knowt logo

Physical activity and health

Distinguish between the terms habitual physical activity, exercise, sports, and physical fitness:

Habitual Physical Activity

  • Refers to routine, daily activities involving bodily movement integrated into one's lifestyle.

  • Examples: Walking, cycling, household chores.

  • Characteristic: Often incidental and not explicitly planned.

Exercise

  • Planned, structured, and repetitive physical activity aiming to enhance or maintain physical fitness.

  • Examples: Running, weightlifting, aerobic exercises.

  • Characteristic: Purposeful and with specific fitness goals.

Sports

  • Organized, competitive activities with rules, often involving skill and strategy.

  • Examples: Soccer, basketball, swimming.

  • Characteristic: Emphasis on competition and structured play.

Physical Fitness

  • Overall health and well-being, encompassing various components like cardiovascular endurance, muscular strength, flexibility, and body composition.

  • Characteristic: Reflects the ability to perform both sports and daily activities effectively.

Hypokinetic Disease

  • Health issues associated with insufficient physical activity or sedentary behavior.

  • Characteristic: Often preventable through regular physical activity.

Coronary Heart Disease (CHD)

  • Blood vessels supplying the heart muscle become narrowed or blocked.

  • Risk Factors: Sedentary lifestyle, poor diet, smoking.

  • Prevention: Regular physical activity, healthy diet.

Stroke

  • Disruption of blood flow to the brain, leading to cell damage.

  • Risk Factors: Hypertension, lack of physical activity.

  • Prevention: Physical activity, blood pressure management.

Hypertension

  • High blood pressure, potentially damaging arteries.

  • Risk Factors: Sedentary lifestyle, poor diet, genetics.

  • Prevention: Regular physical activity, healthy diet.

Obesity

  • Excess body fat due to an imbalance in calorie intake and expenditure.

  • Risk Factors: Sedentary behavior, unhealthy diet.

  • Prevention: Regular physical activity, balanced diet.

Type 2 Diabetes

  • Insulin resistance or insufficient insulin production leading to high blood sugar.

  • Risk Factors: Sedentary lifestyle, poor diet, genetics.

  • Prevention: Regular physical activity, weight management.

Osteoporosis

  • Weakened bones prone to fractures.

  • Risk Factors: Lack of weight-bearing exercise, inadequate calcium intake.

  • Prevention: Weight-bearing exercises, adequate calcium intake.

Studies of different populations provide evidence of the link between physical activity and hypokinetic disease:

Epidemiological Studies

  • Purpose: Examine health patterns in large populations.

  • Evidence: Consistent findings show a lower incidence of hypokinetic diseases in physically active populations.

Longitudinal Research

  • Purpose: Track individuals over time.

  • Evidence: Demonstrates the impact of changes in physical activity levels on the development or prevention of hypokinetic diseases.

The relationship between major societal changes and hypokinetic disease

Technological Advances

  • Impact: Prolonged screen time and sedentary behaviors contribute to disease risk.

  • Intervention: Encourage breaks, promote active technologies.

Urbanization

  • Impact: Altered living environments and transportation patterns can reduce physical activity.

  • Intervention: Design urban spaces to encourage physical activity.

Workplace Changes

  • Impact: Sedentary jobs contribute to a lack of physical activity.

  • Intervention: Promote workplace wellness programs, standing desks.

Public Health Interventions

  • Purpose: Implement policies to promote physical activity.

  • Examples: Encourage active transportation, create recreational spaces.

Cardiovascular Disease

Coronary Circulation

  • Coronary circulation refers to the movement of blood through the vessels that supply the heart muscle (myocardium).

  • Components: The coronary circulation includes the coronary arteries and veins.

  • Function: Coronary arteries deliver oxygenated blood to the heart, and coronary veins remove deoxygenated blood.

Atherosclerosis

  • Atherosclerosis is a condition where fatty deposits (plaques) build up on the inner walls of arteries, narrowing the vessels and reducing blood flow.

  • Process: It involves the accumulation of cholesterol, calcium, and other substances, leading to the formation of plaques.

  • Consequences: Atherosclerosis is a common cause of cardiovascular diseases, including coronary artery disease.

Major Risk Factors for Cardiovascular Disease

Modifiable Factors

  • High blood pressure

  • High cholesterol levels

  • Smoking

  • Physical inactivity

  • Obesity

  • Diabetes

Non-Modifiable Factors

  • Age

  • Gender

  • Family history

Concept of Risk Factors in Cardiovascular Disease

  • Risk factors are characteristics or behaviors associated with an increased likelihood of developing a disease.

