverse ligaments in the cervical spine's connection to the skull. Such an erosion (>3mm) can give rise to vertebrae slipping over one another and compressing the spinal cord. At first the patient experiences clumsiness but without due care this can progress to quadriplegia.
Osteoporosis
Osteoporosis classically occurs in RA around inflamed joints. It is postulated to be partially caused by inflammatory cytokines.
Lymphoma
The incidence of lymphoma is increased in RA as it is in most autoimmune conditions.

Rheumatoid arthritis and osteoarthritis

Rheumatoid arthritis is in many aspects similar to osteoarthritis. However, the differences are the following:

In contrast to osteoarthritis, rheumatoid arthritis is a chronic, inflammatory, multisystem, autoimmune disorder. It is commonly polyarticular, i.e. it affects many joints. The symptoms that distinguish rheumatoid arthritis from other forms of arthritis are inflammation and soft-tissue swelling of many joints at the same time (polyarthritis). The joints are usually affected initially asymmetrically and then in a symmetrical fashion as the disease progresses. The pain generally improves with use of the affected joints, and there is usually stiffness of all joints in the morning that lasts over 1 hour. Thus, the pain of rheumatoid arthritis is usually worse in the morning compared to the classic pain of osteoarthritis where the pain worsens over the day as the joints are used.

Extra-articular manifestations also distinguish this disease from osteoarthritis (hence it is a multisystemic disease). For example, most patients also suffer with anemia, either as a consequence of the disease itself (anaemia of chronic disease) or as a consequence of gastrointestinal bleeding as a side effect of drugs used in treatment, especially NSAIDs (non-steroidal anti-inflammatory drugs) used for analgesia. Hepatosplenomegaly may occur with concurrent leukopaenia (Felty's syndrome), and lymphocytic infiltration may affect the salivary and lacrimal glands (Sjögren's syndrome). Pericarditis, pleurisy, alveolitis, scleritis and subcutaneous nodules are other features associated with rheumatoid arthritis.

Epidemiology

The incidence of RA is in the region of 3 cases per 10,000 population per annum. Onset is uncommon under the age of 15 and from then on the incidence rises with age until the age of 80. The prevalence rate is 1%, with women affected three to five times as often as men. It is 4 times more common in smokers than non-smokers. Some Native American groups have higher prevalence rates (5-6%) and black persons from the Caribbean region have lower prevalence rates. First-degree relatives prevalence rate is 2-3% and disease concordance in monozygotic twins is approximately 15-20%.

It is strongly associated with the inherited tissue type Major histocompatibility complex (MHC) antigen HLA-DR4 (most specifically DR0401[3] and 0404) — hence family history is an important risk factor.

Diagnosis

Diagnostic criteria

The American College of Rheumatology has defined (1987) the following criteria for the classification of rheumatoid arthritis:[4]

  • Morning stiffness of >1 hour most mornings for at least 6 weeks.
  • Arthritis and soft-tissue swelling of >3 of 14 joints/joint groups
  • Arthritis of hand joints
  • Symmetric arthritis
  • Subcutaneous nodules in specific places
  • Rheumatoid factor at a level above the 95th percentile
  • Radiological changes suggestive of joint erosion

At least four criteria have to be met for classification as RA.

It is important to note that these criteria are not intended for the diagnosis of patients for routine clinical care. They were primarily intended to categorise patients, for research. For example: one of the criteria is the presence of bone erosion on X-Ray. Prevention of bone erosion is one of the main aims of treatment because it is generally irreversible. To wait until all of the ACR criteria for rheumatoid arthritis are met is therefore likely to result in a worse outcome for the patient. Most patients and rheumatologists would agree that it would be better to treat the patient as early as possible and prevent bone erosion from occurring, even if this means treating patients who don't fulfill the ACR criteria. The ACR criteria are, however, very useful for categorising patients with established rheumatoid arthritis, for example for epidemiological purposes.

Blood tests

When RA is being clinically suspected, immunological studies are required, such as rheumatoid factor (RF, a specific antibody).[5] A negative RF does not rule out RA; rather, the arthritis is called seronegative. During the first year of illness, rheumatoid factor is frequently negative. 80% of patients eventually convert to seropositive status. RF is also seen in other illnesses, like Sjögren's syndrome, and in approximately 10% of the healthy population, therefore the test is not very specific.

