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Transcript
Physiology of Aging
Nisha Rughwani MD
Assistant Professor
Mount Sinai School of Medicine
http://www.anti-aging.org/blog/aging_3.jpg
Objectives
 Discuss
the Characteristics of Aging
 Review
the various Theories of Aging
 Explore
the effects of Aging on the different
organ systems
CHARACTERISTICS OF AGING





Mortality increases exponentially
Biochemical composition of tissue changes
Physiologic capacity decreases
Ability to maintain homeostasis diminishes
Susceptibility and vulnerability to disease
increases
Environmental and Genetic factors
influence the rate of aging
CHARACTERISTICS OF AGING
 Loss of physiologic reserve and decreased
homeostatic control may result from:


Allostatic load (persistent activation of normal
neuroendocrine, immune, and autonomic responses to
stress)
Development of homeostenosis (altered response to
physiologic stresses)
 Changes are generally irreversible
THEORIES OF AGING:
OXIDATIVE STRESS
Synopsis: Oxygen converted during metabolism
causes protein, lipid, and DNA damage over time
In support:

Mutations in oxidative stress pathway can extend life
span

Mutations in other pathways that increase longevity
resist oxidative damage
In opposition: Antioxidants do not delay human
senescence or disease
THEORIES OF AGING:
CHROMOSOMAL ALTERATIONS
Synopsis: Age-acquired chromosomal instabilities
contribute to gene silencing or expression of diseaserelated genes (e.g. cancer genes)
In support:



Damage by free radicals causes mitochondrial DNA
(mtDNA) mutations in muscle and brain
Defective mitochondrial respiration and further oxidant
injury creates a cycle of damage
Mitochondrial mutations and defective respiration have
been linked to neurodegeneration
In opposition: The practical impact on non-diseased
aging appears to be minimal
THEORIES OF AGING:
IMMUNOLOGIC
Synopsis: Time-acquired deficits, primarily in Tcell function, increase susceptibility to infections
and cancer
In support: Some diseases are associated with
aging
In opposition: Immunologic function is apparently
not directly related to healthy aging
THEORIES OF AGING:
NEUROENDOCRINOLOGIC
Synopsis: Hypothalamic and pituitary responses
are altered (TRH, GNRH, GHRH, TSH, LH,
FSH, GH, ACTH)
In support: No direct support as causative of
healthy aging, supplementation does not alter
aging in humans
THEORIES OF AGING:
GENETIC
Synopsis: Senescence results from activation or suppression
of specific “aging” genes
In support:
Longevity appears to be hereditable
Some genetic disorders lead to accelerated aging
In opposition:
Evolutionary pressures appear to select for reproductive
fitness rather than senescence
Little direct evidence of “genetic programming” of
senescence in humans
CELLULAR CHANGES
– Loss of proliferative potential, e.g.:



Slower onset of lymphocyte proliferation
Diminished cloning efficiency of individual T cells
Fewer population doublings of fibroblasts
– Proliferative potential does not invariably diminish
with age
– Changes in gene expression, signal transduction, and
telomere length contribute to cellular aging
CELL DEATH
– Age-dependent problems with apoptosis could
result in leukemias, lymphomas, and abnormal
tissue repair
– Apoptosis may play a role in age-related
neurodegeneration, e.g.:


Neuronal loss in Alzheimer’s disease may be due to
cytotoxicity of -amyloid, which can induce apoptosis
in cultured cells
Putative toxins such as free radicals have been
implicated in neuronal loss in Parkinson’s disease
Aging effects on organ
systems
Cardiovascular
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Cardiovascular: Structure
Age-associated change
Possible disease
outcomes
↑ vascular intimal thickening
Early stages of atherosclerosis
↑ vascular stiffness
Systolic HTN
Stroke
Atherosclerosis
↑ LV wall thickness
↓ early diastolic cardiac filling
↑ cardiac filling pressure
Lower threshold for dyspnea
↑ Left Atrial size
Lone Atrial Fibrillation
Cardiovascular: Function
Age-associated change
Possible disease outcomes
Altered regulation of vascular
tone
Vascular stiffening
Hypertension
Decreased cardiovascular
reserve
Lower threshold for and
increased severity of heart
failure
Pulmonary
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Pulmonary - Structure
↓ Alveoli and lung capillaries
 ↓ Number and elasticity of parenchymal elastic fibers
→ Gradual loss of elastic recoil of the lungs
 Airway size ↓
 Ciliary action less effective
 Chest wall stiffens
 Respiratory muscles weaken
 ↓ lung mass
 Diaphragm weakens by 25%

