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Vasculitis Center Doctors

Collaborators

Vasculitis can involve virtually any organ system within the body. Hence, our Vasculitis Center maintains close collaborative relationships with experts from other specialties. The Vasculitis Center includes collaborators from several medical disciplines who help provide the highest level of care for our patients. They have extensive experience managing vasculitis within their subspecialty and work closely with the Physicians in the Vasculitis Center to provide comprehensive care for our patients:

Otolaryngology (ENT):

Our ENT team includes specialists in inflammatory sinus disease, sensorineural hearing loss, and chronic middle ear disease. We are pleased to also have a Doctor of Audiology, Dr. Dinkes, who specializes in inflammatory process on our team as well.

• Dr. Jean Kim (sinus disease, middle ear manifestations)
• Dr. Alexander Hiller (upper airway disease)
• Dr. Roni Dinkes (audiology)

Neuro-ophthalmology:

• Dr. Andrew Carey

Endocrinology / Osteoporosis:

• Dr. Han Na Kim

Prednisone is a corticosteroid with potent anti-inflammatory effects. Corticosteroids are a cornerstone of treating most types of vasculitis, and are often used in combination with other immunosuppressive medications. Prednisone works very quickly, and is therefore used (often at high doses) at the time of initial diagnosis to bring vasculitis under control. Then, prednisone is gradually reduced (“tapered”) while another immunosuppressive drug is started for long term treatment. Over time, the “steroid-sparing” immunosuppressive drug is used to control vasculitis, and prednisone is eventually stopped.

Side Effects

Corticosteroids cause a long list of side effects, making it dangerous to use these drugs at significant doses for long term treatment. The side effects of prednisone are related to: 1) the amount of steroid a patient takes in his/her daily dose, and 2) the length of time the patient remains on the medication. We emphasize that not all side effects occur in all patients.

Despite the numerous potential side effects of corticosteroids listed below, their introduction into patient care more than 50 years ago revolutionized the treatment of many diseases, including vasculitis. When used properly, these drugs save lives and avert threats to the function of important organs.

Common Side Effects of Steroids:

• Increased Susceptibility to Infections
• Weight Gain
• Glucose Intolerance
• Hypertension
• Bone Thinning
• Avascular Necrosis of bone
• Easy Bruising
• Abdominal Striae
• Hirsutism
• Acne
• Mood Swings/Insomnia
• Cataracts

Increased Susceptibility to Infections

Patients are at increased risk for many types of infections, from minor fungal infections in the mouth (“thrush”, caused by Candida) to life–threatening infections such as Pneumocystis carinii pneumonia. The higher the steroid dose and the longer the duration of therapy, the greater the risk of infection. The risk is also increased when patients receive combinations of immunosuppressive medications, such as cyclophosphamide (cytoxan) and prednisone. The risk of some infections can be greatly reduced by taking specific types of antibiotics prophylactically (such as Bactrim).

Pictured below is woman under treatment with prednisone and methotrexate for vasculitis and a concurrent neurologic condition (myasthenia gravis) developed painful vesicles in her mouth. The vesicles were confirmed by culture to be caused by reactivation of a Herpes simplex infection, and responded to treatment with acyclovir.

Weight Gain

Weight gain is usually the most dreaded side–effects of steroids, incurred to some degree by nearly all patients who take them. The amount of weight gain varies from individual to individual. In addition to causing weight gain, prednisone leads to a redistribution of body fat to places that are undesirable, particularly the face, back of the neck, and abdomen. Pictured below is an example of redistribution of body fat to the back of the neck. Accumulation of fat in this area is sometimes referred to as a “buffalo hump”.

Another example of this “redistribution” is pictured below. Supraclavical “fat pads” are collections of fat at the base of the neck, just above the collarbones, which are common in patients on steroids. They sometimes cause concern among patients if mistaken for lymph nodes or other causes for worry, but will gradually subside as the prednisone dose is tapered to below 10 milligrams/day.

In addition to this redistribution of fat, many patients undergo loss of muscle strength (muscle atrophy) while taking steroids. Regular physical exercise is key to avoiding this type of deconditioning that often occurs with prednisone treatment.

Glucose Intolerance

High blood sugar, or steroid–induced diabetes. Patients who are “pre-diabetic” can develop diabetes and the need for insulin while taking steroids. This usually resolves when the steroids are decreased or discontinued, but can be worsened by weight gain.

Hypertension

High blood pressure. This usually improves as the corticosteroid dose is reduced.

Bone Thinning (Osteoporosis)

Prednisone may cause thinning of the bones even in people who are not usually at high risk for osteoporosis (for example: males, young people). In people susceptible to osteoporosis, prednisone may accelerate the process of bone loss. Fortunately, in the past few years, excellent treatments and preventive measures have become available for osteoporosis. All patients on prednisone for prolonged periods are candidates for these medicines. Patients should be aware of their daily intake of calcium and Vitamin D while on steroids. Bone density measurement is commonly done using DEXA scans.

