- •Preface to the First Edition
- •Preface to the Second Edition
- •Contents
- •Diagnostic Challenges
- •Expert Centers
- •Patient Organizations
- •Clinical Trials
- •Research in Orphan Lung Diseases
- •Orphan Drugs
- •Orphanet
- •Empowerment of Patients
- •Conclusions
- •References
- •Introduction
- •Challenges to Overcome in Order to Undertake Quality Clinical Research
- •Lack of Reliable Data on Prevalence
- •Small Number of Patients
- •Identifying Causation/Disease Pathogenesis
- •Disease Complexity
- •Lack of Access to a Correct Diagnosis
- •Delay in Diagnosis
- •Challenges But Not Negativity
- •Some Success Stories
- •The Means to Overcome the Challenges of Clinical Research: Get Bigger Numbers of Well-Characterized Patients
- •The Importance of Patient Organizations
- •National and International Networks
- •End Points for Trials: Getting Them Right When Numbers Are Small and Change Is Modest
- •Orphan Drug Development
- •Importance of Referral Centers
- •Looking at the Future
- •The Arguments for Progress
- •Concluding Remarks
- •References
- •3: Chronic Bronchiolitis in Adults
- •Introduction
- •Cellular Bronchiolitis
- •Follicular Bronchiolitis
- •Respiratory Bronchiolitis
- •Airway-Centered Interstitial Fibrosis
- •Proliferative Bronchiolitis
- •Diagnosis
- •Chest Imaging Studies
- •Pulmonary Function Testing
- •Lung Biopsy
- •Mineral Dusts
- •Organic Dusts
- •Volatile Flavoring Agents
- •Infectious Causes of Bronchiolitis
- •Idiopathic Forms of Bronchiolitis
- •Connective Tissue Diseases
- •Organ Transplantation
- •Hematopoietic Stem Cell Transplantation
- •Drug-Induced Bronchiolitis
- •Treatment
- •Constrictive Bronchiolitis
- •Follicular Bronchiolitis
- •Airway-Centered Interstitial Fibrosis
- •Proliferative Bronchiolitis
- •References
- •Background and Epidemiology
- •Pathophysiology
- •Host Characteristics
- •Clinical Manifestations
- •Symptoms
- •Laboratory Evaluation
- •Skin Testing
- •Serum Precipitins
- •Eosinophil Count
- •Total Serum Immunoglobulin E Levels
- •Recombinant Antigens
- •Radiographic Imaging
- •Pulmonary Function Testing
- •Histology
- •Diagnostic Criteria
- •Historical Diagnostic Criteria
- •Rosenberg and Patterson Diagnostic Criteria
- •ISHAM Diagnostic Criteria
- •Cystic Fibrosis Foundation Diagnostic Criteria
- •General Diagnostic Recommendations
- •Allergic Aspergillus Sinusitis (AAS)
- •Natural History
- •Treatment
- •Corticosteroids
- •Antifungal Therapy
- •Monoclonal Antibodies
- •Monitoring for Treatment Response
- •Conclusions
- •References
- •5: Orphan Tracheopathies
- •Introduction
- •Anatomical Considerations
- •Clinical Presentation
- •Etiological Considerations
- •Idiopathic Subglottic Stenosis
- •Introduction
- •Clinical Features
- •Pulmonary Function Studies
- •Imaging Studies
- •Bronchoscopy
- •Treatment
- •Introduction and Clinical Presentation
- •Clinical Features
- •Pulmonary Function Studies
- •Imaging Studies
- •Bronchoscopy
- •Treatment
- •Tracheomalacia
- •Introduction
- •Clinical Features
- •Pulmonary Function Studies
- •Imaging Studies
- •Bronchoscopy
- •Treatment
- •Tracheobronchomegaly
- •Introduction
- •Clinical Features
- •Pathophysiology
- •Pulmonary Function Studies
- •Imaging Studies
- •Treatment
