1 / 44

CRC 432 Subacute Care Pulmonary Rehabilitation

CRC 432 Subacute Care Pulmonary Rehabilitation. Pulmonary Rehabilitation. Goals Maximize patient’s functional ability Minimize impact in Patient Family Community Improve quality of life Control & alleviate symptoms. Pulmonary Rehabilitation. Historical Perspective

coy
Télécharger la présentation

CRC 432 Subacute Care Pulmonary Rehabilitation

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. CRC 432 Subacute CarePulmonary Rehabilitation

  2. Pulmonary Rehabilitation • Goals • Maximize patient’s functional ability • Minimize impact in • Patient • Family • Community • Improve quality of life • Control & alleviate symptoms

  3. Pulmonary Rehabilitation • Historical Perspective • 1951: Dr Barach recommended physical reconditioning for COPD patients • Walk without becoming dyspneic • Barach was ignored; O2 therapy & bed rest prescribed • Skeletal muscle deterioration • Fatigue & weakness • Increased dyspnea • Homebound, room bound, bed bound

  4. Pulmonary Rehabilitation • Historical Perspective • 1962: Pierce confirmed Barach • Pierce found that exercising COPD patients • Decreased pulse • Decreased respiratory rates • Decreased minute ventilation • Decreased CO2 production • Improved pulmonary function

  5. Pulmonary Rehabilitation • Historical Perspective • Paez demonstrated • Efficiency of motion • Decreased O2 consumption • Smoking cessation included • Education added • Pathophysiology • Equipment • Medications

  6. Pulmonary Rehabilitation • Scientific Basis • Focus on patient • Include clinical sciences • Quantify degree of physiologic impairment • Establish outcomes for reconditioning • Include social sciences • Psychological • Social • Vocational

  7. Pulmonary Rehabilitation • Physical Reconditioning • Exercise increases energy demands • Increased circulation • Increased ventilation • Increased O2 deliver • Increase CO2 elimination • If O2 demands NOT met • Blood lactate level increase • CO2 increases as lactic acid buffered • Increased stimulus to breathe

  8. Pulmonary Rehabilitation

  9. Pulmonary Rehabilitation • This point is called the “onset of blood lactate accumulation,” or OBLA • Abrupt rise in PaCO2 & minute ventilation: called “ventilatory threshold” • Beyond VT, metabolism = anaerobic respiration (decreased NRG production efficiency, lactic acid rise, fatigue)

  10. Pulmonary Rehabilitation • Physical Reconditioning • MVV index of respiratory system’s ability to handle increased physical activity • MVV = FEV1 x 35 • Normal: 60%-70% of pred MVV during max exercise • Indicates adequate respiratory reserve • Indicates ventilation NOT primary limiting factor for ending exercise

  11. Pulmonary Rehabilitation • Physical Reconditioning • MVV decreased with COPD • COPDs have limited exercise ability • Increased CO2 production • Respiratory acidosis • SOB • O2 consumption increases faster than normal

  12. Pulmonary Rehabilitation • Physical Reconditioning • Rehab programs must: • Physically recondition • Increase exercise tolerance

  13. Pulmonary Rehabilitation • Psychosocial Support • Indicators bettor predictors of frequency & LOS for COPD patients compared to PFTs • Psychosocial indicators better determine rehab program completion than physical reconditioning • COPD negatively affects person’s outlook on life • Can reduce motivation

  14. Pulmonary Rehabilitation • Psychosocial Support • Depression/hostility occur with acute & chronic disease • Economic loss & fear of death produce hostility • Interaction among patients is beneficial • Patient’s lacking social support at higher risk for re-hospitalization • Intolerance for physical exertion lessens social activity

  15. Pulmonary Rehabilitation • Psychosocial Support • Physical reconditioning & psychosocial support linked • Reducing exercise intolerance & improving cardiovascular response to exercise = independent, active lifestyle • Improve social importance & self-worth • Occupational training & job placement important

  16. Pulmonary Rehabilitation • Program Goals • Control respiratory infection • Basic airway management • Improve ventilation & cardiac status • Improve ambulation & other physical activities • Reduce medical costs • Reduce hospitalizations