Because of this low specificity, a new serological test has been developed in recent years, which tests for the presence of so called anti-citrullinated protein antibodies (ACPA). Like RF, this test can detect approximately 80% of all RA patients, but is rarely positive in non-RA patients, giving it a specificity of around 98%. In addition, ACP antibodies can be often detected in early stages of the disease, or even before disease onset. Currently, most common test for ACP antibodies is the anti-CCP (cyclic citrullinated peptide) test. [6]

Also, several other blood tests are usually done to allow for other causes of arthritis, such as lupus erythematosus. The erythrocyte sedimentation rate (ESR), C-reactive protein,[7] full blood count, renal function, liver enzymes and other immunological tests (e.g. antinuclear antibody/ANA)[8] are all performed at this stage. Ferritin can reveal hemochromatosis, which can mimic RA.

Pathophysiology

Causes

The cause of RA is still unknown to this day, but has long been suspected to be infectious. It could be due to food allergies or external organisms. Mycoplasma, Erysipelothrix, Epstein-Barr virus, parvovirus B19 and rubella have been suspected but never supported in epidemiological studies. As in other autoimmune diseases, the "mistaken identity" theory suggests that an offending organism causes an immune response that leaves behind antibodies that are specific to that organism. The antibodies are not specific enough, though. They begin an immune attack against, in this case, the synovium, because some molecule in the synovium "looks like" a molecule on the offending organism that created the initial immune reaction - this phenomenon is called molecular mimicry.

But physical and emotional effects, stress and improper diet could play a role in the disease. Some research suggests that alcohol consumption lowers the risk of developing the disease. In addition, a Swedish study found that the risk decreased as the consumption of alcohol increased from light to moderate levels. [9]

It is suspected that susceptibility to rheumatoid arthritis is an inherited trait.[10]

Autoimmune diseases require that the affected individual have a defect in the ability to distinguish foreign molecules from the body's own. There are markers on many cells that confer this self-identifying feature. However, some classes of markers allow for RA to happen. 90% of patients with RA have the cluster of markers known as the HLA-DR4/DR1 cluster, whereas only 40% of unaffected controls do. Thus, in theory, RA requires susceptibility to the disease through genetic endowment with specific markers and an infectious event that triggers an autoimmune response.

Once triggered, the immune response causes inflammation of the synovium, leading to edema, vasodilation and infiltration by activated T-cells (mainly CD4 in nodular aggregates and CD8 in diffuse infiltrates). Early and intermediate molecular mediators of inflammation include tumor necrosis factor alpha (TNF-α), interleukins IL-1, IL-6, IL-8 and IL-15, transforming growth factor beta, fibroblast growth factor and platelet-derived growth factor. Synovial macrophages and dentritic cells function as antigen presenting cells by expressing MHC class II molecules, leading to the production of immunoglobins, rheumatoid factors of the IgG and IgM class and complement components by B-Lymphocytes. The disease progresses in concert with formation of granulation tissue at the edges of the synovial lining (pannus) with extensive angiogenesis and production of enzymes that cause tissue damage. Modern pharmacological treatments of RA target these mediators. Once the inflammatory reaction is established, the synovium thickens, the cartilage and the underlying bone begins to disintegrate and evidence of joint destruction accrues.

Bacteria/antibiotic hypothesis

Thomas McPherson Brown along with other researchers and patient groups believe that it can be demonstrated that RA is caused by a bacterial infection, in particular mycoplasma that localizes to joints.[11]