- •Tracheopathies Associated with Systemic Diseases
- •Relapsing Polychondritis
- •Introduction
- •Clinical Features
- •Laboratory Findings
- •Pulmonary Function and Imaging Studies
- •Treatment
- •Introduction
- •Clinical Features
- •Pulmonary Function Studies
- •Imaging Studies
- •Bronchoscopy
- •Treatment
- •Tracheobronchial Amyloidosis
- •Introduction
- •Clinical Features
- •Pulmonary Function Studies
- •Imaging Studies
- •Bronchoscopy
- •Treatment
- •Sarcoidosis
- •Introduction
- •Pulmonary Function Studies
- •Imaging Studies
- •Bronchoscopy
- •Treatment
- •Orphan Tracheopathies: Conclusions
- •References
- •6: Amyloidosis and the Lungs and Airways
- •Introduction
- •Diagnosis and Evaluation of Amyloidosis
- •Systemic AA Amyloidosis
- •Systemic AL Amyloidosis
- •Amyloidosis Localised to the Respiratory Tract
- •Laryngeal Amyloidosis
- •Tracheobronchial Amyloidosis
- •Parenchymal Pulmonary Amyloidosis
- •Pulmonary Amyloidosis Associated with Sjögren’s Disease
- •Conclusions
- •References
- •Introduction
- •Pathophysiology
- •Genetic Predisposition
- •Immune Dysregulation
- •Epidemiology
- •Incidence and Prevalence
- •Triggering Factors
- •Clinical Manifestations
- •General Symptoms
- •Pulmonary Manifestations
- •Ear, Nose, and Throat (ENT) Manifestations
- •Neurological Manifestations
- •Skin Manifestations
- •Cardiac Manifestations
- •Gastrointestinal Involvement
- •Renal Manifestations
- •Ophthalmological Manifestations
- •Complementary Investigations
- •Diagnosis
- •Diagnostic Criteria
- •Prognosis and Outcomes
- •Phenotypes According to the ANCA Status
- •Treatment
- •Therapeutic Strategies
- •Remission Induction
- •Maintenance Therapy
- •Other Treatments
- •Prevention of AEs
- •Conclusions
- •References
- •8: Granulomatosis with Polyangiitis
- •A Brief Historical Overview
- •Epidemiology
- •Pathogenesis
- •Clinical Manifestations
- •Constitutional Symptoms
- •Ear, Nose, and Throat (ENT) Manifestations
- •Pulmonary Manifestations
- •Kidney and Urological Manifestations
- •Kidney Manifestations
- •Urological Manifestations
- •Neurological Manifestations
- •Peripheral Nervous System (PNS) Manifestations
- •Central Nervous System (CNS) Manifestations
- •Spinal Cord and Cranial Nerve Involvement
- •Skin and Oral Mucosal Manifestations
- •Eye Manifestations
- •Cardiac Involvement
- •Gastrointestinal Manifestations
- •Gynecological and Obstetric Manifestations
- •Venous Thrombosis and Other Vascular Events
- •Other Manifestations
- •Pediatric GPA
- •Diagnosis
- •Diagnostic Approach
- •Laboratory Investigations
- •Biology
- •Immunology
- •Pathology
- •Treatment
- •Glucocorticoids
- •Cyclophosphamide
- •Rituximab
- •Other Current Induction Approaches
- •Other Treatments in GPA
- •Intravenous Immunoglobulins
- •Plasma Exchange
- •CTLA4-Ig (Abatacept)
- •Cotrimoxazole
- •Other Agents
- •Principles of Treatment for Relapsing and Refractory GPA
- •Outcomes and Prognostic Factors
- •Survival and Causes of Deaths
- •Relapse
- •Damage and Disease Burden on Quality of Life
- •Conclusions
- •References
- •9: Alveolar Hemorrhage
- •Introduction
- •Clinical Presentation
- •Diagnosis (Table 9.1, Fig. 9.3)
- •Pulmonary Capillaritis
- •Histology (Fig. 9.4)
- •Etiologies
