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MECHANICAL VENTILATION MECHANICAL VENTILATION IN COPDIN COPD
SPEAKER :DR.GOOLAPPASPEAKER :DR.GOOLAPPA
MODERATOR: DR.HARISHMODERATOR: DR.HARISH
R.D.T HOSPITAL, BTP.R.D.T HOSPITAL, BTP.
DEFINITION OF COPDDEFINITION OF COPD1. It is chronic
2. It is progressive
3. Mostly fixed airway obstruction
4. Non reversible by bronchodilators
5. Exposure to noxious agent is a must
6. Chronic obstructive lung disease (COLD)
7. Chronic obstructive airways disease (COAD)
8. Two entities in COPD – namely
1. Chronic Bronchitis 2. Emphysema
22. . CHRONIC BRONCHITISCHRONIC BRONCHITIS1. EMPHYSEMA
1. Productive cough
2. For a period of 3 months
3. In each of 2 consecutive years
4. Absence of any other identifiable cause of excessive sputum production
5. Airflow limitation that is not fully reversible
6. Abnormal inflammatory response to noxious agent - like smoking
1. Alveolar wall destruction
2. Irreversible enlargement of the air spaces
3. Distal to the terminal bronchioles
4. Without evidence of fibrosis
SMOKING - SMOKING - THE CULPRITTHE CULPRITSMOKING - SMOKING -
THE CULPRITTHE CULPRIT
RISK FACTORS FOR COPD RISK FACTORS FOR COPD MOST IMP
RISK
Host FactorsHost Factors– Genes (alphaGenes (alpha11- anti-trypsin- anti-trypsin↓↓))– Hyper responsivenessHyper responsiveness– Lung growth, low BW, AgeLung growth, low BW, Age
ExposureExposure– Tobacco smokeTobacco smoke, , – Bio mass fuel smoke, open firesBio mass fuel smoke, open fires– Occupational dusts and chemicalsOccupational dusts and chemicals– Chronic Chronic uncontrolled asthmauncontrolled asthma– Infections, overcrowding, dampInfections, overcrowding, damp– Low socioeconomic statusLow socioeconomic status– Low dietary vegetable and fruit intakeLow dietary vegetable and fruit intake
CLINICAL CLINICAL FEATURESFEATURESCLINICAL CLINICAL
FEATURESFEATURES
CHRONIC BRONCHITISCHRONIC BRONCHITIS EMPHYSEMA
1.1. Mild dyspneaMild dyspnea2.2. Cough before dyspnea startsCough before dyspnea starts3.3. Copious, purulent sputumCopious, purulent sputum4.4. More frequent infectionsMore frequent infections5.5. RepeatedRepeated resp. insufficiency resp. insufficiency6.6. PaCOPaCO22 50-60 mmHg 50-60 mmHg
7.7. PaOPaO22 45-60 mmHg 45-60 mmHg
8.8. Hematocrit 50-60%Hematocrit 50-60%9.9. DLCO is not that much DLCO is not that much ↓↓10.10. Cor pulmonale commonCor pulmonale common
1. Severe dyspnea2. Cough after dyspnea 3. Scanty sputum4. Less frequent infections5. Terminal RF
6. PaCO2 35-40 mmHg
7. PaO2 65-75 mmHg
8. Hematocrit 35-45%9. DLCO is decreased10. Cor pulmonale rare.
CHRONIC BRONCHITISCHRONIC BRONCHITIS EMPHYSEMA
BLUE BLOTTERBLUE BLOTTER PINK PUFFERPINK PUFFER
ALPHAALPHA11 ANTITRYPSIN ANTITRYPSIN ↓↓ EMPHYSEMA
Specific circumstances of Alpha 1- ATSpecific circumstances of Alpha 1- AT↓include↓include. .
Emphysema in a young individual (< 35)Emphysema in a young individual (< 35)
Without obvious risk factors (smoking etc) Without obvious risk factors (smoking etc)
Necrotizing panniculitis, Systemic vasculitis Necrotizing panniculitis, Systemic vasculitis
Anti-neutrophil cytoplasmic antibody (ANCA)Anti-neutrophil cytoplasmic antibody (ANCA)
Cirrhosis of liver, Hepatocellular carcinomaCirrhosis of liver, Hepatocellular carcinoma
Bronchiectasis of undetermined etiologyBronchiectasis of undetermined etiology
Otherwise unexplained liver disease, or a Otherwise unexplained liver disease, or a
Family history of any one of these conditionsFamily history of any one of these conditions
Especially siblings of PI*ZZ individuals.Especially siblings of PI*ZZ individuals.