Thomas McPherson Brown used tetracycline antibiotics to treat rheumatoid arthritis, and concluded that improvement in symptoms was evidence that the antibiotic must be killing a bacterium that caused the arthritis. The tetracycline antibiotics that he used, however also "exhibit immunomodulatory properties, which may contribute significantly to their beneficial effects in rheumatoid arthritis".[12] In other words, the same drug can both kill bacteria and suppress the immune system, and the latter may be responsible for its benefits in rheumatoid arthritis. That said, there are thousands of documented cases of remission of RA and other related auto-immune diseases using antibiotics on file at the National Hospital in Washington, D.C., where Dr. Brown practiced, and many other reports from rheumatologists worldwide that judicious use of minocycline, sometimes combined with clindamycin, along with diet change, nutritional supplements, and vigorous exercise, and various other immune-strengthening alternative therapies, such as acupuncture, hyperbaric oxygen, and infra-red sauna, can retard or remit the disease. Tumor necrosis factor inhibitors are a class of drugs that markedly reduce resistance to certain types of bacterial infection (including the mycobacteria that were hypothesised to be to blame for rheumatoid arthritis by McPherson Brown). They are, however very effective in treating RA. In fact, they are one of the most effective treatments for rheumatoid arthritis in widespread use. If rheumatoid arthritis were caused by bacteria, we would expect the disease to worsen, not improve, when tumour necrosis factor inhibitors are used, contrary to what is widely observed. The bacteria/antibiotic hypothesis therefore has very little support amongst the majority of rheumatologists and researchers, but is seen by a small number of integrative physicians and caregivers as part of the web of factors that produce the disease. Several large, long-term studies in the last ten years, both in the United States and Europe, have convinced these integrative healers that antibiotics have an important role to play in the armamentarium of weapons against RA, and an evolved form of the antibiotic protocol originally devised by Dr. Brown at the National Hospital has now been officially sanctioned as a DMARD (disease-modifying anti-rheumatic drug) by the AMA and recognized by the Arthritis Foundation.

Rheumatoid arthritis, ankylosing spondylitis, systemic and discoid lupus, Sjogren's disease, celiac disease, dermatitis herpetiformis, Crohn's disease, ulcerative colitis and scleritis have been associated with the genetic porphyrias. Lupus, transient and sustained autoantibody production have been reported with both neurovisceral and cutaneous porphyrias since the early 1950s.

Physicians should be on high alert for porphyrias in families with autoimmune diseases since porphyrinogenic drugs can lead to acute porphyria attacks and further medical complications. Pericarditis, syndrome of inappropriate antidiuretic hormone, focal and systemic neuropathy, and pancreatitis have been reported with the highly drug sensitive porphyrias.

Testing should be appropriate for all neurovisceral and cutaneous porphyrias. The urine screening test used to detect acute neurovisceral porphyria attacks is an unreliable test and inappropriate for hereditary coproporphyria, variegate porphyria and children.

Treatment

There is no known cure for rheumatoid arthritis. However, many different types of treatment can be used to alleviate symptoms.

Historic treatments for this condition have included: gold salts, RICE, acupuncture, apple diet, nutmeg, some light exercise every now and then, nettles, bee venom, prayer, copper bracelets, rhubarb diet, rest, extractions of teeth, fasting, honey, vitamins, insulin, magnets, and electric convulsion therapy (ECT).[13] Cortisone therapy has offered relief to many patients in the past, but its long-term effects have been deemed undesirable.[14]

Pharmacological treatment of RA can be divided into disease-modifying antirheumatic drugs (DMARDs), anti-inflammatory agents and analgesics.[15][16] DMARDs have been found to produce durable remissions and delay or halt disease progression. In particular they prevent bone and joint damage from occurring secondary to the uncontrolled inflammation. This is important as such damage is usually irreversible. Anti-inflammatories and analgesics improve pain and stiffness but do not prevent joint damage or slow the disease progression.

There is an increasing recognition amongst rheumatologists that permanent damage to the joints occurs at a very early stage in the disease. In the past the strategy used was to start with just an anti-inflammatory drug, and assess progression clinically and using X-rays. If there was evidence that joint damage was starting to occur then a more potent DMARD would be prescribed. Tools such as ultrasound and MRI are more sensitive methods of imaging the joints and have demonstrated that joint damage occurs much earlier and in more patients than was previously thought. Patients with normal X-rays will often have erosions detectable by ultrasound that X ray could not demonstrate.

Light exercise may be beneficial for improving blood circulation to joints and thereby allowing white blood cells to get to the area requiring treatment.

There may be other reasons why starting DMARDs early is beneficial as well as prevention of structural joint damage. In the early stage of the disease, the joints are increasingly infiltrated by cells of the immune system that signal to one another and are thought to set up self-perpetuating chronic inflammation. Interrupting this process as early as possible with an effective DMARD (such as methotrexate) appears to improve the outcome from the RA for years afterwards. Delaying therapy for as little as a few months after the onset of symptoms can result in worse outcomes in the long term. There is therefore considerable interest in establishing the most effective therapy in patients with early arthritis, when they are most responsive to therapy and have the most to gain.[17]

