Senescence and Type 2 Diabetic Cardiomyopathy: How Young Can You Die of Old Age?

Henson, Sian M.; Aksentijević, Dunja

doi:10.3389/fphar.2021.716517

Cited by 13 publications

(10 citation statements)

References 135 publications

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“…The adipose tissue also releases proinflammatory adipokines (TNF-α, IL-6, MCP-1, leptin and resistin) [ 165 ] and, in consequence, develops HF [ 166 ]. The systemic metabolic dysfunction in the early stages of T2DM leads to immune cell senescence, contributing to the worsening of cardiac function and tissue metabolism [ 167 ].…”

Section: Physiopathological Mechanismsmentioning

confidence: 99%

Diabesity in Elderly Cardiovascular Disease Patients: Mechanisms and Regulators

Garcia‐Vega¹,

González-Juanatey

Eiras

2022

IJMS

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Cardiovascular disease (CVD) is the leading cause of death in the world. In 2019, 550 million people were suffering from CVD and 18 million of them died as a result. Most of them had associated risk factors such as high fasting glucose, which caused 134 million deaths, and obesity, which accounted for 5.02 million deaths. Diabesity, a combination of type 2 diabetes and obesity, contributes to cardiac, metabolic, inflammation and neurohumoral changes that determine cardiac dysfunction (diabesity-related cardiomyopathy). Epicardial adipose tissue (EAT) is distributed around the myocardium, promoting myocardial inflammation and fibrosis, and is associated with an increased risk of heart failure, particularly with preserved systolic function, atrial fibrillation and coronary atherosclerosis. In fact, several hypoglycaemic drugs have demonstrated a volume reduction of EAT and effects on its metabolic and inflammation profile. However, it is necessary to improve knowledge of the diabesity pathophysiologic mechanisms involved in the development and progression of cardiovascular diseases for comprehensive patient management including drugs to optimize glucometabolic control. This review presents the mechanisms of diabesity associated with cardiovascular disease and their therapeutic implications.

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Section: Physiopathological Mechanismsmentioning

confidence: 99%

Diabesity in Elderly Cardiovascular Disease Patients: Mechanisms and Regulators

Garcia‐Vega¹,

González-Juanatey

Eiras

2022

IJMS

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“…There are two key pathological processes that cause the development of DM: inadequate insulin production by beta islet cells of pancreas, and insulin resistance (IR), which results from impaired insulin response in peripheral tissues. DM is a heterogenous disease with multiple organs involved in the aetiology: liver, skeletal muscles, pancreas, kidneys, brain, small intestine, and adipose tissue 5 . Hyperglycaemia associated with DM consequently triggers a surfeit of macro‐ and microvascular complications 6 …”

Section: Introductionmentioning

confidence: 99%

“…5 DM progression leads to specific changes to myocardial structure, function, and metabolism, collectively defined as diabetic cardiomyopathy (dbCM). 5,10 Hyperglycaemia, insulin resistance as well as lipotoxicity drive numerous fibrogenic pathways, triggering generation of reactive oxygen species (ROS), enhancing neurohumoral responses, stimulating growth factor cascades (i.e., TGF-β/Smad3 and PDGFs), inducing pro-inflammatory cytokines and chemokines, generating advanced glycation end-products (AGEs), stimulating the AGE-receptor for AGE (RAGE) axis, and up-regulating fibrogenic matricellular proteins. 11 Despite DM-triggered fibrogenic signalling sharing common characteristics in multiple tissues, diabetic myocardium develops more pronounced and clinically significant fibrosis.…”

Section: Introductionmentioning

confidence: 99%

“…DM is a heterogenous disease with multiple organs involved in the aetiology: liver, skeletal muscles, pancreas, kidneys, brain, small intestine, and adipose tissue. 5 Hyperglycaemia associated with DM consequently triggers a surfeit of macro-and microvascular complications. 6 The risk of CVD morbidity in DM is approximately two-three times more likely compared to those without DM.…”

Section: Introductionmentioning

confidence: 99%

“…The Framingham Heart Study concluded that type‐2 diabetes mellitus (T2D) independently increases the HF risk up to two‐fold in men and five‐fold in women compared to matched controls 8,9 . Thus, accelerated HF is a common clinical manifestation of CVD in T2D 5 . DM progression leads to specific changes to myocardial structure, function, and metabolism, collectively defined as diabetic cardiomyopathy (dbCM) 5,10 .…”

Section: Introductionmentioning

confidence: 99%

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Diagnostic and prognostic biomarkers reflective of cardiac remodelling in diabetes mellitus: A scoping review

et al. 2023

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Aims:The aim of this scoping review is to evaluate the current biomarkers used in the assessment of adverse cardiac remodelling in people with diabetes mellitus (DM) and in the diagnosis and prognosis of subsequent cardiovascular disease.We aim to discuss the biomarkers' pathophysiological roles as a reflection of the cardiac remodelling mechanisms in the presence of DM. Methods:We performed the literature search to include studies from 2003 to 2021 using the following databases: MEDLINE, Scopus, Web of Science, PubMed, and Cochrane library. Articles that met our inclusion criteria were screened and appraised before being included in this review. The PRISMA guidelines for Scoping Reviews were followed. Results:Our literature search identified a total of 43 eligible articles, which were included in this scoping review. We identified 15 different biomarkers, each described by at least two studies, that were used to determine signs of cardiac remodelling in cardiovascular disease (CVD) and people with DM. NT-proBNP was identified as the most frequently employed biomarker in this context; however, we also identified emerging biomarkers including hs-CRP, hs-cTnT, and Galectin-3. Conclusion:There is a complex relationship between DM and cardiovascular health, where more research is needed. Current biomarkers reflective of adverse cardiac remodelling in DM are often used to diagnose other CVDs, such as NT-proBNP for heart failure. Hence there is a need for identification of specific biomarkers that can detect early signs of cardiac remodelling in the presence of DM. Further research into these biomarkers and mechanisms can deepen our understanding of their role in DM-associated CVD and lead to better preventative therapies.

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