  17. Pulmonary Rehabilitation • Program Goals • Reduce LOS when hospitalized • Reduce # of MD office visits • Provide psychosocial support • Occupational training/job placement • Family education, counseling, support • Patient education, counseling, support

  18. Pulmonary Rehabilitation • PROGRAM OBJECTIVES • Development of diaphragmatic breathing skills • Development of stress management and relaxation techniques • Involvement in a daily physical exercise regimen to condition both skeletal and respiratory-related muscles • Adherence to proper hygiene, diet, and nutrition • Proper use of medications, oxygen, and breathing equipment (if applicable) • Application of airway clearance techniques (when indicated) • Focus on group support • Provisions for individual and family counseling

  19. Pulmonary Rehabilitation • Chronic lung disease progressive & irreversible • Rehabilitation does NOT alter progressive deterioration • Rehabilitation improves utilization of O2 by: • Increasing muscle use effectiveness • Promoting effective breathing techniques

  20. Pulmonary Rehabilitation • O2 cost for given amount of ventilation is excessive • Training skeletal muscle groups alone NOT beneficial • Training respiratory related muscles improves exercise tolerance

  21. Pulmonary Rehabilitation • Evaluation of Rehabilitation Program Outcomes • Changes in exercise tolerance • Before and after 6 minute walking distance • Review of patient home exercise logs • Strength measurement • Flexibility and posture • Performance on specific exercises (e.g., ventilatory muscle, upper extremity) • Changes in symptoms • Dyspnea measurement comparison • Frequency of cough, sputum production, or wheezing • Weight loss or gain • Psychological test instruments

  22. Pulmonary Rehabilitation • Evaluation of Rehabilitation Program Outcomes • Other changes • Activities of daily living (ADL) changes • Postprogram follow-up questionnaires • Preprogram and postprogram knowledge tests • Compliance improvement with pulmonary rehabilitation medical regimen • Frequency and duration of respiratory exacerbations • Frequency and duration of hospitalizations • Frequency of emergency department visits • Return to productive employment

  23. Pulmonary Rehabilitation • Potential Hazards • Cardiovascular abnormalities • Cardiac arrhythmias (can be reduced with supplemental oxygen during exercise) • Systemic hypotension • Blood gas abnormalities • Arterial desaturation • Hypercapnia • Acidosis • Muscular abnormalities • Functional or structural injuries • Diaphragmatic fatigue and failure • Exercise-induced muscle contracture

  24. Pulmonary Rehabilitation • Potential Hazards • Miscellaneous • Exercise-induced asthma (more common in young patient with asthma than in patients with COPD) • Hypoglycemia • Dehydration

  25. Pulmonary Rehabilitation • Patient Selection • Evaluation • Testing • Patient Evaluation • History (medical, psychological, vocational, social) • Questionnaire/interview form • Physical exam • CXR

  26. Pulmonary Rehabilitation • Patient Evaluation • CBC • Electrolytes • Urinalysis • PFTs (spirometry, volumes, DLCO, pre/post) • Cardiopulmonary exercise evaluation • Quantifies initial exercise capacity • Provides basis for exercise prescription • Renders baseline data for assessing progress • Shows degree of hypoxemia/desat during exercise

  27. Pulmonary Rehabilitation • Common Physiological Parameters Measured During Exercise Evaluation • Blood pressure • Heart rate • ECG • Respiratory rate • Arterial blood gases (ABGs)/O2 saturation • Maximum ventilation (VEmax) • O2 consumption (either absolute VO2 or METS, the metabolic equivalent of energey expenditure) • CO2 production (VCO2) • Respiratory quotient (RQ) • O2 pulse

  28. Pulmonary Rehabilitation • Exercise Evaluation • Graded levels (ergometer or treadmill) • 3-min intervals allow steady state • ABGs at rest & at peak exercise

