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• First Description
• Who gets Polyarteritis Nodosa (the “typical” patients)?
• Classic symptoms of Polyarteritis Nodosa
• What causes Polyarteritis Nodosa?
• How is Polyarteritis Nodosa diagnosed?
• Treatment and Course of Polyarteritis Nodosa
• In medical terms, by David Hellmann, M.D.

First Description

The first description of this disease dates back to 1866 when Kussmaul and Maier identified a condition that consisted of “focal, inflammatory, arterial nodules”. They termed this disorder “periarteritis nodosa” because of the inflammation they observed around the blood vessel wall. The name was changed to polyarteritis nodosa (PAN) to underscore the fact that inflammation throughout the entire arterial wall – not just around the wall – is a major disease feature. Polyarteritis nodosa is sometimes termed “systemic necrotizing vasculitis”, but this term is non-specific as other forms of vasculitis also have systemic and necrotizing features.

Who gets Polyarteritis Nodosa (the “typical” patient)?

Most cases of PAN occur in the 4th or 5th decade, although it can occur at any age. Men are twice as likely to be affected than women. A minority of patients with PAN have an active hepatitis B infection. In the rest of the cases, the cause(s) is presently unknown, and the disease is said to be “idiopathic” in nature.

Classic symptoms and signs of Polyarteritis Nodosa

PAN is a multisystem disease that may present with fever, sweats, weight loss, and severe muscle and joint aches/pains. PAN may develop in a subacute fashion, over several weeks or months. Patients may have nonspecific complaints such as fever, malaise, weight loss, anorexia, and abdominal pain. The disease can affect nearly any site in the body, but it has a predisposition for organs such as the skin, kidney, nerves, and gastrointestinal tract. Many patients with PAN have high blood pressure and elevated erythrocyte sedimentation rates (ESR). The presentation of PAN may also include skin abnormalities (rash, ulcers) and peripheral neuropathy (pain, the sensations of burning, tingling, or numbness, or weakness in a hand or foot). However, the disease has a predilection for certain organs and tissues; these are described below.

• Nerve
• Skin
• Kidney
• Gastrointestinal tract
• Heart
• Eye
• Genitals

Nerve

• Peripheral neuropathies are very common (50 to 70%). This includes tingling, numbness and/or pain in the hands, arms, feet, and legs.
• Central nervous system (CNS) lesions may occur 2 to 3 years after the onset of PAN and may lead to cognitive dysfunction, decreased alertness, seizures and neurologic deficits.

Skin

• Skin abnormalities are very common in PAN and may include purpura, livedo reticularis, ulcers, nodules or gangrene.
• Skin involvement occurs most often on the legs and is very painful.

Kidney

• Renal artery vasculitis may lead to protein in the urine, impaired kidney function, and hypertension.
• Small percentage of patients go on to require dialysis.

Gastrointestinal Tract

• Abdominal pain, gastrointestinal bleeding (occasionally is mistaken for inflammatory bowel disease)
• Hemorrhage, bowel infarction, and perforation are rare, but very serious

Heart

• Clinical involvement of the heart does not usually cause symptoms.
• However, some patients develop myocardial infarctions (heart attacks) or congestive heart failure.

Eye

• Scleritis or inflammation in the sclera (white part of the eye)

Genitals

• Testicular infarction

What causes Polyarteritis Nodosa?

Hepatitis B causes a minority of cases of PAN. With the availability of hepatitis B vaccine now, cases of PAN caused by hepatitis B are now rare in the developed world. It is possible that other infections contribute to other cases of PAN, but links between other infections and this disease remain conjectural at the present time.

How is Polyarteritis Nodosa Diagnosed?

Routine laboratory tests may provide important clues to PAN, but there is no single blood test that is diagnostic of this disease. Most patients with PAN have elevated ESRs. Proteinuria (protein in the urine) is common among those with kidney involvement.

If there is skin or muscle/nerve involvement, a skin or muscle/nerve biopsy can be extremely helpful in coming to a definite diagnosis of PAN. Nerve conduction studies are a non-invasive way of identifying nerves that are involved by the inflammation. (These nerves can then be biopsied to confirm the diagnosis). The diagnosis is confirmed by a biopsy showing pathologic changes in medium-sized arteries. The biopsy site may vary. Most biopsies are taken from skin, symptomatic nerve, or muscle. An angiogram of the abdominal blood vessels may also be very helpful in diagnosing PAN. Aneurysms most often affect the arteries leading to the kidneys, liver or gastrointestinal tract.