- •ANCA-Associated Small Vessel Vasculitis: Granulomatosis with Polyangiitis (GPA)
- •ANCA-Associated Small Vessel Vasculitis: Microscopic Polyangiitis
- •Isolated Pulmonary Capillaritis
- •Systemic Lupus Erythematosus
- •Antiphospholipid Antibody Syndrome
- •Anti-Basement Membrane Antibody Disease (Goodpasture Syndrome)
- •Lung Allograft Rejection
- •Others
- •Bland Pulmonary Hemorrhage (Fig. 9.5)
- •Histology
- •Etiologies
- •Idiopathic Pulmonary Hemosiderosis
- •Drugs and Medications
- •Coagulopathy
- •Valvular Heart Disease and Left Ventricular Dysfunction
- •Other
- •Histology
- •Etiologies
- •Hematopoietic Stem Cell Transplantation (HSCT)
- •Cocaine Inhalation
- •Acute Exacerbation of Interstitial Lung Disease
- •Acute Interstitial Pneumonia
- •Acute Respiratory Distress Syndrome
- •Miscellaneous Causes
- •Etiologies
- •Pulmonary Capillary Hemangiomatosis
- •Treatment
- •Conclusions
- •References
- •Takayasu Arteritis
- •Epidemiology
- •Pathologic Features
- •Pathogenesis
- •Clinical Features
- •Laboratory Findings
- •Imaging Studies
- •Therapeutic Management
- •Prognosis
- •Behçet’s Disease
- •Epidemiology
- •Pathologic Features
- •Pathogenesis
- •Diagnostic Criteria
- •Clinical Features
- •Pulmonary Artery Aneurysm
- •Pulmonary Artery Thrombosis
- •Pulmonary Parenchymal Involvement
- •Laboratory Findings
- •Imaging Studies
- •Therapeutic Management
- •Treatment of PAA
- •Treatment of PAT
- •Prognosis
- •References
- •Introduction
- •Portopulmonary Hypertension (PoPH)
- •Epidemiology and Risk Factors
- •Molecular Pathogenesis
- •PoPH Treatment
- •Hepatopulmonary Syndrome (HPS)
- •Epidemiology and Risk Factors
- •Molecular Pathogenesis
- •HPS Treatment
- •Conclusion
- •References
- •12: Systemic Sclerosis and the Lung
- •Introduction
- •Risk factors for SSc-ILD
- •Genetic Associations
- •Clinical Presentation of SSc-ILD
- •Pulmonary Function Tests (PFTs)
- •Imaging
- •Management
- •References
- •13: Rheumatoid Arthritis and the Lungs
- •Introduction
- •Epidemiology
- •Risk Factors for ILD (Table 13.3)
- •Pathogenesis
- •Clinical Features and Diagnosis
- •Treatments
- •Prognosis
- •Epidemiology
- •Risk Factors
- •Clinical Features, Diagnosis, and Outcome
- •Subtypes or RA-AD
- •Obliterative Bronchiolitis
- •Bronchiectasis
- •COPD
- •Cricoarytenoid Involvement
- •Pleural Disease
- •Conclusion
- •References
- •Introduction
- •Systemic Lupus Erythematosus
- •Epidemiology
- •Pathophysiology
- •Pulmonary Manifestations
- •Pleural Disease
- •Shrinking Lung Syndrome
- •Thrombotic Manifestations
- •Interstitial Lung Disease
- •Other Pulmonary Manifestations
- •Prognosis
- •Sjögren’s Syndrome
- •Epidemiology
- •Pathophysiology
- •Pulmonary Manifestations
- •Airway Disorders
- •Lymphoproliferative Disease
- •Interstitial Lung Disease
- •Prognosis
- •Mixed Connective Tissue Disease
- •Epidemiology
- •Pathophysiology
- •Pulmonary Manifestations
- •Pulmonary Hypertension
- •Interstitial Lung Disease
- •Prognosis
- •Myositis
- •Epidemiology
- •Pathophysiology
- •Pulmonary Manifestations and Treatments
- •Interstitial Lung Disease
- •Respiratory Muscle Weakness
- •Other Pulmonary Manifestations
- •Prognosis
- •Other Therapeutic Options in CTD-ILD
- •Lung Transplantation