  • Significance: Identifying and addressing risk factors can help prevent or manage cardiovascular diseases.

  • Interplay: Multiple risk factors often interact, amplifying the overall risk.

Lifestyle of Physical Inactivity Increases the Risk of Cardiovascular Disease

  • Impact on Blood Flow: Regular physical activity promotes healthy blood flow, reducing the risk of atherosclerosis.

  • Blood Pressure Regulation: Exercise helps maintain blood pressure within a healthy range.

  • Weight Management: Physical activity contributes to weight control, reducing obesity-related cardiovascular risks.

  • Improved Lipid Profile: Exercise can increase HDL (good cholesterol) and decrease LDL (bad cholesterol).

Physical Activity and Obesity

How Obesity is Determined

  • Body Mass Index (BMI): A measure of body fat based on weight and height.

  • Waist Circumference: Reflects abdominal fat and central obesity.

  • Body Fat Percentage: Direct measurement of the proportion of body weight that is fat.

Major Health Consequences of Obesity

  • Cardiovascular Diseases: Increased risk of heart disease and stroke.

  • Type 2 Diabetes: Obesity is a significant risk factor for developing diabetes.

  • Joint Problems: Excess weight puts strain on joints, leading to conditions like osteoarthritis.

  • Respiratory Issues: Obesity can cause or exacerbate conditions like sleep apnea.

  • Psychological Impact: Obesity may lead to mental health issues, such as depression.

Concept of Energy Balance

  • Energy balance is the equilibrium between calorie intake and expenditure.

  • Importance: Positive energy balance (more intake than expenditure) leads to weight gain, while negative energy balance (more expenditure than intake) leads to weight loss.

  • Role in Obesity: Chronic positive energy balance contributes to obesity.

How Chemical Signals Arising from the Gut and from the Adipose Tissue Affect Appetite Regulation

  • Leptin: Secreted by adipose tissue, it signals satiety to the brain, reducing appetite.

  • Ghrelin: Released by the stomach, it stimulates hunger and increases food intake.

  • Insulin: Influences hunger and regulates glucose metabolism, affecting appetite.

Physical Activity and Type 2 Diabetes

Type 1 Diabetes

  • Autoimmune condition.

  • Insufficient insulin production.

  • Typically diagnosed in childhood.

Type 2 Diabetes

  • Insulin resistance or insufficient insulin.

  • Often linked to lifestyle factors.

  • Typically diagnosed in adulthood.

Major Risk Factors for Type 2 Diabetes

  • Obesity: Central in the development of insulin resistance.

  • Physical Inactivity: Lack of exercise reduces insulin sensitivity.

  • Genetics: Family history increases the risk.

  • Age: Risk increases with age.

Health Risks of Diabetes

  • Cardiovascular Diseases: Increased risk of heart disease and stroke.

  • Nerve Damage (Neuropathy): Affects nerves, leading to pain, numbness, and impaired sensation.

  • Kidney Damage (Nephropathy): Diabetes is a leading cause of kidney failure.

  • Eye Complications (Retinopathy): Can lead to vision impairment and blindness.

Physical Activity and Bone Health:

Bone density changes from birth to old age

  • Infancy to Childhood:

    • Rapid bone growth and mineralization due to development and growth.

    • Peak bone mass is achieved by early adulthood through a combination of genetic and lifestyle factors.

  • Adulthood:

    • Maintenance of bone density occurs through a dynamic balance of resorption (breakdown of bone tissue) and formation (creation of new bone tissue).

    • Adequate physical activity and nutrition, including calcium and vitamin D, are crucial for preserving bone health.

  • Old Age:

    • Gradual decline in bone density, particularly in postmenopausal women due to hormonal changes.

    • Regular weight-bearing exercise, such as walking or resistance training, can slow down bone loss.

Risk of osteoporosis in males and females

  • Females:

    • Higher risk, especially after menopause due to a decrease in estrogen levels, which accelerates bone loss.

    • Osteoporosis is a significant concern.

  • Males:

    • Generally lower risk compared to females.

    • Still susceptible, particularly with aging and certain health conditions.

Longer-term consequences of osteoporotic fractures

  • Fractures:

    • Increased susceptibility to fractures, especially in weight-bearing bones like the hip, spine, and wrist.

  • Mobility Issues:

    • Impaired mobility and independence due to fractures and associated complications.

  • Chronic Pain:

    • Ongoing pain and discomfort, impacting the quality of life.

  • Reduced Quality of Life:

    • Impact on overall well-being and daily activities due to limitations imposed by fractures.