The American College of Rheumatology (ACR) has established criteria that should be fulfilled if a patient is to be included in a research study of PAN. The criteria are designed to differentiate PAN from other forms of vasculitis. Not all patients have all criterion. Some, in fact, may have only 2 or 3 criteria, yet their physicians are still comfortable classifying their disease as PAN. A committee of ACR physicians selected 10 disease features (criteria) as being those that best distinguish PAN from other vasculitides. In order to be classified as a PAN patient – for the purpose of research studies – a patient should have at least 3 of the 10 ACR criteria.

The American College of Rheumatology 1990 criteria for the classification of Polyarteritis Nodosa

1. Weight loss of > 4 kg since beginning of illness
2. Livedo reticularis
3. Testicular pain or tenderness
4. Myalgias, weakness, or leg tenderness
5. Mononeuropathy or polyneuropathy
6. Development of hypertension
7. Elevated BUN or creatinine unrelated to dehydration or obstruction
8. Presence of hepatitis B surface antigen or antibody in serum
9. Arteriogram demonstrating aneurysms or occlusions of the visceral arteries
10. Biopsy of small or medium-sized artery containing granulocytes

Treatment and Course of Polyarteritis Nodosa

Treatment of PAN has improved dramatically in the past couple of decades. Before the availability of effective therapy, untreated PAN was usually fatal within weeks to months. Most deaths occurred as a result of kidney failure, heart or gastrointestinal complications. However, effective treatment is now available for PAN. After diagnosis, patients are treated with high doses of corticosteroids. Other immunosuppressive drugs are also added for patients who are especially ill. In most cases of PAN now, if diagnosed early enough the disease can be controlled, and often cured.

In medical terms, by David Hellmann, M.D.

A discussion of Polyarteritis Nodosa written in medical terms by David Hellmann, M.D. (F.A.C.P.), for the Rheumatology Section of the Medical Knowledge Self–Assessment Program published and copyrighted by the American College of Physicians (Edition 11, 1998). The American College of Physicians has given us permission to make this information available to patients contacting our Website.

Polyarteritis nodosa is a small– and medium–sized arteritis affecting multiple organs, especially the skin, peripheral nerve, gut, kidney, and heart. The age of onset ranges from childhood to late adulthood but averages 40 years. Polyarteritis nodosa has been associated with active hepatitis B, hepatitis C, or both; therefore, the disease is more common in injection drug users.

Polyarteritis nodosa is probably mediated by deposition of immune complexes. Evidence includes the observation that patients with polyarteritis nodosa associated with hepatitis B or hepatitis C have immune complexes consisting of immunoglobulin and viral antigens circulating in the blood and deposited in inflamed vessels. Moreover, antiviral therapy can remit the vasculitis in some of these patients.

The onset is gradual over weeks to months, and the initial symptoms are often nonspecific. The earliest clues that the patient has vasculitis come usually from the skin (where vasculitis may appear as palpable purpura, livedo reticularis, digital gangrene, or tender nodules), or the peripheral nervous system (where infarction of one mixed motor and sensory nerve after another results in mononeuritis multiplex, one of the most specific clues that a patient has vasculitis). Renal involvement eventually develops in most and is accompanied by hypertension in half of patients, whereas Granulomatosis with Polyangiitis
rarely elevates the blood pressure. Polyarteritis nodosa also commonly involves the gut (abdominal angina, hemorrhage, perforation), heart (myocarditis, myocardial infarction), or eye (scleritis). Rupture of renal or mesenteric micoaneurysms can simulate an acute abdomen.

Confirming the diagnosis requires either biopsy specimen showing small– or medium–sized arteries, or mesenteric arteriography showing microaneurysms or alternating areas of stenosis and dilation. Biopsy of a symptomatic nerve or a symptomatic muscle is 65% sensitive, whereas biopsy of an asymptomatic site is less than 30% sensitive. Because mesenteric angiography is 60% sensitive, it should be done when there is not a symptomatic site to biopsy. Renal biopsy should be avoided unless angiography rules out microaneurysms susceptible to rupture.