- •Conclusion
- •References
- •Introduction
- •Diagnostic Criteria
- •Controversies in the Diagnostic Criteria
- •Typical Clinical Features
- •Disease Progression and Prognosis
- •Summary
- •References
- •Introduction
- •Histiocytes and Dendritic Cells
- •Introduction
- •Cellular and Molecular Pathogenesis
- •Pathology
- •Clinical Presentation
- •Treatment and Prognosis
- •Erdheim-Chester Disease
- •Epidemiology
- •Cellular and Molecular Pathogenesis
- •Histopathology and Immunohistochemistry
- •Clinical Presentation
- •Investigation/Diagnosis
- •Chest Studies
- •Cardiovascular Imaging
- •CNS Imaging
- •Bone Radiography
- •Other Imaging Findings and Considerations
- •Disease Monitoring
- •Pathology
- •Management/Treatment
- •Prognosis
- •Rosai-Dorfman Destombes Disease
- •Epidemiology
- •Etiology/Pathophysiology
- •Histopathology and Immunohistochemistry
- •Clinical Presentation
- •Investigation/Diagnosis
- •Management/Treatment
- •Prognosis
- •Conclusions
- •Diagnostic Criteria for Primary Histiocytic Disorders of the Lung
- •References
- •17: Eosinophilic Pneumonia
- •Introduction
- •Eosinophil Biology
- •Physiologic and Immunologic Role of Eosinophils
- •Release of Mediators
- •Targeting the Eosinophil Cell Lineage
- •Historical Perspective
- •Clinical Presentation
- •Pathology
- •Diagnosis
- •Eosinophilic Lung Disease of Undetermined Cause
- •Idiopathic Chronic Eosinophilic Pneumonia
- •Clinical Features
- •Imaging
- •Laboratory Studies
- •Bronchoalveolar Lavage
- •Lung Function Tests
- •Treatment
- •Outcome and Perspectives
- •Clinical Features
- •Imaging
- •Laboratory Studies
- •Bronchoalveolar Lavage
- •Lung Function Tests
- •Lung Biopsy
- •Treatment and Prognosis
- •Eosinophilic Granulomatosis with Polyangiitis
- •History and Nomenclature
- •Pathology
- •Clinical Features
- •Imaging
- •Laboratory Studies
- •Pathogenesis
- •Diagnosis
- •Treatment and Prognosis
- •Long-Term Outcome
- •Hypereosinophilic Syndrome
- •Pathogenesis
- •Clinical and Imaging Features
- •Laboratory Studies
- •Treatment and Prognosis
- •Eosinophilic Pneumonias of Parasitic Origin
- •Tropical Eosinophilia [191]
- •Ascaris Pneumonia
- •Eosinophilic Pneumonia in Larva Migrans Syndrome
- •Strongyloides Stercoralis Infection
- •Eosinophilic Pneumonias in Other Infections
- •Allergic Bronchopulmonary Aspergillosis
- •Pathogenesis
- •Diagnostic Criteria
- •Biology
- •Imaging
- •Treatment
- •Bronchocentric Granulomatosis
- •Miscellaneous Lung Diseases with Associated Eosinophilia
- •References
- •Introduction
- •Pulmonary Langerhans’ Cell Histiocytosis
- •Epidemiology
- •Pathogenesis
- •Diagnosis
- •Clinical Features
- •Extrathoracic Lesions
- •Pulmonary Function Tests
- •Chest Radiography
- •High-Resolution Computed Tomography (HRCT)
- •Bronchoscopy and Bronchoalveolar Lavage (BAL)
- •Lung Biopsy
- •Pathology
- •Treatment
- •Course and Prognosis
- •Case Report I
- •Introduction
- •Epidemiology
- •Clinical Features
- •Histopathological Findings
- •Radiologic Findings
- •Prognosis and Therapy
- •Desquamative Interstitial Pneumonia
- •Epidemiologic and Clinical Features
- •Histopathological Findings
- •Radiological Findings
- •Prognosis and Therapy
- •Conclusion
- •References
