Dyslipidemias
Hydroxymethylglutaryl-CoA Reductase Inhibitors
Hypolipidemic Agents
Cholesterol, HDL
Triglycerides
Cholesterol, LDL
Cholesterol
Cardiovascular Diseases
Lipids
Obesity, abdominal obesity, and clustering of cardiovascular risk factors in South Korea. (1/1436)
The aim of this study was first, to investigate the prevalence of obesity, abdominal obesity, and clustering of cardiovascular (CVD) risk factors, and secondly, to identify the BMI or waist circumference (WC) level at which clustering increases in South Koreans. A population-based, cross-sectional National Health Examination Survey was carried out in 1998. A total of 8,816 subjects (4,029 men and 4,787 women) aged 15-79 y were selected by stratified multistage probability sampling design. The measurements taken of the subjects included: height, weight, waist and hip circumference, blood pressure, fasting glucose, and lipids. The prevalence of BMI > or = 25 kg/m2 was 25.3% for men and 28.3% for women. The prevalence of WC >90 cm in men, and >80 cm in women was 18.5%, and 38.5%, respectively. Clustering of 3 or more CVD risk factors was 22.7% in men ad 21.7% in women. Using <21 kg/m2; as a referent, subjects with BMI of 23 kg/m2; and 27 kg/m2; had an odds ratio of 3.5 and 10.2 in men, and 3.1 and 6.7 in women, respectively for clustering of CVD risk factors. Using <65 cm as a referent, subjects with a WC of > or = 90 cm in men and > or = 85 cm in women had an odds ratio of 13.4, and 13.6, respectively for clustering of CVD risk factors. Considering the significant associations between clustering of CVD risk factors and BMI or WC, the present study suggests that high prevalence of overweight may have important implications for the health care system, even at a lower level of BMI or WC. (+info)Impact of obesity on lipid profiles in middle-aged women. (2/1436)
OBJECTIVE: The goal of the study was to analyze the impact of overweight on lipid and apolipoprotein A-I and B (apoA-I, apoB) profiles in the women's blood serum. MATERIAL AND METHODS: Seventy-five women without any symptoms of coronary heart disease were examined. Women were divided into two groups: those with normal weight and the body mass index (BMI) less than 25 (n=34, BMI 22.3+/-1.5; mean age 62+/-8.7 years) and overweight women (n=41, BMI 29.7+/-3.7; mean age 59+/-9.4). Weight and height were measured and blood serum concentrations of total cholesterol, high-density lipoprotein cholesterol, and triglycerides were determined after an overnight fasting. In the same serum samples the levels of apoA-I and B were measured using monoclonal antibodies against apo (Spinreact AA, Sant Esteve De Bas, Spain) by the immunoturbidimetry method. The serum samples were kept frozen at -40 degrees C until used. RESULTS: Total cholesterol and triglycerides levels were similar in the healthy and the overweight women groups (6.49+/-1.25 vs 6.52+/-1.18 mmol/l; p>0.05 and 1.21+/-0.71 vs 1.41+/-0.98 mmol/l; p>0.05, respectively). The concentrations of high-density lipoprotein cholesterol and apoA-I were significantly higher in the normal weight women compared to the overweight women (1.84+/-0.52 vs 1.40+/-0.29 mmol/l, p<0.001 and 1.40+/-0.26 vs 1.24+/-0.23 g/l, p<0.01, respectively). The level of apoB was significantly higher in the overweight female group compared to normal weight women (0.83+/-0.21 vs 0.74+/-0.18 g/l, p=0.049). The apoB/A-I ratio was significantly lower in the normal weight group than in the overweight group (0.055+/-0.15 vs 0.70+/-0.22; p<0.001). Moderate to strong correlations between apoA-I and high-density lipoprotein cholesterol concentrations were found in both groups (r=0.41, p<0.01 in the control female group and r=0.59, p<0.0001 in the overweight group, respectively). A similar level of correlation between apoB and total cholesterol was established in both groups (r=0.54, p<0.0005 and r=0.67, p<0.0001, respectively). CONCLUSION: Obesity in middle-aged women is associated with a significant decrease in serum high-density lipoprotein cholesterol and apoA-I levels, a significant increase in apoB and apoB/A-I ratio, even if serum total cholesterol and triglycerides concentrations are unaltered. Changes of the lipid profile in obese women are indicative of a higher risk of coronary heart disease. (+info)Another emerging event occurring during HIV infection treated with any antiretroviral therapy: frequency and role of gynecomastia. (3/1436)