Without treatment, almost all affected patients die within 2 to 5 years. Treatment with prednisone (starting at 1 mg/kg daily) and cyclophosphamide (2 mg/kg daily) appeared to revolutionize the outcome of polyarteritis nodosa by achieving 70% 10–year survivals and established this combination of agents as the standard therapy. However, newer studies suggest that prednisone alone may achieve the same high survival as prednisone and cyclophosphamide, although flares were less frequent in patients taking cyclophosphamide. Other studies indicate that the traditional therapy with prednisone and cyclophosphamide should be abandoned in patients with polyarteritis nodosa associated with hepatitis B. Patients treated with the traditional combination respond, but almost all survivors become chronic carriers of hepatitis B and may die later of cirrhosis or variceal bleeding. The newly propsed regimen consists of 2 weeks of prednisone to control the vasculitis, followed by plasmapheresis to remove immune complexes, and accompanied by antiviral therapy with lamivudine to rid the patient of the hepatitis B infection. The long–term value of anti–viral therapy for polyarteritis nodosa associated with hepatitis C is not established.

• First Description
• Who gets EGPA (the “typical” patients)?
• Classic symptoms of EGPA
• What causes EGPA?
• How is EGPA diagnosed?
• Treatment and Course of EGPA

First Description

Eosinophilic granulomatosis with polyangiitis (EGP), formerly known as the Churg-Strauss Syndrome , is a systemic vasculitis. This disease was first described in 1951 by Dr. Jacob Churg and Dr. Lotte Strauss as a syndrome consisting of “asthma, eosinophilia [an excessive number of eosinophils in the blood], fever, and accompanying vasculitis of various organ systems”. EGPA shares many of the clinical and pathological features of polyarteritis nodosa (“PAN”, another type of vasculitis) and granulomatosis with polyangiitis (GPA). However, Drs. Churg and Strauss discovered that the presence of granulomas as well as the abundance of eosinophils distinguished this disease from PAN and GPA.

Who gets EGPA (the “typical” patient)?

The typical patient with EGPA is a middle aged individual with a history of new-onset or newly-worsened asthma. The distribution of the disease among males and females is approximately equal.

Classic symptoms and signs of EGPA

Asthma is one of the cardinal features of EGPA. Asthma symptoms may begin long before the onset of vasculitis – e.g., many years before any other symptoms of EGPA arise, and long before the diagnosis of EGPA is made. Other early symptoms/signs include nasal polyps and allergic rhinitis.

The next phase of the disease is often marked by eosinophilia, the finding of an excessive number of eosinophils in the blood or in tissues. An eosinophil is one subtypes of white blood cell. Normally, eosinophils comprise 5% or less of the total white blood cell count. In EGPA, the percentage of eosinophils may reach as high as 60%. In the picture below, the eosinophils are shown by the dark pink stain.

The third phase of the illness is a vasculitis, which involves the skin, lungs, nerves, kidneys, and other organs. Particular mention should be made of the frequent devastating involvement of the nerves (called mononeuritis multiplex), which produces severe tingling, numbess, shooting pains, and severe muscle wasting/power loss in the hands or feet. The list below contains the organs commonly involved by EGPA and the specific disease manifestation(s) in each organ.

• Nose
• Lung
• Skin
• Kidney
• Gastrointestinal
• Heart
• Nerve

Nose

• Sinusitis, including allergic rhinitis
• Nasal polyps

Lung

• Pulmonary infiltrates (only one-third of all patients)
• Bleeding into the lungs (occasionally)
• Diffuse interstitial lung disease (rarely)

Skin

• Rashes
• Palpable purpura
• Nodules (above or below the skin), often at sites of pressure, such as the elbows

Kidney

• Glomerulonephritis (inflammation in the small units of the kidney that filter blood)
• Hypertension

Gastrointestinal

• Lesions (vasculitic) are occasionally found in the GI tract
• Granuloma sometimes found in spleen

Heart

• Vasculitis lesions in heart, can lead to congestive heart failure or a heart attack

Nerve

• Peripheral nerve involvement including pain, numbness, or tingling in extremities (neuropathy/mononeuritis multiplex)

What causes EGPA?

The cause of EGPA is unknown but is probably multi-factorial. Genetics may play a small role in the disease, but EGPA is almost never seen in two members of the same family. Environmental factors such as exposure to industrial solvents may play a role in susceptibility to this disease, but this is largely speculative. Infections may be the inciting event(s), but to date there is no definitive evidence of this.

How is EGPA Diagnosed?

