Takayasu's arteritis: Difference between revisions

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===Surgery===
===Surgery===
Surgical options may need to be explored for those who do not respond to steroids.  Re-perfusion of tissue can be achieved by large vessel reconstructive surgery such as bypass grafting.  Grafting autologous tissue has the highest rates of success. Stenting often obviates the need for surgery.
Surgical options may need to be explored for those who do not respond to steroids.  Re-perfusion of tissue can be achieved by large vessel reconstructive surgery such as bypass grafting.  Grafting autologous tissue has the highest rates of success. Stenting often obviates the need for surgery.


Percutaneous transluminal coronary angioplasty (PTCA) is not as effective in the long term but has fewer risks.
Percutaneous transluminal coronary angioplasty (PTCA) is not as effective in the long term but has fewer risks.

Revision as of 16:45, 2 February 2015

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For patient information click here

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [2]; Associate Editor-In-Chief: Cafer Zorkun, M.D., Ph.D. [3]

Synonyms and keywords: Aortic arch syndrome, nonspecific aortoarteritis, pulseless disease

Overview

Takayasu's arteritis is an inflammatory disease of unknown etiology that affects mainly the aorta and its branches. Takayasu's arteritis is a form of large vessel granulomatous vasculitis[1] characterized by massive intimal fibrosis and vascular narrowing. Due to obstruction of the main branches of the aorta, including the left common carotid artery, the brachiocephalic artery, and the left subclavian artery, Takayasu's arteritis can present as pulseless upper extremities (arms, hands, and wrists with weak or absent pulses on the physical examination) which may be why it is also commonly referred to as the "pulseless disease".

Historical Perspective

The first case of Takayasu’s arteritis was described in 1908 by Dr. Mikito Takayasu at the Annual Meeting of the Japan Ophthalmology Society.[2][3] Dr. Takayasu described a peculiar "wreathlike" appearance of blood vessels in the back of the eye (retina). Two Japanese colleagues at the same meeting (Dr. Onishi and Dr. Kagoshima) 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 Takayasu are rarely seen in patients from North America.

Epidemiology and Demographics

Race

Although Takayasu's arteritis has been reported worldwide, there is a predilection for young Asian women. In the Western world, atherosclerosis is a more frequent cause of obstruction of the aortic arch vessels than is Takayasu's arteritis.

Age

The age of onset is typically between 15 and 30 years.

Gender

Females are about 8–9 times more likely to be affected by Takayasu's arteritis than males.

Natural History, Complications and Prognosis

Those with the disease often notice symptoms between 15 and 30 years of age. Some people develop an initial "inflammatory phase" characterized by systemic illness with signs and symptoms of malaise, fever, night sweats, weight loss, joint pain, fatigue, and fainting. Fainting may result from subclavian steal syndrome or carotid sinus hypersensitivity.[4] There is also often anemia and marked elevation of the ESR or C-reactive protein (nonspecific markers of inflammation). The initial "inflammatory phase" is often followed by a secondary "pulseless phase".[1] The "pulseless phase" is characterized by vascular insufficiency from intimal narrowing of the vessels manifesting as arm or leg claudication, renal artery stenosis causing hypertension, and neurological manifestations due to decreased blood flow to the brain.[1] Of note is the function of renal artery stenosis in causation of high blood pressure: Normally perfused kidneys produce proportionate amount of a substance called renin. Stenosis of the renal arteries causes hypo-perfusion (decreased blood flow) of the juxtaglomerular apparatus, resulting in exaggerated secretion of renin, and high blood levels of aldosterone, eventually leading to water and salt retention and high blood pressure. The neurological symptoms of the disease vary depending on the degree, and the nature of the blood vessel obstruction and can range from lightheadedness, to seizures in severe cases. One rare but important feature of the Takayasu's arteritis is ocular involvement in form of visual field defects, vision loss, or retinal hemorrhage.[5][6] Some individuals with Takayasu's arteritis may present with only late vascular changes, without a preceding systemic illness. In the late stage, weakness of the arterial walls may give rise to localized aneurysms. As with all aneurysms, possibility of rupture and vascular bleeding is existent and requires monitoring. Raynaud's phenomenon is commonly found in this disease, mainly due to decreased circulation of the blood to the arms.

Classification

Four types of late-phase Takayasu arteritis are described on the basis of the sites of involvement as follows:[7]

  • Type I - Classic pulseless type that involves the brachiocephalic trunk, carotid arteries, and subclavian arteries
  • Type II - Combination of type I and III
  • Type III - Atypical coarctation type that involves the thoracic and abdominal aortas distal to the arch and its major branches
  • Type IV - Dilated type that involves extensive dilatation of the length of the aorta and its major branches

Pathophysiology

Although its cause is unknown, the condition is characterized by segmental and patchy granulomatous inflammation of the aorta and its major derivative branches. This inflammation leads to arterial stenosis, thrombosis, and aneurysms.[8] There is also irregular fibrosis of the blood vessels due to chronic vasculitis, leading to sometimes massive intimal fibrosis (fibrosis of the inner section of the blood vessels).[5] Prominent narrowing due to inflammation, granuloma, and fibrosis is often seen in arterial studies such as magnetic resonance angiography (MRA), computed tomography angiography (CTA), or arterial angiography (DSA).

