Presentation on the topic of cardiovascular disease

Presentation on the topic of cardiovascular disease




People have long used Hawthorne berries for treating high bp, heart issues, and cholesterol levels. A number of Clinical research conclude that it improves cardiovascular function, shortness of breath, and fatigue. In another study, 1200 mg hawthorn extract or placebo was taken by hypertension patients for 16 weeks. Those who were taking hawthorn extract had a significant decrease in blood pressure than the other group taking a placebo.

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presentation: cardiovascular disease — causes, risk factors, and prevention Slide 1: Title Cardiovascular diseases: A global health challenge Slide 2: Introduction Cardiovascular diseases (CVD) are one of the leading causes of death worldwide. According to the world health organization (WHO), every year approximately 17.9 million deaths, equivalent to approximately 32% of all deaths worldwide. The aim of this presentation: Definition and classification of CVD The main causes and risk factors Diagnostic Procedures Preventive measures and therapeutic approaches Slide 3: Definition and classification Cardiovascular diseases are a group of diseases that affect the heart and blood vessel system. Important Sub-Groups: Coronary heart disease (CHD): narrowing of the coronary arteries by atherosclerosis Heart failure: Decreased contractile capacity of the heart Arrhythmias: heart rhythm disorders High blood pressure (hypertension): Permanently elevated blood pressure (≥140/90 mmHg) Stroke (apoplexy): circulatory disorder in the brain Peripheral arterial occlusive disease (paod): constriction in the blood vessels of the extremities Slide 4: causes and Pathomechanisms Main mechanism: atherosclerosis — deposition of lipids, calcium, and fibrous tissue in the vessel wall. Process flow: Endothelial damage (e.g., hypertension, Smoking) Lipid entry into the vessel wall The formation of a Plaque (vasoconstriction) Possible plaque rupture → thrombus formation → heart attack or stroke Other Causes: Genetic Disposition Inflammatory Processes Autoimmune reactions Slide 5: Modifiable and non-modifiable risk factors Modifiable Not modifiable Smoking age (45 J. in men, and from 55 for women) Overweight / obesity (BMI ≥30 kg/m 2 ), Gender (men are more frequently affected) Lack Of Exercise, Family History Of Unbalanced diet (high, high salt and fat content) Genetic factors Hypertension Diabetes mellitus Elevated cholesterol levels (LDL >3.0 mmol/l) Slide 6: Diagnostics Standard methods for the detection of CVD: ECG (electrocardiogram): recording of the electrical activity of the heart Echocardiography: ultrasound for the assessment of cardiac structure and function Long‑term ECG / long‑term blood pressure measurement: detection of rhythmic and blood pressure-related changes in 24 hours Exercise ECG (game gears‑Test): testing under physical stress Coronary angiography: x-ray examination of the heart arteries with contrast medium Laboratory parameters: lipid spectrum, CRP, Troponin (when infarction is suspected) Slide 7: Approaches To Therapy Drug Therapy: Antihypertensives (e.g., ACE inhibitors, beta-blockers) Statins for lowering cholesterol Anticoagulants (for example, acetylsalicylic acid) Diuretics in heart failure Interventional Procedures: PTCA (balloon dilatation with Stent) Bypass Surgery Lifestyle changes: Smoking abstinence Balanced diet (DASH diet, Mediterranean cost) Regular physical activity (min. 150 Minutes/Week) Weight control Slide 8: prevention — the key to the reduction of CVD Primary prevention is more effective and more cost-effective than the treatment of the advanced disease. Recommended Action: Regular health examinations from 35 years of age (early risk detection) Blood pressure and cholesterol control Promotion of health awareness in schools and in the workplace Policy measures (e.g. salt reduction in processed foods, tobacco control laws) Slide 9: Summary Cardiovascular diseases represent a serious global health threat. Atherosclerosis is the main pathophysiological mechanism. Many risk factors are modifiable. Early detection and prevention can reduce deaths significantly. A holistic approach (medical, social, political) is necessary. Slide 10: Acknowledgements and questions Many thanks for your attention! Questions and discussion are welcome.