Among all of the vasculitides, asthma is a distinctive feature of EGPA alone. However, not all patients with asthma have vasculitis – only a tiny minority do, in fact. It is the specific combination of symptoms and signs, the pattern of organ involvement, and the presence of certain abnormal blood tests (eosinophilia, in particular) that help the doctor make the diagnosis. In addition to a detailed history and physical examination, blood tests, chest X-rays and other types of imaging studies, nerve conduction tests, and tissue biopsies (e.g., of lung, skin, or nerve) may be performed to help diagnose EGPA.

The following features are consistent with a diagnosis of GPA:

1. asthma
2. eosinophilia [>10% on differential WBC count]
3. mononeuropathy
4. transient pulmonary infiltrates on chest X-rays
5. paranasal sinus abnormalities
6. biopsy containing a blood vessel with extravascular eosinophils.

Treatment and Course of EGPA

EGPA usually responds to prednisone. Initially, high doses of oral prednisone are used in an attempt to get the disease into remission as quickly as possibly (e.g., using oral prednisone 40-60 mg/day). After the first month or so, this high dose of prednisone is gradually tapered down over the ensuing months. Other immunosuppressive drugs, such as azathioprine, cellcept, methotrexate, cyclophosphamide, or rituximab may be used in addition to prednisone. High doses of intravenous steroids (usually methylprednisolone) maybe useful for those patients with severe disease or for those who are unresponsive to the combination of oral prednisone used with other immunosuppressive medications.

Prior to the advent of prednisone, EGPA was often a fatal disease. The majority of patients died from rampant, uncontrolled disease. With present therapy, constitutional symptoms begin to resolve quite quickly, with gradual improvement in cardiac and renal function, as well as improvement in the pain that results from peripheral nerve involvement. The course of therapy can last for 1 to 2 years, although the length and type of treatment depend on the severity of disease and the organs involved. The patient’s response to treatment and the continuation of disease control during lowering of the prednisone dose are the primary determinants of how long therapy is continued. Laboratory monitoring of blood tests is very helpful in gauging the activity of disease. Some of the most useful laboratory tests are the erythrocyte sedimentation rate (ESR) and the eosinophil count.

Advancing vasculitis research to improve diagnosis and treatment is critical for the care of our patients and important to the overall mission of our Center. We are successful in our mission only because of the combined efforts of all members of our Johns Hopkins Vasculitis Center team and their valuable contributions:

1. Dedicated physicians and research investigators
2. Generous patients who selflessly contribute their time and samples
3. Financial contributions to support vasculitis research

We welcome you to consider becoming a participant in one of our research studies related to vasculitis. Many studies involve little more than donating a blood sample during one of your appointments.

Often grateful patients, family members, and friends ask what they can do to support the work of the Johns Hopkins Vasculitis Center.  Financial support for medical research directly benefits our patients. For this reason, we have established the Discovery Fund for Vasculitis Research.

Although grants support some of our research and patient education projects, monetary gifts from individuals who realize the importance of these efforts play an essential role in maintaining the Johns Hopkins Vasculitis Center as a Center of Excellence.

We would like to share with you one such inspiring story:

Linda’s Loop – Linda Gray’s Family “hits the trail” in her honor 

We are happy to discuss research in progress with all current and potential donors. Please contact us at the Center directly to learn more about making a tax deductible contribution:

The Johns Hopkins Vasculitis Center

Bayview Medical Center
5501 Hopkins Bayview Circle
JHAAC, Room 1B.1A
Baltimore, Maryland  21224

Phone: 410-550-6825

Anna Dugan
Director of Development
Office: 443-571-7207
Email: adugan3@jh.edu

All information contained within the Johns Hopkins Vasculitis Center website is intended for educational purposes only. Visitors are encouraged to consult other sources and confirm the information contained within this site. Consumers should never disregard medical advice or delay in seeking it because of something they may have read on this website.

• First Description
• Who gets Takayasu’s Arteritis (the “typical” patients)?
• Classic symptoms of Takayasu’s Arteritis
• What causes Takayasu’s Arteritis?
• How is Takayasu’s Arteritis diagnosed?
• Treatment and Course of Takayasu’s Arteritis
• What’s new in Takayasu’s Arteritis?
• In medical terms, by David Hellmann, M.D.