Major risk factors for osteoporosis

  • Age:

    • Older individuals are at a higher risk as bone density naturally declines with age.

  • Gender:

    • Females are more prone, especially postmenopausal due to hormonal changes.

  • Family History:

    • Genetic factors play a role; a family history of osteoporosis increases the risk.

  • Hormonal Changes:

    • Estrogen decline in women and testosterone decline in men are associated with bone loss.

  • Nutrition:

    • Calcium and vitamin D deficiency can compromise bone health.

  • Physical Inactivity:

    • Lack of weight-bearing exercise contributes to reduced bone density.

Relationship between physical activity and bone health

  • Weight-Bearing Exercise:

    • Strengthens bones and promotes bone density.

  • Resistance Training:

    • Stimulates bone formation and reduces the risk of fractures.

  • Impact Activities:

    • Jumping, running, and other weight-bearing exercises are particularly beneficial for bone health.

  • Balance and Coordination Exercises:

    • Help prevent falls and fractures, especially in the elderly.


Prescription of Exercise for Health

Physical activity guidelines for the promotion of good health

  • Aerobic Exercise:

    • At least 150 minutes of moderate-intensity or 75 minutes of vigorous-intensity per week.

  • Muscle-Strengthening:

    • Two or more days a week.

  • Flexibility and Balance Training:

    • Regular inclusion for overall well-being.

Aims of exercise in individuals with a hypokinetic disease

  • Manage Symptoms:

    • Alleviate symptoms associated with the disease, such as pain or fatigue.

  • Improve Functionality:

    • Enhance physical function and mobility, addressing limitations.

  • Prevent Complications:

    • Reduce the risk of secondary complications related to the disease.

  • Enhance Overall Well-being:

    • Improve mental health, quality of life, and overall sense of well-being.

Potential barriers to physical activity

  • Lack of Time:

    • Busy schedules and conflicting priorities can limit available time for exercise.

  • Lack of Motivation:

    • Insufficient drive or interest to engage in physical activity.

  • Physical Limitations:

    • Health conditions or injuries may restrict the ability to exercise.

  • Environmental Barriers:

    • Lack of access to suitable facilities or concerns about safety in the neighborhood.

Exercise and Psychological Well-being

Mood

  • A temporary state of mind or feeling that can be influenced by various factors, including physical activity.

Effects of exercise on changing mood states

  • Endorphin Release:

    • Exercise triggers the release of endorphins, promoting feelings of happiness and euphoria.

  • Reduced Stress Hormones:

    • Physical activity lowers cortisol levels, reducing stress.

  • Improved Sleep:

    • Regular exercise can lead to better sleep quality, positively impacting mood.

Exercise enhances psychological well-being

  • Improved Self-Esteem:

    • Achievements in physical activity contribute to a positive self-image.

  • Stress Reduction:

    • Physical activity acts as a stress buffer, promoting relaxation.

  • Enhanced Cognitive Function:

    • Exercise is associated with improved cognitive function and mental clarity.

Role of exercise in reducing the effects of anxiety and depression

  • Neurotransmitter Regulation:

    • Exercise helps regulate neurotransmitters, such as serotonin and dopamine, associated with mood regulation.

  • Cortisol Reduction:

    • Physical activity reduces cortisol levels associated with anxiety.

  • Distraction and Social Interaction:

    • Exercise provides a positive outlet and opportunities for social engagement, mitigating feelings of isolation.

Potential personal and environmental barriers to physical activity

  • Personal Barriers:

    • Lack of motivation, fear of judgment, and physical limitations may hinder engagement.

  • Environmental Barriers:

    • Lack of access to safe exercise spaces, inclement weather, and inadequate community infrastructure can pose challenges.

Strategies for enhancing adherence to exercise

  • Goal Setting:

    • Setting realistic and achievable goals for motivation.

  • Social Support:

    • Engaging in group activities or partnering with a workout buddy for encouragement.

  • Variety:

    • Including a variety of exercises to prevent boredom and maintain interest.

  • Incorporating Enjoyable Activities:

    • Choosing activities that individuals find enjoyable to increase adherence.

Possible negative aspects of exercise adherence

  • Overtraining:

    • Excessive exercise leading to fatigue, increased risk of injury, and burnout.

  • Burnout:

    • Loss of interest or motivation due to excessive training.

  • Injury:

    • Poor form or overtraining can result in physical injuries.

  • Mental Health Strain:

    • Unrealistic expectations or excessive pressure leading to stress and potential negative psychological effects.

Public Health

Non-communicable Diseases (NCDs)

  • Diseases not transmitted from person to person.

  • Examples: Cardiovascular diseases, diabetes, cancer.

