Inflammatory markers and mediators that affect the development of cardiovascular diseases have been the focus of recent scientific work.Thus,the purpose of this editorial is to promote a critical debate about the arti...Inflammatory markers and mediators that affect the development of cardiovascular diseases have been the focus of recent scientific work.Thus,the purpose of this editorial is to promote a critical debate about the article titled“Nε-carboxymethyl-lysine and inflammatory cytokines,markers,and mediators of coronary artery disease progression in diabetes”,published in the World Journal of Diabetes in 2024.This work directs us to reflect on the role of advanced glycation end products,which are pro-inflammatory products arising from the metabolism of fatty acids and sugars whose main marker in tissues is Nε-carboxymethyllysine(NML).Recent studies have linked high levels of pro-inflammatory agents with the development of coronary artery disease(CAD),especially tumor necrosis factor alpha,interleukins,and C-reactive protein.These inflammatory agents increase the production of reactive oxygen species(ROS),of which people with diabetes are known to have an increased production.The increase in ROS promotes lipid peroxidation,which causes damage to myocytes,promoting myocardial damage.Furthermore,oxidative stress induces the binding of NML to its receptor RAGE,which in turn activates the nuclear factor-kB,and consequently,inflammatory cytokines.These inflammatory cytokines induce endothelial dysfunction,with increased expression of adhesion molecules,changes in endothelial permeability and changes in the expression of nitric oxide.In this sense,the therapeutic use of monoclonal antibodies(inflammatory reducers such as statins and sodium-glucose transport inhibitors)has demonstrated positive results in the regression of atherogenic plaques and consequently CAD.On the other hand,many studies have demonstrated a relationship between mitochondrial dynamics,diabetes,and cardiovascular diseases.This link occurs since ROS have their origin in the imbalance in glucose metabolism that occurs in the mitochondrial matrix,and this imbalance can have its origin in inadequate diet as well as some pathologies.Photobiomodulation(PBM)has recently been considered a possible therapeutic agent for cardiovascular diseases due to its effects on mitochondrial dynamics and oxidative stress.In this sense,therapies such as PBM that act on pro-inflammatory mediators and mitochondrial modulation could benefit those with cardiovascular diseases.展开更多
Ageing has a close relationship with chronic non-communicable diseases,such as diabetes mellitus and high blood pressure.These pathologies are often associated with changes in eating habits and promote crucial physiol...Ageing has a close relationship with chronic non-communicable diseases,such as diabetes mellitus and high blood pressure.These pathologies are often associated with changes in eating habits and promote crucial physiological changes which act silently in the long term in the elderly population.Due to the speed of urban development and technological advances,there has been an increase in the population's life expectancy.However,it is essential to know the socio-demographic profile and prevalent comorbidities of the elderly population,which can provide a reliable and broad database to enable the outline of strategies and the promotion of efficient health policies.In this sense,the purpose of this editorial is to contribute to the debate surrounding the article that analysed epidemiological data from the Lugu community.Diabetes mellitus,hypertension and cardiovascular pathologies and their comorbidities were the most prevalent conditions in this community.Such data could contribute to develop public policies constructively and assertively,allowing investments in the prevention and treatment of these pathologies.展开更多
文摘Inflammatory markers and mediators that affect the development of cardiovascular diseases have been the focus of recent scientific work.Thus,the purpose of this editorial is to promote a critical debate about the article titled“Nε-carboxymethyl-lysine and inflammatory cytokines,markers,and mediators of coronary artery disease progression in diabetes”,published in the World Journal of Diabetes in 2024.This work directs us to reflect on the role of advanced glycation end products,which are pro-inflammatory products arising from the metabolism of fatty acids and sugars whose main marker in tissues is Nε-carboxymethyllysine(NML).Recent studies have linked high levels of pro-inflammatory agents with the development of coronary artery disease(CAD),especially tumor necrosis factor alpha,interleukins,and C-reactive protein.These inflammatory agents increase the production of reactive oxygen species(ROS),of which people with diabetes are known to have an increased production.The increase in ROS promotes lipid peroxidation,which causes damage to myocytes,promoting myocardial damage.Furthermore,oxidative stress induces the binding of NML to its receptor RAGE,which in turn activates the nuclear factor-kB,and consequently,inflammatory cytokines.These inflammatory cytokines induce endothelial dysfunction,with increased expression of adhesion molecules,changes in endothelial permeability and changes in the expression of nitric oxide.In this sense,the therapeutic use of monoclonal antibodies(inflammatory reducers such as statins and sodium-glucose transport inhibitors)has demonstrated positive results in the regression of atherogenic plaques and consequently CAD.On the other hand,many studies have demonstrated a relationship between mitochondrial dynamics,diabetes,and cardiovascular diseases.This link occurs since ROS have their origin in the imbalance in glucose metabolism that occurs in the mitochondrial matrix,and this imbalance can have its origin in inadequate diet as well as some pathologies.Photobiomodulation(PBM)has recently been considered a possible therapeutic agent for cardiovascular diseases due to its effects on mitochondrial dynamics and oxidative stress.In this sense,therapies such as PBM that act on pro-inflammatory mediators and mitochondrial modulation could benefit those with cardiovascular diseases.
文摘Ageing has a close relationship with chronic non-communicable diseases,such as diabetes mellitus and high blood pressure.These pathologies are often associated with changes in eating habits and promote crucial physiological changes which act silently in the long term in the elderly population.Due to the speed of urban development and technological advances,there has been an increase in the population's life expectancy.However,it is essential to know the socio-demographic profile and prevalent comorbidities of the elderly population,which can provide a reliable and broad database to enable the outline of strategies and the promotion of efficient health policies.In this sense,the purpose of this editorial is to contribute to the debate surrounding the article that analysed epidemiological data from the Lugu community.Diabetes mellitus,hypertension and cardiovascular pathologies and their comorbidities were the most prevalent conditions in this community.Such data could contribute to develop public policies constructively and assertively,allowing investments in the prevention and treatment of these pathologies.