First Description

The first case of Takayasu’s arteritis was described in 1908 by Dr. Mikito Takayasu at the Annual Meeting of the Japan Ophthalmology Society. Dr. Takayasu described a peculiar “wreathlike” appearance of blood vessels in the back of the eye (retina). Two Japanese colleagues at the same meeting reported similar eye findings in patients whose wrist pulses were absent. It is now known that the blood vessel malformations that occur in the retina are a response (new blood vessel growth) to arterial narrowings in the neck, and that the absence of pulses noted in some patients occur because of narrowings of blood vessels to the arms. The eye findings described by Dr. Takayasu are rarely seen in patients from North America.

Pictured below is a close–up view of an angiogram of the left vertebral and subclavian arteries in a patient with Takayasu’s arteritis. Note the narrowing and irregularities that occur at several sites, and the “corkscrew” configuration of one vessel segment near the junction of the two arteries. These changes, caused by inflammation in the blood vessel wall, sometimes cause complete blockage of the artery.

Takayasu’s arteritis is occasionally called “pulseless disease”, because of the difficulty in detecting peripheral pulses that sometimes occurs as a result of the vascular narrowings.

Who gets Takayasu’s Arteritis?

The “typical” patient with Takayasu’s arteritis is a woman under the age of 40. There is a 9:1 female predominance in this disease. Although the disease has a worldwide distribution, it appears to occur more often in Asian women.

Takayasu’s arteritis is a rare disease. The best estimates of the disease frequency suggest that 2 or 3 cases occur each year per million people in a population.

Classic Symptoms of Takayasu’s Arteritis

Takayasu’s arteritis is a chronic inflammatory condition that affects the largest blood vessel in the body (the aorta) and its branches. Thus, the complications of Takayasu’s arise directly or indirectly from damage to these blood vessels. The vasculitides are classified according to the size of blood vessel involved. Takayasu’s is the classic “large vessel” vasculitis.

Pictured below is a normal aortic arch on the left, with narrow, smooth blood vessels. On the right is an example of an abnormal aortic arch in a patient with Takayasu’s, with obvious dilation of the ascending aorta on the left side of the picture.

Clinicians divide Takayasu’s arteritis into two phases: 1) a systemic phase; and 2) an occlusive phase. Although these two phases are not always distinct (i.e., patients may have features of both phases at the same time), this division is a useful way of thinking about the disease.

In the systemic phase, patients have symptoms and signs of an active inflammatory illness. These may include “constitutional symptoms” (fever, fatigue, weight loss), arthritis, and non-specific aches and pains. There may be tenderness overlying affected arteries. Most patients have elevations of the erythrocyte sedimentation rate during the systemic phase.

The systemic phase is succeeded by the occlusive phase, during which patients begin to develop symptoms caused by the narrowing of affected arteries. These may include pain in the limbs that occurs during repetitive activities (“claudication”), such as pain in the arm that occurs while using a handsaw or pain in the calves brought on by walking. The symptoms also include dizziness upon standing up, headaches, and visual problems. During the occlusive phase, affected blood vessels may be narrowed to such an extent that the normal arterial pulsations (“pulses”) in the neck, elbow, wrist, or lower extremities cannot be felt. Using a stethoscope, one may also hear “bruits” (pronounced ‘brew eez’), a harsh, “whooshing” sounds made by the flow of blood through abnormally narrowed vessels. High blood pressure is common, but blood pressures taken in the arms may be read as falsely low if there is a narrowing of an artery high up in the arm. With some patients, it is not possible to get accurate blood pressure readings in the arms. Using an ophthalmoscope, a physician may observe characteristic malformations of blood vessels that occur in advanced cases of Takayasu’s arteritis.

Although the lung involvement in Takayasu’s is frequently overshadowed by involvement of systemic large blood vessels, the pulmonary arteries may also be affected in this disorder. Pictured below is a pulmonary angiogram demonstrating beading and cut–off lesions of the right pulmonary arteries, and a large aneurysm of the left pulmonary artery.

What Causes Takayasu’s Arteritis?

The cause of Takayasu’s arteritis is not known. Some evidence suggests that an infection of some kind — viral, bacterial, or other — occurring in a person with other predisposing factors (such as the correct genes), may lead to this disease. This is an attractive hypothesis, but definitive evidence for it is lacking.

How is Takayasu’s Arteritis Diagnosed?

