Week 1

Question 1

How do we define an older adult by chronological age?

Answer 1

• Gerontologists focus on those 60+ years of age
• Federal government uses 65 as determinant
for Social Security & Medicare eligibility
• Researchers use subgroups
- “Younger old” = 65-75
- “Older old” = 75-85
- “Oldest old” = 85+

Question 2

What are the older definitions of aging?

Answer 2

• Societal determinants (“50 is the new 40”, etc)

* Health status determinants

Question 3

What are the truths about aging?

Answer 3

• Aging takes place over time
- Grow older developmentally, not chronologically
- Chronological age is not biologically uniform
• Old age is a new concept
• Aging is different from disease
- Functional decline not necessarily due to aging
- Aging changes are distinguished from changes attributable to disease
- Many diseases and co-morbidities associated with the older adult actually have their beginnings during the decade of the 40’s. and 50’s.

Question 4

What is ageism?

Answer 4

Prejudice or discrimination against a particular age-group and especially the elderly.

Question 5

What is the life expectancy of the 65+ population?

Answer 5

Close to 20% of the total US population.

Question 6

What are the factors that contribute to the demographics and life expectancy of the aging adult population?

Answer 6

• Current declining birth rate
• Decreased mortality rates
• Increased life expectancy/better overall health
• Large numbers in the “baby boomer” generation

Question 7

What is a generation?

Answer 7

Cohort born in specific time period (18-22 year increments)

Question 8

What are the characteristics of a generation?

Answer 8

• Each generation develops a collective world view based on the prevailing cultural influences in their first 18 years
• Each generation has tendency to reject/rebel against the world view of
previous generation
• Has specific attitudes toward work ethics, behavioral expectations, role norms, language, value and outlook
• Generation gaps affects what our patients want/need and presents societal challenges to health

Question 9

What are the existing categories of generation gaps?

Answer 9

• GIs: 1901-1921
• Veterans (“Greatest Generation”, Traditionals):
1922-1945
• Boomers: 1946-1960
• Gen X (“Baby Bust”): 1961-1981
• Gen Y (“Millennials”): 1982-2004
• Gen Z: 2004-

Question 10

What are the generational themes seen in generation “traditionals”?

Answer 10

• Hard work
• Duty
• Sacrifice
• Thriftiness
• Work fast

Question 11

What are the generational themes seen in generation “boomers”?

Answer 11

• Personal fulfillment
• Optimism
• Crusading
• Buy now, pay later
• Work efficiently

Question 12

What are the generational themes seen in generation “gen Xers”?

Answer 12

• Uncertainty
• Personal focus
• Live for today
• Save
• Eliminate task

Question 13

What are the generational themes seen in generation “millenials”?

Answer 13

• What’s next?
• On my terms
• Just show up
• Earn to spend
• Do what’s asked

Question 14

According to Rowe and Kahn, a person has successfully aged when they have done what…?

Answer 14

• Avoiding disease and disability
• Maintaining high physical and cognitive function
• Sustained engagement in social and productive activities

Question 15

According to Lewis, what is successful aging?

Answer 15

The changes due solely to the aging process, uncomplicated by damage from the environment, lifestyle or disease

Question 16

__ is a modified version of “successful aging”

Answer 16

Optimal aging is a modified version of “successful aging”

Question 17

What is optimal aging?

Answer 17

Capacity to function across many domains– physical, functional, cognitive, emotional, social, spiritual– to one’s satisfaction and in spite of medical conditions

Question 18

What can a PT do to impact optimal aging?

Answer 18

Physical therapists reduce disabling effects and can

stop the cycle of “disease > disability > new incident disease” in order to facilitate maintenance of quality of life

Question 19

What are the 5 most common causes of death in the aging adult?

Answer 19

• Heart Disease
• Malignant Neoplasms
• Cerebrovascular Disease
• Chronic Lower Respiratory
  Diseases
• Pneumonia/Influenza

Question 20

What are the 5 most common chronic health conditions in the aging adult?