For certain patients shown to be unresponsive to or intolerant of DMARDs, the Prosorba column blood filtering device appeared promising after the FDA approved it for treatment of RA in 1999 [18]. The Prosorba column employs protein A covalently bound to an inert silica matrix. The protein A binds immunoglobulin G (IgG) and circulating immune complexes (CIC). This blocks antigens responsible for autoimmune joint deterioration. [2]

Treatment also includes rest and physical activity. Regular exercise is important for maintaining joint mobility and making the joint muscles stronger. Swimming is especially good, as it allows for exercise with a minimum of stress on the joints. Heat and cold applications are modalities that can ease symptoms before and after exercise. Pain in the joints is sometimes alleviated by oral acetaminophen (paracetamol). Other areas of the body, such as the eyes and lining of the heart, are treated individually. However, there is no diet that has been shown to alleviate rheumatoid arthritis, although fish oil may have anti-inflammatory effects.[10]

Disease modifying anti-rheumatic drugs (DMARDs)

The term Disease Modifying Anti-Rheumatic Agent was originally introduced to indicate a drug that reduced evidence of processes thought to underly the disease, such as a raised erythrocyte sedimentation rate, reduced haemoglobin level, raised rheumatoid factor level and more recently, raised C-reactive protein level. More recently, the term has been used to indicate a drug that reduces the rate of damage to bone and cartilage. DMARDs can be further subdivided into traditional small molecular mass drugs synthesised chemically and newer 'biological' agents produced through genetic engineering.

Traditional small molecular mass drugs:

The most important and most common adverse events relate to liver and bone marrow toxicity (MTX, SSZ, leflunomide, azathioprine, gold compounds, D-penicillamine), renal toxicity (cyclosporine A, parenteral gold salts, D-penicillamine), pneumonitis (MTX), allergic skin reactions (gold compounds, SSZ), autoimmunity (D-penicillamine, SSZ, minocycline) and infections (azathioprine, cyclosporine A). Hydroxychloroquine may cause ocular toxicity, although this is rare, and because hydroxychloroquine does not affect the bone marrow or liver it is often considered to be the DMARD with the least toxicity. Unfortunately hydroxychloroquine is not very potent, and for most patients hydroxychloroquine alone is insufficient to control symptoms.

Many rheumatologists consider methotrexate to be the most important and useful DMARD, largely because of lower rates of stopping the drug through toxicity. Nevertheless, methotrexate is often considered by patients and even other doctors as a very "toxic" drug. This reputation is not entirely justified, and at times can result in patients being denied the most effective treatment for their arthritis. Although methotrexate does indeed have the potential to suppress the bone marrow or cause hepatitis, these effects can be monitored using regular blood tests, and the drug withdrawn at an early stage if the tests are abnormal, before any serious harm is done (typically the blood tests return to normal after stopping the drug). In clinical trials in which patients with RA were treated with one of a range of different DMARDs, patients who were prescribed methotrexate were those who stayed on their medication the longest (the others stopped theirs because of either side-effects or failure of the drug to control the arthritis). Lastly, methotrexate is often preferred by rheumatologists because if it does not control arthritis on its own then it works well in combination with many other drugs, especially the biological agents. Other DMARDs may not be as effective or safe in combination with biological agents.

Biological agents

Biological agents include:

Anti-inflammatory agents and analgesics

Anti-inflammatory agents include:

Analgesics include:

Research

Pain relief

Recent research indicates that cytokines, a group of chemicals that are produced by various cells in the body, may be responsible for generating the response of chronic pain associated with Rheumatoid Arthritis. Medications that affect the release of cytokines or block the action of cytokines may reduce the response of chronic pain. Various anti-cytokine medications are now being used to treat painful disease states such as Rheumatoid Arthritis, and Crohn's Disease. In addition, research using the anti-cytokine medication, Thalidomide, is being evaluated for its effect in treating chronic pain associated with Arachnoiditis. Food (vegetables) with higher water content should be avoided.Template:Fact

Specific desensitization

An experimental treatment known as enzyme potentiated desensitization (EPD) is now under development for the treatment of rheumatoid arthritis and other autoimmune diseases. EPD uses dilutions of allergen (in this case type 2 collagen) and an enzyme, β-glucuronidase, to which T-regulatory lymphocytes respond by favouring desensitization, rather than sensitization. Initial results are encouraging [20] but the treatment is still at an early stage of development.

Other therapies

Other therapies are weight loss, occupational therapy, podiatry, physiotherapy, joint injections, and special tools to improve hard movements (e.g. special tin-openers).