Making the diagnosis of Takayasu’s arteritis can be extremely difficult. Unfortunately it is very common for the disease to smoulder in the walls of large blood vessels for years, causing only non-specific symptoms associated with the systemic phase of the illness (or no symptoms), until a major complication results. These major complications may include dilation of the aorta with “stretching” of the aortic valve in the heart; critically reduced blood flow to an arm or leg; a stroke caused by high blood pressure in vessels of the brain, and many others.

Once the diagnosis is suspected, it is usually confirmed by a radiographic procedure such as an angiogram or a magnetic resonance imaging study demonstrating significant large artery disease consistent with Takayasu’s. In some cases in which blood vessel damage is so severe as to necessitate surgery to repair the aortic valve, the aorta, or some other large blood vessel, physicians are able to make unequivocal diagnoses by looking at tissue from the involved blood vessels under the microscope. Takayasu’s arteritis is pathologically indistinguishable from giant cell arteritis. In both, destruction of the blood vessel wall and giant cells are frequently present.

Pictured below is an example of large artery involvement in Takayasu’s arteritis. Magnetic resonance imaging study of the aorta and large blood vessels of the upper extremities, showing a large aneurysm of the ascending aorta, blockage of the right axillary artery (note the interruption of blood flow near the shoulder on the left of the figure), and many narrowings of the left subclavian artery (on the right of the figure).

Treatment and Course of Takayasu’s Arteritis

The great majority of patients with Takayasu’s arteritis respond to prednisone. The usual starting dose is approximately 1 milligram per kilogram of body weight per day (for most people, this is approximately 60 milligrams a day). Because of the significant side–effects of long-term high–dose prednisone use, the starting dose is tapered over several weeks to a dose that the physician feels is tolerable for the patient.

For long–term treatment in addition to prednisone (as “steroid sparing agents”), methotrexate, azathioprine, and even cyclophosphamide are sometimes used. There have been few studies of the use of these medications in this disease.

What’s New in Takayasu’s Arteritis?

One of the biggest problems confronting Takayasu’s patients and the physicians who care for them is determining how active the disease is. This can be an exceptionally challenging problem. The erythrocyte sedimentation rate (ESR) probably remains the most reliable marker of disease activity, but even this test is not helpful in a sizeable number of patients who have active arterial inflammation but normal ESRs. Because the treatments for Takayasu’s arteritis may be associated with substantial side–effects, we need more accurate means of gauging disease activity.

To this end, a study conducted by the International Network for the Study of Systemic Vasculitides (“INSSYS”) may be helpful. Investigators from INSSYS, which includes more than 300 physicians, scientists, and other experts in vasculitis from more than 50 different medical centers across the world, have been conducting a “Surrogate Markers Study” for the past several years. In this study, the investigators examine blood specimens from patients with vasculitis for the purpose of identifying proteins and other molecules whose presence indicates ongoing inflammation. Improved understanding of these diseases at a molecular level may permit more rational use of treatments in the future.

In medical terms, by David Hellmann, M.D.

A discussion of Takayasu’s Arteritis written in medical terms by David Hellmannn, M.D. (F.A.C.P.), The Johns Hopkins Vasculitis Center, for the Rheumatology Section of the Medical Knowledge Self-Assessment Program published and copyrighted by the American College of Physicians (Edition 11, 1998). The American College of Physicians has given us permission to make this information available to patients contacting our Website.

Takayasu’s arteritis is a granulomatous vasculitis chiefly of young women that involves the aorta and its major branches. Patients can present initially with obscure systemic symptoms such as fever of unknown origin or more commonly with symptoms and signs of large vessel vasculitis such as hypertension from renal artery stenosis, aortic regurgitation from aortitis, or stroke from carotid artery occlusion. Bruits and diminished or absent pulses are the most reliable signs. Anemia and elevated ESR accompany active disease. Diagnosis is confirmed by angiography showing stenosis and dilation of the aorta, its branches, or both. Thickening of the aortic wall detectable by MRI or ultrasonography can precede angiographic changes. Prednisone is effective for the systemic symptoms and can thwart progression of the vasculitis. Methotrexate may be an effective corticosteroid-sparing agent. Angioplasty alleviates renal artery stenosis about half the time. When needed, vascular bypass procedures and aortic valve replacement usually work well if deferred until the disease is inactive. Estimating disease activity is difficult but is based on systemic symptoms, anemia, ESR, progression of lesions, and pathology (when available).