  29. Pulmonary Rehabilitation • Relative Contraindications to Exercise Testing • Patients who cannot or will not perform the test • Severe pulmonary hypertension/cor pulmonale • Known electrolyte disturbances (hypokalemia, hypomagnesemia) • Resting diastolic blood pressure > 110 mm Hg or resting systolic blood pressure > 200 mm Hg • Neuromuscular, musculoskeletal, or rheumatoid disorders exacerbated by exercise • Uncontrolled metabolic disease (e.g., diabetes) • SaO2 or SpO2 < 85% with the subject breathing room air • Untreated or unstable asthma

  30. Pulmonary Rehabilitation • Indications for Pulmonary Rehabilitation • Symptomatic patients with COPD • Patients with bronchial asthma and associated bronchitis (asthmatic bronchitis) • Patients with combined obstructive and restrictive ventilatory defects • Patients with chronic mucocilliary clearance problems • Patients having exercise limitations due to severe dyspnea

  31. Pulmonary Rehabilitation • Patient Selection • Ex-smokers • Smoking cessation program for smokers • Patients Excluded • Concurrent problems limit or preclude exercising • Condition complicated by malignant neoplasms, e.g., bronchogenic carcinoma

  32. Pulmonary Rehabilitation • Program Design • Open-ended format • Participate until predetermined objectives achieved • No set timeframe • Completed at patient’s pace • Good format for self-directed patients • Good format for schedule difficulties • Good format for individual attention • Lack group support/involvement

  33. Pulmonary Rehabilitation • Program Design • Closed design • Set timeframe (8 to 16 weeks; 1 to 3 sessions/wk) • Insurance coverage may dictate length for which person qualifies • Sessions last 1 to 3 hours • Presentations formal • Offer group support/involvement • Schedule determines program completion

  34. Pulmonary Rehabilitation • Content Component Focus Time Frame Education Welcome (group interaction) 5 mins Review of program diaries (past week’s activities) 20 mins Presentation of education topic 20 mins Questions, answers, and group discussion 15 mins Physical Physical activity and reconditioning 45 mins Reconditioning Individual goal-setting and session summary 15 mins Total: 120 minutes (2 hours)

  35. Pulmonary Rehabilitation • Physical Reconditioning • Excise prescription with target HR based on initial exercise evaluation • Target HR set using Karvonen’s formula • THR = [(MHR-RHR) x (50% to 70%)] + RHR

  36. Pulmonary Rehabilitation • Physical Reconditioning MHR = 150 bpm RHR = 90 bpm THR = [(150 – 90) x (0.6)]+ 90 = 126 bpm

  37. Pulmonary Rehabilitation • Exercise Prescription • Lower extremity aerobic exercises • Timed walking • Upper extremity aerobic exercises • Respiratory muscle training • Monitoring during Exercise • Pulse oximetry • Blood pressure

  38. Pulmonary Rehabilitation • Lower Extremity • Walking (treadmill/flat surface) • Goals for distance, time, grade on treadmill • 6 minute flat surface/increase distance • Bicycling (stationary) • Upper Extremity • Arm ergometers • Rowing machines

  39. Pulmonary Rehabilitation • Inspiratory resistance breathing device • Adjustable flow resistor • One-way valve • Inhale through restricted orifice (variable size) • Change inspiratory load • Exhalation through one-way valve

  40. Pulmonary Rehabilitation • Instruction • Sit upright • Breathe slowly through device (10 – 12 bpm) • MIP < 30% of measured Pimax, use next smaller orifice • Repeat effort until 30% is consistently achieved • 1 or 2 daily sessions for 10 – 15 minutes/session • When 30% is consistently achieved, increase resistance • Increase session time to 30 minutes

  41. Pulmonary Rehabilitation • Introduction and welcome, program orientation • Respiratory structure, function, and pathology • Breathing control methods • Relaxation and stress management • Proper exercise techniques and personal routines • Methods to ad secretion clearance (bronchial hygiene) • Home oxygen and aerosol therapy • Medications: their use and abuse • Medications: use of MDIs and spacers • Dietary guidelines and good nutrition • Recreation and vocational counseling • Activities of daily living • Follow-up planning and program evaluation • Graduation

  42. Pulmonary Rehabilitation • Program Results • Evaluate • Patient • Program outcomes • Preprogram/current program status • Data • Physiological • Psychological • Sociological

More Related