Myocardial Injury Articles & Analysis
8 articles found
Ischaemic heart diseases continue to be a major global health concern and a leading cause of death. To develop more effective treatments, it is essential for researchers to work with animal models that closely replicate human cardiac physiology. In a notable step forward, Pius et al. present a refined, minimally invasive ovine model of ischaemia–reperfusion–infarction which ...
Research conducted on rats demonstrated that exposure to these chemicals led to myocardial injury, inflammation, and gut microbiota alterations. Endocrine-disrupting chemicals like bisphenol A (BPA) and phthalates, commonly found in plastics, are believed to contribute to these harmful effects. ...
With the deepening of the research on the three-dimensional structure, binding characteristics and stability of biotin and avidin, the application of BAS and its related technologies in a variety of automated immunoassay techniques has further promoted the development of sensitive, rapid and accurate determination techniques for some trace substances in plasma and body fluids such as small ...
Extracellular adenosine provides protective effects by mitigating inflammation in conditions such as myocardial injury[7], acute lung injury[8], intestinal ischemia-reperfusion injury[9], and inflammatory bowel disease[10]. ...
HFrEF is typically associated with a primary myocardial injury. Diastolic heart failure: Heart failure with preserved ejection fraction (HFpEF). ...
Pathophysiology, treatment options and hot topics Improvements In Stemi Treatment The immediate and long-term prognosis of patients experiencing an ST segment elevation myocardial infarction (STEMI) has changed dramatically since the introduction of coronary reperfusion therapies during primary percutaneous coronary intervention (pPCI). The evolution of these therapies accelerated with the ...
The heart is a unique organ in many respects since its activity is mandatory to sustain life. The heart’s circulatory system and coronary flow regulation are highly adapted to the vital role of the heart in sustaining life and to everyday physiological challenges. Understanding coronary physiology is key for treating patients with ischemic heart disease in general, and ...
VTE is a leading cause of death and disability worldwide and has the third-highest mortality rate out of any cardiovascular disease, behind myocardial infarctions and stroke. Unlike myocardial infractions and stroke, where mortality has improved considerably, VTE has seen an increase in cases, with no demonstrable change in mortality over the past decade. ...