  • Cause: Often linked to lifestyle factors like diet, physical inactivity, and tobacco use.

Communicable Diseases

  • Diseases transmitted from person to person or through vectors.

  • Examples: Influenza, tuberculosis, HIV/AIDS.

  • Cause: Caused by pathogens such as bacteria, viruses, or parasites.

Population attributable risk (PAR)

  • Population Attributable Risk (PAR) is the proportion of cases in a population that can be attributed to exposure to a particular risk factor.

  • Formula: PAR = P * (RR - 1) / [1 + P * (RR - 1)], where P is the prevalence of the risk factor, and RR is the relative risk.

  • Significance: PAR helps estimate the proportion of diseases that could be prevented if a specific risk factor were eliminated.

Use of population attributable risk (PAR) for prioritizing public health initiatives

  • Identification of High-Impact Factors: PAR helps identify risk factors with the greatest impact on the population.

  • Resource Allocation: Enables the allocation of resources to interventions that address high PAR factors.

  • Public Health Planning: Guides the development of targeted interventions to reduce the burden of preventable diseases.

  • Policy Decision-Making: Informs policy decisions for maximum public health impact.

Relationship between moderate exercise and health

  • Cardiovascular Health: Improves heart health by enhancing blood circulation and reducing the risk of heart diseases.

  • Metabolic Health: Helps regulate blood sugar levels, reducing the risk of type 2 diabetes.

  • Weight Management: Aids in weight control, reducing the risk of obesity-related conditions.

  • Mental Health: Associated with reduced stress, anxiety, and depression.

  • Bone Health: Supports bone density and reduces the risk of osteoporosis.

  • Immune Function: Moderate exercise boosts the immune system.

Causes of sudden cardiac death (SCD) in athletes

  • Structural Heart Abnormalities: Undetected congenital or acquired heart issues.

  • Arrhythmias: Irregular heart rhythms disrupting normal electrical activity.

  • Coronary Artery Abnormalities: Malformations affecting blood supply to the heart.

  • Commotio Cordis: Impact-induced ventricular fibrillation, often seen in contact sports.

  • Hypertrophic Cardiomyopathy: Thickening of the heart muscle, leading to electrical instability.

Injury and Hazards

Musculoskeletal injuries

  • Injuries that affect the muscles, bones, ligaments, tendons, and other elements of the musculoskeletal system.

  • Examples: Sprains, strains, fractures, dislocations.

Distinguish between compression, tension, and shearing injuries

  • Compression Injuries: Result from a force that crushes or squeezes tissues or structures.

  • Tension Injuries: Occur when a force pulls tissues or structures apart.

  • Shearing Injuries: Result from forces applied parallel to opposing surfaces, causing tissues to slide in opposite directions.

Distinguish between acute and chronic injuries

  • Acute Injuries: Sudden and severe injuries resulting from a specific incident or trauma.

  • Chronic Injuries: Gradual injuries that develop over time due to repeated overuse or stress.

Types of injuries common in different sports

  • Football (Soccer): Sprains, strains, contusions, and ligament injuries.

  • Basketball: Ankle sprains, knee injuries (especially ACL tears).

  • Running: Stress fractures, shin splints, runner's knee.

  • Gymnastics: Sprains, strains, stress fractures, overuse injuries.

  • Weightlifting: Strains, muscle tears, back injuries.

Common causes of running-related injuries

  • Overtraining: Insufficient recovery time between runs.

  • Poor Biomechanics: Incorrect running form or inappropriate footwear.

  • Sudden Increases in Intensity: Rapidly increasing mileage or speed.

  • Surface Issues: Running on uneven or hard surfaces.

  • Muscle Imbalances: Weakness or tightness in certain muscle groups.

Risks and hazards of exercise can be reduced

  • Proper Warm-Up and Cool Down: Reduces the risk of muscle strains and improves flexibility.

  • Progressive Training: Gradual increases in intensity, duration, and frequency.

  • Correct Technique: Ensures proper form during exercises to prevent injuries.

  • Appropriate Equipment: Wearing suitable footwear and protective gear.

  • Regular Health Check-ups: Identifying and managing potential health issues.

Benefits and hazards of exercise with regard to health

  • Benefits:

    • Improved cardiovascular health.

    • Enhanced muscular strength and endurance.

    • Weight management.

    • Improved mental health and mood.

    • Better bone health.

  • Hazards:

    • Risk of injuries (musculoskeletal or acute).

    • Overtraining leading to burnout.

    • Cardiovascular risks in extreme cases.

    • Potential exacerbation of existing health conditions.