Answer 20

• Arthritis/MSK Issues
• Heart/Circulatory Issues
• Vision/Hearing Issues
• Fractures/Joint Injuries
• Diabetes
• Mental Illness

Question 21

Aging has contributions from…?

Answer 21

• General whole body inflammatory response (Woods, et al)
• Genetics
• Consequences of lifestyle, primarily decline in physical activity

Question 22

What is sarcopenia?

Answer 22

Age related loss of skeletal muscle mass and strength
• Not completely age related
• Decreased physical activity
• Co-morbidities

Question 23

What does sarcopenia result in?

Answer 23

Results in decreased protein reserves
• Challenge to meet protein synthesis demands with injury or disease
• Thus even worse sarcopenia

Question 24

What happens to muscle as a result of normal aging?

Answer 24

• Whole muscle and fiber atrophy
- Muscle is 50% total body weight in young adults, reduced to 25% by age 75-80
- Replaced by increased body fat
- Type II atrophy > Type I
• Denervation and reinnervation of alpha motor neurons
• Decreased muscle activation – Less agonist, more co-activation of antagonist
• Decreased muscle strength and power

Question 25

What are the metabolic changes that occurs as a result of normal aging?

Answer 25

• Decreased resting metabolic rate
- Less lean muscle mass
• Insulin resistance (common in older adults)
- Increased body fat further contributes
- Regulator of protein metabolism and important for protein gain and muscle growth
• Decreased growth hormone
• Decreased estrogen and testosterone
• Vitamin D deficiency

Question 26

What are the skeletal changes that occurs as a result of normal aging?

Answer 26

• Decline in bone mineral
• Increased osteoclast activity, decreased osteoblast
activity
• Osteopenia…leads to increased risk of osteoporosis
- Load absorption decreased
- Decreased load dispersion to other parts of the joint
- Results in increased bone loading, results in increased risk for fracture

Question 27

What are the effects that occurs in the connective tissue (ligaments, capsule, cartilage) of the joint as a result of normal aging?

Answer 27

• Decreased activity of osteoblasts and chonrdroblasts
• Increased activity of osteoclasts and chondroclasts
• Decreased response to growth factors (hormones, cytokines)
- Alters repair of tissues
• Altered response to tissue loading
• Decreased ability to retain water
- Decreased glycoconjugates that maintain fluid content
• Fragmenting of collagen strands and decreased rate of turnover
• Increased crosslinking between collagen molecules
- Increased stiffness and decreased ability to absorb energy
• Calcification of articular cartilage
- Intervertebral discs: nucleus becomes more fibrous, annulus less organized
- Decreased water content in discs

Question 28

What are the most common changes that occurs in the joint during normal aging?

Answer 28

• Decreased joint space
• Increased laxity
• Altered load dispersion
• Altered joint forces
• Decreased joint ROM (not uniformly)

Question 29

What happens to the cervical spine ROM as a result of aging?

Answer 29

• All motions decrease

* Greatest reduction in extension and lateral flexion

Question 30

What happens to the thoracic and lumbar spine ROM as a result of aging?

Answer 30

• Extension becomes most limited

* No or very little change in rotation

Question 31

What happens to the hip ROM as a result of aging?

Answer 31

Extension decreases – decreased walking speed

Question 32

What happens to the ankle ROM as a result of aging?

Answer 32

Dorsiflexion decreases

Question 33

What happens to the knee ROM as a result of aging?

Answer 33

Without pathology, knee ROM remains fairly stable

Question 34

What happens to the shoulder ROM as a result of aging?

Answer 34

• Flexion and External rotation

* Thoracic kyphosis may also impact

Question 35

What does habitual postures often lead to?

Answer 35

• Forward head posture (FHP)
• Thoracic kyphosis
• Lumbar flattening (reduction of lordosis)

Question 36

What are the characteristics of thoracic kyphosis as it relates to aging?

