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Query: UMLS:C0004153 (
atherosclerosis
)
77,401
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
T lymphocytes, encountering stimulatory signals in the adventitia of medium-size arteries, emerge as the key players in inflammation-associated injury pathways. In
GCA
, all injury mechanisms have been related to effector macrophages. Regulated by IFN-gamma-producing T cells, macrophages commit to distinct avenues of differentiation and acquire a spectrum of potentially harmful capabilities (Figure 1). Macrophages in the adventitia focus on production of pro-inflammatory cytokines. Macrophages in the media specialize in oxidative damage with lipid peroxidation attacking smooth muscle cells and matrix components. These macrophages also supply reactive oxygen intermediates that, in combination with nitrogen intermediates, cause protein nitration of endothelial cells. Production of oxygen radicals is complemented by the production of metalloproteinases, likely essential in the breakdown of elastic membranes. With the fragmentation of the internal elastic lamina, the intimal layer becomes accessible to migratory myofibroblasts that, driven by PDGF, form a hyperplastic intimal layer and cause occlusion of the vessel lumen. Expansion of the hyperplastic intima is accompanied by intense neoangiogenesis, supported by angiogenesis factors that again derive from specialized macrophages. Similarities in injury pathways between
GCA
and another arterial disease,
atherosclerosis
, are beginning to be recognized. Specifically, activated T cells and macrophages are increasingly appreciated as key players in the process of instability and rupture of atherosclerotic plaque. A specialized subset of CD4 T cells, CD4+ CD28- T cells, are suspected to participate in tissue injury in the plaque. These T cells are equipped with cytolytic capabilities and release large amounts of IFN-gamma. Comparative studies between patients with
GCA
and those with acute coronary syndromes should enhance our ability to define the principles of arterial wall inflammation, the specifics of injury in that microenvironment, and help in the identification of the eliciting signals.
...
PMID:Pathogenic mechanisms in giant cell arteritis. 1208 61
Patients with different forms of systemic vasculitis experience long-term morbidity and mortality caused by cardiovascular disease due to premature
atherosclerosis
. Epidemiologic reports of patients with
GCA
suggest that long-term mortality in this disease is not increased compared with the general population of the same age. The risk of a stroke, however, in particular in the vertebrobasilar territory, is increased. In addition, the occurrence of aortic aneurysmal disease and aortic dissection is also clearly increased in
GCA
. Mortality due to ischaemic heart disease, however, is not increased. In Takayasu arteritis accelerated
atherosclerosis
has been clearly documented both clinically and in autopsy reports. Atherosclerotic plaques in the carotid artery may be present in the carotid arteries especially in patients with a documented history of arteritis involving the carotid artery. It is controversial whether Kawasaki disease is associated with accelerated
atherosclerosis
. Young adults with a history of Kawasaki disease may have abnormal brachial artery reactivity, increased carotid IMT values and increased arterial stiffness. At autopsy examinations of KD patients, however, no significant atherosclerotic lesions are detected and carotid IMT measurements were found to be clearly different from those in young adults with familiar hypercholesterolaemia, suggesting that the remodeling process in KD is different from
atherosclerosis
. In ANCA-associated vasculitis (AAV), an increased mortality as a consequence of cardiovascular disease is well-documented. In these patients the relative risk for coronary heart disease is two- to fourfold that in control subjects. In addition, a similar relative risk has been found for stroke. Diabetes, hypertension, dyslipidemia, abdominal obesity (metabolic syndrome), impaired renal function, persistent proteinuria and increased production of C-reactive protein are common risk factors for premature
atherosclerosis
in patients with systemic vasculitis. Furthermore, cholesterol and its modifications play a pivotal role in the pathogenesis of accelerated
atherosclerosis
in vasculitis. The (preventive) therapy for accelerated
atherosclerosis
in systemic vasculitis is based on an aggressive approach against inflammation and against risk factors of premature
atherosclerosis
such as smoking, inactivity, obesity and unhealthy diet. In addition, patients should be treated with angiotensin-converting enzyme inhibitors and/or angiotensin receptor-1 blockers for hypertension and statins for dyslipidemia. Finally, low dose acetylsalicylic acid should be prescribed in patients with large vessel vasculitis, i.e., both in
GCA
and TA, who do not have contraindications for ASA.
...
PMID:Cardiovascular disease due to accelerated atherosclerosis in systemic vasculitides. 2350 55
Giant coronary aneurysms (
GCA
with a diameter > 20 mm) are rare with a prevalence < 0.02%. A 62-year-old woman with no history of ischaemic heart disease was admitted to hospital with acute chest pain. A coronary angiography revealed a left an-terior descendent-associated
GCA
. A cardiac computed tomo-g-raphy demonstrated a "snake-pit"-like fistula connecting the
GCA
and the pulmonary artery.
Atherosclerosis
, connective tissue dis-orders, and previous coronary intervention will predispose to
GCA
. No evidence-based treatment regimen exists, but coiling, excision or a conservative approach, as in this case, is possible strategies.
...
PMID:[Fistula-producing giant coronary aneurysm in a 62-year-old woman]. 2549 15
Early diagnosis and treatment of
GCA
is essential to prevent complications of the disease, including permanent vision loss. Temporal artery biopsy has been intrinsically linked with the diagnosis of
GCA
for several decades. A negative predictive value of > 90% has been reported for temporal artery biopsy; however, a negative result does not reliably indicate the absence of
GCA
because inflammation of the temporal artery is not always evident because of segmental involvement or other reasons. This is demonstrated by a case study of a patient hospitalized following acute vision loss to the right eye whose glucocorticoid treatment was suspended after temporal artery biopsy revealed no evidence of
GCA
. The patient subsequently lost sight in the left eye 6 weeks after stopping glucocorticoid therapy. The specificity of temporal artery biopsy for the diagnosis of
GCA
is variable and influenced by many factors, including length of biopsy specimens, vasculitis in vessels other than the temporal artery (ophthalmic, retinal and posterior ciliary vessels), unilateral versus bilateral biopsy, expertise of the surgeon, interpretation of histology, effects of treatment and confounding factors such as
atherosclerosis
or other non-
GCA
diseases that can affect the temporal artery. Considering the limitations of temporal artery biopsy, collaboration and education between the clinician, the pathologist and the patient, taking into account a thorough examination of patient history, recognizing signs and symptoms, and potentially involving newer imaging studies with trained technicians and physicians, are essential in confirming or eliminating diagnosis of
GCA
.
...
PMID:Why do temporal arteries go wrong? Principles and pearls from a clinician and a pathologist. 2998 82