To identify HIV-associated episodes of gynecomastia occurred during antiretroviral therapy in a cohort of around 1,000 patients, and to investigate potential correlations with demographic and epidemiological variables, clinical-laboratory markers of HIV disease, metabolic disturbances, and antiretroviral treatment, a cross-sectional survey of 1.007 patients treated for at least 12 months (669 males: 66.4%), identified all subjects with true (ultrasonography-confirmed) gynecomastia, after exclusion of all other predisposing conditions. Special attention was paid to eventual metabolic alterations, including lipodystrophy syndrome, dyslipidemia, and hyperglycemia, and administered antiretrovirals. Fifteen of the 516 evaluable male subjects (2.9%), developed gynecomastia when aged 12-58 years. A concurrent lipodystrophy was present in all cases, while hypertriglyceridemia, hypercholesterolemia, and hyperglycemia were found in 11, 6, and 3 patients, respectively. Duration of seropositivity and time from start of antiretroviral therapy varied significantly, and no correlation was found with HIV disease progression, but 5 patients never received protease inhibitors, while an efavirenz-based treatment apparently prompted gynecomastia in 4 protease inhibitor-naive patients, and worsened this sign in other 4 patients switching from a protease inhibitor-based HAART. One patient developed gynecomastia while on isolated nucleoside analogue therapy. In the whole patient group, stavudine proved the nucleoside analogue administered more frequently and for a more prolonged time. During the follow-up, no significant ameliorament of gynecomastia was observed despite eventual therapeutic changes. Gynecomastia, as an emerging untoward event of treated HIV infection, deserves further investigation, from an epidemiological, clinical, and especially pathogenetic point of view. The frequent association with metabolic abnormalities suggests some common ethiologic pathway with other HAART-related disturbances. (+info)Web-based targeted nutrition counselling and social support for patients at increased cardiovascular risk in general practice: randomized controlled trial. (4/1436)
BACKGROUND: Using the Internet may prove useful in providing nutrition counselling and social support for patients with chronic diseases. OBJECTIVE: We evaluated the impact of Web-based nutrition counselling and social support on social support measures, anthropometry, blood pressure, and serum cholesterol in patients at increased cardiovascular risk. METHODS: We conducted a randomized controlled trial among patients with increased cardiovascular risk in Canadian family practices. During 8 months, patients in the intervention group and control groups received usual care. Patients in the intervention group also had access to a Web-based nutrition counselling and social support tool (Heartweb). Site use during the study was monitored. We measured social support, body mass index, waist/hip ratio, blood pressure, and cholesterol levels at baseline and at 4 and 8 months to assess the effectiveness of the intervention. RESULTS: We randomized 146 patients into the Web-based intervention (n=73) or the control group (n=73). Within the Web-based intervention group, Heartweb was used by only 33% (24/73) of patients, with users being significantly younger than nonusers (P=.03). There were no statistically significant differences between the intervention group and the control group in changes in social support, anthropometry, blood pressure, and serum cholesterol levels. CONCLUSIONS: Uptake of the Web-based intervention was low. This study showed no favourable effects of a Web-based nutrition counselling and social support intervention on social support, anthropometry, blood pressure, and serum cholesterol. Improvements in reach and frequency of site use are needed to increase the effectiveness of Web-based interventions. (+info)Rare variant of apolipoprotein E (Arg136 -->Ser) in two normolipidemic individuals. (5/1436)
Through the analysis of the common apolipoprotein (apo) E gene polymorphism in large Caucasian population study with the PCR and subsequent restriction analysis, we have identified carriers of mutant allele Arg136-->Ser. Both of them (71-years-old female and her 43-years-old son) have normal lipid parameters. We suggest that Arg136-->Ser mutation in apoE is not necessarily connected with elevated lipid levels in all cases. Furthermore, so far unidentified factors (environmental and/or genetic) are important for the development of lipid metabolism disorders in apoE Arg136-->Ser mutation carriers. (+info)Dynamic genetic architecture of metabolic syndrome attributes in the rat. (6/1436)
