figure 80-1 united states population estimates projected from 2000 until 2050. dark pink bars...
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FIGURE 80-1 United States population estimates projected from 2000 until 2050. Dark pink bars represent numbers of women older than 65 years, and dark blue bars represent numbers of men older than 65 years; lighter pink bars represent numbers of women older than 85 years, and lighter blue bars represent numbers of men older than 85 years in millions of people.)Source: U.S. Census Bureau.(
FIGURE 80-2 Prevalence of cardiovascular and other common chronic medical illnesses in older persons in the United States. Data are percentages. AF = atrial fibrillation; CAD = coronary artery disease; CVD = cardiovascular disease; HF = heart failure; high BP = hypertension (all forms); PAD = peripheral artery disease. Blue bars represent data for men older than 65 years, pink bars represent women older than 65 years, and yellow bars represent men and women older than 80 years
Gross anatomy
↑ Left ventricular wall thickness
↓ Left ventricular cavity size
Endocardial thickening and sclerosis
↑ Left atrial size
Valvular fibrosis and sclerosis
↑ Epicardial fat
Histology
↑ Lipid and amyloid deposition
↑ Collagen degeneration and fibrosis
Calcification of fibrous skeleton, valve rings, and coronary arteries
Shrinkage of myocardial fibers with focal hypertrophy
↓ Mitochondria, altered mitochondrial membranes
↓ Nucleus/myofibril size ratio
Biochemical changes
↓ Protein elasticity
Numerous changes in enzyme content and activity affecting most metabolic pathways, but no change in myosin ATPase activity
↓ Catecholamine synthesis, especially norepinephrine
↓ Acetylcholine synthesis
↓ Activity of nitric oxide synthase
Table 135.1 -- Effects of aging on the cardiovascular system.
Conduction system
Degeneration of sinus node pacemaker and transition cells
↓ Number of conducting cells in the AV node and His-Purkinje system
↑ Connective tissue, fat, and amyloid
↑ Calcification around the conduction system
Vasculature
↓ Distensibility of large and medium-sized arteries
Impaired endothelial function
Aorta and muscular arteries become dilated, elongated, and tortuous
↑ Wall thickness
↑ Connective tissue and calcification
Autonomic nervous system
↓ Responsiveness to β-adrenergic stimulation
↑ Circulating catecholamines, decreased tissue catecholamines
↓ α-Adrenergic receptors in the left ventricle
↓ Cholinergic responsiveness
Diminished response to Valsalva and baroreceptor stimulation
↓ Heart rate variability
Modified from Stolker JM, Rich MW. Diagnosis and management of heart disease in the elderly. In Arenson C, Reichel W, eds. Reichel's Care of the Elderly. 6th ed. Lippincott Williams & Wilkins, 2009.
Figure 135.1 Prevalence of cardiac disease by age and gender. Prevalence of cardiovascular diseases (including coronary heart disease, heart failure, stroke, and hypertension) by age and gender in the United States, 1999 to 2002
Kidneys
Gradual ↓ in glomerular filtration rate (~8cc/min/decade(
Impaired fluid and electrolyte homeostasis
Lungs↓ Ventilatory capacity
↑ Ventilation/perfusion mismatching
Neurohumoral system
↓ Cerebral perfusion autoregulatory capacity
Diminished reflex responsiveness
Impaired thirst mechanism
Hemostatic system
↑ Levels of coagulation factors
↑ Platelet activity and aggregability
↑ Inflammatory cytokines and C-reactive protein
↑ Inhibitors of fibrinolysis and angiogenesis
Musculoskeletal system
↓ Muscle mass (sarcopenia(
↓ Bone mass (osteopenia), especially In women
Modified from Stolker JM, Rich MW. Diagnosis and management of heart disease in the elderly. In Arenson C, Reichel W, eds. Reichel's Care of the Elderly. 6th ed. Lippincott Williams & Wilkins, 2009.
Table 135.2 -- Effects of aging on other organ systems
Figure 135.2 VO2 max as a function of age and gender. Peak treadmill oxygen consumption (VO2 max) as a function of age and gender in healthy subjects.
• Figure 135.3 Annual rate of first heart attack. Annual rate of first heart attack by age, gender, and race in the Atherosclerosis Risk in Communities (ARIC) study, 1987 to 2000.
Figure 135.4 Clinical presentation of acute myocardial infarction in elderly patients. Clinical presentation of acute myocardial infarction in patients age 85 or older
• Figure 135.5 Prevalence of atrial fibrillation by age and gender. Prevalence of atrial fibrillation by age and gender in a large health maintenance organization, 1996 to 1997.