Answer 36

• Increases > 40 years of age- women > men
• Correlated with increased fall risk
• Associated with osteoporosis and vertebral fractures

Question 37

What are the characteristics of lumbar flattening (reduction of lordosis) as it relates to aging?

Answer 37

Decreased intervertebral space = decreased diameter of intervertebral foramen: impact nerve root integrity

Question 38

What are the altered functions associated with forward head posture (FHP)?

Answer 38

Challenges with swallowing, breathing, supine/prone positioning

Question 39

What are the altered functions associated with hyperkyphosis?

Answer 39

Spine extensors lengthened – weakened : Lifting difficulty

Question 40

What are the altered functions associated with decreased lumbar lordosis?

Answer 40

Pain, nerve root impingement symptoms, spinal stenosis: Standing, walking painful – limits activity

Question 41

What are the causes of postural changes in an adult?

Answer 41

• Decreased intervertebral and bone height

* Decreased elastin in ligaments of the spine

Question 42

What are the effects of decreased intervertebral and bone height on posture?

Answer 42

• 2’ loss over a lifetime
• Decreased ability to withstand compression, tension, and shear, thus more load bearing on the neural arch-osteoarthritis and osteophyte
formation
• Thinning trabeculae of bone- increased risk for spinal deformities and fractures

Question 43

What are the effects of decreased elastin in ligaments of the spine on posture?

Answer 43

Converts into cartilaginous tissue from scarring, thus become thickened- Spinal Stenosis

Question 44

What are the MSK conditions that impacts the aging adult?

Answer 44

• Osteoporosis
 - Fractures
• Osteoarthritis
  - Joint Arthroplasty
• Spinal Stenosis
• Frailty

Question 45

What is osteoporosis?

Answer 45

A systemic skeletal disease characterized by low bone mass and microarchitectural deterioration of bone tissue, with a consequent increase in bone fragility and susceptibility to fracture

Question 46

What are the types of fractures that is common in the aging adult?

Answer 46

Anterior vertebral body

• Symptomatic or asymptomatic

Question 47

What position should an older adult take caution in?

Answer 47

ADLS in trunk flexed positions

Question 48

In what type of joints in OA most common?

Answer 48

Load bearing joints
• UE- Hands
• LE- Hips, knees, feet
• Spine- cervical and lumbar
  - Can compromise diameter of spinal canal- Spinal Stenosis

Question 49

What may joint destruction ultimately lead to?

Answer 49

May lead to need for total joint arthroplasty

Question 50

What are the CNS changes with aging?

Answer 50

• Neuron loss – decreased gray matter
• Myelin loss- decreased white matter (decreased brain weight)
• Nerve cell shrinking
• Delayed impulse conduction and conduction velocity
• Reduction and altered balance of neurotransmitters
• Decreased size of cerebellar hemispheres
• Vestibular changes- decreased hair cells and receptor ganglion cells
• Decreased cerebral blood flow
• Decreased glucose metabolism

Question 51

What are the functional implications seen with CNS changes?

Answer 51

• Delayed recall- If given time, then able
• Rote memory decreases
• Altered gait, balance, and fine motor control
• Diminished motor learning
• Decreasing activity level

Question 52

What are the common pathology of the CNS?

Answer 52

• CVA
• TBI
• Parkinson’s Disease
• Dementia

Question 53

What are the PNS Motor (Somatic &ANS) changes with

aging?

Answer 53

• Axonal degeneration
• Greater internodal length
• Slower conduction velocity
• Decreased ability to adapt to environmental or visceral changes
• Decreased neurons per muscle fiber (fiber grouping)
• Decrease in Ruffini’s, Pacinian, and golgi tendon-like receptors
• Increased sympathetic activity
• Decreased cerebral blood flow

Question 54

What are the functional implications see with PNS changes?

