Academic Geriatric Resource Center
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AT A GLANCE

Glossary

0. Introduction
1. Demography And Epidemiology
1.1 The Changing Face of Aging: Objectives
1.2 Local and Regional Variations Among Older Adults in the United States
1.3 Implications of an Aging Society for Health Care Needs and Resources
1.4 Common Chronic Conditions Associated with Advanced Age
1.5 Post Test
2. Biology and Physiology of Aging
2.1 Introduction and Background
2.2 Theories of Aging
2.3 Physiological Changes with Aging
2.3.1 Loss of Homeostatic Reserve--Hyperthermia
2.3.2 Loss of Homeostatic Reserve--Hypothermia
2.3.3 Vulnerability of Older Adults to Hypothermia
2.3.4 Clinical Importance of Vulnerability to Hypothermia
2.3.5 Loss of Homeostatic Reserve--Other Examples and Clinical Implications
2.3.6 Clinically Important Age-Related Changes in Organ Systems
2.3.7 Clinically Important Age-Related Changes in the Renal System
2.3.8 Clinical Significance of Age-Related Changes in Renal System
2.3.9 Clinically Important Age-Related Changes in the Cardiovascular System
2.3.10 Clinical Significance of Age-Related Changes in the Cardiovascular System
2.3.11 Clinically Important Age-Related Changes in the Pulmonary System
2.3.12 Clinical Significance of Age-Related Changes in the Pulmonary System
2.3.13 Age-Related Changes in the Neurologic System
2.3.14 Clinical Significance of Age-Related Changes in the Neurologic System (I)
2.3.15 Clinical Significance of Age-Related Changes in the Neurologic System (II)
2.3.16 Clinically Important Age-Related Changes in the Gastrointestinal System
2.3.17 Clinical Significance of Age-Related Changes in the Gastrointestinal System (I)
2.3.18 Clinical Significance of Age-Related Changes in the Gastrointestinal System (II)
2.3.19 Clinically Important Age-Related Changes in the Immune System
2.3.20 Clinical Significance of Age-Related Changes in the Immune System
2.3.21 Clinically Important Age-Related Changes in the Endocrine System (I)
2.3.22 Clinically Important Age-Related Changes in the Endocrine System (II)
2.3.23 Clinical Significance of Age-Related Changes in the Endocrine System
2.3.24 Clinically Important Age-Related Changes in the Musculoskeletal System
2.3.25 Clinical Significance of Age-Related Changes in the Musculoskeletal System (I)
2.3.26 Clinical Significance of Age-Related Changes in the Musculoskeletal System (II)
2.3.27 Clinically Important Age-Related Changes in the Genitourinary System (I)
2.3.28 Clinically Important Age-Related Changes in the Genitourinary System (II)
2.3.29 Clinical Significance of Age-Related Changes in the Genitourinary System
2.3.30 Clinically Important Age-Related Changes in the Sensory Systems
2.3.31 Clinical Significance of Age-Related Changes in the Sensory Systems (I)
2.3.32 Clinical Significance of Age-Related Changes in the Sensory Systems (II)
2.3.33 Clinically Important Age-Related Changes in the Integument
2.3.34 Clinical Significance of Age-Related Changes in the Integument
2.4 Pharmacologic Considerations
2.5 Post Test
3. Socio-cultural And Psychologicial…
3.1 Module Objectives
3.2 Social Theories of Aging
3.3 Psychological Development In Late Life
3.4 Ethno-Cultural Issues And Age-Stratified Societies
3.5 Late-Life Transitions
3.6 Dependent Elders: Special Concerns
3.7 Cultural Views of Death
3.8 References
3.9 Post Test
4. Assessment Of The Geriatric…
4.1 Module Objectives
4.2 Domains of Assessment: Functional Assessment
4.2.1 How to Use Information from a Functional Assessment
4.2.2 Vision Impairment
4.2.3 Hearing Impairment (I)
4.2.4 Hearing Impairment (II)
4.2.5 Oral and Dental Health
4.2.6 Introduction to Oral Health Assessment
4.2.7 Oral Health Assessment
4.2.8 Common Oral Conditions in Older Adults: Tooth Loss (I)
4.2.9 Common Oral Conditions in Older Adults: Tooth Loss (II)
4.2.10 Common Oral Conditions in Older Adults: Care of Dentures
4.2.11 Common Oral Conditions in Older Adults: Dental Decay
4.2.12 Common Oral Conditions in Older Adults: Periodontal Disease
4.2.13 Common Oral Conditions in Older Adults: Candidiasis Infection
4.2.14 Common Oral Conditions in Older Adults: Leukoplakia and the Risk for Oral Cancer
4.2.15 Guidelines for a Dental Referral
4.2.16 Falls and Gait Assessment
4.2.17 Assessing for Falls
4.2.18 Techniques for Gait Assessment
4.2.19 Gait Assessments and Falls Interventions
4.2.20 Risk Factors for Falls and Targeted Interventions
4.2.21 Modification of Risk Factors: Ability to Get Up After a Fall
4.2.22 Modification of Risk Factors: Fracture Risk
4.2.23 Modification of Risk Factors: Anticoagulation
4.2.24 Incontinence
4.2.25 Skin Breakdown: Pressure Ulcers
4.2.26 Cognition/Dementia
4.2.27 Benefits of Early Detection of Dementia
4.2.28 Screening Techniques for Dementia
4.2.29 Decision-Making about Dementia Screening
4.2.30 Nutrition
4.2.31 Alcohol Use and Alcoholism
4.2.32 Medication and Complementary Therapies
4.2.33 Case Example: Mr. Singh
4.2.34 Mr. Singh--Use of Herbal Medicines
4.2.35 Mr. Singh--Possible Interventions
4.2.36 Mr. Singh--Concerns about Marathon Running at 92?
4.2.37 Mr. Singh--Considerations for Patient/Family Well-Being
4.2.38 Assessing for Polypharmacy (I)
4.2.39 Assessing for Polypharmacy (II)
4.3 Domains Of Assessment: Psychosocial Health And Functioning
4.4 Special Considerations In Assessment
4.5 Post Test
5. Health Care Policies
5.1 Module Objectives
5.2 The Policy-Making Process
5.3 Financing Health & Long Term Care
5.4 Quality Of Care Issues In Long Term Care
5.5 Need And Access Across The Spectrum Of Care
5.6 References
5.7 Post Test
6. Exploring Age-Related Body…
6.1 Cardiovascular System
6.2 Endocrine System
6.3 Immune System
6.4 Musculo-Skeletal System
6.5 Neurological System
6.6 Renal System
6.7 Post Test