Avascular Necrosis of Bone

For reasons that are not known, high dose prednisone (for example, greater than 20 milligrams a day) predisposes some patients to joint damage, most often of the hips. In avascular necrosis (or osteonecrosis, meaning “bone death”) of the hip, the part of the leg bone that inserts into the pelvis dies, resulting in pain with weight–bearing and some loss of joint function. Many patients with avascular necrosis require joint replacements.

Easy Bruising

Prednisone also causes “thin skin”. Patients on moderate to high doses of prednisone often notice that they bruise easily, even with only slight trauma. Pictured below is a patient with giant cell arteritis who suffered a skin laceration after she struck her leg against a chair.

Abdominal Striae

Abdominal striae (“stripes”), as pictured below, frequently occur in patients who take high doses of steroids for long periods of time.

Hirsutism

Hirsutism is excessive growth of body hair. Patients vary in the degree to which this side effect of steroids occurs. Although some patients experience minimal hirsutism, the patient depicted below developed this side effect after taking 10 milligrams of prednisone for a few months.

Acne

High dose prednisone predisposes some patients to acne, especially facial acne, as pictured below. The facial acne developed after several weeks of high steroid doses.

Mood Swings/Insomnia

Many patients find it difficult to fall asleep when taking high doses of steroids. Many also find that they are more irritable or anxious than usual. Steroids sometimes even induce depression or psychosis, which usually improves when the drug is decreased or discontinued.

Cataracts

Long–term steroid use may lead to cataract development in the eyes, which frequently require surgical removal.

What is IVIG/SCIG?

Intravenous immunoglobulin (IVIG) is a therapy consisting of pooled antibodies (immunoglobulin) obtained from healthy donors that is given as an infusion by vein. This same therapy can also be given as a subcutaneous injection (SCIG) rather than an intravenous one.

How does it work?

IVIG and SCIG are often used to treat patients with immunodeficiency syndromes, which are genetic or acquired conditions that lead to low immunoglobulin levels. For these patients, IVIG/SCIG provide the protective effect of antibodies that they otherwise lack.

In treating vasculitis, we sometimes encounter the need for IVIG/SCIG due to the use of Rituximab – a drug that targets B cells. In some patients, the long-term use of rituximab may lead to an acquired deficiency of immunoglobulins. By combining IVIG/SCIG with rituximab, we are able to continue to provide patients with the immunosuppressive benefit of rituximab, while compensating for the increased risk of infection by giving IVIG/SCIG.

How is IVIG/SCIG given?

IVIG is often given as a home infusion. SCIG is given as a subcutaneous injection. These treatments are generally given once per month.

Side effects:

These treatments carry a risk of blood clot, renal injury, and headaches. IVIG constitutes a large fluid challenge, and therefore may not be appropriate for patients with heart or kidney failure.

• 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.

Living with vasculitis can be challenging at times due to the complex nature of the disease and therapies. Also, vasculitis in the general population is quite rare, especially compared to other common medical conditions, such as diabetes and hypertension (high blood pressure). This can make patients with vasculitis feel misunderstood or alone. It can be very helpful for individuals with vasculitis to connect with other patients and their families.

If you have vasculitis, you are not alone. There is a strong community of patients and physicians to support you.

• Vasculitis Foundation (USA) – www.vasculitisfoundation.org
• Vasculitis UK – www.vasculitis.org.uk/
• Vasculitis Foundation Canada – www.vasculitis.ca/
• American Behcet’s Disease Association
• Churg-Strauss Syndrome Association
• Cryoglobulinemia Home Page
• Arthritis Foundation
• The American College of Rheumatology
• European Vasculitis Study Group: EUVAS Homepage

What is rituximab?

Rituximab is a monoclonal antibody that is approved for the treatment of ANCA associated vasculitis. Rituximab is sometimes used to treat other forms of vasculitis, such as cryoglobulinemia and urticarial vasculitis. There are several brands of Rituximab available, including Rituxan, Ruxience, and Truxima.

How does rituximab work?

Rituximab is designed to deplete B cells – white blood cells that make antibodies. Rituximab binds to a target called CD20 that is found on the surface of circulating B cells.

How is rituximab given?

Rituximab is given intravenously at an infusion center. Because allergic reactions can occur while the medication is being given, patients need to be monitored by nurses while receiving this drug.

For initial treatment of vasculitis, Rituximab is usually given once per week for 4 weeks. Sometimes, it may instead be given as 2 infusions separated by 2 weeks.

For maintenance treatment, Rituximab is usually given as one infusion every 6 months. Sometimes, the dosing interval can be lengthened to longer periods of time, such as 9 or 12 months.

Side effects:

We pay particular attention to the levels of total antibodies (immunoglobulins) over time when using this drug. In some scenarios, we may need to give supplemental immunoglobulin to patients whose antibody levels fall below normal levels.

Rituximab makes it difficult for the immune system to respond well to vaccines. This requires planning on the part of physician and patient to formulate a plan for the effective use of vaccines.

All immunosuppressants require regular monitoring in the form of blood tests, in-person assessments, and vigilance for signs of infection.