The main objectives of FEIRI are: (i) To describe the demographic and arterial characteristics of FMD and related diseases at a global scale and according to countries and/or ethnic origin (ii) To evaluate the incidence and predictors of novel FMD lesions and complications (iii) To explore the commonalities and differences between FMD, SCAD and so-called atypical FMD (patients with multiple dissections and/or aneurysms without string-of-beads, focal stenosis or evidence of inherited arteriopathy) (iv) To contribute to the unravelling of genetic, proteomic and molecular mechanisms underlying FMD and related diseases Participation to the FEIRI study implies: (i) Collection of demographic and standard-of-care clinical data, both retrospectively (from the diagnosis of FMD to signature of the informed consent) and prospectively (on the occasion of standard-of-care follow-up). (ii) Optional participation to a biobank implying collection of blood, urine and, in rare cases of intervention, tissue samples for genomic and proteomic analysis and identification of diagnostic and prognostic biomarkers of FMD. Participants will be enrolled in centres from over 20 countries in Europe and beyond.
Fibromuscular dysplasia (FMD) is an idiopathic, segmental, nonatherosclerotic, and noninflammatory disease of the musculature of arterial walls, leading to stenosis of small- and medium-sized arteries. FMD can be classified in multifocal FMD, characterized by alternation of stenosis and dilations ("string-of-beads") and focal FMD, corresponding to a solitary narrowing. While for long FMD was considered as a rare cause of renovascular disease mostly affecting young women, during the last decades, joint international efforts have led to a thorough reappraisal of the disease. In summary, (i) FMD is no more considered as a truly rare disease; (ii) FMD may be also diagnosed in men (10-20%) and at all ages; (iii) beyond arterial stenosis, FMD is often associated with dissections, aneurysms and arterial tortuosity; (iv) FMD is not restricted to renal arteries and often affects two or more arterial beds; (iv) multifocal FMD lesions are frequent in patients with Spontaneous Coronary Artery Dissection (SCAD). Despite traditional views on the role of female hormones, mechanical factors and smoking, the pathophysiology of FMD remains largely unknown. In the last decade, research has been focused on genetic dissection of the disease and identification of biomarkers. Recent advances include: (i) identification of an association between FMD and an intronic variant of the Phosphatase and actin regulator 1 (PHACTR1) gene; (ii) identification of rare mutations in several genes such as Prostaglandin I2 Receptor (PTGIR) and Collagen type V alpha 1 chain (COL5A1) genes; (iii) documentation of mild Connective-Tissue Disease-like features and increased levels of Transforming Growth Factor-beta in patients with FMD; (iv) identification of a tentative proteo-genomic signature of the disease. All elements are thus in place to further dissect the pathophysiology of FMD and related diseases, refine clinical characterization, identify predictors of complications and improve screening, management and follow-up. Unravelling the clinical characteristics, genetic and molecular basis of FMD nevertheless requires large numbers of well characterized patients. In order to address these challenges and generate new evidence pertaining to FMD and associated diseases, we aimed to create an overarching resource and study named "the European/International FMD Registry and Initiative" (acronym: FEIRI). The objectives of FEIRI are: To describe the demographic and arterial characteristics of FMD and related diseases at a global scale and according to countries and/or ethnic origin To identify environmental/ hormonal factors and exposures associated with the onset and progression of FMD To evaluate the incidence and predictors of novel FMD lesions and complications To provide evidence-based algorithms for the diagnosis and optimal management and follow-up of patients with FMD To explore the commonalities and differences between FMD, SCAD and so-called atypical FMD (patients with multiple dissections and/or aneurysms without string-of-beads, focal stenosis or evidence of inherited arteriopathy) To contribute to the unravelling of genetic, proteomic and molecular mechanisms underlying FMD and related diseases Participation to the FEIRI study implies: Collection of demographic and standard-of-care clinical data, both retrospectively (from the diagnosis of FMD to signature of the informed consent) and prospectively (on the occasion of standard-of-care follow-up). Optional participation (both for centres and patients) to a biobank implying collection of blood, urine and, in rare cases of intervention, tissue samples for genomic and proteomic analysis and identification of diagnostic and prognostic biomarkers of FMD. Participants will be enrolled in centres from over 20 countries in Europe and beyond.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
5,000
Blood sampling for genetic analysis aiming at unraveling the genetic basis of Fibromuscular Dysplasia
Blood/urine and in rare cases tissue sampling aiming at identifying biomarkers of Fibromuscular Dysplasia
Cliniques Universitaires Saint-Luc
Brussels, Belgium
RECRUITINGWide-scale analysis of characteristics and progression of Fibromuscular Dysplasia
Wide-scale analysis of baseline clinical characteristics and predictors of evolution/complications of Fibromuscular Dysplasia
Time frame: 10 years
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