Answer 54

• Increased recruitment of motor units- more work required to do a task
• Increased co-contraction at the ankle
• Altered motor control and postural stability
• Decreased LE proprioception, vibration, discriminative touch, and balance
• Increased risk of falls
• Resting blood pressure rises with age
• Delayed response to pain

Question 55

What are the PNS- peripheral sensory innervation changes

with aging?

Answer 55

• Decreased number and density of myelinated peripheral nerve fibers
• Decreased thickness of remaining fibers
• Decreased nerve conduction velocity and action potentials
• Increased H-reflex latency

Question 56

What are the vision sensory changes seen with aging?

Answer 56

Begins to decrease in the 3rd decade
• Neuron loss in the visual cortex
• Presbyopia- decreased flexibility of the lens to accommodate from far to near
• Decreased elasticity of the lens
• Decreased recovery from glare
• Decrease tear production
• Decreased acuity
• Decreased visual fields

Question 57

What is the functional impact of sensory loss on balance

and function?

Answer 57

• Errors in proprioception have a bigger effect on balance then errors in vision in older adults
• With vision available, oldest older adults need accurate proprioception to maintain balance
• Impairment associated with increased fall risk and functional decline
• PTs need to provide older adults with sensory strategies to increase sensory information

Question 58

What are the hearing sensory changes with aging?

Answer 58

• Presbycusis- hearing declines with age

* Difficulty tuning out background music

Question 59

What are the characteristics of presbycusis?

Answer 59

• Effects both genders

* Men especially lose hearing for higher frequencies

Question 60

What are some suggestions to treating a patient with hearing changes?

Answer 60

• Ask what works best for the patient
• Use a lower tone
• Face the person when possible
• Slow rate of speech appropriately
• Keep background noise to a minimum
• Avoid “elderspeak”
• Avoid jumping from one idea/topic to another quickly

Question 61

What are the smell and taste sensory changes with aging?

Answer 61

• Ability to detect smells and identify odors decreases
with age
- Has been linked to the three types of dementia
• High prevalence of hyposmia (decreased smell) and anosmia (loss of smell)
• Can create a safety risk
• Impairs ability to taste food
• Thirst sensation declines

Question 62

Gait changes due to aging, disease, or disability can become a big problem when the individual has ____

Answer 62

Gait changes due to aging, disease, or disability can become a big problem when
the individual has pain, difficulty maintaining balance, lacks sufficient endurance or has insufficient ability to ambulate to meet ADLS

Question 63

Inability to ambulate safely results in loss of ____

Answer 63

Inability to ambulate safely results in loss of independence and can result in need for
higher level of assistance, even placement in a facility

Question 64

What are the physiological factors that contribute to aging gait changes?

Answer 64

System changes
• Musculoskeletal changes
• Higher level neural processes
• Sensory and perceptual changes
• Individual sensory systems
Others
• Specific & individual pathologies
• Adaptive & anticipatory mechanisms
• Intricately related to balance responses

Question 65

What are the psychological factors that contribute to aging gait changes?

Answer 65

• Depression
• Self-efficacy/confidence
• Appearance
• Older adult’s perception of his or her mobility
• Anxiety or fear
• Perceived risks of community mobility
• Access to or barriers in community

Question 66

What is the speed of gait like in normal aging gait?

Answer 66

• Decreased self-selected speed & fast speed;
• Ability remains to voluntarily increase speed from self-selected to fast speed;
• Increased gait variability

Question 67

What is the step/stride length of gait like in normal aging gait?

Answer 67

Smaller step & stride lengths, but symmetrical

Question 68

What is the step width of gait like in normal aging gait?

Answer 68

Ave. 1-4 inches

Question 69

What is the toe clearance of gait like in normal aging gait?

Answer 69

Small toe clearance

Question 70

What is the single limb

support of gait like in normal aging gait?

Answer 70

↑ double limb support, but generally equal stance time B LE

Question 71

What is the speed of gait like in pathological gait?