Cardio Balance helps reduce blood fat levels by reducing the production of cholesterol and triglycerides in the body and improving the transportation of fats in the bloodstream. Presentation on the topic of cardiovascular disease. Sa pangunahing (esensyal) na altapresyon, ito ay dahil sa impluwensya ng namamana, hilig sa mataas na presyon ng dugo sa konteksto ng hindi malusog na pamumuhay, masamang gawi, hindi malusog na pagkain, na nagdudulot ng labis na timbang. Dagdag pa ang stress, kalikasan, kakulangan sa tulog at aktibidad. Lahat ito ay negatibong nakakaapekto sa trabaho ng puso at sa tono ng mga daluyan ng dugo. Ang presyon ay unang tumataas nang hindi napapansin at pagkatapos ay mas nagiging malinaw.

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Cardio Balance treats digestive issues by promoting the absorption of nutrients, and it helps in the elimination of toxic wastes. So, you’re unlikely to experience stomach ache as a side effect. Leaves of the Banaba tree, also known as Crape Myrtle, offer multiple medicinal properties. Scientific studies and research found that it can lower triglyceride levels by 35% and increases good cholesterol level (HDL) by 14%. Not just that, the studies have also shown positive outcomes in cardiovascular diseases, diabetes, and blood pressure. It also has antioxidant properties and helps manage and control weight which ultimately causes the surge in blood flow pressure.

The genetic basis of cardiovascular disease Cardiovascular diseases (CVD) are one of the leading causes of death worldwide. While environmental factors such as unhealthy diet, lack of physical activity, and Smoking play a significant role, showing increasing research shows that genetic factors exert a decisive influence on the risk of disease. Genetic Predisposition A number of studies have shown that people with a family history of heart disease are at an increased risk to develop similar diseases. This suggests a hereditary component, which is mediated by specific genes. This is often not a single Gene, but rather a combination of several genetic variants that increase together with the risk. Known Risk Genes Among the most studied genes associated with CVD,: PCSK9 (Proprotein‑Convertase Subtilisin/Kexin type 9): mutations in this Gene can lead to increased LDL‑cholesterol concentration, which increases the risk for atherosclerosis and coronary heart disease. APOE (Apolipoprotein E): Certain alleles of this gene are associated with an increased risk for hyperlipidemia and myocardial infarction. 9p21 Locus: This genomic Region has been repeatedly associated with an increased risk for coronary heart disease, although the exact mechanism of action is not yet fully understood. ACE (Angiotensin converting enzyme): polymorphisms in the ACE can affect the blood pressure and the risk for hypertension and heart modulate failure. Monogenic vs. multi-factorial diseases Some HKE follow a classical monogenic inheritance, in which a single, clearly effective Mutation causes the disease. Examples of this are: Familial hypercholesterolemia (caused by mutations in LDLR, APOB, or PCSK9). Hypertrophic cardiac myopathy (several genes, including MYH7, MYBPC3). The majority of CVD are multifactorial: they arise through the complex Interplay of many genetic variants with small individual effects, as well as environmental and lifestyle factors. Perspectives of genetics in cardiology Diewendung modern genome-wide techniques such as Genome‑Wide Association Studies (GWAS) and Next‑Generation Sequencing (NGS) makes it possible to identify new risk genes and to create individual risk profiles. This could enable in the future a more precise risk assessment and personalized prevention strategies. In addition, genetic findings open up new avenues for the development of targeted therapies. Conclusion The genetic Basis of cardiovascular diseases is complex and includes both single-gene and multi-factorial mechanisms. A deeper understanding of the genes involved and their interactions with environmental factors is essential for the improvement of prevention, diagnosis and therapy of these diseases. If you want, I can make certain sections in more detail, or other aspects add!