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Research Information

Research and clinical trials are essential for the advance of medicine. The effectiveness of each new breakthrough can only be assessed by putting them into practice with individuals affected by the disease.

For those who care about vasculitis and discovering new ways to identify, diagnose, and treat these diseases, there are many ways to support the advancement of research. Volunteer participation in clinical trials is one way to help progress knowledge about the various types of vasculitis. As a volunteer, your participation can help potentially new, successful treatments become available to others who understand living with vasculitis as you do. For certain non-medication based studies, a volunteer may be any individual who is willing to participate. Volunteers can be spouses, friends and family members who wish to make a difference in vasculitis research.

Open Research Studies

Clinical Epidemiology and serological/plasma and genetic factors in systemic vasculitis

Purpose of Study:

This research is being done to gather information about patients with certain vasculitis diagnoses. The Johns Hopkins Vasculitis Center is building a comprehensive database of information concerning vasculitis patients as part of its mission to facilitate research.

Recruiting patients:

Diagnosed with vasculitis
Patients of the Johns Hopkins Vasculitis Center

Coordinator/Contact: Hannah Smith
Email: hsmith97@jh.edu
Phone number: 410-550-0122
Principal Investigator: Duvuru Geetha, M.D.
IRB#: IRB00355688

A Randomized, Double-blind, Placebo-controlled Phase 4 Clinical Trial to Evaluate the Long-term Safety and Efficacy of Avacopan in Subjects With Antineutrophil Cytoplasmic Antibody (ANCA)-associated Vasculitis

Purpose of the Study:

This study is to make sure the medicine called avacopan is safe to use for a long time. It will check for liver problems and serious allergic reactions. It will also track the medicine keeps the illness in remission, kidney function, and how the treatment affects daily life.

Recruiting patients:

Newly diagnosed or relapse of GPA or MPA
Age 18 years or older
Positive test for anti-PR3 or anti-MPO (current or historic) antibodies
Patients of the Johns Hopkins Vasculitis Center

Coordinator/Contact: Hannah Smith
Email: hsmith97@jh.edu
Phone number: 410-550-0122
Principal Investigator: Duvuru Geetha, M.D.
IRB#: IRB00403470

Frequently Asked Questions about Clinical Trials

From the definition of a clinical trial to information and questions that are good to ask your doctor before participating in a trial, this section address many of the common questions that arise when deciding to join in supporting vasculitis research.

What is a clinical trial?

A clinical trial is a type of research study. Clinical trials test a new treatment and compare it to the available treatment (the usual way doctors treat a certain health condition or disease). For example, a clinical trial might study how well a new medicine helps people with cancer or if certain foods help people stay healthy. The Food and Drug Administration requires clinical trials before a new medication can be approved. Sometimes it is necessary to compare an experimental treatment with a placebo (inactive treatment) when no standard treatment exists.

FDA Consumer magazine published this article “Inside Clinical Trials Testing Medical Products in People” which may assist in understand the purpose, process and procedure of clinical trials from the Food and Drug Administrative’s perspective.

Why should I take part in a clinical trial?

Because the trials are investigations designed to learn more about a specific disease or treatment, personal benefit cannot be guaranteed. The benefits of taking part in a clinical trial depend on the study you join. The benefits also depend on your assigned study group. Here are some possible benefits you might get from taking part in a clinical trial. You may:

get free health exams;
learn more about your health;
take a more active role in your own health care;
have your health watched closely;
receive some medications at no cost to you; and help answer research questions that may mean better health for people in the future.

What are the risks of taking part in a clinical trial?

There are risks to you when you take part in a clinical trial. The study doctors and coordinators will watch you carefully for any changes in your health. You are always free to leave the study. The risks will vary depending on the kind of trial you join. Here are some possible risks.

You may have side effects (health problems) from taking a new medicine or getting a new procedure that is being tested. There may be side effects that are unexpected. Usually you will need to give blood samples. Some people find that process uncomfortable.
The visits for the clinical trial may be frequent and time consuming.

The therapy you receive may not be effective or you may be assigned to a placebo group

How do I know if I have been given all the information I need about taking part in a clinical trial?

When beginning any study the doctor, or investigator, must ask approval from an Institutional Review Board (IRB). The IRB is a committee of doctors and other medical personnel that have no ties to the study. The IRB makes sure the study is as safe as possible and that the “informed consent” explains all of the important information to the patient.

