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Effects of Immobilization and Deconditioning

Effects of Immobilization and Deconditioning. William McKinley MD. 47 yo male, T-3 ASIA A MVA, DOI 6 weeks ago ROS: Pain, poor sleep, bowel accidents, night-time bladder incont, dizzy when OOB Bladder Rx: IC + 2000cc/day Meds: perc, SQ hep, docusate, supp’s prn. EXAM:

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Effects of Immobilization and Deconditioning

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  1. Effects of Immobilization and Deconditioning William McKinley MD

  2. 47 yo male, T-3 ASIA A MVA, DOI 6 weeks ago ROS: Pain, poor sleep, bowel accidents, night-time bladder incont, dizzy when OOB Bladder Rx: IC + 2000cc/day Meds: perc, SQ hep, docusate, supp’s prn EXAM: Ht 5’6”, weight 105lbs VS: 90/55, 100.9, 105, 26 Labile, tearful, NAD Basilar rales Tachy Rt hand numbness Leg atrophy w/ swelling Lt thigh, Rt knee Dec ROM bil. ADF, + Thomas test Sacral pressure ulcer (stage 3) Case: PM&R Consult

  3. Problem list and management strategies?

  4. “Anyone who lives a sedentary life and does not exercise, even if he eats good foods and takes care of himself according to proper medical principles, all his days will be painful ones and his strength shall wane”

  5. Immobilization & Deconditioning • Immobilization – physical restriction of movement to body or a body segment • Deconditioning – decreased functional capacity of multiple organ systems • Severity is dependent on degree & duration of immobility • Disuse causes: • Impairment (organ system) • Disability (decline of function) • The goal of rehabilitation is to restore & maximize function!

  6. Clinical Immobility • 20% of rehab admissions are 2nd to “deconditioning” • Patients & Situations at risk for prolonged immobilization / bed rest: • Chronically ill, aged, disabled • Paralysis (SCI, Stroke, BI/coma, NMD) • LBP • Post operatively / complications • Polytrauma, CAD, Obstetrical comp’s

  7. Cardiovascular Respiratory Muscular Skeletal Joint & CTD Gastrointestinal Genitourinary Integumentary Endocrine Neurological Psychological Organs Systems affected with prolonged debilitation (Space program – “effects of immobilization and weightlessness”)

  8. Cardiovascular areas affected • Heart • Blood vessels (tone) • Fluid balance • Venous thrombosis

  9. CV: Heart • Increased heart rate (resting tachycardia) • HR rises 0.5 bpm/day over first several weeks • Exaggerated with exercise (even trivial exertion) • Angina, decreased LV-EDV • Decreased stroke volume – 15% in 2 weeks • Cardiac Output remains largely unchanged • Cardiac muscle mass may decrease

  10. CV: Blood Vessels • Blood pools in the legs • Blood vessels may lose their ability to constrict in response to postural change • Decreased • venous return • Stroke volume • Blood pressure • ORTHOSTASIS! • Rx: early mobilization, isometric LE exercise, positioning/gradual tilting, TEDs, fluids, meds

  11. CV: Fluid Balance • Prolonged recumbence leads to volume loss • Shifts 700cc to thorax, increased CO by 25% • Gradual diuresis (protein loss) • Decreased plasma volume –10-15%, Hct may increase, then fall as RBC mass decreases

  12. CV: Venous Thrombosis (DVT) • “Virchow’s Triad” – stasis, hypercoagulability, vessel trauma (risk factors for Thrombosis) • “high risk” patients – see next slides • Venous stasis 2nd to decreased blood flow, Inc viscosity • hypercoagulability, increased blood fibrinogen • Location: calf veins highest risk, 20% propagate to popliteal, 50% of popliteal will embolize (PE) • Rx: SCD’s, ambulation, TED, SQ prophylaxis

  13. Identifying High Risk for DVT • Standardized Risk assessment (See next slide) • Then stratify as follows: • Low Risk: < 2 factors • Moderate Risk: 2-4 risk factors • High Risk: > 5 risk factors OR TKR/THR OR Fracture of hip, femur, or tib-fib

  14. Risk Factors: • Age 40-60 years • Age > 60 (count as 2 factors) • History of DVT or PE • (count as 5 factors) • Malignancy • Obesity (>120 % of IBW) • Immobilization (>72hrs) • Major Surgery • Paralysis • Trauma • Severe COPD • Pregnancy, or post partum < 1 month • Severe sepsis • Hypercoagulable state • Nephrotic Syndrome • Leg ulcers, edema, or stasis • History of MI, CHF, Stroke, IBD

  15. Respiratory • Potential decrease in lung volumes (2nd to muscle weakness, positioning/restriction) • Vital capacity • TLC • Residual volume • Expiratory reserve • Functional residual capacity • A-V shunting • Increased respiratory rate

  16. Resp (cont) • Dec cough (abdominal weakness, decreased ciliary action) • Pneumonia, Atelectasis • Hypostatic (posterior, LLL) • Aspiration (RLL) • Rx: early mob, position changes, chest PT, incentive spirometry, asst cough, fluids, meds

  17. Muscle • Progressive decrease in muscle strength / endurance • Strength declines • 1-3%/day • 10-20% per week (plateaus at 25-40% in 3-5 wks) • Greater in antigravity muscles (quadriceps, back extensors, plantarflexors) • Type 1 (slow twitch, oxidative) muscles • Fatigability • Decreased ATP & glucose stores and ability to use fatty acids

