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Chapter 47: Mobility and Immobility

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Title: Chapter 47: Mobility and Immobility


1
Chapter 47 Mobility and Immobility
  • Bonnie M. Wivell, MS, RN, CNS

2
The Nature of Movement
  • Coordination between the musculoskeletal system
    and the nervous system.
  • Alignment and Balance
  • The positioning of the joints, tendons, ligaments
    and muscles while standing, sitting, and lying
  • Gravity and Friction
  • Gravity is the force of weight downward
  • Friction is force that opposes movement

3
Physiology and Regulation of Movement
  • Long bones contribute to height
  • Short bones occur in clusters
  • Flat bones provide structural contour
  • Irregular bones make up the vertebral column and
    some bones of the skull
  • Functions of MSK
  • Protects vital organs
  • Aids in calcium regulation
  • Production and storage of blood

4
Joints
  • Synostotic bones joined by bones no movement
    example skull
  • Cartilaginous cartilage unites bony components
    allows for growth while providing stability
    example 1st sternocostal joint
  • Fibrous ligament or membrane unites two bony
    surfaces limited movement Example tib/fib
  • Synovial A true joint freely movable
  • Pivotal
  • Ball and socket
  • Hinge

5
Ligaments/Tendons/Cartilage
  • Ligaments white, shin, flexible bands of
    fibrous tissue binding joints together and
    connecting bones and cartilages
  • Tendons white, glistening, fibrous bands of
    tissue that connect muscle to bone strong,
    flexible
  • Cartilage nonvascular, supporting connective
    tissue

6
Skeletal Muscle
  • Ability of muscles to contract and relax are the
    working elements of movement
  • Muscles are made of fibers that contract when
    stimulated by an electrochemical impulse that
    travels from the nerve to the muscle
  • Muscles associated with posture converge at a
    common tendon
  • Lower extremities, Trunk, Neck, Back
  • Coordination and regulation of different muscle
    groups depend on muscle tone (normal state of
    balanced muscle tension)
  • Muscle tone helps maintain functional positions
    such as sitting or standing

7
The Nervous System
  • The motor strip is the major voluntary motor area
    and is located in the cerebral cortex
  • A majority of motor fibers descend from the motor
    strip and cross at the level of the medulla
  • Motor fibers from right motor strip control
    voluntary movement on left side of body and motor
    fibers on left control movement on right side of
    body
  • Impulses descend from motor strip to spinal cord
  • Impulse exits the spinal cord through efferent
    motor nerves and travels through the nerves

8
The Nervous System Contd.
  • Neurotransmitters or chemicals transfer electric
    impulses from the nerve to the muscle
  • Neurotransmitters stimulate the muscles causing
    movement
  • Movement is impaired by disorders that alter
  • Neurotransmitter production
  • Transfer of impulses from the nerve to the muscle
  • Activation of muscle activity

9
Pathological Influences on Mobility
  • Postural abnormalities congenital or acquired
    postural abnormalities affect the efficiency of
    the MSK system as well as body alignment,
    balance, and appearance
  • Can cause pain, impair alignment or mobility
  • Impaired muscle development patients with
    muscular dystrophy experience progressive,
    symmetrical weakness and wasting of skeletal
    muscle groups, with increasing disability and
    deformity

10
Pathological Influences on Mobility
  • Damage to the Central Nervous System damage to
    any component of the CNS that regulates voluntary
    movement results in impaired body alignment,
    balance, and mobility
  • Complete transection of the spinal cord results
    in a bilateral loss of voluntary motor control
    below the level of trauma
  • Damage to the cerebellum causes problems with
    balance and motor impairment is directly related
    to amount and location of destruction
  • Trauma to the Musculoskeletal System direct
    trauma results in bruises, contusions, sprains,
    and fractures

11
Mobility and Immobility
  • Mobility refers to a persons ability to move
    about freely and immobility refers to the
    inability to do so
  • The effects of muscular deconditioning associated
    with lack of physical activity are often apparent
    in a matter of days
  • Disuse atrophy describes the tendency of cells
    and tissue to reduce in size and function in
    response to prolonged inactivity resulting from
    bed rest, trauma, casting, or local nerve damage