Figure 135.8 Benefits of invasive therapy for the elderly. Benefits of invasive therapy for elderly subjects with non-ST-elevation acute coronary syndromes enrolled in the TACTICS-TIMI 18 trial.
FIGURE 80-3 Directly measured arterial waveforms from a peripheral artery (radial) and calculated aortic pressure waves for a young man aged 26 years in the upper panels and his 83-year-old grandfather in the lower panels.)Courtesy of Michael O’Rourke, MD, University of Sydney, Australia.(
AGE-ASSOCIATED CHANGES ORGAN CARDIOVASCULAR DISEASE
Increased intimal thickness
Vasculature
Systolic hypertension
Arterial stiffeningIncreased pulse pressureIncreased pulse wave velocityEarly central wave reflectionsDecreased endothelium-mediated vasodilation
Coronary artery obstruction
Peripheral artery disease
Carotid artery obstruction
Increased left atrial size Atria
Atrial fibrillation
Atrial premature complexes
Decreased maximal heart rate Sinus node
Sinus node dysfunction, sick sinus syndrome
Decreased heart rate variability
Increased conduction timeAtrioventricular
nodeType II block, third-degree block
Sclerosis, calcification Valves Stenosis, regurgitation
Increased left ventricular wall tensionProlonged myocardial contractionProlonged early diastolic filling rateDecreased maximal cardiac output
Ventricle
Left ventricular hypertrophyHeart failure (with or without preserved systolic function)Ventricular tachycardia, fibrillation
Right bundle branch block
Ventricular premature complexes
TABLE 80-1 Differentiation Between Age-Associated Changes and Cardiovascular Disease in Older People
TABLE 80-2 -- Guidelines for Medication Prescribing in Older Patients
In general, loading doses should be reduced. Weight (or body surface area) can be used to estimate loading dose requirements. Weight differences between the sexes are greatest for white people.
Use estimates of glomerular filtration to guide dosing of renally cleared medications and contrast agent administration. Reduce initial doses of metabolically or hepatically cleared drugs but titrate to effect .
Time between dosage adjustments and evaluation of dosing changes should be longer in older patients than in younger patients.
Routine use of strategies to avoid drug interactions is essential. Incorporation of reference materials, a team approach, and quality improvement efforts are effective strategies.
Knowledge of effects of noncardiac medications is critical.
Assessment of adherence and attention to factors contributing to nonadherence should be part of the prescribing process.
Physicians must be familiar with the patient's source of prescription medication coverage and provide education and assistance with obtaining critical medications.
Multidisciplinary approaches to monitoring of medication therapy may improve outcomes.
• FIGURE 80-6 The relationship between the number of drugs consumed and drug interactions. Current guidelines for the pharmacologic management of patients with heart failure (HF) or myocardial infarction (post MI) place them at high risk for drug interactions.)From Schwartz JB: Clinical Pharmacology, ACCSAP V, 2003. As modified from Nolan L, O’Malley K: The need for a more rational approach to drug prescribing for elderly people in nursing homes. Age Aging 18:52, 1989; and Denham MJ: Adverse drug reactions. Br Med Bull 46:53, 1990.(
TABLE 80-4 -- Considerations for Pharmacologic Therapy for Older Patients with Hypertension and Other Disorders
HYPERTENSION + EFFICACY CONSIDERATIONSTOXICITY OR ADVERSE EFFECT
CONSIDERATIONS
Arthritis —ACE, ARB, aldosterone, and renin
antagonist interactions with NSAIDs
Atrial fibrillation
Interactions with warfarin Recurrent ARB, ACE*
Permanent Beta blocker, calcium channel blocker (non-DHP(*,[†]
Atrioventricular block —Beta blockers, non-DHP calcium channel
blockers
Carotid disease or stroke
Calcium channel blocker,[†] ACE*
Constipation — Verapamil
Coronary artery disease Beta blocker*,[†] calcium channel blocker*,[†] Nitrates and postural hypotension
Dementia Clonidine[‡]
Depression — SSRIs and hyponatremia
Diabetes ACE,*,[†] ARB,*,[†] CCB (non-DHP) , beta blocker Chlorpropamide and hyponatremia
ACE or ARB + renin inhibitor and
hyperkalemia
Glaucoma Beta blocker
Gout Thiazide diuretics*
Heart failureACE,*,[†] ARB,*,[†] + loop diuretic,*,[†] beta blocker,*,[†] ?
aldosterone antagonist*,[†],[?]