Answer 71

Signif. ↓ in free velocity (<0.85
m/s) w/loss of ability to
voluntarily ↑ speed from self selected

Question 72

What is the step/stride length of gait like in pathological gait?

Answer 72

Signif. ↓ in step & stride length

and/or non-symmetric steps

Question 73

What is the step width of gait like in pathological gait?

Answer 73

Step width > 4 in. or < 1 in.; or
too much/too little step width
variability

Question 74

What is the toe clearance of gait like in pathological gait?

Answer 74

Either large toe clearance or

tripping or both

Question 75

What is the single limb

support of gait like in pathological gait?

Answer 75

Short, shuffling steps; Unequal

stance time; antalgic pattern

Question 76

What are the effects of normal aging gait at the ankle-foot?

Answer 76

Mild ↓ in force at push-off &/or

slight ↓ in PF and DF ROM

Question 77

What are the effects of normal aging gait at the knee?

Answer 77

ROM from 5 deg flex during weight acceptance to 60 deg of flex during swing limb advancement

Question 78

What are the effects of normal aging gait at the hip?

Answer 78

15-20 deg flexion during weight
acceptance and 15-20 deg of
apparent hyperext at terminal
stance

Question 79

What are the effects of pathological gait at the ankle-foot?

Answer 79

• Large toe clearance or tripping or both
• Forefoot or foot-flat contact during initial contact
• Excess PF or DF

Question 80

What are the effects of pathological gait at the knee?

Answer 80

• Limited or excessive flexion, wobbling, extension thrust;
• Weight bearing increases
  valgus or varus moments

Question 81

What are the effects of pathological gait at the hip?

Answer 81

• Limited flex or ext; “past retract”, meaning visible fwd then bwd mvmt of thigh during terminal swing
• Excessive abd or add
• Excessive or limited IR or ER

Question 82

What are the effects of normal aging gait at the pelvis?

Answer 82

5 deg fwd rotation during weight
acceptance; and 5 deg of bwd
rotation at terminal stance/preswing; iliac crest on reference limb is ≥ iliac crest on opposite side during mid-stance

Question 83

What are the effects of normal aging gait at the trunk?

Answer 83

Erect

Question 84

What are the effects of pathological gait at the pelvis?

Answer 84

Limited or excess rotation fwd or bwd;

pelvic drop or hiking

Question 85

What are the effects of pathological gait at the trunk?

Answer 85

Fwd, bwd or sideways lean

Question 86

What is the average width of a street?

Answer 86

332 m

Question 87

What is the critical speed for crossing a street?

Answer 87

1.14 m/s, broken down to:
• Crossing 2 lane road in 10 seconds (5 sec/lane)
• And 3 sec to get up and down off either curb (1.5 sec/curb)
• The critical speed is 8 m/7 seconds = 1.14 m/sec

Question 88

What is the speed requirement for the rural area?

Answer 88

30m/min (0.5 m/s)

Question 89

What is the speed requirement for the urban area?

Answer 89

82.5 m/min (1.375 m/s)

Question 90

What are the task and environmental demands of gait?

Answer 90

• Minimum walking distance
• Time constraints
• Lighting changes
• Terrain
• External physical load
• Attentional demands
• Postural transitions
• Starts and stops
• Acceleration/deceleration
• Changing directions/turning around
• Obstacles
• Weather changes
• Managing displacement forces
• Traffic level

Question 91

When does immune system changes with age usually start?

Answer 91

In the 6th decade of life– “Immunosenescence”
• Can begin prematurely in some clinical conditions such as rheumatoid arthritis and
w/chronic organ diseases (i.e., COPD, CKD)

Question 92

What are the cardinal features of immune system aging?

