Perivascular adipose tissue and coronary atherosclerosis

Mâncio, Jennifer; Oikonomou, Evangelos; Antoniades, Charalambos

doi:10.1136/heartjnl-2017-312324

Cited by 104 publications

(115 citation statements)

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“…Both demands are achieved by the systemic sympathetic control and paracrine vasoactive factors released by the cells of the arterial wall. It has been shown that not only endothelial cells but also adipocytes from PVAT, as well as inflammatory cells, play an essential role in maintaining vascular tone and structure [6,12,[16][17][18][19]. In healthy adipose tissue, including PVAT, alternatively activated macrophages M2 prevail.…”

Section: Discussionmentioning

confidence: 99%

“…For decades, the tunica intima and, partly, the tunica media were the focus of research, and perivascular adipose tissue (PVAT) that surrounds coronary arteries (CAs) was considered to be passive and only supportive tissue. Now, it has become evident that PVAT has a crucial role in maintaining the normal function of CAs [4][5][6], and that it is also involved in the development of CAD [7,8] and hypertension [9]. It has been shown that both vascular smooth muscle and PVAT release a variety of vasoactive factors as well as pro and antiinflammatory cytokines that modulate vascular function and structure [8,[10][11][12][13][14].…”

Section: Introductionmentioning

confidence: 99%

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Inflammatory cells in perivascular adipose tissue and the integrity of the tunica media in atherosclerotic coronary arteries

Zorc-Pleskovič

Zorc²,

Šuput

et al. 2019

Bosn J of Basic Med Sci

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Obstructive coronary artery disease (CAD) is characterized by inflammation within the atherosclerotic coronary arteries. Infiltration of inflammatory cells into muscular media can lead to remodeling and weakening of the arterial wall. We examined the relationship between inflammatory infiltration in perivascular adipose tissue (PVAT), state of the external elastic membrane, and the intensity of inflammatory infiltration in the tunica media of coronary arteries obtained by endarterectomy from symptomatic patients with diffuse CAD. We analyzed endarterectomy sequesters from 22 coronary arteries that contained the intima, media, a part of the adventitia, and PVAT in at least one part of the sequester. The coronary arteries were divided into two groups according to the presence or absence of inflammatory infiltration in PVAT. Staining with hematoxylin-eosin and by the Movat's method showed atherosclerotic changes in the intima and media. Immunohistochemistry (anti-leukocyte common antigen [LCA] antibody) was used for the detection of leukocytes. We found a significant positive correlation between inflammatory infiltration in PVAT and preservation of the external elastic membrane of coronary arteries. Furthermore, we found a significant negative correlation between inflammatory infiltration in PVAT and the intensity of inflammatory infiltration in the media. It seems that the integrity of the external elastic membrane and the proinflammatory properties of PVAT restrain inflammatory cells within PVAT. Both effects may prevent the migration of inflammatory cells into the media and delay the development of CAD.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Inflammatory cells in perivascular adipose tissue and the integrity of the tunica media in atherosclerotic coronary arteries

Zorc-Pleskovič

Zorc²,

Šuput

et al. 2019

Bosn J of Basic Med Sci

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“…However, most investigators systemically removed PVAT from blood vessels before performing biochemical testing, immunostaining, or functional studies as PVAT was considered to be an inert, non-vascular tissue [15]. More recent evidence suggests that communication between the vascular wall and PVAT may be bidirectional, with an 'outside to inside' inflammatory signaling triggered by dysfunctional PVAT more influential than previously thought [6,9,16]. For example, in hyperlipidemic atherosclerosis-prone apolipoprotein E (ApoE)-deficient mice, the major site of vascular inflammatory cell accumulation was reported to be the adventitia rather than the intima, and in atherosclerotic human aorta, inflammatory cells were observed to be densely clustered in PVAT at the adventitial margin, suggesting that PVAT has the potential to foster vascular inflammation [8,17].…”

