Transcript DPLD

Department of Pharmacology and Therapeutics
4th Medical lectures
20/Oct/2005
Suspicion of DPLD
• Dyspnoea/Cough
• Symptoms often subtle, non specific and slowly
progressive
• Long period before diagnosis confirmed
• Some patients are asymptomatic
– Diagnosed on the basis of abnormal radiology /PFTs
• Need to maintain an index of suspicion
– Esp if environmental/occupational exposures/
concomitant medical conditions
aetiology
• Incidence
– Males 31.5/100,000
– Females 26.1/100,000
• Pathogenesis
– Injury to the lung coupled with attempts to
heal
Classification
• ATS/ERS consensus statement
– DPLD secondary to identificable causes
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Environmental
Occupational
Drugs
CTD/IBD
– DPLD secondary to granulomatous diseases
– Rare DPLD with well defined clinicopathological features
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– IIP
LAM
Histiocytosis X
Eosinophilic pneumonia
Pulmonary alveolar proteinosis
Inhaled Agents
Connective Tissue Disease
Inorganic:
Scleroderma
Polymyositis/dermatomyositis
Systemic lupus erythematosus
Rheumatoid arthritis
Mixed connective tissue disease
Ankylosing spondylitis
Primary Sjögren's syndrome
Behçet's syndrome
Silica
Asbestos
Beryllium
Organic:
Animal/bird antigens
Farm antigens
Drug-Induced
Antibiotics
Antiarrhythmics
Anti-inflammatory agents
Chemotherapeutic agents
Antidepressants
Radiation
Oxygen
Infectious
Atypical pneumonias
Pneumocystis carinii pneumonia
Tuberculosis
Idiopathic
Sarcoidosis
Eosinophilic granuloma
Idiopathic Interstitial Pneumonia (IIP)
Bronchiolitis obliterans organizing pneumonia (OP)
Lymphocytic interstitial pneumonia (LIP)
Usual interstitial pneumonia (UIP)
Nonspecific interstitial pneumonia (NSIP)
Desquamative interstitial pneumonia (DIP)
Respiratory bronchiolitis with interstitial lung disease (RB-ILD)
Acute interstitial pneumonia (AIP).
Malignant
Lymphangitic carcinomatosis
Bronchoalveolar cell carcinoma
Miscellaneous
Lymphangioleiomyomatosis
Histiocytosis X
Adapted from Flaherty and Martinez.
Diagnostic approach
• ATS/ERS
– Integrated clinical, radiological and
pathological approach
– Essential to diagnosis UIP/IPF
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History
Examinaton
Selected lab studies
Imaging studies
In selected patients
– TBBX/Surgical Biopsy
Clinical History
• Sex
– LAM, Tuberosis Sclerosis – premenopausal women
– Women with IPF have a better prognosis
• Age
– sarcoidosis, Familial IPF, Eosinophilic Granuloma
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Co morbidity – CTD, IBD
Drug exposure - BPMAN
Assessment of living and work conditions
Occupation/ social/leisure
Risks for HIV
Symptoms
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Dyspnoea
Cough
Other symptoms
– Haemoptysis
• alveolar hemorrhage syndromes, pulmonary vascular diseases,
lymphangioleiomyomatosis, tuberous sclerosis, and chronic mitral
valve disease.
– Pleuritic chest pain
• collagen vascular illness, or a pneumothorax in patients with
lymphangioleiomyomatosis, tuberous sclerosis, or eosinophilic
granuloma.
– Onset of symptoms can give clues
• Acute process:
– atypical infections, eosinophilic pneumonia, pulmonary
hemorrhage, Wegener's granulomatosis, AIP, initial
hypersensitivity reactions, or bronchiolitis obliterans organizing
pneumonia (BOOP).
• Sub-Acute/Chronic process:
– IPF, silica- or asbestos-related lung disease, long-standing
hypersensitivity pneumonitis (HP), drug-induced lung diseases
Occupational/ Environmental history
• Diagnostic importance
• Therapeutic importance
• Occupational exposure
– Often long latent period
• avian, animal, fish proteins, fungal spores,
asbestos, silica, cobalt, beryllium, aluminum,
isocyanates, and copper sulfate.
• Home
• The presence or absence of pets, especially birds
Medications:
• http://www.pneumotox.com
Smoking history
• RBILD, DIP, and eosinophilic granuloma
– Almost exclusively in smokers
• HP/EAA
– Less common in smokers
– If occurs in smokers – more severe and
chronic
Examination
• The physical examination are generally
nonspecific.
• Dry bibasilar crackles, although inspiratory
high-pitched rhonchi (“squeaks”) can be
seen with bronchiolar disorders.