Severely affected joints may require joint replacement surgery, such as knee replacement.

Prognosis

The course of the disease varies greatly from patient to patient. Some patients have mild short-term symptoms, but in most the disease is progressive for life. Around 20%-30% will have subcutaneous nodules (known as rheumatoid nodules); this is associated with a poor prognosis.

Disability

  • Daily living activities are impaired in most patients.
  • After 5 years of disease, approximately 33% of patients will not be working
  • After 10 years, approximately half will have substantial functional disability.

Prognostic factors

  • Poor prognostic factors include persistent synovitis, early erosive disease, extra-articular findings (including subcutaneous rheumatoid nodules), positive serum RF findings, positive serum anti-CCP autoantibodies, carriership of HLA-DR4 "Shared Epitope" alleles, family history of RA, poor functional status, socioeconomic factors, elevated acute phase response (erythrocyte sedimentation rate [ESR], C-reactive protein [CRP]), and increased clinical severity.

Mortality

Estimates of the life-shortening effect of RA vary; most sources cite a lifespan reduction of 5 to 10 years; the National Institutes of Health has estimated a lifespan reduction of 10 to 20 years.[21] According to the UK's National Rheumatoid Arthritis Society, "Young age at onset, long disease duration, the concurrent presence of other health problems (called co-morbidity), and characteristics of severe RA – such as poor functional ability or overall health status, a lot of joint damage on x-rays, the need for hospitalisation or involvement of organs other than the joints – have been shown to associate with higher mortality".[22] Positive responses to treatment may indicate a better prognosis. A 2005 study by the Mayo Clinic noted that RA patients suffer a doubled risk of heart disease,[23] independent of other risk factors such as diabetes, alcohol abuse, and elevated cholesterol, blood pressure and body mass index. The mechanism by which RA causes this increased risk remains unknown; the presence of chronic inflammation has been proposed as a contributing factor.[24]

History

To delineate the history of rheumatoid arthritis a researcher must rely on scanty and ambiguous data from old medical literature and buried skeletons. The current consensus is too speculative for the taste of some scholars. Nevertheless a tentative best guess has emerged.

The first known traces of arthritis date back at least as far as 4500 BC. A text dated 123 AD first describes symptoms very similar to rheumatoid arthritis. It was noted in skeletal remains of Native Americans found in Tennessee.[25] In the Old World the disease is vanishingly rare before the 1600s.[26] and on this basis investigators believe it spread across the Atlantic during the Age of Exploration. In 1859 the disease acquired its current name.

A fascinating anomaly has been noticed from investigation of Precolumbian bones. The bones from the Tennessee site show no signs of tuberculosis even though it was prevalent at the time throughout the Americas.[27]Jim Mobley, at Pfizer, has discovered a historical pattern of epidemics of tuberculosis followed by a surge in the number of rheumatoid arthritis cases a few generations later.[28] Mobley attributes the spikes in arthritis to selective pressure caused by tuberculosis. A hypervigilant immune system is protective against tuberculosis at the cost of an increased risk of autoimmune disease.

The art of Peter Paul Rubens may depict the effects of rheumatoid arthritis, for it is presumed that he used his own hands as a model. In his later paintings, his rendered hands show increasing deformity consistent with the symptoms of the disease.[29][30]