Only 2% of COPD is alpha 1- AT ↓ Only 2% of COPD is alpha 1- AT ↓
1. Decreased FEV1
2. Decreased FVC
3. FEV1 < 80%
4. FEV1 ÷ FVC < 70%
5. Post bronchodilator –
no change in FEV1
6. PEF is decreased
7. FET – is prolonged
8. V Max - decreased
CLINICAL SIGNSCLINICAL SIGNS SPIROMETRY
1.1. Physical exam may be Physical exam may be negativenegative 2.2. Hyper-inflated chest, Barrel chestHyper-inflated chest, Barrel chest3.3. Wheeze or quite breathingWheeze or quite breathing4.4. Pursed lip / accessory muscles resp.Pursed lip / accessory muscles resp.5.5. Peripheral edemaPeripheral edema6.6. Cyanosis, Cyanosis, ↑↑ JVP JVP7.7. CachexiaCachexia8.8. Cough, wheeze, dyspnea, sputumCough, wheeze, dyspnea, sputum
MRC DYSPNOEA SCALEMRC DYSPNOEA SCALE GradeGrade Degree of breathlessness - related activityDegree of breathlessness - related activity
00 No breathlessness except on strenuous exerciseNo breathlessness except on strenuous exercise
11 Short of breath when walking uphill or while hurrying to catch a bus or Short of breath when walking uphill or while hurrying to catch a bus or train train
22 Walks slower than contemporaries or has to stop for breath while Walks slower than contemporaries or has to stop for breath while walking alonewalking alone
33 Stops for breath on walking 100 m or after 2 or 3 minutes continuouslyStops for breath on walking 100 m or after 2 or 3 minutes continuously
44 Too breathless to leave house or breathless while dressingToo breathless to leave house or breathless while dressing
DIFF. Dx. of COPD & ASTHMADIFF. Dx. of COPD & ASTHMA ClinicalClinical COPDCOPD ASTHMAASTHMA
SmokerSmoker Nearly allNearly all May or may not beMay or may not be
Age < 35Age < 35 RareRare Nearly allNearly all
SputumSputum ProductiveProductive Mucoid or noneMucoid or none
DyspneaDyspnea PersistentPersistent EpisodicEpisodic
CourseCourse ProgressiveProgressive Variable, staticVariable, static
SpirometrySpirometry ObstructiveObstructive Normal or Obstru.Normal or Obstru.
ReversibilityReversibility Change < 15%Change < 15% Change > 15%Change > 15%
Most IMP Rx.Most IMP Rx. IBD (Ipa+Salm)IBD (Ipa+Salm) ICSICS
Anti leukotrn.Anti leukotrn. Not usefulNot useful Useful ad on Rx.Useful ad on Rx.
CHEST SKIAGRAMS OF CHEST SKIAGRAMS OF EMPHYSEMAEMPHYSEMA
CHEST SKIAGRAM OF CHRONIC CHEST SKIAGRAM OF CHRONIC BRONCHITISBRONCHITIS
CHEST LATERAL VIEW CHEST LATERAL VIEW CHRONIC CHRONIC
BRONCHITISBRONCHITIS
ASSESSMENT OF COPDASSESSMENT OF COPD Diagnosis of COPDDiagnosis of COPD• Spirometry is the Gold StandardSpirometry is the Gold Standard• Every COPD suspect must get spirometry test Every COPD suspect must get spirometry test
donedone• Like ECG, Like ECG, Spirometry is essentialSpirometry is essential• Arterial blood gas tensions are needed if the Arterial blood gas tensions are needed if the
FEVFEV11 < 40% < 40%
• Respiratory failure, CorpulmonaleRespiratory failure, Corpulmonale
NORMAL AND COPDNORMAL AND COPD SPIROMETRY
0
5
1
4
2
3
Lit
er
1 65432
FVC
FVC
FEV1
FEV1
Normal
COPD
3.900
5.200
2.350
4.150 80 %
60 %NormalCOPD
FVCFEV1 FVCFEV1/
Seconds
IBD are the main stayIBD are the main stay
As when needed basisAs when needed basis
The main drugs areThe main drugs are
– ββ22 - Agonists (Salbutamol group) - Agonists (Salbutamol group)
– Anticholinergics (Ipatropium group)Anticholinergics (Ipatropium group)
– Their combination Their combination
– ?? Theophylline?? Theophylline
MANAGEMENT - IBDMANAGEMENT - IBD
Pledge to stop smokingPledge to stop smoking
Why use ventilatory assistance ?
