Imagerie cardiaque dans les vascularites associées aux ANCA

Myocardial Involvement in Rheumatic Disorders

PURPOSE OF REVIEW

Autoimmune rheumatic diseases (ARDs) affect 8% of the population and approximately 78% of patients are women. Myocardial disease in ARDs is the endpoint of various pathophysiologic mechanisms including atherosclerosis, valvular disease, systemic, myocardial, and/or vascular inflammation, as well as myocardial ischemia and replacement/diffuse fibrosis.

RECENT FINDINGS

The increased risk of CVD in ARDs leads to excess comorbidity not fully explained by traditional cardiovascular risk factors. It seems that the chronic inflammatory status typically seen in ARDs, promotes both the development of myocardial inflammation/fibrosis and the acceleration of atherosclerosis. CMR (cardio-vascular magnetic resonance) is the ideal imaging modality for the evaluation of cardiac involvement in patients with ARDs, as it can simultaneously assess cardiac function and characterize myocardial tissues with regard to oedema and fibrosis. Due to its high spatial resolution, CMR is capable of identifying various disease entities such as myocardial oedema /inflammation, subendocardial vasculitis and myocardial fibrosis, that are often missed by other imaging modalities, notably at an early stage of development. Although generally accepted guidelines about the application of CMR in ARDs have not yet been formulated, according to our experience and the available published literature, we recommend CMR in ARD patientS with new-onset heart failure (HF), arrhythmia, for treatment evaluation/change or if there is any mismatch between patient symptoms and routine non-invasive evaluation.

Granulomatosis with Polyangiitis with Myocarditis and Ventricular Tachycardia

Granulomatosis with polyangiitis (GPA), previously known as Wegener's granulomatosis, is a pulmonary-renal syndrome affecting small and medium sized blood vessels. The disease has a prevalence in studies ranging from 3 to 15.7 cases per 100,000, with a noted increasing incidence and prevalence in more recent studies. Pulmonary manifestations include hemorrhage, lung cavitary lesions, and pulmonary fibrosis. Within the kidney, GPA is known to cause rapidly progressive pauci-immune crescentic glomerulonephritis. Rare and severe cardiovascular manifestations include pericarditis, arrhythmias, myocarditis, and aortic valve disease. Our patient is a 43-year-old female with typical pulmonary and renal lesions from GPA and also acute myocarditis, multiple episodes of ventricular tachycardia, and a severe reactive thrombocytosis.

Cardiac involvement in granulomatosis with polyangiitis: a magnetic resonance imaging study of 31 consecutive patients

Objectives

Specific cardiac involvement in granulomatosis with polyangiitis (GPA) is probably underestimated since many of these conditions are subclinical. The objective of this study was to assess the prevalence and patterns of cardiac abnormalities detected by cardiac MRI (CMRI) in patients with GPA.

Methods

Thirty-one consecutive patients with newly diagnosed or relapsing GPA underwent CMRI to assess morphological, functional, perfusion at rest and delayed enhancement abnormalities.

Results

At least one abnormality was observed on CMRI for 19 of 31 patients (61%). Four patients (13%) had an impaired left ventricle ejection fraction (LVEF). LV regional wall motion abnormalities were found in 11 patients (35%). Late gadolinium enhancement (LGE) was detected in 10 of 31 patients (32%). LGE was mostly nodular ( n = 9). Myocardial early contrast enhancement was detected in 5 of the 31 patients (16%), which was systematically associated with LGE in the same territory. CMRI detected pericarditis in eight patients (26%). GPA with <18 months duration was associated with a higher LVEF ( P = 0.03), fewer CMRI abnormalities ( P = 0.04) and less LV hypokinesia ( P = 0.04) than GPA with a longer duration. Patients with recent-onset GPA had a higher LVEF ( P = 0.01) and less LV hypokinesia ( P = 0.006) than patients experiencing a relapse ( P = 0.02).

Conclusion

CMR is an accurate technique for detecting heart involvement in GPA. This unique non-invasive technique may provide information with important clinical implications for the accurate early assessment of cardiac lesions in GPA patients and for detecting cumulative, irreversible damage. It may also have prognostic implications.