Before people join a clinical trial, they go through something called the “informed consent process”. This process means that you are given written information that tells you about the purpose of the study; risks and benefits of being in the study; and what will happen to you in the study. You will be given an informed consent form, which you will need to read over very carefully. Take the form home and share it with family members, friends, and your primary care doctor. Once you have read the form, ask questions about words or procedures that you don’t understand.

Another part of the informed consent process is that you can ask questions about the study at any time. It is your right to have all the information you need to make your decision about whether or not to take part in a clinical trial. Don’t let anyone pressure you into taking part in a clinical trial. The choice is yours.

What if I decide that I don’t want to be a part of the study, even though the study has already started?

That’s okay. You can change your mind and leave the study at any time. Remember that being a part of a clinical trial is always your choice. Your relationship with your doctor will not change because you decide to leave the study. Your care will not be affected in any way.

Who takes part in clinical trials?

Many different people take part in clinical trials. People who take part in clinical trials are volunteers who meet eligibility criteria for the study. Eligibility criteria are requirements that someone must meet to be a part of the study. Some examples of eligibility criteria are having a certain disease such as Wegener’s Granulomatosis (WG); not showing improvement on standard WG medications; being a certain age; or being in good health. These criteria help make sure that the study answers the right research question.

Is it safe to participate in a clinical trial if trying to conceive a child or pregnant?

Check with your doctor or the study coordinator to find out if it is safe to participate in a particular study if you are trying to conceive, if you are pregnant or postpartum. If the trial is assessing medications, there is often concern about how medicines used in a study could affect a pregnancy regardless of being male or female. The informed consent form should tell you if any of the medicines in the study could affect a pregnancy.

For women, if you are postpartum and breast feeding, check with your doctor to make sure it is okay to breast feed your baby while you are taking part in a clinical trial. Don’t be afraid to ask questions about safety.

How can I find out about clinical trials or other research studies at the Johns Hopkins Vasculitis Center ?

If you would like more information about one of our research activities or if you would like to be a participant, please contact the Johns Hopkins Vasculitis Center.

Methotrexate (MTX)

What is methotrexate?

Methotrexate is an oral or injected drug used in the treatment of nearly every form of vasculitis. In fact, methotrexate is used in the treatment of most diseases seen by rheumatologists.

How does methotrexate work?

Methotrexate works by interfering with the replication of immune cells.

How is methotrexate given?

Methotrexate is always given once per week. It can be administered two ways: as pills taken by mouth, or as liquid that is injected subcutaneously. Patients who take methotrexate always need to take 1 mg folic acid by mouth every day to prevent side effects.

Side effects:

The side effects of methotrexate can be reduced by taking folic acid. Typical side effects can include hair thinning, oral ulcers, fatigue, nausea or diarrhea. We pay particular attention to liver function tests, renal function, and blood counts while using methotrexate. Patients taking methotrexate should not drink alcohol while using this medication.

All immunosuppressants require regular monitoring in the form of blood tests, in-person assessments, and prompt attention to any signs or symptoms of infection.

Vasculitis Treatments

While there are many different forms of vasculitis, all share the feature of organ damage caused by the immune system. Therefore, treatments for vasculitis are medications that suppress parts of the immune system (immunosuppressant drugs). The earliest treatment strategies developed for vasculitis involved very broadly-acting immunosuppressive drugs that lower immune system function in a relatively non-specific way. Today, vasculitis patients benefit from more sophisticated modern therapies that target specific portions of the immune system.

General Principles

We use a variety of medications, sometimes in combinations, to treat different forms of vasculitis. Yet a similar general approach is used across these diseases. Active vasculitis causes damage to the organs affected by the disease. We act quickly to stop the inflammation that is present in active disease. When successful, a patient then enters a state of disease remission. During remission, all signs of active inflammation are gone, but there may still be symptoms due to damage in organs where inflammation was previously present.

When disease is in an active state we typically use steroids (prednisone) to bring the disease under control quickly. The amount and type of steroids used depends on the severity of the inflammation present. Generally, steroids are used on a short-term basis to bring the disease under initial control (remission). We avoid long-term use of steroids because of their numerous and serious side effects. Some mild forms of vasculitis do not require any prednisone at all.

