Chapter 11

Chapter 11 Resistance-Training Strategies for Individuals with Type 2 Diabetes

Overview of T2D • Development of insulin resistance over time • Comprises 90 to 95 percent of all new diabetes cases • More common in individuals over age 40 • Also affects children and young adults

Overview of T2D • Gestational diabetes • Transient diabetic state experienced during latter stages of pregnancy • Leads to risk of permanent diabetes

Prevalence of T2D • Affects 20.8 million individuals • 7 percent of all Americans • One in three 3 individuals will develop during lifetime • Even higher risks in some minority groups • African-American, Hispanic, American-Indian, and Alaska-Native adults two to three times more likely than whites

Prevalence of T2D • Affects one in five adults over age 65 • 41 million Americans age 40 to 74 have prediabetes • Causes 3.2 million deaths per year globally • Six deaths per minute

Major Precursor to Other Medical Conditions • Elevated glucose and fat levels in blood damage vital organs • Premature heart disease • Leading cause of death • Stroke • Blindness • Kidney failure

Major Precursor to Other Medical Conditions • Pregnancy complications • Loss of central nerve function • Loss of feeling in feet or hands • Lower-extremity amputations • Premature death

Economic Impact of T2D • Estimated annual cost = $132 billion • Direct medical costs = $92 billion • Indirect costs = $40 billion • Estimated annual individual health care costs = $13,243

Etiology of T2D • Begins as prediabetes • Insulin-resistant state • Progresses to overt hyperglycemia • Lifestyle and other environmental factors lead to state of relative insulin deficiency

Etiology of T2D • Prevention of diabetes-related health complications requires controlling hyperglycemia and keeping blood glucose levels in normal/near-normal ranges

Optimal Control Over Blood Glucose • Most individuals rarely achieve or maintain optimal levels • Only 37 percent in US • Many undiagnosed individuals likely unaware of damage being done to bodies • Some individuals unwilling or unable to control

Benefits of Resistance Training • Increased muscle mass: • Heightens skeletal muscle sensitivity to available insulin • Improves blood glucose control • Potentially improves coexisting conditions • E.g., hypertension, elevated blood cholesterol, excess body fat

Research Supports Resistance Training • Enhances action of insulin • Promoting more normal blood glucose levels and avoiding diabetic complications • Increases levels of GLUT4 in trained muscle • Increases insulin receptors, protein kinase B, glycogen synthase, and glycogen synthase total activity following acute training

Research Supports Resistance Training • Helps control systemic inflammation • Increases adiponectin levels to improve metabolic control • Improves overall glycemic control when combined with weight loss • Contributes to preservation of lean body mass during moderate weight loss

Research Supports Resistance Training • Exercise intensity appears less important than total duration and caloric expenditure • Maintenance of regular exercise training program critical to increased muscle mass and insulin sensitivity • May be aerobic, resistance training, or both

Program Design Considerations • Current activity level of individual • Primary goal(s) of training program • Individual’s medications that can affect/be affected by physical activity • Existence of any related health comorbidities

Current Activity Level • Dictates extent of overall muscular fitness and strength gains that can be attained • Sedentary individual likely to achieve greater gains than physically active individual • Sedentary individual must begin with low-intensity exercise program to protect against injuries

Current Activity Level • Currently active individuals better able to perform moderate- to high-intensity work safely • Higher intensity training = greater gains in muscle strength

Training Goals • Determine prior to program development • Remember that training benefits are specific to types of exercises and related muscle groups

Medications • Can affect risk for hypoglycemia and alter exercise performance • Certain heart medications can artificially lower resting and exercise heart rates • Making intensity measurement difficult

Medications • Discuss exercise-related side effects with health care professional in advance • Consider co-morbidities • E.g., hypertension, elevated blood cholesterol

Exercise Testing Considerations • Use repetition maximum testing to avoid elevated blood pressure • 3 RM, 10 RM • Use maximal exercise stress test to determine existence of upper limit to safe exercise • Silent ischemia

Exercise Testing Considerations • Obtain physician approval if known cardiovascular disease exists • ACSM recommends screening all individuals with T2D for cardiovascular disease

Conditions Requiring Physician Consultation • Proliferative retinopathy or current retinal hemorrhage • Neuropathy • Nerve damage • Either peripheral or autonomic

Conditions Requiring Physician Consultation • Foot injuries • Including ulcers • High blood pressure • Serious illness or infection

Exercise Precautions • Have blood glucose meter accessible to monitor glycemia before, during, and/or after exercise • Immediately treat hypoglycemia with glucose tablets or regular soft drinks • Stay properly hydrated with frequent intake of small amounts of cool water

Exercise Precautions • Seek immediate medical attention for chest pain or pain that radiates down arm, jaw, or neck • With hypertension or unstable proliferative retinopathy, avoid activities that cause excessive increases in blood pressure

Exercise Precautions • Never exercise with active retinal hemorrhages • Stop exercise if visual changes occur • Wear proper footwear and check feet daily for signs of trauma • E.g., blisters, redness, signs of irritation

Program Considerations • Older individuals benefit as much as younger individuals • Individuals with cardiovascular disease should use onset of angina as guide to limit exercise intensity/duration

Program Considerations • Modify training for those with peripheral vascular disease (PVD) • E.g., use seated exercises • Avoid high-intensity or heavy-resistance exercises for individuals with hypertension • Individuals with peripheral neuropathy should pay special attention to foot care

Program Considerations • Individuals with autonomic neuropathy require special care to avoid fainting or dehydration • Follow exercise precautions related to diabetic retinopathy

Program Considerations • Prevent joint-related injuries through good glycemic control and integration of flexibility exercises • Individuals with arthritis may benefit from ice applications or non-steroidal anti-inflammatory drugs (NSAIDs) post-workout

Program Components • Follow ACSM recommendations for progressive resistance training at least two to three times per week • Minimum of eight to 10 exercises involving all major muscle groups • Minimum of 1 set of 10 to 15 repetitions to near fatigue

Program Components • Progress to 3 or more sets of 8 to 10 repetitions • Precede and follow each session with five-minute warm-up/cooldown • Provide initial supervision and periodic reassessment • Review sample 24-Week Program

Chapter 11

Chapter 11

Presentation Transcript

CHAPTER 11

Chapter 11

Chapter 11

chapter 11

Chapter 11

Chapter 11

Chapter 11

CHAPTER 11

CHAPTER 11

Chapter 11

Chapter 11

Chapter 11

Chapter 11

Chapter 11

Chapter 11

Chapter 11

Chapter 11

Chapter 11

Chapter 11

Chapter 11

Chapter 11

Chapter 11