Pulmonary - Function
Pulmonary – Function
↓
FEV1 and FVC
 ↑ Residual volume
 Ventilation-Perfusion mismatching causes ↓
PaO2 [100 – (0.32 * age)]
 Maximum inspiratory and expiratory
pressures ↓
 Diffusion of CO decreased
 Decreased ventilatory response to hypercapnia
Question

An 85-year-old man has had increasingly severe shortness of
breath on exertion over the past 3 months. For the past 20
years, he has walked 30 minutes three times weekly at a fairly
rapid pace without symptoms. He has no chest pain, wheezing,
or cough. Blood pressure is 140/85 mm Hg. On examination,
the lungs are clear and there is no evidence of wheezing.
Radiographs of the chest and an electrocardiogram show
normal findings. Which of the following additional findings
would require further evaluation?

(A) Arterial PO2 of 80 mm Hg
(B) Decreased cardiac output on ultrasonography
(C) Decreased maximum heart rate on stress testing
(D) Decreased vital capacity on pulmonary function testing
(E) Presence of an S4 gallop





Cardiac output both at rest and with moderate exercise does not
change with age. A finding of ↓ cardiac output in this patient
would suggest an underlying disease.

Arterial PO2 ↓ with age because of an age-related increase in
ventilation-perfusion mismatch. The age-expected normal Pa O2 is
determined by calculating 100 minus (0.325 × patient age).

Vital capacity ↓ with age. Total lung capacity does not change with
age. Residual volume ↑ substantially in older persons.

An S4 gallop may occur without underlying disease in persons
older than 80 years. ↓ early ventricular filling velocities are caused
by aged, less compliant ventricles.
Renal
Renal - Structure
↓
Renovascular bed → ↓ Renal Blood flow
 Selective
loss of cortical vasculature
 Renal
mass ↓ 25% - mainly cortical
 Renal
weight ↓
Renal - Function
↓
Cr clearance & GFR (10mL/decade) → ↓
excretion of drugs, toxins
 ↓ concentrating and diluting capacity
 ↓ serum renin and aldosterone (30-50%)
→ fluid and electrolyte abnormalities - ↑ volume
depletion and dehydration
→ ↑ risk of hyerkalemia
→ ↓ Na & K excretion and conservation
↓
vitamin D activation
GI
GI - Structure
Age-associated change
Possible disease
outcomes
↓ liver size and blood flow
Impaired clearance of drugs
requiring phase I metabolism
Impaired response to gastric
mucosal injury
↓ pancreatic mass and enzyme
reserves
↓ in effective colonic contractions
↓ in gut-associated lymphoid tissue
Increased risk of gastric &
duodenal ulcers
Increased insulin resistance
Constipation
Increased risk of gastric &
duodenal ulcers
GI - Function
Age-associated change
Possible disease
outcomes
↓ stomach acid production
Atrophic gastritis
Impaired acid clearance
GERD
Slowing of gastric emptying
Prolong gastric distention
↑ meal-induced satiety
Bone loss
Constipation
↓ Ca absorption
Delay in colonic transit
↓ rectal wall sensitivity
↓ tensile strength in smooth muscle Diverticulosis
of colonic wall
↓ Insulin secretion
↑ Insulin resistance
Endocrine
gland – moderate atrophy
 Ovarian failure
 ↓ T3
 ↓ DHEA
 ↑ PTH
 ↓ GH, testosterone, estrogen
 ↓ Insulin secretion → Impaired glucose
tolerance
 Thyroid
Hematology
%
of marrow space occupied by hematopoietic
tissue declines
 ↓ stem cells in marrow
 Slowed erythropoiesis ↓ incorporation of iron
into RBC
 Average values of Hb and hematocrit ↓ slightly
Central Nervous System – Structure
↓
Brain Weight
 ↓ no. of nerve cells in brain
 ↓ cerebral blood flow (20%)
 ↑ neurofibrillary tangles and scattered senile
plaques
 Altered neurotransmitters
Central Nervous System - Function
Intellect
 Maintained until at least age 80
 Slowing in central processing → Tasks take longer
to perform
Verbal skills
 Maintained until age 70
 Gradually ↓ in vocabulary, ↑ semantic errors and
abnormal prosody
Mentation
 Difficulty learning, especially languages and
forgetfulness in non-critical areas – doesn’t impair
recall of important memories or affect function
Peripheral Nervous System
↓
spinal motor neurons
 Nerve
conduction slows
↓
vibratory sensation – especially feet
↓
thermal sensitivity (warm-cool)
↓
size of large myelinated fibers
Musculoskeletal - Muscle
↓
muscle fibers → ↓ muscle mass (sarcopenia)
→ lean body mass
 Infiltration

of fat into muscle bundles
↑ Fatigability
↓
Basal metabolic rate (4%/decade after age
50)
Musculoskeletal - Bone
↓ Bone density – both trabecular and cortical bone
 ↓ Osteoclast bone formation
 ↓ Bone remodelling
 ↑ adipocyte formation in bone marrow
 Slower healing of fractures
 ↓ Vitamin D absorption → ↓ osteoblasts → ↓ bone
formation
 ↑ Bone loss → Loss of height (stooping) and Dorsal
Kyphosis
 ↓ Bone density & microarchitectural bone deterioration
→ Osteoporosis