The polydactylous rat strain (PD/Cub) is a highly inbred (F > 90) genetic model of metabolic syndrome. The aim of this study was to analyze the genetic architecture of the metabolic derangements found in the PD/Cub strain and to assess its dynamics in time and in response to diet and medication. We derived a PD/Cub x BN/Cub (Brown Norway) F2 intercross population of 149 male rats and performed metabolic profiling and genotyping and multiple levels of genetic linkage and statistical analyses at five different stages of ontogenesis and after high-sucrose diet feeding and dexamethasone administration challenges. The interval mapping analysis of 83 metabolic and morphometric traits revealed over 50 regions genomewide with significant or suggestive linkage to one or more of the traits in the segregating PD/Cub x BN/Cub population. The multiple interval mapping showed that, in addition to "single" quantitative train loci, there are more than 30 pairs of loci across the whole genome significantly influencing the variation of particular traits in an epistatic fashion. This study represents the first whole genome analysis of metabolic syndrome in the PD/Cub model and reveals several new loci previously not connected to the genetics of insulin resistance and dyslipidemia. In addition, it attempts to present the concept of "dynamic genetic architecture" of metabolic syndrome attributes, evidenced by shifts in the genetic determination of syndrome features during ontogenesis and during adaptation to the dietary and pharmacological influences. (+info)Effects of cholesteryl ester transfer protein inhibition on high-density lipoprotein subspecies, apolipoprotein A-I metabolism, and fecal sterol excretion. (7/1436)
OBJECTIVE: Pharmacological inhibition of the cholesteryl ester transfer protein (CETP) in humans increases high-density lipoprotein (HDL) cholesterol (HDL-C) levels; however, its effects on apolipoprotein A-I (apoA-I) containing HDL subspecies, apoA-I turnover, and markers of reverse cholesterol transport are unknown. The present study was designed to address these issues. METHODS AND RESULTS: Nineteen subjects, 9 of whom were taking 20 mg of atorvastatin for hypercholesterolemia, received placebo for 4 weeks, followed by the CETP inhibitor torcetrapib (120 mg QD) for 4 weeks. In 6 subjects from the nonatorvastatin cohort, the everyday regimen was followed by a 4-week period of torcetrapib (120 mg BID). At the end of each phase, subjects underwent a primed-constant infusion of (5,5,5-2H3)-L-leucine to determine the kinetics of HDL apoA-I. The lipid data in this study have been reported previously. Relative to placebo, 120 mg daily torcetrapib increased the amount of apoA-I in alpha1-migrating HDL in the atorvastatin (136%; P<0.001) and nonatorvastatin (153%; P<0.01) cohorts, whereas an increase of 382% (P<0.01) was observed in the 120 mg twice daily group. HDL apoA-I pool size increased by 8+/-15% in the atorvastatin cohort (P=0.16) and by 16+/-7% (P<0.0001) and 34+/-8% (P<0.0001) in the nonatorvastatin 120 mg QD and BID cohorts, respectively. These changes were attributable to reductions in HDL apoA-I fractional catabolic rate (FCR), with torcetrapib reducing HDL apoA-I FCR by 7% (P=0.10) in the atorvastatin cohort, by 8% (P<0.001) in the nonatorvastatin 120 mg QD cohort, and by 21% (P<0.01) in the nonatorvastatin 120 mg BID cohort. Torcetrapib did not affect HDL apoA-I production rate. In addition, torcetrapib did not significantly change serum markers of cholesterol or bile acid synthesis or fecal sterol excretion. CONCLUSIONS: These data indicate that partial inhibition of CETP via torcetrapib in patients with low HDL-C: (1) normalizes apoA-I levels within alpha1-migrating HDL, (2) increases plasma concentrations of HDL apoA-I by delaying apoA-I catabolism, and (3) does not significantly influence fecal sterol excretion. (+info)Management of dyslipidemia in women in the post-hormone therapy era. (8/1436)
OBJECTIVE: Cardiovascular disease (CVD) is the leading cause of death for women in the United States and is largely preventable. The American Heart Association has recently released evidence-based guidelines for the prevention of CVD in women; these include gender-specific recommendations for the management of dyslipidemia. This article reviews these recommendations and the evidence supporting them. DESIGN: This was a qualitative review of a systematic literature search related to lipid guidelines for women and discussion of rationale and evidence for new clinical recommendations. MAIN RESULTS: Lifestyle modifications are the cornerstone of lipid management. Substantial evidence from randomized clinical trials supports the use of low-density lipoprotein cholesterol-lowering therapy (primarily statins) in all high-risk women and the use of niacin or fibrates when high-density lipoprotein cholesterol is low or non-high-density lipoprotein cholesterol is elevated. Fewer data are available for women at lower or intermediate risk. CONCLUSIONS: Encouragement of lifestyle modification and appropriate use of lipid-altering therapy will have a substantial impact on reducing the burden of cardiovascular disease in women. (+info)Dyslipidemia is a condition characterized by an abnormal amount of cholesterol and/or triglycerides in the blood. It can be caused by genetic factors, lifestyle habits such as poor diet and lack of exercise, or other medical conditions such as diabetes or hypothyroidism.