I

Physical activity and health

Distinguish between the terms habitual physical activity, exercise, sports, and physical fitness:

Habitual Physical Activity

  • Refers to routine, daily activities involving bodily movement integrated into one's lifestyle.

  • Examples: Walking, cycling, household chores.

  • Characteristic: Often incidental and not explicitly planned.

Exercise

  • Planned, structured, and repetitive physical activity aiming to enhance or maintain physical fitness.

  • Examples: Running, weightlifting, aerobic exercises.

  • Characteristic: Purposeful and with specific fitness goals.

Sports

  • Organized, competitive activities with rules, often involving skill and strategy.

  • Examples: Soccer, basketball, swimming.

  • Characteristic: Emphasis on competition and structured play.

Physical Fitness

  • Overall health and well-being, encompassing various components like cardiovascular endurance, muscular strength, flexibility, and body composition.

  • Characteristic: Reflects the ability to perform both sports and daily activities effectively.

Hypokinetic Disease

  • Health issues associated with insufficient physical activity or sedentary behavior.

  • Characteristic: Often preventable through regular physical activity.

Coronary Heart Disease (CHD)

  • Blood vessels supplying the heart muscle become narrowed or blocked.

  • Risk Factors: Sedentary lifestyle, poor diet, smoking.

  • Prevention: Regular physical activity, healthy diet.

Stroke

  • Disruption of blood flow to the brain, leading to cell damage.

  • Risk Factors: Hypertension, lack of physical activity.

  • Prevention: Physical activity, blood pressure management.

Hypertension

  • High blood pressure, potentially damaging arteries.

  • Risk Factors: Sedentary lifestyle, poor diet, genetics.

  • Prevention: Regular physical activity, healthy diet.

Obesity

  • Excess body fat due to an imbalance in calorie intake and expenditure.

  • Risk Factors: Sedentary behavior, unhealthy diet.

  • Prevention: Regular physical activity, balanced diet.

Type 2 Diabetes

  • Insulin resistance or insufficient insulin production leading to high blood sugar.

  • Risk Factors: Sedentary lifestyle, poor diet, genetics.

  • Prevention: Regular physical activity, weight management.

Osteoporosis

  • Weakened bones prone to fractures.

  • Risk Factors: Lack of weight-bearing exercise, inadequate calcium intake.

  • Prevention: Weight-bearing exercises, adequate calcium intake.

Studies of different populations provide evidence of the link between physical activity and hypokinetic disease:

Epidemiological Studies

  • Purpose: Examine health patterns in large populations.

  • Evidence: Consistent findings show a lower incidence of hypokinetic diseases in physically active populations.

Longitudinal Research

  • Purpose: Track individuals over time.

  • Evidence: Demonstrates the impact of changes in physical activity levels on the development or prevention of hypokinetic diseases.

The relationship between major societal changes and hypokinetic disease

Technological Advances

  • Impact: Prolonged screen time and sedentary behaviors contribute to disease risk.

  • Intervention: Encourage breaks, promote active technologies.

Urbanization

  • Impact: Altered living environments and transportation patterns can reduce physical activity.

  • Intervention: Design urban spaces to encourage physical activity.

Workplace Changes

  • Impact: Sedentary jobs contribute to a lack of physical activity.

  • Intervention: Promote workplace wellness programs, standing desks.

Public Health Interventions

  • Purpose: Implement policies to promote physical activity.

  • Examples: Encourage active transportation, create recreational spaces.

Cardiovascular Disease

Coronary Circulation

  • Coronary circulation refers to the movement of blood through the vessels that supply the heart muscle (myocardium).

  • Components: The coronary circulation includes the coronary arteries and veins.

  • Function: Coronary arteries deliver oxygenated blood to the heart, and coronary veins remove deoxygenated blood.

Atherosclerosis

  • Atherosclerosis is a condition where fatty deposits (plaques) build up on the inner walls of arteries, narrowing the vessels and reducing blood flow.

  • Process: It involves the accumulation of cholesterol, calcium, and other substances, leading to the formation of plaques.

  • Consequences: Atherosclerosis is a common cause of cardiovascular diseases, including coronary artery disease.

Major Risk Factors for Cardiovascular Disease

Modifiable Factors

  • High blood pressure

  • High cholesterol levels

  • Smoking

  • Physical inactivity

  • Obesity

  • Diabetes

Non-Modifiable Factors

  • Age

  • Gender

  • Family history

Concept of Risk Factors in Cardiovascular Disease

  • Risk factors are characteristics or behaviors associated with an increased likelihood of developing a disease.