  18. Muscle (cont) • Decrease in muscle mass & tension • Decreased fiber diameter (decreased myofibrils & xsec area) • Muscle atrophy / wasting 2nd to decreased muscle synthesis • 3%/day (decreased fiber size, not #) • Body Composition changes • Decreased lean body mass (up to 3%) • Increased body fat (up to 12%)

  19. Muscle (cont) • Prevention/Treatment • daily isometric contractions can prevent deterioration • Note: it may take 2-3 times longer to “regain” lost muscle mass & strength • 20-30% of maximal contraction for several seconds • 50% maximal contraction for 1 second • FES

  20. Soft Tissues • Contracture – decreased PROM of joint (2nd to joint, Conn Tissue or muscle shortening) • one of the “most” function-limiting complications • With immobility, collagen develops CROSS-LINKS and becomes less flexible • Joint – synovial tightening • Conn tissue - Loose turns to dense • Muscle - decreased sarcomeres • muscles (especially 2-joint), tendons, ligaments may become involved

  21. Contractures • Risk factors for contractures: • Positioning • Pain • Local trauma, DJD • Infection, Poor circulation • Edema • Amputation (BKA: knee & hip, AKA: hip) • Muscle imbalance • Paralysis/weakness (esp 2 joint muscles) • Spasticity • Muscles most affected: hip flexors, hands, gastroc, shoulder abd/IR’s

  22. Contractures (cont) • Contracture prevention • Bed positioning • Ext of neck, hips, knee…, ankle neutral, ”functional” hand position • BID range of motion exercises (terminal, sustained) • Standing, early mob & ambulation • CPM for TKA • Splinting – static, serial casts • Heat (40-43 degrees) • Surgery (capsular release, tenotomy, tendon transfer / lengthening) • Nerve & MP blocks

  23. Ligaments and Tendons • The PARRALEL arrangement of type 1 collagen is crucial for their function • With immobility (and lack of “stress”), new fibers may be laid down OBLIQELY causing decreased strength and elasticity • Water and GAG content of the tissues decreased with disuse • Rx: periodic longitudinal stress can prevent deterioration

  24. Bone • “Wolff’s Law” – buildup or breakdown of bone is proportionate to the forces being applied (weight-bearing, muscle forces, gravity) • When forces are not applied - it rapidly resorbs • Osteoporosis! – peaks at 4-6 weeks • Bone density decreases 40% after 12 weeks (accelerated in SCI) • (xray not sensitive until 35-50% bone loss) • Increased osteoclastic activity • Decreased rate of bone formation • The WEIGHT_BEARING bones are the first to lose mass (first few days) • Vertebral columns lose up to 50% • Can lead to fracture, even with minor trauma • Prevention: weight-bearing & muscle contractions

  25. Bone (cont) • Immobility Hypercalcemia may occur 2-4 weeks after onset • Symptoms: N/V, abd pain, lethargy, muscle weakness • Treatment: hydration and lasix diuresis, mobilization • Heterotopic Ossification • In either neurological, osseous or muscular trauma

  26. Joints • Cartilage degeneration (proteoglycan diminishes) • Synovial atrophy & fatty infiltrate • Underlying bone degeneration • Benign joint effusions may occur spontaneously in SCI • Contractures

  27. Gastrointestinal • Decreased fluid intake, appetite • Increased transit time in esophagus, stomach • Reduced small bowel motility (2nd to increased adrenergic activity) • Constipation • Rx: bowel meds, fluids, mob, fiber-rich diet (fruits, veg), avoid narcotics

  28. Genitourinary • Diuresis (2nd to fluid re-mobilization) • Difficulty voiding (due to postioning) • UTI’s • Calculus formation (10-15%), hypercalciuria (esp SCI, Fxs) • Rx: mob, fluids, upright positioning, d/c catheters

  29. Skin • Pressure ulcers • Risks: positioning, decreased tissue mass, poor skin care/incontinence, shear • Sites: sacrum, heels, ischium, occiput, trochanter • Rx: prevention! turning/positioning/seating, inspection (hands-on), skin hygiene • Edema – may predispose to cellulitis • Subcutaneous bursitis (due to pressure) • Rx: NSAID, steroid injection)

  30. Endocrine • Impaired glucose tolerance • hyperinsulinemia • Muscles develop insulin resistance • Altered regulation of Parathyroid, Thyroid, adrenal, pituitary, growth hormones, androgens and plasma renin activity • Altered circadian rhythm • Altered temperature and sweating response

  31. Metabolic • Urinary loss of: • Nitrogen – (begins day 5-6, peaks at 2 weeks) • Calcium – (begins day 2-3, peaks at 4-6 weeks) • Phosphorus • Reversible post mobilization

  32. Neurological • Compression neuropathies • Ulnar (at the elbow) • Peroneal (fibular head) • Decreased coordination / balance • Decreased visual acuity

  33. Psychological • Sensory deprivation (“ICU psychosis”) • decreased attention span, awareness, coordination, increased • Depression, labiality, anxiety • Sleep disturbance • Increased auditory threshold • Decreased pain threshold

  34. Summary of Preventative Treatments • Early mobilization • Strengthening • ROM • Maintain skin integrity • DVT prophylaxis • Pain management • Psychological assessment / treatment • Aggressive Respiratory management • B/B assessment & care

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