• Clubbing (most common in IPF)
• Right heart failure
• Signs of underlying connective tissue
disorders.
Physiology
• Restrictive pattern
• Laboratory features
– FBC
– Electrolytes
– Autoantibody screen
– Inflammatory markers
Radiology
• Chest X-Ray (20% Normal)
• HRCT
HRCT Findings in IPF
• Bibasal subpleural
distribution
• Reticular shadowing
• Honeycombing
• Lack of ground glass
opacification
• Widened interlobular
septae
• Tractional bronchiectasis
HRCT NSIP/
Path NSIP
HRCT NSIP/
Path UIP
HRCT UIP/
Path UIP
BAL/TBBX/Lung biopsy
• Depends on clinical suspicion
• Risk v benefit
• Presence of classical clinical and
radiological features
Concordant UIP
Discordant UIP
NSIP
IPF Survival
Daniil ZD et al. Am J Respir Crit Care Med. 1999; 160:899
Bjoraker JA et al. Am J Respir Crit Care Med. 1998; 157: 199
• No data exist that adequately documents that any of the
current treatment approaches
– Improve survival or
– Quality of life for patients
• “Until adequate studies are conducted that define the
best treatment for patients with IPF, this committee
suggests… combined therapy (corticosteroid and either
azathioprine or cyclophosphamide) for patients…who
possess features consistent with a more likely favourable
outcome”
Interferon Gamma (INF-γ 1b)
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Rationale for use
Pilot study, 1999
Raghu 2004: R, MC, PC, DB; 330 patients
48 week follow up
SC TIW
Failed to reach primary efficacy endpoint
Interferon Gamma
Raghu G, et al N Eng J Med, 2004; 350: 125-33
Interferon Gamma
INSPIRE
International Study of Survival
Outcomes in Idiopathic Pulmonary
Fibrosis with Interferon Gamma 1-b
2 years, 600 pts, 75 centres,
Less severe disease
FVC >55%
DLCO >35%
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Pirfenidone: Rationale for
Therapy
Antifibrotic agent
Decreases fibroblast proliferation
Decreases ECM production
Inhibits TGF-β collagen synthesis
Inhibits mitogenic effect of PDGF
Ameliorated fibrosis in a hamster model of bleomycin
lung
• Beneficial effect in Hermansky-Pudlak syndrome
• Orally active
• Safe
Pirfenidone
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Initial trial Raghu et al, 1999
Osaka et al, 2004: R, PC, DB, MC trial 107 pts
Dose titrated to 600 t.i.d.
1º endpoint lowest O2 saturation at 6MWT
2º endpoints:
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Change in baseline pulmonary function
Events of acute exacerbation of IPF
QOL score
Disease progression by HRCT pattern
Pirfenidone
• Study aborted by DSMB
– Interim analysis of endpoints
• Acute exacerbations of IPF: 5 vs. 0
• p =0.0032
• ADR: photosensitivity & nausea
• INTERMUNE sponsored larger RCT
N-Acetyl Cysteine
• Rationale for use
– Oxidative stress
– Glutathione
• NAC properties
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Restoration of glutathione
Reduction of fibroblasts
Decreases ECM components
Inhibition of proinflammatory & profibrotic cytokines
and signal transducers
– Improves lung function
– Safe
N-Acetyl Cysteine
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IFIGENIA trial
155 patients: NAC + Pred + AZA
NAC titrated to 600mg t.i.d
1º endpoint at 12 months
– 15% Δ VC
– 20% Δ DLCO
• Trend toward improved mortality
Endothelin Receptor
Antagonists
• Rationale for use
– Endothelin promotes expression of smooth muscle,
fibrboblasts and ECM protein
– Animal models
• Endothelin levels elevated in IPF
• Efficacy in pulmonary arterial hypertension
• 3 drugs currently under evaluation
– Bosentan
– Sitaxsentan & Ambrisentan
Bosentan
• BUIILD 1 (IPF)
– 132 patients, 32 centres, 9 countries
– 1º endpoint at 12 months: 6 MWT
– 2 º endpoint: mortality, lung function, QOL
– Ongoing
– Similar dose titration to PAH trials: 62.5125
bid
The Evolution of IPF therapy
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Steroids Azathioprine anti-oxidants anti-fibrotic ERA’s,anti-TNF
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1950s
2004
Summary:
What should we do now?
• No FDA therapy approved for IPF
– Multimodality therapy ?
• Supplementary oxygen
• Pulmonary rehabilitation
• Patient with EARLY disease
– Combination therapy
• Prednisolone and Azathioprine (or Cyclophosphamide)
– Experimental therapy in a RCT
• Patient with LATE disease
– Lung transplantation
– Experimental therapy in a RCT