  • Significance: Identifying and addressing risk factors can help prevent or manage cardiovascular diseases.

  • Interplay: Multiple risk factors often interact, amplifying the overall risk.

Lifestyle of Physical Inactivity Increases the Risk of Cardiovascular Disease

  • Impact on Blood Flow: Regular physical activity promotes healthy blood flow, reducing the risk of atherosclerosis.

  • Blood Pressure Regulation: Exercise helps maintain blood pressure within a healthy range.

  • Weight Management: Physical activity contributes to weight control, reducing obesity-related cardiovascular risks.

  • Improved Lipid Profile: Exercise can increase HDL (good cholesterol) and decrease LDL (bad cholesterol).

Physical Activity and Obesity

How Obesity is Determined

  • Body Mass Index (BMI): A measure of body fat based on weight and height.

  • Waist Circumference: Reflects abdominal fat and central obesity.

  • Body Fat Percentage: Direct measurement of the proportion of body weight that is fat.

Major Health Consequences of Obesity

  • Cardiovascular Diseases: Increased risk of heart disease and stroke.

  • Type 2 Diabetes: Obesity is a significant risk factor for developing diabetes.

  • Joint Problems: Excess weight puts strain on joints, leading to conditions like osteoarthritis.

  • Respiratory Issues: Obesity can cause or exacerbate conditions like sleep apnea.

  • Psychological Impact: Obesity may lead to mental health issues, such as depression.

Concept of Energy Balance

  • Energy balance is the equilibrium between calorie intake and expenditure.

  • Importance: Positive energy balance (more intake than expenditure) leads to weight gain, while negative energy balance (more expenditure than intake) leads to weight loss.

  • Role in Obesity: Chronic positive energy balance contributes to obesity.

How Chemical Signals Arising from the Gut and from the Adipose Tissue Affect Appetite Regulation

  • Leptin: Secreted by adipose tissue, it signals satiety to the brain, reducing appetite.

  • Ghrelin: Released by the stomach, it stimulates hunger and increases food intake.

  • Insulin: Influences hunger and regulates glucose metabolism, affecting appetite.

Physical Activity and Type 2 Diabetes

Type 1 Diabetes

  • Autoimmune condition.

  • Insufficient insulin production.

  • Typically diagnosed in childhood.

Type 2 Diabetes

  • Insulin resistance or insufficient insulin.

  • Often linked to lifestyle factors.

  • Typically diagnosed in adulthood.

Major Risk Factors for Type 2 Diabetes

  • Obesity: Central in the development of insulin resistance.

  • Physical Inactivity: Lack of exercise reduces insulin sensitivity.

  • Genetics: Family history increases the risk.

  • Age: Risk increases with age.

Health Risks of Diabetes

  • Cardiovascular Diseases: Increased risk of heart disease and stroke.

  • Nerve Damage (Neuropathy): Affects nerves, leading to pain, numbness, and impaired sensation.

  • Kidney Damage (Nephropathy): Diabetes is a leading cause of kidney failure.

  • Eye Complications (Retinopathy): Can lead to vision impairment and blindness.

Physical Activity and Bone Health:

Bone density changes from birth to old age

  • Infancy to Childhood:

    • Rapid bone growth and mineralization due to development and growth.

    • Peak bone mass is achieved by early adulthood through a combination of genetic and lifestyle factors.

  • Adulthood:

    • Maintenance of bone density occurs through a dynamic balance of resorption (breakdown of bone tissue) and formation (creation of new bone tissue).

    • Adequate physical activity and nutrition, including calcium and vitamin D, are crucial for preserving bone health.

  • Old Age:

    • Gradual decline in bone density, particularly in postmenopausal women due to hormonal changes.

    • Regular weight-bearing exercise, such as walking or resistance training, can slow down bone loss.

Risk of osteoporosis in males and females

  • Females:

    • Higher risk, especially after menopause due to a decrease in estrogen levels, which accelerates bone loss.

    • Osteoporosis is a significant concern.

  • Males:

    • Generally lower risk compared to females.

    • Still susceptible, particularly with aging and certain health conditions.

Longer-term consequences of osteoporotic fractures

  • Fractures:

    • Increased susceptibility to fractures, especially in weight-bearing bones like the hip, spine, and wrist.

  • Mobility Issues:

    • Impaired mobility and independence due to fractures and associated complications.

  • Chronic Pain:

    • Ongoing pain and discomfort, impacting the quality of life.

  • Reduced Quality of Life:

    • Impact on overall well-being and daily activities due to limitations imposed by fractures.

Major risk factors for osteoporosis

  • Age:

    • Older individuals are at a higher risk as bone density naturally declines with age.