Musculoskeletal - Joints
Non-articular cartilage grows throughout life
Articular cartilage does change
 ↓ thickness of cartilage
 ↓ chondrocytes
 Collagen becomes stiffer → Disordered
cartilage matrix
 As a result, less able to handle mechanical
stress
Skin
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http://futurederm.files.wordpress.com/2
007/12/122907-skin-aging.jpg
Skin - Structure
Epidermal changes
Melanocytes
 ↓ 15%/decade
 Density doubles on sun-exposed skin
 ↑ lentigines


Langerhans cells
↓ density
↓ responsiveness
Dermal Changes
 ↓ collagen – 1% annual decline, altered fibers
 ↓ density
 Progressive loss of elastic tissue in the papillary dermis
Skin - Function
Physiologic Decrement
Clinical Consequence (s)
↓ Barrier function
Dryness
Slower Cell replacement
Rough surface
Delayed healing
Ineffective DNA repair
↑ photocarcinogenesis
↓ Elasticity
Lax skin
↓ Immunologic and
Chronic low-grade skin
inflammatory responsiveness infections
Inapparent injuries and infections
Skin – Function (Cont’d)
Physiologic Decrement
Clinical Consequence (s)
Mechanical protection altered
↓ Sensory perception
Frequent injuries
↓ Sweating
Tendency to hypothermia
↓ effectiveness of
thermoregulation (vascular)
Vulnerability to heat and cold
↓ Vitamin D production
Osteomalacia
Impaired Wound healing
Persistent wounds, weak scars
Immune system







↓ Cell-Mediated immunity
Lower affinity antibody production
↓ delayed-type hypersensitivity
↑ Interferon-gamma, TGF-beta, TNF, IL-6, IL-1 production
causing impaired macrophage function
↑ circulating IL-6
↓ IL-2 release and IL-2 responsiveness
↓ production of B cells by bone marrow
Resulting in ↓ immunity contributing to ↓ susceptibility to
infections and malignancy
Sensory - Vision
 Yellowing
 Impaired
 Inability
of lens
dark adaptation
to focus on near items (Presbyopia)
↓
Contrast sensitivity
↓
Lacrimation → Dry eyes
Sensory – Smell and Thirst
Smell
 Detection
↓ by 50%
Thirst
↓
thirst drive
 Impaired
control of thirst by endorphins
Sensory - Audition
loss of high frequency tones
 Thickened eardrum
 Central processing deficit
 Difficulty discriminating source of sound
 Impaired discrimination of target from
noise
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 Bilateral
Question
A healthy 80-year-old woman presents for her annual
physical examination. She has mild osteoarthritis of her
knees, but she is fully functional and plays golf weekly.
She takes no medications. A routine chemistry panel is
ordered.
Which of the following laboratory findings should lead to further
work-up?





(A) Erythrocyte sedimentation rate: 45 mm/h
(B) Alkaline phosphatase: 130 U/L
(C) Total cholesterol: 210 mg/dL
(D) 1-hour postprandial glucose: 160 mg/dL
(E) Magnesium: 1.4 mg/dL

Mg - 1.4 mg/dL represents a ↓ beyond the amount expected with
normal aging and hence should prompt further work-up.

Serum Mg ↓ by about 15% between the 20s and 70s..

All the other laboratory values listed for this patient ↑ normally with
age.
– ESR tends to ↑ about 10 to 13 mm/h between the ages of 20 and
80 years and is associated with a similar ↑ in C-reactive protein.
– The alkaline phosphatase level ↑ by 20% between the 20s and
70s, a change that is unassociated with clinical problems.
– The total cholesterol level ↑ with age, with a more important ↓ in
high-density lipoprotein cholesterol in women as they lose
estrogen protection.
– The postprandial glucose level ↑ with age, a change also
reflected in ↑ levels of hemoglobin A1c.
References

Merck Manual of Geriatrics
Beers, Mark (2000)

Merck Manual of Health and Aging
(2004)

GRS 6th edition – American Geriatrics Society

Geriatric Medicine
Cassel, Leipzig, Cohen, Larson, Meier (4th
edition – 2003)
Questions???