List of notable people with rheumatoid arthritis

References

  1. Johns Hopkins University: Rheumatoid Arthritis
  2. Dequeker J., Rico H. (1992). "Rheumatoid arthritis-like deformities in an early 16th-century painting of the Flemish-Dutch school". Jama 268: 249-251. PMID 1608144.
  3. Oxfordjournals - kel011v1
  4. Arnett F, Edworthy S, Bloch D, McShane D, Fries J, Cooper N, Healey L, Kaplan S, Liang M, Luthra H (1988). "The American Rheumatism Association 1987 revised criteria for the classification of rheumatoid arthritis.". Arthritis Rheum 31 (3): 315-24. PMID 3358796.
  5. Rheumatoid Factor. Lab Tests Online. American Association for Clinical Chemistry (September 30, 2006). Retrieved on 2006-10-28.
  6. CCP (Cyclic Citrullinated Peptide antibody). Lab Tests Online. American Association for Clinical Chemistry (January 15, 2005). Retrieved on 2006-10-28.
  7. C-Reactive Protein. Lab Tests Online. American Association for Clinical Chemistry (September 3, 2004). Retrieved on 2006-10-28.
  8. ANA (Antinuclear Antibody). Lab Tests Online. American Association for Clinical Chemistry (December 13, 2004). Retrieved on 2006-10-28.
  9. Turesson, Carl. Increased Alcohol Intake Associated with Decreased Risk of Developing Rheumatoid Arthritis. (Abstract) Paper presented at the annual European Congress of Rheumatology. Barcelona, Spain. June 13-16, 2007. European League Against Rheumatism, June 15, 2007; Myllykangas-Lusojarvi, R., Aho, K., Kautiainen, H., and Hakala, M. Reduced incidence of alcohol related deaths in subjects with rheumatoid arthritis. Annals of Rheumatoid Diseases, 2000, 59, 75-76; Voight, L., et al. Smoking, obesity, alcohol consumption and the risk of rheumatoid arthritis. Epidemiology, 1994, 5, 525-532
  10. 10.0 10.1 Rheumatoid Arthritis Causes, Diagnosis, Information, Symptoms, and Treatment on MedicineNet.com. MedicineNet.com (October 16, 2006). Retrieved on 2007-02-27.
  11. www.roadback.org - patient group
  12. Reeta K, Mediratta P, Mahajan P, Sharma K (2002). "Effect of minocycline and tetracycline on immunological responses in experimental animals.". Indian J Med Sci 56 (11): 553-9. PMID 14510338.
  13. NIH: History of the treatment of rheumatoid arthritis
  14. NIH: Results of Long-Continued Cortisone Administration in Rheumatoid Arthritis
  15. O'Dell J (2004). "Therapeutic strategies for rheumatoid arthritis.". N Engl J Med 350 (25): 2591-602. PMID 15201416.
  16. Hasler P (Jun 2006). "Biological therapies directed against cells in autoimmune disease.". Springer Semin Immunopathol 27 (4): 443-56. PMID 16738955.
  17. Vital E, Emery P (Sep 15 2005). "Advances in the treatment of early rheumatoid arthritis.". Am Fam Physician 72 (6): 1002, 1004. PMID 16190499.
  18. Fresenius HemoCare, Inc., "New Hope for Rheumatoid Arthritis Patients," press release, September 17, 1999. Dr. Gerónimo Lluberas is quoted as saying, "It offers a bright new promise to those that are otherwise unresponsive to this dreadful disease." Also see arthritis.about.com [1]
  19. Edwards J, Szczepanski L, Szechinski J, Filipowicz-Sosnowska A, Emery P, Close D, Stevens R, Shaw T (2004). "Efficacy of B-cell-targeted therapy with rituximab in patients with rheumatoid arthritis.". N Engl J Med 350 (25): 2572-81. PMID 15201414.
  20. EPD treatment of rheumatoid arthritis proof of concept results on Epidyme website use of EPD to treat autoimmune diseases.
  21. [www.nih.gov/about/researchresultsforthepublic/arthritis.pdf Rheumatoid arthritis prognosis]
  22. Excess mortality in rheumatoid arthritis
  23. The second largest contributor of mortality is cerebrovascular disease. Increased risk of heart disease in rheumatoid arthritis patients
  24. Cardiac disease in rheumatoid arthritis
  25. http://mcclungmuseum.utk.edu/research/renotes/rn-05txt.htm Tennessee Origins of Rheumatoid Arthritis
  26. http://www.arc.org.uk/newsviews/arctdy/104/bones.htm Bones of Contention
  27. http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=14528501&dopt=Abstract Unified theory of the origins of erosive arthritis: conditioning as a protective/directing mechanism?
  28. http://media.www.michigandaily.com/media/storage/paper851/news/2005/02/01/News/Scientist.Finds.Surprising.Links.Between.Arthritis.And.Tuberculosis-1428389.shtml?sourcedomain=www.michigandaily.com&MIIHost=media.collegepublisher.com Scientist finds surprising links between arthritis and tuberculosis
  29. JAMA article - Rubens and the question of antiquity of rheumatoid arthritis
  30. http://japan.medscape.com/viewarticle/538251 Did RA travel from New World to Old? The Rubens connection
  31. http://findarticles.com/p/articles/mi_pwwi/is_200308/ai_mark654573218
  32. http://www.beegees-world.com/archives7.html

External links