There are several types of dyslipidemias, including:
1. Hypercholesterolemia: This is an excess of low-density lipoprotein (LDL) cholesterol, also known as "bad" cholesterol, in the blood. High levels of LDL cholesterol can lead to the formation of plaque in the arteries, increasing the risk of heart disease and stroke.
2. Hypertriglyceridemia: This is an excess of triglycerides, a type of fat found in the blood, which can also contribute to the development of plaque in the arteries.
3. Mixed dyslipidemia: This is a combination of high LDL cholesterol and high triglycerides.
4. Low high-density lipoprotein (HDL) cholesterol: HDL cholesterol, also known as "good" cholesterol, helps remove LDL cholesterol from the blood. Low levels of HDL cholesterol can increase the risk of heart disease and stroke.
Dyslipidemias often do not cause any symptoms but can be detected through a blood test that measures cholesterol and triglyceride levels. Treatment typically involves lifestyle changes such as eating a healthy diet, getting regular exercise, and quitting smoking. In some cases, medication may also be necessary to lower cholesterol or triglyceride levels.
Hyperlipidemias are a group of disorders characterized by an excess of lipids (fats) or lipoproteins in the blood. These include elevated levels of cholesterol, triglycerides, or both. Hyperlipidemias can be inherited (primary) or caused by other medical conditions (secondary). They are a significant risk factor for developing cardiovascular diseases, such as atherosclerosis and coronary artery disease.
There are two main types of lipids that are commonly measured in the blood: low-density lipoprotein (LDL) cholesterol, often referred to as "bad" cholesterol, and high-density lipoprotein (HDL) cholesterol, known as "good" cholesterol. High levels of LDL cholesterol can lead to the formation of plaques in the arteries, which can narrow or block them and increase the risk of heart attack or stroke. On the other hand, high levels of HDL cholesterol are protective because they help remove LDL cholesterol from the bloodstream.
Triglycerides are another type of lipid that can be measured in the blood. Elevated triglyceride levels can also contribute to the development of cardiovascular disease, particularly when combined with high LDL cholesterol and low HDL cholesterol levels.
Hyperlipidemias are typically diagnosed through a blood test that measures the levels of various lipids and lipoproteins in the blood. Treatment may include lifestyle changes, such as following a healthy diet, getting regular exercise, losing weight, and quitting smoking, as well as medication to lower lipid levels if necessary.
Hydroxymethylglutaryl-CoA (HMG-CoA) reductase inhibitors, also known as statins, are a class of cholesterol-lowering medications. They work by inhibiting the enzyme HMG-CoA reductase, which plays a central role in the production of cholesterol in the liver. By blocking this enzyme, the liver is stimulated to take up more low-density lipoprotein (LDL) cholesterol from the bloodstream, leading to a decrease in LDL cholesterol levels and a reduced risk of cardiovascular disease.
Examples of HMG-CoA reductase inhibitors include atorvastatin, simvastatin, pravastatin, rosuvastatin, and fluvastatin. These medications are commonly prescribed to individuals with high cholesterol levels, particularly those who are at risk for or have established cardiovascular disease.
It's important to note that while HMG-CoA reductase inhibitors can be effective in reducing LDL cholesterol levels and the risk of cardiovascular events, they should be used as part of a comprehensive approach to managing high cholesterol, which may also include lifestyle modifications such as dietary changes, exercise, and weight management.
Hypolipidemic agents are a class of medications that are used to lower the levels of lipids (fats) in the blood, particularly cholesterol and triglycerides. These drugs work by reducing the production or increasing the breakdown of fats in the body, which can help prevent or treat conditions such as hyperlipidemia (high levels of fats in the blood), atherosclerosis (hardening and narrowing of the arteries), and cardiovascular disease.