Along with the initiation of steroids, we typically start a “steroid-sparing” drug that will be used on a longer-term basis. These steroid-sparing drugs provide the antiinflammatory effect that controls vasculitis, while avoiding the side effects of steroids. Some steroid-sparing drugs are “biologic” medications – drugs that are made from cells, rather than chemicals synthesized in a reaction or extracted from a natural source. Examples of biologic treatments include insulin, vaccines, and blood products. In rheumatology, many biologics are antibodies that have been designed to target specific parts of the immune system. These drugs provide greater specificity than older drugs, therefore helping to reduce side effects. In addition to immunosuppressive drugs, we use some other treatments that are immunomodulatory in function – they have an impact on the immune system, but do not lower immune function in such a way that the risk of infection is increased. Examples of immunomodulatory drugs include colchicine and IVIG.

The first step in treating active vasculitis is to bring the disease into a state of remission. Prednisone impacts the immune system very quickly, and does the bulk of the work to reduce inflammation acutely. Most steroid-sparing drugs take longer to have an effect. After active disease has been adequately treated, our next goal is to reduce and then eliminate steroids, and use the steroid-sparing drug alone to maintain disease remission. Sometimes we are able to switch to milder immunosuppressants to maintain disease remission for longer timeframes. Occasionally, we are forced to maintain the use of prednisone for a longer time, but we always work to minimize the amount of prednisone used in these cases.

Once patients are successfully into remission, we continue using maintenance immunosuppression to keep the disease in a quiet state. The overall duration of therapy depends on many factors, including: the specific type of vasculitis present and its propensity to relapse, the severity and type of organ damage that was present at onset, the extent to which patients tolerate immunosuppression, other medical diagnoses that may be present, and other factors. Most forms of vasculitis have the ability to return to an active state at some point in the future, which is referred to as a relapse or flare of disease. In general, the symptoms that occur during relapses are less severe than those that were present at the beginning of a patient’s illness before immunosuppression had been initiated.

Below you will find information on the specific drugs that we utilize in the management of vasculitis.

Vasculitis medications:

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.

How to Support the Johns Hopkins Vasculitis Center

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:

Dedicated physicians and research investigators
Generous patients who selflessly contribute their time and samples
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: 443-571-720 7
Email: adugan3@jh.ed u

Vasculitis Frequently Asked Questions

What causes vasculitis?
What is going to happen to me?
Is vasculitis curable?
Is vasculitis hereditary?
Does diet affect vasculitis?
Will my vasculitis return?
How should I guard against the occurrence of a disease flare?
Why do I have to have bloodwork checked frequently?

What causes vasculitis?

The causes of most forms of vasculitis remain unknown. Infections are strongly suspected of playing a role in in forms such as the association of hepatitis B (a virus) and polyarteritis nodosa, and hepatitis C (another virus) and cryoglobulinemic vasculitis. Bacterial infections have been suspected of playing a possible role in granulomatosis with polyangiitis (GPA, formerly known as Wegener’s) which is the reason that some patients with GPA that is limited to the upper respiratory tract are treated only with an antibiotic, Bactrim (trimethoprim/sulfamethoxazole). A general theory that applies to many types of vasculitis is that the disease results from the occurrence of a particular infection in a person whose genes (and other factors) make him/her susceptible to developing vasculitis.

What is going to happen to me?

The course of vasculitis is often difficult to predict. Some types of vasculitis may occur only once and do not return. Other types are prone to recurrences. For all patients with vasculitis, it is essential to be evaluated by physicians who are experienced in the treatment of these diseases. Vasculitis is treatable, and many patients achieve remissions through treatment. It is important to balance the types of medications necessary to control the disease and the risk of side effects that those medicines often bring. A primary aim of several ongoing new studies in vasculitis is to find drugs that help maintain remission.

Is vasculitis curable?

Most forms of vasculitis are treatable if detected early enough, before substantial organ damage has occurred. While often effective, however, the treatments remain imperfect and require improvement. Further research is needed in all forms of vasculitis. Greater knowledge of these diseases will lead to better treatments and, some day, to cures.

Will my children or other family members get it?

Vasculitis is not contagious. One cannot acquire vasculitis from contact with a vasculitis patient. In addition, despite the fact that genes probably play a role in susceptibility to some forms of vasculitis, it is unusual for vasculitis to occur in more than one member of the same family. Thus, vasculitis is not a heritable disorder. All of these points illustrate the fact that the causes of vasculitis are complex. In all likelihood, patients develop vasculitis because of the simultaneous occurrence of multiple risk factors, most of which remain poorly understood.

Does diet affect vasculitis?