• patients with COPD are prone to exacerbations of respiratory failure
• mechanical ventilatory assistance is useful in patients with respiratory failure
• in COPD, 16-35% of acute exacerbations are intubated
• overall mortality is high (19-29%)
Limitations of invasive ventilation
• requirement for sedation (& paralysis)
• nosocomial infection
• laryngeal/tracheal injury
• weaning difficulties
• progression to tracheostomy
• prolonged stay in ICU (cost)
Advantages of NPPV• avoids intubation & potential complications
• better patient comfort
• coughing, speech & swallowing preserved
• little or no sedation required
• can be used where intubation inappropriate
• can be used away from ICU & potentially ↓ costs
Limitations of NPPV
• need patient co-operation
• patient must protect upper airway
• no direct access to airway (secretion clearance)
• risk of mask dislodgment
⇒ inadequate ventilation
• not all patients tolerate NPPV (up to 20% fail)
• appropriately skilled staff required
Current Recommendations - NPPV in ARF
• Strong Evidence – Level A (multiple controlled trials)• Acute hypercapnic COPD• Acute cardiogenic Pulmonary Oedema – most evidence for CPAP• Immunocompromised patients• Less strong – Level B (single controlled trials, multiple case series)• Asthma• Community Acquired Pneumonia in COPD patients• Facilitation of weaning in COPD• Avoidance of extubation failure• Post Operative Respiratory Failure• Do not intubate patients
NPPV in COPD
Mechanism of action
• multifactorial, controversial and poorly understood
• ↓ work of breathing
• ‘rest’ respiratory muscles
• ↓ respiratory muscle fatigue
• ↓ dyspnoea
• counter intrinsic PEEP
• reverses acidosis
• allows time for conventional therapy to work
• avoid death by intubation
NPPV in acute COPD – results
• reduction in mortality - 48%
• reduction in intubation rates – 59%
• significant improvements in pH, PaCO2, & PaO2 &
respiratory rate
• reduction in hospital length of stay > 3 days
• only 1 negative study – here less sick, & delay ~12
hours to commencement of NPPV
NPPV – How to Make it work in ARF
• Patient factors• diagnosis• clinical characteristics• lower APACHE score• no pneumonia• pH > 7.10, PaCO2 < 92mmHg• better neurological state• good initial response to NPPV
• Staff
need adequate training
Site for NPPV
need to be able to monitor patient properly
need expertise in intubation – especially with
conditions where failure more likely e.g. asthma
Contraindications
• patients requiring >50% oxygen• thoracic / gastric surgery / pneumothorax• patients unable to maintain patent airway / clear secretions• significant hypotension induced by NPPV therapy• fractured base skull / facial fractures / ↑ Intracranial pres• respiratory arrest
Interfaces:-Nasal & Full Face masks
Implementation - Hypercapnoeic RF
• sit patient upright & explain procedure
• commence and titrate up to maximum tolerated level
• full face masks get better control of leaks
• apply chin strap if required / instruct patient to close mouth
• apply oxygen to machine end of tubing if required
Monitoring
• Observations• BP, RR, HR & rhythm, O2 saturation, conscious state• Treatment tolerance, complications• Initially, 15 minutely for 1 hour, 30 minutely for 2hours, Hourly for 2 hours, then 4 hourly• ABGs – measured prior to commencement, at 1 hour,within 1 hour of setting changed, then as clinically needed
Weaning in Acute COPD Exacerbation
• Aim to remove NPPV within 48hours• weaning is commenced• once reversal of acute factors & improved ABGs• after consultation with medical team• weaning carried out during day initially and then night• ↑ing time off ventilation rather than ↓ing pressures• monitor clinically and with ABGs as required
The Decision To IntubateThe Decision To Intubate
Initiation of mechanical ventilation in COPD Initiation of mechanical ventilation in COPD patients is associated with high patient mortality patients is associated with high patient mortality and poor potential for weaningand poor potential for weaning