There are several different types of hypolipidemic agents, including:
1. Statins: These drugs block the action of an enzyme called HMG-CoA reductase, which is necessary for the production of cholesterol in the liver. By reducing the amount of cholesterol produced, statins can help lower LDL (bad) cholesterol levels and increase HDL (good) cholesterol levels.
2. Bile acid sequestrants: These drugs bind to bile acids in the intestines and prevent them from being reabsorbed into the bloodstream. This causes the liver to produce more bile acids, which requires it to use up more cholesterol, thereby lowering LDL cholesterol levels.
3. Nicotinic acid: Also known as niacin, this drug can help lower LDL and VLDL (very low-density lipoprotein) cholesterol levels and increase HDL cholesterol levels. It works by reducing the production of fatty acids in the liver.
4. Fibrates: These drugs are used to treat high triglyceride levels. They work by increasing the breakdown of fats in the body and reducing the production of VLDL cholesterol in the liver.
5. PCSK9 inhibitors: These drugs block the action of a protein called PCSK9, which helps regulate the amount of LDL cholesterol in the blood. By blocking PCSK9, these drugs can help lower LDL cholesterol levels.
It's important to note that hypolipidemic agents should only be used under the guidance and supervision of a healthcare provider, as they can have side effects and may interact with other medications.
Hypertriglyceridemia is a medical condition characterized by an elevated level of triglycerides in the blood. Triglycerides are a type of fat (lipid) found in your blood that can increase the risk of developing heart disease, especially when levels are very high.
In general, hypertriglyceridemia is defined as having triglyceride levels greater than 150 milligrams per deciliter (mg/dL) of blood. However, the specific definition of hypertriglyceridemia may vary depending on individual risk factors and medical history.
Hypertriglyceridemia can be caused by a variety of factors, including genetics, obesity, physical inactivity, excessive alcohol consumption, and certain medications. In some cases, it may also be a secondary consequence of other medical conditions such as diabetes or hypothyroidism. Treatment for hypertriglyceridemia typically involves lifestyle modifications such as dietary changes, increased exercise, and weight loss, as well as medication if necessary.
HDL (High-Density Lipoprotein) cholesterol is often referred to as "good" cholesterol. It is a type of lipoprotein that helps remove excess cholesterol from cells and carry it back to the liver, where it can be broken down and removed from the body. High levels of HDL cholesterol have been associated with a lower risk of heart disease and stroke.
Triglycerides are the most common type of fat in the body, and they're found in the food we eat. They're carried in the bloodstream to provide energy to the cells in our body. High levels of triglycerides in the blood can increase the risk of heart disease, especially in combination with other risk factors such as high LDL (bad) cholesterol, low HDL (good) cholesterol, and high blood pressure.
It's important to note that while triglycerides are a type of fat, they should not be confused with cholesterol, which is a waxy substance found in the cells of our body. Both triglycerides and cholesterol are important for maintaining good health, but high levels of either can increase the risk of heart disease.
Triglyceride levels are measured through a blood test called a lipid panel or lipid profile. A normal triglyceride level is less than 150 mg/dL. Borderline-high levels range from 150 to 199 mg/dL, high levels range from 200 to 499 mg/dL, and very high levels are 500 mg/dL or higher.
Elevated triglycerides can be caused by various factors such as obesity, physical inactivity, excessive alcohol consumption, smoking, and certain medical conditions like diabetes, hypothyroidism, and kidney disease. Medications such as beta-blockers, steroids, and diuretics can also raise triglyceride levels.
Lifestyle changes such as losing weight, exercising regularly, eating a healthy diet low in saturated and trans fats, avoiding excessive alcohol consumption, and quitting smoking can help lower triglyceride levels. In some cases, medication may be necessary to reduce triglycerides to recommended levels.
LDL, or low-density lipoprotein, is often referred to as "bad" cholesterol. It is one of the lipoproteins that helps carry cholesterol throughout your body. High levels of LDL cholesterol can lead to a buildup of cholesterol in your arteries, which can increase the risk of heart disease and stroke.
Cholesterol is a type of fat (lipid) that is found in the cells of your body. Your body needs some cholesterol to function properly, but having too much can lead to health problems. LDL cholesterol is one of the two main types of cholesterol; the other is high-density lipoprotein (HDL), or "good" cholesterol.
It's important to keep your LDL cholesterol levels in a healthy range to reduce your risk of developing heart disease and stroke. A healthcare professional can help you determine what your target LDL cholesterol level should be based on your individual health status and risk factors.