This is one of the most commonly-asked questions by patients with vasculitis. All patients want to do whatever is within their power to help treat their disease. Unfortunately, there is presently no evidence that a person’s diet affects susceptibility to vasculitis, or that consuming or avoiding certain foods or beverages affects the course of the disease. In general, we advocate eating a balanced healthy diet rich in protein and vegetables. Avoidance of excessive empty calories, processed foods, and sugars may be very important, particularly in patients on steroids who are at risk for weight gain.

Will my vasculitis return?

After patients achieve remission from their vasculitis, it is logical for them to wonder if their disease will ever return. The answer, which is often difficult to give with certainty, depends in large part on the patient’s specific type of vasculitis. For example, some types of vasculitis, such as Henoch-Schönlein purpura (HSP) or vasculitis caused by a medication, are often self-limited and resolve on their own. Other forms of vasculitis (e.g., Buerger’s disease, a disease strongly associated with cigarette smoking) resolve with institution of the definitive treatment: smoking cessation.

However, other forms of vasculitis behave less predictably and never come back in some patients but recur frequently in others. Granulomatosis with polyangiitis (GPA), giant cell arteritis (GCA), Takayasu arteritis, microscopic polyangiitis, and many other types of vasculitis fall into the category of diseases that have periods of quiescence and periods of flare. Disease flares in vasculitis can be mild (rash, minor joint pains) or severe (renal failure, skin ulcers). Flares may occur if medications are discontinued or dosage is lowered. Flare may occur in the context of infection. Often the reason for disease flare is unknown.

At the present time, the ability of doctors to predict who will suffer disease flares and who will maintain in long-term remissions (or be cured) needs refinement. Progress in this area will come through research.

How should I guard against the occurrence of a disease flare?

We believe that several points are worth keeping in mind:

First, the symptoms of flares are usually very similar those experienced at the onset of disease. If headaches signaled the beginning of giant cell arteritis, then the recurrence of headaches may indicate a disease flare. If leg ulcers began as painful red lumps on the leg the first time, then the return of painful red lumps may mean that vasculitis is back. Patients must become experts about their own manifestations of vasculitis so that they can recognize them immediately, consult their doctors, and begin appropriate treatment before serious damage occurs.

Second, we believe that patients truly know and understand their own bodies. It is important to discuss new or changing symptoms with your physicians. Together, patients and physicians can determine if new symptoms truly represent a vasculitis flare or if the cause is something equally as likely (medication side effect, infection, or other common medical issues).

Finally, because vasculitis treatments require careful monitoring by doctors, patients should discuss any changes in treatment with their physicians. Increasing or decreasing medications without consulting a physician may lead to trouble.

Why do I have to have bloodwork checked frequently?

Blood tests are helpful to monitor for the return of vasculitis by keeping a watchful eye on important parameters such as kidney function, liver tests, and markers of inflammation (ESR and CRP). Blood tests are also very important to ensure that medications are not causing any side effects such as liver irritation or low blood counts.

How often should my blood be checked?

This depends on the specific medicine or medicines that you take. Patients on cyclophosphamide (Cytoxan) should have their counts checked every week. Patients on most other kinds of medications used to treat vasculitis (Methotrexate, Azathioprine) usually only need to have their blood work checked monthly. If some laboratory tests are abnormal or nearly so, then more frequent monitoring may be required.

What type of tests do we check?

Regardless of the type of vasculitis and the exact type of medication that a patient takes, similar types of tests are monitored. These tests are:

a complete blood count;
tests of kidney function including a urinalysis; and
liver function tests.

The table below outlines the importance behind checking each of these tests.

Type of Test	What should be checked	Why?
Complete Blood Count (“CBC”)	White blood cells (WBC) Platelets Hematocrit	Low WBC count may lead to infections. Low platelets may cause bleeding. Low hematocrit means insufficient oxygen-carrying capacity of the blood.
Kidney Function	Creatinine Blood Urea Nitrogen (BUN)	High creatinine and BUN indicate that the kidneys are not performing their blood-cleansing function properly.
Urinalysis	Protein Level Red Blood Cells	Normal urinalyses have no protein and no blood. The presence of protein and/or blood in the urine may indicate active vasculitis in the kidneys (or damage to the bladder from cyclophosphamide).
Liver Function	Albumin Aspartate aminotransferase(AST) Alanine aminotransferase (ALT)	Often a good indication of overall health. Elevated AST/ALT levels indicate inflammation in the liver (usually caused by medications).

Takayasu’s Arteritis

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).