Indications: (E.B.M. vs. clinical Indications: (E.B.M. vs. clinical gestaltgestalt))– Patient failed conservative managementPatient failed conservative management– Severe, persistent acidosisSevere, persistent acidosis– Continued arterial hypoxemia despite initial therapyContinued arterial hypoxemia despite initial therapy– Patient fatiguePatient fatigue– Altered mental statusAltered mental status– Additional major illness (pulmonary embolism, AMI)Additional major illness (pulmonary embolism, AMI)
Goals for COPD patientsGoals for COPD patients
Adequate patient monitoringAdequate patient monitoring
Optimize ventilator settings to minimize Optimize ventilator settings to minimize excessive work of breathingexcessive work of breathing
Assure SynchronyAssure Synchrony
Detect auto-PEEP and prevent barotraumaDetect auto-PEEP and prevent barotrauma
Prevent further respiratory muscle atrophyPrevent further respiratory muscle atrophy
Intubate using the widest diameter ET tube Intubate using the widest diameter ET tube possible (R = 8nl / possible (R = 8nl / ππr r 44))
Vent GuidelinesVent Guidelines
Emphasis on assisted modes of ventilation Emphasis on assisted modes of ventilation (patient initiated), institution preference for (patient initiated), institution preference for A/CA/C vs. IMV with PSV (to overcome ET vs. IMV with PSV (to overcome ET tube)tube)
SIMV: probably causes excess work, b/c SIMV: probably causes excess work, b/c of high resistance circuit but debatable; of high resistance circuit but debatable; requires close patient monitoringrequires close patient monitoring
Vent GuidelinesVent Guidelines
Tidal Volume: 5-7 ml/kgTidal Volume: 5-7 ml/kg
Set Rate: 4 less than spontaneous rateSet Rate: 4 less than spontaneous rate
FiO2: adjust to PaO2 of at least 60 mmHgFiO2: adjust to PaO2 of at least 60 mmHg
Triggering: -1 to -2 cm H2OTriggering: -1 to -2 cm H2O
Prevent Auto-PEEP with sufficient PEEPPrevent Auto-PEEP with sufficient PEEP
Flow rate: Increase to provide increased Flow rate: Increase to provide increased expiratory expiratory time (70-90 lpm)time (70-90 lpm)
Continue inhaled medications: requires sufficient Continue inhaled medications: requires sufficient tidal volume and inspiratory timetidal volume and inspiratory time
SummarySummaryThe need to initiate mechanical ventilation in patients with The need to initiate mechanical ventilation in patients with obstructive lung disease in the emergency department is obstructive lung disease in the emergency department is associated with a higher inpatient mortalityassociated with a higher inpatient mortality
Patients with obstructive lung disease require close Patients with obstructive lung disease require close monitoring of all physiologic parameters to prevent monitoring of all physiologic parameters to prevent complications associated with positive pressure ventilationcomplications associated with positive pressure ventilation
Assessing a distressed ventilator dependent patient requires Assessing a distressed ventilator dependent patient requires an organized approachan organized approach
In general: low tidal volumes, higher flow rates and application In general: low tidal volumes, higher flow rates and application of a conservative amount of PEEP are appropriate initial of a conservative amount of PEEP are appropriate initial settings for patients with obstructive lung disease settings for patients with obstructive lung disease
ReferencesReferences
““The ICU Book” Marino PL, 2The ICU Book” Marino PL, 2ndnd Edition Edition““Respiratory Physiology” West JB, 5Respiratory Physiology” West JB, 5thth EditionEdition““Pulmonary Pathophysiology” Grippi MAPulmonary Pathophysiology” Grippi MA““Textbook of Medical Physiology” Guyton Textbook of Medical Physiology” Guyton and Hall 9and Hall 9thth Edition Edition““Chest Radiology Companion” Stern EJ, Chest Radiology Companion” Stern EJ, White CSWhite CSHarrison’s Principles of Internal Medicine Harrison’s Principles of Internal Medicine 1616thth Edition Edition