Cholesterol is a type of lipid (fat) molecule that is an essential component of cell membranes and is also used to make certain hormones and vitamins in the body. It is produced by the liver and is also obtained from animal-derived foods such as meat, dairy products, and eggs.
Cholesterol does not mix with blood, so it is transported through the bloodstream by lipoproteins, which are particles made up of both lipids and proteins. There are two main types of lipoproteins that carry cholesterol: low-density lipoproteins (LDL), also known as "bad" cholesterol, and high-density lipoproteins (HDL), also known as "good" cholesterol.
High levels of LDL cholesterol in the blood can lead to a buildup of cholesterol in the walls of the arteries, increasing the risk of heart disease and stroke. On the other hand, high levels of HDL cholesterol are associated with a lower risk of these conditions because HDL helps remove LDL cholesterol from the bloodstream and transport it back to the liver for disposal.
It is important to maintain healthy levels of cholesterol through a balanced diet, regular exercise, and sometimes medication if necessary. Regular screening is also recommended to monitor cholesterol levels and prevent health complications.
Cardiovascular diseases (CVDs) are a class of diseases that affect the heart and blood vessels. They are the leading cause of death globally, according to the World Health Organization (WHO). The term "cardiovascular disease" refers to a group of conditions that include:
1. Coronary artery disease (CAD): This is the most common type of heart disease and occurs when the arteries that supply blood to the heart become narrowed or blocked due to the buildup of cholesterol, fat, and other substances in the walls of the arteries. This can lead to chest pain, shortness of breath, or a heart attack.
2. Heart failure: This occurs when the heart is unable to pump blood efficiently to meet the body's needs. It can be caused by various conditions, including coronary artery disease, high blood pressure, and cardiomyopathy.
3. Stroke: A stroke occurs when the blood supply to a part of the brain is interrupted or reduced, often due to a clot or a ruptured blood vessel. This can cause brain damage or death.
4. Peripheral artery disease (PAD): This occurs when the arteries that supply blood to the limbs become narrowed or blocked, leading to pain, numbness, or weakness in the legs or arms.
5. Rheumatic heart disease: This is a complication of untreated strep throat and can cause damage to the heart valves, leading to heart failure or other complications.
6. Congenital heart defects: These are structural problems with the heart that are present at birth. They can range from mild to severe and may require medical intervention.
7. Cardiomyopathy: This is a disease of the heart muscle that makes it harder for the heart to pump blood efficiently. It can be caused by various factors, including genetics, infections, and certain medications.
8. Heart arrhythmias: These are abnormal heart rhythms that can cause the heart to beat too fast, too slow, or irregularly. They can lead to symptoms such as palpitations, dizziness, or fainting.
9. Valvular heart disease: This occurs when one or more of the heart valves become damaged or diseased, leading to problems with blood flow through the heart.
10. Aortic aneurysm and dissection: These are conditions that affect the aorta, the largest artery in the body. An aneurysm is a bulge in the aorta, while a dissection is a tear in the inner layer of the aorta. Both can be life-threatening if not treated promptly.
It's important to note that many of these conditions can be managed or treated with medical interventions such as medications, surgery, or lifestyle changes. If you have any concerns about your heart health, it's important to speak with a healthcare provider.
Lipids are a broad group of organic compounds that are insoluble in water but soluble in nonpolar organic solvents. They include fats, waxes, sterols, fat-soluble vitamins (such as vitamins A, D, E, and K), monoglycerides, diglycerides, triglycerides, and phospholipids. Lipids serve many important functions in the body, including energy storage, acting as structural components of cell membranes, and serving as signaling molecules. High levels of certain lipids, particularly cholesterol and triglycerides, in the blood are associated with an increased risk of cardiovascular disease.
Medical Definition:
"Risk factors" are any attribute, characteristic or exposure of an individual that increases the likelihood of developing a disease or injury. They can be divided into modifiable and non-modifiable risk factors. Modifiable risk factors are those that can be changed through lifestyle choices or medical treatment, while non-modifiable risk factors are inherent traits such as age, gender, or genetic predisposition. Examples of modifiable risk factors include smoking, alcohol consumption, physical inactivity, and unhealthy diet, while non-modifiable risk factors include age, sex, and family history. It is important to note that having a risk factor does not guarantee that a person will develop the disease, but rather indicates an increased susceptibility.
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