  • Gender:

    • Females are more prone, especially postmenopausal due to hormonal changes.

  • Family History:

    • Genetic factors play a role; a family history of osteoporosis increases the risk.

  • Hormonal Changes:

    • Estrogen decline in women and testosterone decline in men are associated with bone loss.

  • Nutrition:

    • Calcium and vitamin D deficiency can compromise bone health.

  • Physical Inactivity:

    • Lack of weight-bearing exercise contributes to reduced bone density.

Relationship between physical activity and bone health

  • Weight-Bearing Exercise:

    • Strengthens bones and promotes bone density.

  • Resistance Training:

    • Stimulates bone formation and reduces the risk of fractures.

  • Impact Activities:

    • Jumping, running, and other weight-bearing exercises are particularly beneficial for bone health.

  • Balance and Coordination Exercises:

    • Help prevent falls and fractures, especially in the elderly.


Prescription of Exercise for Health

Physical activity guidelines for the promotion of good health

  • Aerobic Exercise:

    • At least 150 minutes of moderate-intensity or 75 minutes of vigorous-intensity per week.

  • Muscle-Strengthening:

    • Two or more days a week.

  • Flexibility and Balance Training:

    • Regular inclusion for overall well-being.

Aims of exercise in individuals with a hypokinetic disease

  • Manage Symptoms:

    • Alleviate symptoms associated with the disease, such as pain or fatigue.

  • Improve Functionality:

    • Enhance physical function and mobility, addressing limitations.

  • Prevent Complications:

    • Reduce the risk of secondary complications related to the disease.

  • Enhance Overall Well-being:

    • Improve mental health, quality of life, and overall sense of well-being.

Potential barriers to physical activity

  • Lack of Time:

    • Busy schedules and conflicting priorities can limit available time for exercise.

  • Lack of Motivation:

    • Insufficient drive or interest to engage in physical activity.

  • Physical Limitations:

    • Health conditions or injuries may restrict the ability to exercise.

  • Environmental Barriers:

    • Lack of access to suitable facilities or concerns about safety in the neighborhood.

Exercise and Psychological Well-being

Mood

  • A temporary state of mind or feeling that can be influenced by various factors, including physical activity.

Effects of exercise on changing mood states

  • Endorphin Release:

    • Exercise triggers the release of endorphins, promoting feelings of happiness and euphoria.

  • Reduced Stress Hormones:

    • Physical activity lowers cortisol levels, reducing stress.

  • Improved Sleep:

    • Regular exercise can lead to better sleep quality, positively impacting mood.

Exercise enhances psychological well-being

  • Improved Self-Esteem:

    • Achievements in physical activity contribute to a positive self-image.

  • Stress Reduction:

    • Physical activity acts as a stress buffer, promoting relaxation.

  • Enhanced Cognitive Function:

    • Exercise is associated with improved cognitive function and mental clarity.

Role of exercise in reducing the effects of anxiety and depression

  • Neurotransmitter Regulation:

    • Exercise helps regulate neurotransmitters, such as serotonin and dopamine, associated with mood regulation.

  • Cortisol Reduction:

    • Physical activity reduces cortisol levels associated with anxiety.

  • Distraction and Social Interaction:

    • Exercise provides a positive outlet and opportunities for social engagement, mitigating feelings of isolation.

Potential personal and environmental barriers to physical activity

  • Personal Barriers:

    • Lack of motivation, fear of judgment, and physical limitations may hinder engagement.

  • Environmental Barriers:

    • Lack of access to safe exercise spaces, inclement weather, and inadequate community infrastructure can pose challenges.

Strategies for enhancing adherence to exercise

  • Goal Setting:

    • Setting realistic and achievable goals for motivation.

  • Social Support:

    • Engaging in group activities or partnering with a workout buddy for encouragement.

  • Variety:

    • Including a variety of exercises to prevent boredom and maintain interest.

  • Incorporating Enjoyable Activities:

    • Choosing activities that individuals find enjoyable to increase adherence.

Possible negative aspects of exercise adherence

  • Overtraining:

    • Excessive exercise leading to fatigue, increased risk of injury, and burnout.

  • Burnout:

    • Loss of interest or motivation due to excessive training.

  • Injury:

    • Poor form or overtraining can result in physical injuries.

  • Mental Health Strain:

    • Unrealistic expectations or excessive pressure leading to stress and potential negative psychological effects.

Public Health

Non-communicable Diseases (NCDs)

  • Diseases not transmitted from person to person.

  • Examples: Cardiovascular diseases, diabetes, cancer.