Module 2: Biology and Physiology of Aging

2.2: Theories of Aging



2.2.8: Disposable Soma Theory

Natural selection may also favor the investment of resources in greater reproductive output at the expense of maintaining our bodies in perfect shape. This is the Disposable Soma Theory that suggests that aging is the result of resource allocation (Kirkwood, 1985).

Disposable Soma Theory:
Throughout life, our cells and tissues are exposed to many internal (e.g. metabolic) and external (e.g. radiation, trauma) insults that cause damage. This damage usually needs to be repaired. For example, mutations to DNA that will affect cellular function. Thus, we have numerous repair systems that are in constant operation. Unfortunately, we also have finite resources and have to make decisions about how best to use these resources. The Disposable Soma Theory (Kirkwood, 1985) suggests that natural selection favors the investment of resources in greater reproductive output at the expense of indefinite somatic longevity. That is, we can’t afford to invest enough resources in the repair of damaged tissues if we want to have resources available to invest in reproduction. The theory predicts that species that have many offspring (or can have many offspring), age through the accumulation of random somatic damage and that evolution to a longer or shorter life span (longevity) results from raising or lowering the levels of somatic maintenance and repair. So if we figure out how to keep repairing ourselves, we’ll live longer. As will be discussed further in this module, our ability to repair damage may either decline with age or the accumulation of damage to cells and tissues may exceed our repair capacity. This, in turn, influences the age changes we see.

In reviewing these perspectives—programmed, evolutionary, and random—it is clear that they are not mutually exclusive. They are interactive, and each can influence what ultimately happens as we age.


Module 2: Biology and Physiology of Aging
2.2.7 Theories of Aging as…
2.2.9 Theories of Biological…