Current progress in clinical, molecular, and genetic aspects of adult fibromuscular dysplasia

A. Persu; P. Dobrowolski; H.L. Gornik; J.W. Olin; D. Adlam; M. Azizi; P. Boutouyrie; R.M. Bruno; M. Boulanger; J.B. Demoulin; S.K. Ganesh; T.J. Guzik; M. Januszewicz; J.C. Kovacic; M. Kruk; P. de Leeuw; B.L. Loeys; M. Pappaccogli; M.H.A.M. Perik; E. Touze; P. Van der Niepen; D.J.L. Van Twist; E. Warchol-Celinska; A. Prejbisz; A. Januszewicz

doi:10.1093/cvr/cvab086

Current progress in clinical, molecular, and genetic aspects of adult fibromuscular dysplasia

A. Persu^*, P. Dobrowolski, H.L. Gornik, J.W. Olin, D. Adlam, M. Azizi, P. Boutouyrie, R.M. Bruno, M. Boulanger, J.B. Demoulin, S.K. Ganesh, T.J. Guzik, M. Januszewicz, J.C. Kovacic, M. Kruk, P. de Leeuw, B.L. Loeys, M. Pappaccogli, M.H.A.M. Perik, E. TouzeP. Van der Niepen, D.J.L. Van Twist, E. Warchol-Celinska, A. Prejbisz, A. Januszewicz

^*Corresponding author for this work

Research output: Contribution to journal › (Systematic) Review article › peer-review

Abstract

Fibromuscular dysplasia (FMD) is a non-atherosclerotic vascular disease that may involve medium-sized muscular arteries throughout the body. The majority of FMD patients are women. Although a variety of genetic, mechanical, and hormonal factors play a role in the pathogenesis of FMD, overall, its cause remains poorly understood. It is probable that the pathogenesis of FMD is linked to a combination of genetic and environmental factors. Extensive studies have correlated the arterial lesions of FMD to histopathological findings of arterial fibrosis, cellular hyperplasia, and distortion of the abnormal architecture of the arterial wall. More recently, the vascular phenotype of lesions associated with FMD has been expanded to include arterial aneurysms, dissections, and tortuosity. However, in the absence of a string-of-beads or focal stenosis, these lesions do not suffice to establish the diagnosis. While FMD most commonly involves renal and cerebrovascular arteries, involvement of most arteries throughout the body has been reported. Increasing evidence highlights that FMD is a systemic arterial disease and that subclinical alterations can be found in non-affected arterial segments. Recent significant progress in FMD-related research has led to improve our understanding of the disease's clinical manifestations, natural history, epidemiology, and genetics. Ongoing work continues to focus on FMD genetics and proteomics, physiological effects of FMD on cardiovascular structure and function, and novel imaging modalities and blood-based biomarkers that can be used to identify subclinical FMD. It is also hoped that the next decade will bring the development of multi-centred and potentially international clinical trials to provide comparative effectiveness data to inform the optimal management of patients with FMD.

Original language	English
Pages (from-to)	65-83
Number of pages	19
Journal	Cardiovascular Research
Volume	118
Issue number	1
DOIs	https://doi.org/10.1093/cvr/cvab086
Publication status	Published - 7 Jan 2022

Keywords

Fibromuscular dysplasia
Research
Proteomic
Genomic
Spontaneous dissection
CORONARY-ARTERY DISSECTION
GENOME-WIDE ASSOCIATION
AFRO-CARIBBEAN PATIENTS
UNITED-STATES REGISTRY
OF-FUNCTION MUTATIONS
INTRACRANIAL ANEURYSM
RISK-FACTORS
HIGH PREVALENCE
RENAL-FUNCTION
SMOOTH-MUSCLE

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10.1093/cvr/cvab086

Cite this

Persu, A., Dobrowolski, P., Gornik, H. L., Olin, J. W., Adlam, D., Azizi, M., Boutouyrie, P., Bruno, R. M., Boulanger, M., Demoulin, J. B., Ganesh, S. K., Guzik, T. J., Januszewicz, M., Kovacic, J. C., Kruk, M., de Leeuw, P., Loeys, B. L., Pappaccogli, M., Perik, M. H. A. M., ... Januszewicz, A. (2022). Current progress in clinical, molecular, and genetic aspects of adult fibromuscular dysplasia. Cardiovascular Research, 118(1), 65-83. https://doi.org/10.1093/cvr/cvab086