  • Cause: Often linked to lifestyle factors like diet, physical inactivity, and tobacco use.

Communicable Diseases

  • Diseases transmitted from person to person or through vectors.

  • Examples: Influenza, tuberculosis, HIV/AIDS.

  • Cause: Caused by pathogens such as bacteria, viruses, or parasites.

Population attributable risk (PAR)

  • Population Attributable Risk (PAR) is the proportion of cases in a population that can be attributed to exposure to a particular risk factor.

  • Formula: PAR = P * (RR - 1) / [1 + P * (RR - 1)], where P is the prevalence of the risk factor, and RR is the relative risk.

  • Significance: PAR helps estimate the proportion of diseases that could be prevented if a specific risk factor were eliminated.

Use of population attributable risk (PAR) for prioritizing public health initiatives

  • Identification of High-Impact Factors: PAR helps identify risk factors with the greatest impact on the population.

  • Resource Allocation: Enables the allocation of resources to interventions that address high PAR factors.

  • Public Health Planning: Guides the development of targeted interventions to reduce the burden of preventable diseases.

  • Policy Decision-Making: Informs policy decisions for maximum public health impact.

Relationship between moderate exercise and health

  • Cardiovascular Health: Improves heart health by enhancing blood circulation and reducing the risk of heart diseases.

  • Metabolic Health: Helps regulate blood sugar levels, reducing the risk of type 2 diabetes.

  • Weight Management: Aids in weight control, reducing the risk of obesity-related conditions.

  • Mental Health: Associated with reduced stress, anxiety, and depression.

  • Bone Health: Supports bone density and reduces the risk of osteoporosis.

  • Immune Function: Moderate exercise boosts the immune system.

Causes of sudden cardiac death (SCD) in athletes

  • Structural Heart Abnormalities: Undetected congenital or acquired heart issues.

  • Arrhythmias: Irregular heart rhythms disrupting normal electrical activity.

  • Coronary Artery Abnormalities: Malformations affecting blood supply to the heart.

  • Commotio Cordis: Impact-induced ventricular fibrillation, often seen in contact sports.

  • Hypertrophic Cardiomyopathy: Thickening of the heart muscle, leading to electrical instability.

Injury and Hazards

Musculoskeletal injuries

  • Injuries that affect the muscles, bones, ligaments, tendons, and other elements of the musculoskeletal system.

  • Examples: Sprains, strains, fractures, dislocations.

Distinguish between compression, tension, and shearing injuries

  • Compression Injuries: Result from a force that crushes or squeezes tissues or structures.

  • Tension Injuries: Occur when a force pulls tissues or structures apart.

  • Shearing Injuries: Result from forces applied parallel to opposing surfaces, causing tissues to slide in opposite directions.

Distinguish between acute and chronic injuries

  • Acute Injuries: Sudden and severe injuries resulting from a specific incident or trauma.

  • Chronic Injuries: Gradual injuries that develop over time due to repeated overuse or stress.

Types of injuries common in different sports

  • Football (Soccer): Sprains, strains, contusions, and ligament injuries.

  • Basketball: Ankle sprains, knee injuries (especially ACL tears).

  • Running: Stress fractures, shin splints, runner's knee.

  • Gymnastics: Sprains, strains, stress fractures, overuse injuries.

  • Weightlifting: Strains, muscle tears, back injuries.

Common causes of running-related injuries

  • Overtraining: Insufficient recovery time between runs.

  • Poor Biomechanics: Incorrect running form or inappropriate footwear.

  • Sudden Increases in Intensity: Rapidly increasing mileage or speed.

  • Surface Issues: Running on uneven or hard surfaces.

  • Muscle Imbalances: Weakness or tightness in certain muscle groups.

Risks and hazards of exercise can be reduced

  • Proper Warm-Up and Cool Down: Reduces the risk of muscle strains and improves flexibility.

  • Progressive Training: Gradual increases in intensity, duration, and frequency.

  • Correct Technique: Ensures proper form during exercises to prevent injuries.

  • Appropriate Equipment: Wearing suitable footwear and protective gear.

  • Regular Health Check-ups: Identifying and managing potential health issues.

Benefits and hazards of exercise with regard to health

  • Benefits:

    • Improved cardiovascular health.

    • Enhanced muscular strength and endurance.

    • Weight management.

    • Improved mental health and mood.

    • Better bone health.

  • Hazards:

    • Risk of injuries (musculoskeletal or acute).

    • Overtraining leading to burnout.

    • Cardiovascular risks in extreme cases.

    • Potential exacerbation of existing health conditions.

robot