Calcium channel blockers (possible)*ACE, ARB, aldosterone antagonist and hyperkalemia
Hyponatremia — Diuretic (especially with SSRI)
Incontinence — Diuretic
Metabolic syndrome ACE,* ARB,* calcium channel blocker* Beta blockers, diuretics
Myocardial infarction Beta blocker,*,[†] ? ACE,*,[†] ? aldosterone antagonist*ACE, ARB, aldosterone antagonist and
hyperkalemia
OsteoporosisThiazides (beta blocker, ACE neutral or protect); potassium (K)
phosphate (versus KCl )Furosemide (bone loss)
Peripheral artery disease Calcium channel blocker (DHP),*,[†] ACE + diuretics[ ]∥ Beta blocker (only if severe)
Postural hypotension Thiazide[?] Alpha blocker, calcium channel blockers (DHP)
Prostatic hypertrophy Alpha blocker[†]
Pulmonary disease (asthma, COPD)
Beta blocker
Renal failure ACE,*,[†] ARB,*,[†] ACE + ARB; loop diuretic*,[†] Aldosterone antagonists (? renin inhibitors) and hyperkalemia
Ventricular arrhythmias Beta blocker[†] Thiazide, loop diuretics and hypokalemia
ACE = angiotensin-converting enzyme inhibitor; ARB = angiotensin receptor blocker; COPD = chronic obstructive pulmonary disease; NSAIDs = nonsteroidal anti-inflammatory drugs; DHP = dihydropyridine; SSRI = selective serotonin reuptake inhibitor.*Recommendations for second-line agents usually added to thiazide diuretics from Chobanian AV, Bakris GL, Black HR, et al: The Seventh Report of the Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure. The JNC 7 Report. JAMA 289:2560, 2003.†Mancia G, De Backer G, Dominiczak A, et al: 2007 Guidelines for the management of arterial hypertension. The Task Force for the management of arterial hypertension of the European Society of Hypertension (ESH) and of the European Society of Cardiology (ESC). Eur Heart J 28:1462, 2007.‡Only available transdermal formulation for patients unable to swallow or who refuse oral medications.?Systolic heart failure only.∥Norgren L, Hiatt W, Dormandy J, et al: Inter-Society consensus for the management of peripheral arterial disease (TASC II). J Vasc Surg 45:S5A, 2007.?Nursing home patients.
Table 80-5 summarizes the approach to hypertension in older patients
FIGURE 80-8 In-hospital mortality rates reported for revascularization procedures by age group. PCI = percutaneous coronary intervention of all types; CABG = coronary artery bypass graft surgery. (Data are from the National Cardiovascular Revascularization Network as reported by Alexander K, Anstrom K, Muhlbaier L, et al: Outcomes of cardiac surgery in patients ≥80 years: Results from the National Cardiovascular Network. J Am Coll Cardiol 35:731, 2000; Batchelor W, Anstrom K, Muhlbaier L, et al: Contemporary outcome trends in the elderly undergoing percutaneous coronary interventions: Results in 7,472 octogenarians. National Cardiovascular Network Collaboration. J Am Coll Cardiol 36:723, 2000; and the Society of Thoracic Surgeons data base, Bridges C, Edwards F, Peterson E, et al: Cardiac surgery in nonagenarians and centenarians. J Am Coll Cardiol 197:347, 2003.) Data were not available for PCI in patients older than 90 years. See text for further discussion of results for drug-eluting stents and newer surgical approaches.
FIGURE 80-5 Estimates of creatinine clearance with the Cockcroft and Gault formula (left panel) and estimates of glomerular filtration rate with the MDRD simplified algorithm (right panel) for men and women aged 45 to 85 years. For calculations, mean weight and height by decade were obtained from U.S. survey data (NHANES, http://www.cdc.gov ); serum creatinine is 1.0 mg/dL (average for older than 65 years in NHANES). Pink lines and circles represent estimates for women; blue lines and diamonds are estimates for men; lighter symbols are estimates for whites, and darker symbols represent estimates for African Americans. The shaded areas indicate GFR estimates of 30 to 59 mL/min/m2 classified as stage 3 renal disease or moderate GFR decrease. Cockcroft and Gault estimates show a steeper decline with age. Both formulas estimate lower clearance in women compared with men and higher clearances in African Americans compared with whites (based on average height and weights and the same creatinine concentration).(Modified from Schwartz JB: The current state of knowledge on age, sex, and their interactions on clinical pharmacology