• First Description
• Who gets Rheumatoid Vasculitis (the “typical” patients)?
• Classic symptoms of Rheumatoid Vasculitis
• What causes Rheumatoid Vasculitis?
• How is Rheumatoid Vasculitis diagnosed?
• Treatment and Course of Rheumatoid Vasculitis
• What’s new in Rheumatoid Vasculitis?

First Description

Rheumatoid Vasculitis (RV) is an unusual complication of longstanding, severe rheumatoid arthritis. The active vasculitis associated with rheumatoid disease occurs in about 1% of this patient population.

RV is a manifestation of “extra-articular” (beyond the joint)rheumatoid arthritis and involves the small and medium-sized arteries in the body. In many of its disease features, RV resembles polyarteritis nodosa.

Other common extra-articular manifestations of rheumatoid arthritis, such as inflammation in the sac surrounding the heart (pericarditis), inflammation in the lining of the lungs (pleuritis), and interstitial lung disease (resulting in fibrosis or scarring of the lungs).

Who gets Rheumatoid Vasculitis? A typical patient

RV can affect a person from any ethnic background, either gender, and from any age group. However, more often than not, the typical patient has long-standing rheumatoid arthritis with severe joint deformities from the underlying arthritis. Although the arthritis has usually led to significant joint damage, at the onset of RV the joint disease is paradoxically quiet.

Figure: Patient with joint damage from rheumatoid arthritis. Note the bulbous swelling of some knuckles and lateral (ulnar) deviation of the fingers.

Classic symptoms of Rheumatoid Vasculitis

RV has many potential signs and symptoms. The manifestations of RV can involve many of the body’s different organ systems, including but not limited to the skin, peripheral nervous system (nerves to the hands and feet) , arteries of the fingers and toes causing digital ischemia, and eyes with scleritis. Scleritis (inflammation of the white part of the eye) commonly occurs in the setting of RV. This ocular complication requires urgent treatment with immunosuppressive medications.

Figure: Digital ischemia – this image shows a blood flow deficiency in the tip of the finger caused by an obstruction of the digital artery.

Figure: Scleritis – Inflammation of the sclera (the white of the eye) causing redness, light sensitivity and pain.

In addition, generalized symptoms such as fever and weight loss are common.

As is true with other forms of vasculitis that involve the skin, cutaneous lesions can erupt on various areas of the body in RV, with a predilection for the lower extremities. Typical findings include ulcers concentrated near the ankles.

Figure: Cutaneous ulcer – an open skin sore caused by an obstruction of the small blood vessels in the superficial ulcers or obstruction of medium vessels in a deeper ulcer.

Small nail fold infarcts (small spots around fingernail) can

occur in rheumatoid arthritis

but these do not necessarily signify the presence of systemic vasculitis and do not necessitate a change in rheumatoid arthritis treatment.

Nerve damage can cause foot or wrist drop, known in medical terminology as “mononeuritis multiplex”. The images below show a patient with a right wrist drop and a patient with right foot drop. This condition, which may be significantly disabling, is often preceded by a change in sensation in the same area (numbness, tingling, burning, or pain). These abnormal sensations can progress to muscle weakness, focal paralysis, and eventually to muscle wasting. Recovery from this condition, caused by nerve infarction, can take months. In some cases, recoveries from mononeuritis multiplex are incomplete.

Figures of drop wrist and drop foot (courtesy of the University of North Carolina)

(Video of drop foot viewable on our Microscopic Polyangiitis page under classic symptoms.)

Laboratory Tests

Most laboratory findings in RV – for example, elevations in the erythrocyte sedimentation rate or C-reactive protein – are non-specific, and reflect the presence of a generalized inflammatory state. Hypocomplementemia, anti-nuclear antibodies (ANA), and atypical anti-neutrophil cytoplasmic antibodies (ANCA) are common. Rheumatoid factor levels are usually extremely elevated. However, there is no definitive laboratory test for RV short of a tissue biopsy. The diagnosis must usually be made using a combination of history, physical examination, pertinent laboratory investigations, specialized testing (e.g., nerve conduction studies), and sometimes a tissue biopsy.