12
The Effects of Immobility
  • Metabolic changes
  • Negative nitrogen balance
  • Calcium resorption (loss)
  • GI changes
  • Constipation ? Impaction ? Mechanical Obstruction
  • Respiratory changes
  • Atelectasis ? Pneumonia
  • Cardiovascular changes
  • Orthostatic hypotension
  • Increased cardiac workload
  • Thrombus formation (Virchows triad)

13
The Effects of Immobility Contd.
  • Musculoskeletal changes
  • ? protein breakdown ? ? lean body mass
  • Osteoporosis
  • Joint contractures
  • Foot drop
  • Changes in urinary elimination
  • Urinary stasis
  • Renal calculi
  • Integumentary changes
  • Pressure ulcers

14
Older Adults
  • Immobility can lead to.
  • Loss of mobility and functional decline
  • Weakness, fatigue, and increased risk for falls
  • Shallow breathing resulting in pneumonia
  • Inadequate turning/repositioning results in skin
    breakdown and pressure ulcers
  • Anorexia and insufficient assistance with eating
    leads to malnutrition
  • Multiple interruptions and noise impair sleep,
    causing fatigue, depression, and confusion.

15
Mobility
  • ROM amount of movement at a joint
  • Active/Passive
  • See pages 1232 1236
  • Gait style of walking
  • Exercise and activity tolerance age and illness
    can affect this
  • Body Alignment
  • Standing/Sitting/Lying
  • Patients with impaired mobility, decreased
    sensation, impaired circulation, and lack of
    voluntary muscle control are at risk for damage
    to the MSK system when lying down

16
Range of Motion
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Safe Patient Handling
  • Protecting the Patient and Health Care worker
  • Manually lifting and transferring clients
    contributes to the high incidence of work-related
    MSK problems and back injury
  • Lift teams/lift equipment
  • Ergonomics training
  • Plan ahead based on patient assessment

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Assistive Devices for Patient Movement
  • All devices must be appropriate for patient
  • Weight limit
  • Reason for Device
  • Measured to patient
  • Canes
  • Walkers
  • Wheel chairs
  • Crutches

27
Gait Belt
28
Wearing a Gait Belt
29
Using a Gait Belt
30
Ambulating With a Walker
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32
Assessment
  • Metabolic
  • IO
  • Lab values
  • Height and weight
  • Nutritional intake
  • Respiratory
  • Auscultate lungs
  • CV
  • Pulses/Cap refill
  • Edema/DVT
  • MSK
  • Muscle tone/strength
  • Contractures
  • Integument
  • Breakdown
  • Color changes
  • Elimination
  • IO
  • Bowel sounds
  • Frequency and consistency of stool
  • Dietary intake
  • Psychosocial
  • Anxiety
  • Depression
  • Sleep deprivation

33
Plan
  • Goals and outcomes individualized
  • Set priorities
  • Collaborative care team approach

34
Interventions
  • Health promotion
  • Education
  • Prevention
  • Early detection
  • Prevention of work-related MSK injuries
  • Use of ergonomics
  • Exercise
  • Bone health
  • Screening
  • Maintain independence with ADLs
  • Assistive ambulatory devices

35
Interventions Contd.
  • Metabolic
  • High-protein, high-calorie diet
  • Vitamin B for skin integrity and wound healing
  • Vitamin C for replacing protein stores
  • TPN
  • Enteral feedings
  • Respiratory
  • Turn, cough, and deep breathe (TCDB)
  • Chest physiotherapy (CPT)
  • 2000 mL of fluid daily if not contraindicated

36
Interventions Contd.
  • CV
  • Mobilize ASAP, dangle or sit in chair at minimum
  • Isometric Exercise
  • Discourage use of valsalva maneuver
  • DVT prophylaxis
  • TEDS apply properly, remove at least bid
  • Avoid crossing legs, sitting for prolonged
    periods of time, wearing constrictive clothing,
    putting pillows under the knees, and massaging
    legs
  • Meds

37
Interventions Contd.
  • MSK
  • ROM
  • CPM in orthopedics
  • Integument
  • Screen for risk (Braden Scale)
  • Prevention
  • Position changes