The genetic contribution to the pathogenesis of Takayasu's arteritis is supported by the genetic association with HLA-B∗52. A recent large collaborative study uncovered multiple additional susceptibility loci for this disease, increasing the number of genetic loci for this disease to five risk loci across the genome.[9] About 200,000 genetic variants were genotyped in two ethnically divergent Takayasu's arteritis cohorts from Turkey and North America by using a custom-designed genotyping platform (Immunochip). Additional genetic variants and the classical HLA alleles were imputed and analyzed. The study identified and confirmed two independent susceptibility loci within the HLA region (r2 < 0.2): HLA-B/MICA (rs12524487, OR = 3.29, p = 5.57 × 10-16) and HLA-DQB1/HLA-DRB1 (rs113452171, OR = 2.34, p = 3.74 × 10-9; and rs189754752, OR = 2.47, p = 4.22 × 10-9). In addition, a genetic association was identified and confirmed between Takayasu's arteritis and the FCGR2A/FCGR3A locus on chromosome 1 (rs10919543, OR = 1.81, p = 5.89 × 10-12). The risk allele in this locus results in increased mRNA expression of FCGR2A. In addition, a genetic association between IL12B and Takayasu arteritis was established (rs56167332, OR = 1.54, p = 2.18 × 10-8). A fifth genetic locus for the disease on chromosome 21q22 downstream of PSMG1 was also revealed (P=4.39X10-7).[9]

Diagnosis

The American College of Rheumatology (ACR) [10] has established diagnostic criteria for Takayasu arteritis. The patient needs to meet 3 out of 6 criteria for the diagnosis of takayasu arteritis:

Symptoms

The disease can be divided into two phases; the Initial phase is pre-pulseless phase, in which patients presents which non-specific constitutional symptoms of vasculitis, which may include any of the following:

With progression of the disease and involvement of the branches of aorta, the specific signs appear secondary to narrowing/occlusion of the branches of aorta.

  • Involvement of subclavian artery is common and leads to claudication of upper extremities (pain with activity). The stenosis of subclavian artery sometimes leads to subclavian steel syndrome. In this phenomenon, the stenosis of subclavian artery, proximal to the origin of Vertebral Artery leads to retrograde flow of blood from the vertebral artery back to subclavian artery during exercise, secondary to vasodilation of blood vessels. The retrograde flow of blood from the vertebral artery back towards subclavian compromises blood flow in posterior cerebral bed, leading to various neurological symptoms including presyncope/syncope.
  • Involvement of carotid and vertebral arteries: headache, vertigo, syncope, convulsions and dementia
  • Involvement of coronary arteries: chest pain, angina which may progress to myocardial infarction
  • Involvement of ascending aorta may: aortic regurgiatation
  • Skin lesions resemble erythema nodosum, erythema multiforme, pyoderma gangrenosum

In rare instances, the disease may involve abdominal, pulmonary vessels. In advance stages of the disease, the occlusion of the vessels to the extremities may can ischemic ulcerations. Due to chronic nature of the disease, collateral circulation develops in the affected area.

Treatment

Medical Therapy

Most people with Takayasu’s arteritis respond to steroids such as 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.

Promising results are achieved with mycophenolate and tocilizumab. If treatment is not kept to a high standard then long term damage or death can occur.

Stress is a major factor that should be avoided at all costs; if this is not taken into account the surge of adrenaline can have a damaging effect on the heart.

Surgery

Surgical options may need to be explored for those who do not respond to steroids. Re-perfusion of tissue can be achieved by large vessel reconstructive surgery such as bypass grafting. Grafting autologous tissue has the highest rates of success. Stenting often obviates the need for surgery.

Percutaneous transluminal coronary angioplasty (PTCA) is not as effective in the long term but has fewer risks.

References

  1. 1.0 1.1 1.2 American College of Physicians (ACP). Medical Knowledge Self-Assessment Program (MKSAP-15): Rheumatology. "Systemic Vasculitis." Pg. 65–67. 2009, ACP. [1]
  2. Template:WhoNamedIt
  3. M. Takayasu. A case with peculiar changes of the central retinal vessels. Acta Societatis ophthalmologicae Japonicae, Tokyo 1908, 12: 554.
  4. Shikino Kiyoshi, Takako Masuyama and Masatomi Ikusaka. FDG-PET of Takayasu Arteritis. JGIM 2014.
  5. 5.0 5.1 John Barone, M.D. USMLE Step 1 Lecture Notes. "Vascular Pathology." 2008, Kaplan Inc. pg 101.
  6. Milan B, Josip K. (November 1967). "Ocular manifestations of the aortic arch syndrome (pulseless disease; Takayasu's disease) (Translated from French)". Annales d'oculistique. 200 (11): 1168–79. PMID 6079381.
  7. "eMedicine - Arteritis, Takayasu : Article by Robert L Cirillo, Jr, MD, MBA". Retrieved 2007-07-19.
  8. 9.0 9.1 Saruhan-Direskeneli, G (Jul 2, 2013). "Identification of Multiple Genetic Susceptibility Loci in Takayasu Arteritis". American journal of human genetics. 93 (2): 298–305. doi:10.1016/j.ajhg.2013.05.026. PMC 3738826. PMID 23830517. Unknown parameter |coauthors= ignored (help)
  9. Arend WP, Michel BA, Bloch DA, Hunder GG, Calabrese LH, Edworthy SM et al. (1990) The American College of Rheumatology 1990 criteria for the classification of Takayasu arteritis. Arthritis Rheum 33 (8):1129-34. PMID: 1975175 PMID: 1975175

External links


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