Because the treatment implications for RV are major, any diagnostic uncertainty must be met with definitive approaches to establishing the diagnosis. This usually involves biopsy of an involved organ. Deep skin biopsies (full-thickness biopsies that include some subcutaneous fat) taken from the edge of ulcers are very useful in detecting medium-vessel vasculitis. Nerve conduction studies help identify involved nerves for biopsy. Muscle biopsies (e.g., of the gastrocnemius muscle) should be performed at the same time as nerve biopsies, to increase the chance of finding changes characteristic of vasculitis. Imaging studies have no consistent role in the evaluation of RV, although sometimes angiography of the gastrointestinal tract is useful.

What Causes Rheumatoid Vasculitis?

The cause of RV is unknown, but given the prominence of immune components and the pathologic changes in involved blood vessels, an auto-immune process is suggested.

How is Rheumatoid Vasculitis diagnosed?

Most laboratory findings in RV – for example, elevations in the erythrocyte sedimentation rate or C-reactive protein are non-specific, and reflect the presence of a generalized inflammatory state. Hypocomplementemia, anti-nuclear antibodies (ANAs), and atypical anti-neutrophil cytoplasmic antibodies (atypical ANCAs) are common. Rheumatoid factor levels are extremely elevated, as a rule. However, there is no definitive laboratory test for RV short of a tissue biopsy. The diagnosis must usually be made by the combination of history, physical examination, pertinent lab work, other specialized testing (e.g., nerve conduction studies), and sometimes even a tissue biopsy is required.

The diagnosis of RV should be considered in any rheumatoid arthritis patient who develops new constitutional symptoms, skin ulcerations, decreased blood flow to the fingers or toes, symptoms of a sensory or motor nerve dysfunction (numbness, tingling, focal weakness); or any inflammation of the lining around the heart or lungs (pericarditis or pleurisy/pleuritis).

Patients with a history of joint-destructive rheumatoid arthritis are at an increased risk for infection. Therefore, when a rheumatoid arthritis patient presents with a new onset of non-specific systemic complaints an infection must first be eliminated. Patients with rheumatoid arthritis typically have immune systems that are disordered from previous immunosuppression and underlying disease (e.g., joint damage). This patient population, therefore, is at higher risk of infection.

The differential diagnosis of RV includes:

• Cholesterol embolization syndromes, in which a piece of cholesterol breaks off of a plaque, may cause digital ischemia (blood flow obstruction to a finger or toe), and a host of other symptoms that mimic vasculitis.
• Diabetes mellitus is another major cause of mononeuritis multiplex, but multiple mononeuropathies occurring over a short period of time are unusual in diabetes.
• Many clinical features of RV mimic those of polyarteritis nodosa, cryoglobulinemia, and other forms of necrotizing vasculitis. Therefore they too should be considered in this setting.

Because the treatment implications for RV are major, any diagnostic uncertainty must be met with a definitive approach to establishing the diagnosis. As alluded to earlier, this usually involves the biopsy of an involved organ. Deep skin biopsies (full-thickness biopsies that include some subcutaneous fat) taken from the edge of ulcers are very useful in detecting medium-vessel vasculitis. Nerve conduction studies help identify involved nerves for biopsy. Muscle biopsies (e.g., of the gastrocnemius muscle) should be performed at the same time as nerve biopsies, to increase the chance of finding changes characteristic of vasculitis. Imaging studies have no consistent role in the evaluation of RV, although sometimes angiography of the gastrointestinal tract is useful.

Normally, the cells of the blood vessel wall would be fewer in number (less thick) and the lumen (larger red area) would be larger. The arrow points (Figure 6, left) to an inflamed blood vessel found on a muscle biopsy. The globular pink areas are muscle fibers.

Treatment and Course of Rheumatoid Vasculitis

Therapy should reflect the severity of organ involvement. Prednisone or other steroid therapies are often the first line of treatment. Optimizing treatment of the underlying rheumatoid arthritis is also essential, therefore medications such as methotrexate or tumor necrosis factor inhibitors may be employed. In the setting of impending damage to major organs such as the eyes, a peripheral nerve, the gastrointestinal tract, or of a severe skin ulceration, cyclophosphamide is usually warranted.

What’s New in Rheumatoid Vasculitis?

Compared to other forms of vasculitis, there has been relatively little research in recent years on the specific entity of RV. The lack of similarity in available reports on RV and discrepancies in case definitions have created challenge to building standard approaches to the diagnosis and treatment of this condition. There is some evidence that the incidence of RV has decreased over the past several decades, perhaps because of better treatment of the underlying rheumatoid arthritis.