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Interventions Contd.
  • Elimination
  • Adequate hydration
  • If incontinent, provide frequent skin care
  • Catheterize prn
  • Foods high in fiber
  • Stool softners/cathartics prn
  • Psychosocial
  • Schedule care to prevent interruption of sleep
  • Depression screening (GDS)
  • Provide stimulation and re-orient prn
  • Involve clients in own care as much as possible

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41
Positioning
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45
Semi Fowlers Position
46
Sims or Left Lateral Position
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48
Now lets write a nursing care plan regarding
immobility
49
Chapter 48 Skin Integrity and Wound Care
50
Skin
  • Two layers
  • Epidermis has several layers
  • Stratum corneum thin, outermost layer
  • Allows for evaporation of water from skin
  • Permits absorption of topical meds
  • Basal layer
  • Dermis provides strength, support and
    protection of underlying muscles, bones, and
    organs

51
Pressure Ulcers
  • Impaired skin integrity (damage to the skin)
    related to unrelieved, prolonged pressure and/or
    shearing/friction
  • AKA Pressure sore, decubitus ulcer, bedsore
  • Localized injury to the skin or other underlying
    tissue, usually over a body prominence

52
Pathogenesis
  • Pressure Intensity
  • Tissue ischemia can occur due to capillary
    occlusion for a prolonged period of time
  • Patients with decreased sensation cannot respond
    to discomfort associated with ischemia hence
    tissue death results
  • Blanching occurs when normal red tones of the
    light skinned client is absent (doesnt occur in
    darkly pigmented skin)

53
Pathogenesis Contd.
  • Pressure Duration
  • Low pressure over a prolonged time period
  • High-intensity pressure over shot period
  • Tissue Tolerance
  • Depends on integrity of the tissue and the
    supporting structures
  • Shear, friction and moisture make skin more
    susceptible to damage from pressure
  • Ability of underlying skin structures to assist
    with redistribution of pressure
  • Affected by poor nutrition, increased aging, and
    low BP

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57
Risk Factors
  • Impaired sensory perception
  • Impaired mobility
  • Alteration in LOC
  • Shear
  • Friction
  • Moisture

58
Classification of Pressure Ulcers
  • Stage I Intact skin with non-blanchable redness
    of a localized area
  • Stage II Partial-thickness skin loss involving
    epidermis, dermis or both superficial abrasion,
    blister, or shallow crater
  • Stage III Full-thickness tissue loss
    subcutaneous fat may be visible, slough may be
    present may include undermining and tunneling
  • Stage IV Full-thickness tissue loss with exposed
    bone, tendon, or muscle slough or eschar may be
    present on some parts often includes undermining
    and tunneling
  • Unstageable if bed is full of slough or eschar

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60
STAGE I ULCER- GREATER TROCHANTER
61
STAGE II ULCER ISCHEAL TUBEROSITY
62
STAGE III
63
STAGE IV ISCHEAL TUBEROSITY AND SACRUM
64
Definitions
  • Granulation tissue red moist tissue composed of
    new blood vessels indicates healing
  • Slough stringy substance attached to wound bed
    needs removed before wound can heal
  • Eschar black or brown necrotic tissue must be
    removed before wound can heal
  • Exudate Type (consistency), Amount, Color, and
    Odor of wound drainage part of your assessment

65
Process of Wound Healing
  • Primary intention edges are well approximated
    or closed risk of infection low heals quickly
    minimal scar formation
  • Example surgical wound
  • Secondary intention wound is left open until
    becomes filled with scar tissue chance of
    infection is great longer healing time
  • Example burn, pressure ulcer, severe laceration

66
Complications of Wound Healing
  • Hemorrhage/hematoma
  • Infection
  • Second most common health care associated
    infection
  • Dehiscence partial or total separation of wound
    layers
  • Evisceration protrusion of visceral organs
    through wound opening
  • Fistulas abnormal passage between two organs or
    between organs and the outside of the body

67
Prediction and Prevention of Pressure Ulcers
  • Risk Assessment
  • Braden Scale (see slide in chapter 47)
  • Prevention
  • Factors influencing pressure ulcer formation and
    wound healing
  • Nutrition
  • Tissue perfusion
  • Infection
  • Age
  • Psychosocial impact (true impact unknown)