@article{df8d32c814da45f1ab00ba0d5df103de,

title = "Current progress in clinical, molecular, and genetic aspects of adult fibromuscular dysplasia",

abstract = "Fibromuscular dysplasia (FMD) is a non-atherosclerotic vascular disease that may involve medium-sized muscular arteries throughout the body. The majority of FMD patients are women. Although a variety of genetic, mechanical, and hormonal factors play a role in the pathogenesis of FMD, overall, its cause remains poorly understood. It is probable that the pathogenesis of FMD is linked to a combination of genetic and environmental factors. Extensive studies have correlated the arterial lesions of FMD to histopathological findings of arterial fibrosis, cellular hyperplasia, and distortion of the abnormal architecture of the arterial wall. More recently, the vascular phenotype of lesions associated with FMD has been expanded to include arterial aneurysms, dissections, and tortuosity. However, in the absence of a string-of-beads or focal stenosis, these lesions do not suffice to establish the diagnosis. While FMD most commonly involves renal and cerebrovascular arteries, involvement of most arteries throughout the body has been reported. Increasing evidence highlights that FMD is a systemic arterial disease and that subclinical alterations can be found in non-affected arterial segments. Recent significant progress in FMD-related research has led to improve our understanding of the disease's clinical manifestations, natural history, epidemiology, and genetics. Ongoing work continues to focus on FMD genetics and proteomics, physiological effects of FMD on cardiovascular structure and function, and novel imaging modalities and blood-based biomarkers that can be used to identify subclinical FMD. It is also hoped that the next decade will bring the development of multi-centred and potentially international clinical trials to provide comparative effectiveness data to inform the optimal management of patients with FMD.",

keywords = "Fibromuscular dysplasia, Research, Proteomic, Genomic, Spontaneous dissection, CORONARY-ARTERY DISSECTION, GENOME-WIDE ASSOCIATION, AFRO-CARIBBEAN PATIENTS, UNITED-STATES REGISTRY, OF-FUNCTION MUTATIONS, INTRACRANIAL ANEURYSM, RISK-FACTORS, HIGH PREVALENCE, RENAL-FUNCTION, SMOOTH-MUSCLE",

author = "A. Persu and P. Dobrowolski and H.L. Gornik and J.W. Olin and D. Adlam and M. Azizi and P. Boutouyrie and R.M. Bruno and M. Boulanger and J.B. Demoulin and S.K. Ganesh and T.J. Guzik and M. Januszewicz and J.C. Kovacic and M. Kruk and {de Leeuw}, P. and B.L. Loeys and M. Pappaccogli and M.H.A.M. Perik and E. Touze and {Van der Niepen}, P. and {Van Twist}, D.J.L. and E. Warchol-Celinska and A. Prejbisz and A. Januszewicz",

year = "2022",

month = jan,

day = "7",

doi = "10.1093/cvr/cvab086",

language = "English",

volume = "118",

pages = "65--83",

journal = "Cardiovascular Research",

issn = "0008-6363",

publisher = "Oxford University Press",

number = "1",

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Persu, A, Dobrowolski, P, Gornik, HL, Olin, JW, Adlam, D, Azizi, M, Boutouyrie, P, Bruno, RM, Boulanger, M, Demoulin, JB, Ganesh, SK, Guzik, TJ, Januszewicz, M, Kovacic, JC, Kruk, M, de Leeuw, P, Loeys, BL, Pappaccogli, M, Perik, MHAM, Touze, E, Van der Niepen, P, Van Twist, DJL, Warchol-Celinska, E, Prejbisz, A & Januszewicz, A 2022, 'Current progress in clinical, molecular, and genetic aspects of adult fibromuscular dysplasia', Cardiovascular Research, vol. 118, no. 1, pp. 65-83. https://doi.org/10.1093/cvr/cvab086

TY - JOUR

T1 - Current progress in clinical, molecular, and genetic aspects of adult fibromuscular dysplasia

AU - Persu, A.

AU - Dobrowolski, P.

AU - Gornik, H.L.

AU - Olin, J.W.

AU - Adlam, D.

AU - Azizi, M.

AU - Boutouyrie, P.

AU - Bruno, R.M.

AU - Boulanger, M.

AU - Demoulin, J.B.

AU - Ganesh, S.K.

AU - Guzik, T.J.

AU - Januszewicz, M.