Cardiovascular magnetic resonance in rheumatology: Current status and recommendations for use

Targeted therapies in connective tissue diseases (CTDs) have led to improvements of disease-associated outcomes, but life expectancy remains lower compared to general population due to emerging co-morbidities, particularly due to excess cardiovascular risk. Cardiovascular magnetic resonance (CMR) is a noninvasive imaging technique which can provide detailed information about multiple cardiovascular pathologies without using ionizing radiation. CMR is considered the reference standard for quantitative evaluation of left and right ventricular volumes, mass and function, cardiac tissue characterization and assessment of thoracic vessels; it may also be used for the quantitative assessment of myocardial blood flow with high spatial resolution and for the evaluation of the proximal coronary arteries. These applications are of particular interest in CTDs, because of the potential of serious and variable involvement of the cardiovascular system during their course. The International Consensus Group on CMR in Rheumatology was formed in January 2012 aiming to achieve consensus among CMR and rheumatology experts in developing initial recommendations on the current state-of-the-art use of CMR in CTDs. The present report outlines the recommendations of the participating CMR and rheumatology experts with regards to: (a) indications for use of CMR in rheumatoid arthritis, the spondyloarthropathies, systemic lupus erythematosus, vasculitis of small, medium and large vessels, myositis, sarcoidosis (SRC), and scleroderma (SSc); (b) CMR protocols, terminology for reporting CMR and diagnostic CMR criteria for assessment and quantification of cardiovascular involvement in CTDs; and (c) a research agenda for the further development of this evolving field.

[Cardiac tamponade and myocarditis in Churg-Strauss syndrome]

INTRODUCTION

The successive occurrence of pericardial tamponade and myocarditis during a Churg-Strauss syndrome is exceptionally described. We report a patient in whom pericardial tamponade and myocarditis were the presenting manifestation of a Churg-Strauss syndrome.

CASE REPORT

A 58-year-old woman was admitted because of alteration of the clinical status with eosinophilia. One month ago, she was hospitalized for a pericardial tamponade treated by pericardial drainage. Acute myocarditis was diagnosed on chest pain during the second hospitalization. The etiologic inquiry ended in the diagnosis of Churg-Strauss complicated with a double cardiac involvement. A good response of clinical and biological anomalies was obtained after corticosteroid and immunosuppressive treatment.

CONCLUSION

Isolated or multiple involvements of cardiac tunics should lead to make diagnosis of systemic vasculitis. A complete initial assessment and a close observation of the patients followed for Churg-Strauss syndrome is imperative to detect a cardiac achievement and set up an early treatment.

Heart involvement in Churg-Strauss syndrome: retrospective study in French Burgundy population in past 10 years

INTRODUCTION

Heart manifestations of Churg-Strauss syndrome (CSS) are varied. In the early stages of the disease, it is difficult to distinguish between lesions that are specific to CSS and those of other etiologies. The aim of our work was to compare the characteristics of patients with heart manifestations linked or not to Churg-Strauss syndrome.

MATERIAL AND METHODS

We recorded all clinical symptoms of patients with CSS hospitalized between 1998 and 2008 in Burgundy, France, and determined the possible relationships between heart symptoms and CSS.

RESULTS

From a cohort of 31 patients, we found 20 with heart lesions. When heart lesions were present, we noted fewer initial symptoms of digestive disorders (p<0.05), lower levels of lung infiltrates and fewer anti-MPO pANCA (p<0.05). Heart lesions were linked to CSS in 75% of cases. Their patients were thus younger than those in the other cardiac patients (p<0.05), were more likely to have clinical manifestations of heart involvement at diagnosis, were less likely to have lung infiltrates on the X-ray at diagnosis and during flare-ups and less likely to have lung abnormalities on X-rays during flare-ups (p<0.05) and higher level of leucocytes and eosinophils at diagnosis.

CONCLUSION

Heart lesions directly attributable to CSS are frequent, severe and probably underestimated. A specific physiopathology that is not mediated by ANCA seems to be involved in the genesis of CSS-related heart lesions.

Cardiovascular magnetic resonance imaging detects cardiac involvement in Churg-Strauss syndrome

BACKGROUND

Cardiac involvement in Churg-Strauss vasculitis worsens the prognosis. Early detection is, therefore, warranted. Cardiac magnetic resonance (CMR) can visualize various forms of inflammatory changes in the myocardium. We tested whether CMR could elucidate cardiac damage in patients with biopsy-proven Churg-Strauss syndrome and clinical evidence of cardiac involvement.

METHODS AND RESULTS

Eleven patients underwent a CMR protocol including cine imaging for left ventricular function in long axes, T2-weighted imaging for edema detection, and contrast-enhanced T1-weighting for early and late gadolinium enhancement. CMR detected various form of myocardial injury in all patients. Systolic left ventricular function was impaired in 6 patients. Mean left ventricular ejection fraction was 45 +/- 15%. Left ventricular size was mildly enlarged (left ventricular end-diastolic volume index 94 +/- 23 mL/m(2)). Edema was present in 4 cases; 7 patients had pericardial effusion. Six patients had increased early contrast uptake. CMR detected late enhancement lesions in 9 of 11 patients, even in those with normal left ventricular size and function.

CONCLUSIONS

CMR has the potential to detect myocardial injury in Churg-Strauss syndrome even when left ventricular function appears normal.