Answer 92

• Weakened antimicrobial immunity
- Susceptibility to respiratory infections
- Reactivation of chronic viral infections (shingles)
• Impaired anti vaccine responses
• Insufficient protection against malignancies
• Predisposition for unopposed tissue inflammation (i.e., atherosclerotic disease, OA,
neurodegenerative disease)
• Failing wound repair mechanisms

Question 93

What are the increased systemic inflammation due to immune system changes?

Answer 93

• ↑ proinflammatory cytokines (i.e., interleukin 1 & 10)
• ↑ C-reactive protein (CRF)
• ↑ tumor necrosis factor

Question 94

What may cause an increased systemic inflammation due to immune system changes?

Answer 94

• Shift in fat mass from periphery → abdomen along w/ general ↑ in overall intraabdominal fat with age
- Abdominal fat metabolically active & serves as inflammatory organ
• ↑ inflammatory cytokines assoc. w/ metabolic syndrome & ↓ organ system function

Question 95

What does the increased systemic inflammation due to immune system changes result in?

Answer 95

• Muscle wasting
• Loss of physical function
• Underlying factor in development of age-related diseases like Alzheimer’s,
atherosclerosis, cancer, diabetes

Question 96

What are the reduction in lymphocyte development?

Answer 96

• ↓ T- and B- cell development
• ↓ quality and composition of lymphocyte pool
• ↓ thymic epithelial cells

Question 97

What does the reduction in lymphocyte development result in?

Answer 97

• ↓ efficiency of response to novel or previously encountered antigens (i.e., ↑
vulnerability to influenza in those > 70 yrs old)
• ↓ responsiveness to vaccines (except for the shingles vaccine)

Question 98

What are the approaches to address total-body inflammation?

Answer 98

• Anti-inflammatory drugs
• Antioxidants
• Caloric restriction
• EXERCISE!!!!!!! Therapy implications

Question 99

What are the therapy implications of exercise to address total body inflammation?

Answer 99

• Just one exercise bout results in significant ↓ in inflammatory markers
• Cumulative exercise sessions further ↓ inflammation which can enable regular exercisers to resist fatal infections & aggressive pathogens
• Results in wider window of homeostasis
• Enhances systemic “reserve”
• Decreases risk for disease
• Delays functional decline

Question 100

What are the characteristics of infectious disease in aging adults?

Answer 100

• Accounts for 1/3 of all deaths in 65+
• Early detection difficult due to absence of typical signs and symptoms
- Lack of fever
- Lack of leukocytosis
- In case of UTI, absent or masked clinical manifestations as dysuria, frequency, suprapubic tenderness)

Question 101

What is the 1st sign of illness during infectious disease in aging adults?

Answer 101

• Change in mental status or cognitive impairment
• Decline in function
• Falls
• Weight loss/anorexia
• Slight increase in respiratory rate
• Vague symptoms such as nausea, vomiting, decreased urinary output

Question 102

What are the most common types of infectious disease in the aging adult?

Answer 102

• Bacterial pneumonia

* Urinary tract infections (UTI)

Question 103

What are the other conditions that may present atypically in an older adult?

Answer 103

• Heart failure: confusion, agitation, anorexia, insomnia, fatigue
• Acute bowel obstruction: acute confusion, minimal or absent abdominal pain and tenderness
• Biliary or liver disorders: nonspecific mental and physical deterioration, no jaundice or abdominal pain

Question 104

What is a common thread in all aging adults?

Answer 104

Cognitive dysfunction or confusion

Question 105

What are the therapy implications for infectious disease in the aging adult?

Answer 105

• Be sensitive to descriptions of unusual changes and observant of subtle changes with older adult patients in every setting, but esp OP setting
• Be prepared to treat older patients in the hospital with medical dx of infectious disease for the effects of deconditioning
• Realize that although you may not be able to challenge pts acutely ill in the hospital setting, but return to basic function and prevention of functional decline remain high priority goals
• Prepare for functional setbacks after your older adults in OP sustain acute illness
• Prepare for some exacerbation of previously compensated system deficits after an acute illness