AU - Kovacic, J.C.

AU - Kruk, M.

AU - de Leeuw, P.

AU - Loeys, B.L.

AU - Pappaccogli, M.

AU - Perik, M.H.A.M.

AU - Touze, E.

AU - Van der Niepen, P.

AU - Van Twist, D.J.L.

AU - Warchol-Celinska, E.

AU - Prejbisz, A.

AU - Januszewicz, A.

PY - 2022/1/7

Y1 - 2022/1/7

N2 - Fibromuscular dysplasia (FMD) is a non-atherosclerotic vascular disease that may involve medium-sized muscular arteries throughout the body. The majority of FMD patients are women. Although a variety of genetic, mechanical, and hormonal factors play a role in the pathogenesis of FMD, overall, its cause remains poorly understood. It is probable that the pathogenesis of FMD is linked to a combination of genetic and environmental factors. Extensive studies have correlated the arterial lesions of FMD to histopathological findings of arterial fibrosis, cellular hyperplasia, and distortion of the abnormal architecture of the arterial wall. More recently, the vascular phenotype of lesions associated with FMD has been expanded to include arterial aneurysms, dissections, and tortuosity. However, in the absence of a string-of-beads or focal stenosis, these lesions do not suffice to establish the diagnosis. While FMD most commonly involves renal and cerebrovascular arteries, involvement of most arteries throughout the body has been reported. Increasing evidence highlights that FMD is a systemic arterial disease and that subclinical alterations can be found in non-affected arterial segments. Recent significant progress in FMD-related research has led to improve our understanding of the disease's clinical manifestations, natural history, epidemiology, and genetics. Ongoing work continues to focus on FMD genetics and proteomics, physiological effects of FMD on cardiovascular structure and function, and novel imaging modalities and blood-based biomarkers that can be used to identify subclinical FMD. It is also hoped that the next decade will bring the development of multi-centred and potentially international clinical trials to provide comparative effectiveness data to inform the optimal management of patients with FMD.

AB - Fibromuscular dysplasia (FMD) is a non-atherosclerotic vascular disease that may involve medium-sized muscular arteries throughout the body. The majority of FMD patients are women. Although a variety of genetic, mechanical, and hormonal factors play a role in the pathogenesis of FMD, overall, its cause remains poorly understood. It is probable that the pathogenesis of FMD is linked to a combination of genetic and environmental factors. Extensive studies have correlated the arterial lesions of FMD to histopathological findings of arterial fibrosis, cellular hyperplasia, and distortion of the abnormal architecture of the arterial wall. More recently, the vascular phenotype of lesions associated with FMD has been expanded to include arterial aneurysms, dissections, and tortuosity. However, in the absence of a string-of-beads or focal stenosis, these lesions do not suffice to establish the diagnosis. While FMD most commonly involves renal and cerebrovascular arteries, involvement of most arteries throughout the body has been reported. Increasing evidence highlights that FMD is a systemic arterial disease and that subclinical alterations can be found in non-affected arterial segments. Recent significant progress in FMD-related research has led to improve our understanding of the disease's clinical manifestations, natural history, epidemiology, and genetics. Ongoing work continues to focus on FMD genetics and proteomics, physiological effects of FMD on cardiovascular structure and function, and novel imaging modalities and blood-based biomarkers that can be used to identify subclinical FMD. It is also hoped that the next decade will bring the development of multi-centred and potentially international clinical trials to provide comparative effectiveness data to inform the optimal management of patients with FMD.

KW - Fibromuscular dysplasia

KW - Research

KW - Proteomic

KW - Genomic

KW - Spontaneous dissection

KW - CORONARY-ARTERY DISSECTION

KW - GENOME-WIDE ASSOCIATION

KW - AFRO-CARIBBEAN PATIENTS

KW - UNITED-STATES REGISTRY

KW - OF-FUNCTION MUTATIONS

KW - INTRACRANIAL ANEURYSM

KW - RISK-FACTORS

KW - HIGH PREVALENCE

KW - RENAL-FUNCTION

KW - SMOOTH-MUSCLE

U2 - 10.1093/cvr/cvab086

DO - 10.1093/cvr/cvab086

M3 - (Systematic) Review article

C2 - 33739371

SN - 0008-6363

VL - 118

SP - 65

EP - 83

JO - Cardiovascular Research

JF - Cardiovascular Research

IS - 1

ER -