68
Assessment
  • Assess skin for signs of ulcer development
  • Pressure ulcer assessment
  • Risk assessment
  • Mobility
  • Nutritional status
  • Body fluids
  • Pain

69
Wound Assessment
  • Type abrasion, laceration, puncture, etc.
  • Appearance red, inflamed, clean, dirty
  • Drainage TACO
  • Drains
  • Closures
  • Palpation
  • Cultures

70
Interventions
  • Prevention
  • Frequent skin assessment
  • Keep skin clean and dry
  • Dont use soaps and hot water
  • Apply moisturizers
  • Control/contain incontinence, perspiration or
    wound drainage
  • Positioning
  • Therapeutic bed/mattress

71
Wound Management
  • Clean wounds with noncytotoxic wound cleansers
  • Normal saline
  • Commercial wound cleansers
  • Cytotoxic cleansers used for chemical debridement
  • Dakins solution (sodium hypochlorite soln)
  • Acetic acid
  • Providone-iodine
  • Hydrogen Peroxide

72
Debridement
  • Removal of nonviable, necrotic tissue
  • Mechanical
  • Wet-to-dry saline gauze dressing
  • Wound irrigation
  • Autolytic
  • Uses synthetic dressings that allow the eschar to
    be self-digested by enzymes in wound fluids
  • Chemical
  • Topical enzyme preparations (Dakins, sterile
    maggots)
  • Surgical
  • Removal of devitalized tissue b use of scalpel,
    scissors or other sharp instrument

73
Wound Management Contd.
  • Topical growth factors regulate healing of
    chronic wounds
  • Education of client and caregivers is important
  • Nutritional status
  • Protein status necessary for healing rebuilds
    epidermal tissue
  • Hemoglobin decreases delivery of O2 to tissues
    leading to further ischemia

74
Dressings
  • Dry or moist
  • Gauze
  • Hydrocolloid
  • Protects the wound from surface contamination
  • Hydrogel
  • Maintains a moist surface to support healing
  • Wound V.A.C.
  • Uses negative pressure to support healing

74
75
Types of Dressings
  • Brands vary by institution
  • Follow recommendations of wound care nurse
  • See page 1313 of text
  • Wound VAC (vacuum assisted closure)
  • Negative pressure
  • See pages 1321-1323

76
Other Wound Devices
  • Drains
  • Hemovac
  • Jackson-Pratt
  • Closures
  • Staples
  • Sutures
  • Binders
  • Montgomery straps
  • Slings
  • Sitz baths

77
Heat and Cold Therapy
  • Assessment for temperature tolerance
  • Bodily responses to heat and cold
  • Factors influencing heat and cold tolerance
  • Education
  • http//www.youtube.com/watch?vHx26HCML3W8

77
78
Nursing Diagnosis
  • Impaired Skin Integrity r/t immobility as
    evidenced by stage III decubitus ulcer on coccyx

79
Plan (stage I ulcer)
  • On-going skin assessment
  • Nutritional assessment
  • Pressure relief for affected areas
  • Preventative care for intact skin

80
Goals
  • Pt. will not have increase in size of pressure
    ulcer during hospitalization
  • Pt. will not develop infection in pressure ulcer
    during hospitalization
  • Pt. will have nutritional needs identified by
    dietitian
  • Patient and family will develop a plan (with
    assistance of nursing) for preventing further
    skin breakdown

81
Interventions
  • RN to assess skin q shift
  • Dietician to complete nutritional assessment and
    recommend a diet within 24 hours
  • Assistive personnel to reposition patient q 2
    hours using the following schedule
  • 8am supine
  • 10 am left side
  • 12 noon prone
  • 2pm right side.

82
Rationale
  • Decreasing the duration of pressure on skin will
    prevent further skin breakdown. (Perry and
    Potter, p. 1281)
  • Wound healing requires proper nutrition. (Perry
    and Potter, p. 1290)
  • Family caregivers require education and
    counseling for interventions to be effective.
    (Perry and Potter, p. 1310)

83
Outcome Evaluation
  • By discharge date, patient had developed stage I
    ulcer
  • Evaluate and update plan for ulcer prevention
  • Patient has gained 3lbs by discharge and serum
    proteins have increased
  • Family has decided on transfer to LTC for further
    patient care
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