Section: Adventitial Inflammation and The Pro-inflammatory Phenotype mentioning

confidence: 99%

Potential role of perivascular adipose tissue in modulating atherosclerosis

2020

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Perivascular adipose tissue (PVAT) directly juxtaposes the vascular adventitia and contains a distinct mixture of mature adipocytes, preadipocytes, stem cells, and inflammatory cells that communicate via adipocytokines and other signaling mediators with the nearby vessel wall to regulate vascular function. Cross-talk between perivascular adipocytes and the cells in the blood vessel wall is vital for normal vascular function and becomes perturbed in diseases such as atherosclerosis. Perivascular adipocytes surrounding coronary arteries may be primed to promote inflammation and angiogenesis, and PVAT phenotypic changes occurring in the setting of obesity, hyperlipidemia etc., are fundamentally important in determining a pathogenic versus protective role of PVAT in vascular disease. Recent discoveries have advanced our understanding of the role of perivascular adipocytes in modulating vascular function. However, their impact on cardiovascular disease (CVD), particularly in humans, is yet to be fully elucidated. This review will highlight the complex mechanisms whereby PVAT regulates atherosclerosis, with an emphasis on clinical implications of PVAT and emerging strategies for evaluation and treatment of CVD based on PVAT biology.

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“…9 It has been recently demonstrated that the adipose tissue surrounding the coronary arteries changes in response to inflammation inside the arteries. 21 Interestingly, the SMART trial identified the low PVAT attenuation on CT as associated with an adverse metabolic profile, the correlation being independent of PVAT volume. This fact suggests that fat quality measures might add complementary information to the one provided by PVAT quantity.…”

mentioning

confidence: 99%

“…25 Therefore, early detection of subclinical CAD could be performed in low-risk to intermediate-risk patients via perivascular noninvasive detection of coronary inflammation by FAI. 26 Perivascular FAI could enable the assessment of inflammatory burden and hence the level of coronary plaque vulnerability, identifying subjects at high risk for developing acute coronary events. These observations further highlight the importance of qualitative over quantitative features in the assessment of human PVAT in order to identify vulnerable patients.…”

mentioning

confidence: 99%

Epicardial Fat and Coronary Vulnerability

Hodaş

Benedek

2019

Journal of Interdisciplinary Medicine

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Coronary artery disease (CAD) represents the major cause of mortality and long-term disability worldwide. Despite new improvements in primary and secondary prevention methods, CAD-related mortality and morbidity demonstrate an increasing trend in the last decades. [1][2][3] CAD represents the most common and severe consequence of atherosclerosis. 4 Atherosclerotic plaque rupture, leading to acute coronary syndromes as the most severe outcome, consists in a complex biomechanical process resulting from the interaction between traditional risk factors, structural features, hemodynamical stresses, and biological processes. 5,6 In the last years, an increased attention has been given to the role of epicardial adipose tissue (EAT) as a marker of cardiovascular risk, as well as to the assessment of atheromatous plaque instability. 7,8 Recent reports suggest that an increased volume of EAT is directly associated with the presence of high-risk features in the coronary plaques, as subjects with unstable coronary lesions have significantly larger EAT volumes than those without high-risk plaques. 8 EAT represents an adipose depot rich in proinflammatory and proatherogenic molecules. Based on the anatomic proximity of EAT to the arterial adventitia of coronary arteries, the "outside in" hypothesis of atherosclerosis has been recently launched, according to which EAT components may trigger vascular inflammation and plaque destabilization through paracrine and vasocrine mechanisms. [9][10][11][12][13] It has been demonstrated that the amount of EAT is directly correlated with both the length and the severity of coronary lesions, at the same time being associated with the transformation of atherosclerotic plaques into a vulnerable phenotype, considered to be "high risk" for major cardiovascular events. 11 In a large study conducted by Nerlekar et al., a strong correlation was found between several CT features of vulnerable atherosclerotic plaques, such as low-attenuation lesions and positive remodeling at the lesion site. 9 In the largest study to date, Motoyama et al. identified plaque features strongly correlated with future acute coronary syndrome (ACS) development in 3,158 subjects. 14 Moreover, in a trial of non-obese subjects who underwent repeated coronary CT follow-up in a 4-year period, increased EAT volume proved to be associated with high-risk plaques as well as with future ACS despite optimal treatment of CV risk factors. 15 However, the major weakness of these trials remains CORRESPONDENCE Roxana Hodas Str. Gheorghe Marinescu nr. 38

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Perivascular adipose tissue and coronary atherosclerosis

Cited by 104 publications

References 50 publications

Inflammatory cells in perivascular adipose tissue and the integrity of the tunica media in atherosclerotic coronary arteries

Inflammatory cells in perivascular adipose tissue and the integrity of the tunica media in atherosclerotic coronary arteries

Potential role of perivascular adipose tissue in modulating atherosclerosis

Epicardial Fat and Coronary Vulnerability

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