- •19: Lymphangioleiomyomatosis
- •Introduction
- •Pathogenesis
- •Presentation
- •Prognosis
- •Management
- •General Measures
- •Parenchymal Lung Disease
- •Pleural Disease
- •Renal Angiomyolipoma
- •Abdominopelvic Lymphatic Disease
- •Pregnancy
- •Tuberous Sclerosis
- •Drug Treatment
- •Bronchodilators
- •mTOR Inhibitors
- •Anti-Oestrogen Therapy
- •Experimental Therapies
- •Interventions for Advanced Disease
- •Oxygen Therapy
- •Pulmonary Hypertension
- •References
- •20: Diffuse Cystic Lung Disease
- •Introduction
- •Lymphangioleiomyomatosis
- •Pathogenesis
- •Pathologic and Radiographic Characteristics
- •Diagnostic Approach
- •Pulmonary Langerhans Cell Histiocytosis (PLCH)
- •Pathogenesis
- •Pathological and Radiographic Characteristics
- •Diagnostic Approach
- •Birt-Hogg-Dubé Syndrome (BHD)
- •Pathogenesis
- •Pathological and Radiographic Characteristics
- •Diagnostic Approach
- •Lymphoproliferative Disorders
- •Pathogenesis
- •Pathological and Radiographic Characteristics
- •Diagnostic Approach
- •Amyloidosis
- •Light Chain Deposition Disease (LCDD)
- •Conclusion
- •References
- •Introduction
- •Lymphatic Development
- •Clinical Presentation of Lymphatic Disorders
- •Approaches to Diagnosis and Management of Congenital Lymphatic Anomalies
- •Generalized Lymphatic Anomaly
- •Etiopathogenesis
- •Clinical Presentation and Diagnosis
- •Course/Prognosis
- •Management
- •Kaposiform Lymphangiomatosis
- •Etiopathogenesis
- •Clinical Presentation and Diagnosis
- •Management
- •Course/Prognosis
- •Gorham Stout Disease
- •Etiopathogenesis
- •Clinical Presentation and Diagnosis
- •Management
- •Course/Prognosis
- •Channel-Type LM/Central Conducting LM
- •Etiopathogenesis
- •Clinical Presentation and Diagnosis
- •Management
- •Course/Prognosis
- •Yellow Nail Syndrome
- •Etiopathogenesis
- •Clinical Presentation and Diagnosis
- •Management
- •Course/Prognosis
- •Summary
- •References
- •Introduction
- •Historical Note
- •Epidemiology
- •Pathogenesis
- •Surfactant Homeostasis in PAP
- •GM-CSF Signaling Disruption
- •Myeloid Cell Dysfunction
- •GM-CSF Autoantibodies
- •Lymphocytosis
- •Clinical Manifestations
- •Clinical Presentation
- •Secondary Infections
- •Pulmonary Fibrosis
- •Diagnosis
- •Pulmonary Function Testing
- •Radiographic Assessment
- •Bronchoscopy and Bronchoalveolar Lavage
- •Laboratory Studies and Biomarkers
- •GM-CSF Autoantibodies
- •Genetic Testing
- •Lung Pathology
- •Diagnostic Approach to the Patient with PAP
- •Natural History and Prognosis
- •Treatment
- •Whole-Lung Lavage
- •Subcutaneous GM-CSF
- •Inhaled GM-CSF
- •Other Approaches
- •Conclusions and Future Directions
- •References
- •Introduction
- •Epidemiology
- •Gastric Contents
- •Pathobiology of GER/Microaspirate in the Lungs of Patients with IPF
- •GER and the Microbiome
- •Diagnosis
- •Clinical History/Physical Exam
- •Investigations
- •Esophageal Physiology
- •Upper Esophageal Sphincter
- •Esophagus and Peristalsis
- •Lower Esophageal Sphincter and Diaphragm
- •Esophageal pH and Impedance Testing
- •High Resolution Esophageal Manometry
- •Esophagram/Barium Swallow
- •Bronchoalveolar Lavage/Sputum: Biomarkers
- •Treatment
- •Anti-Acid Therapy (PPI/H2 Blocker)
- •GER and Acute Exacerbations of IPF
- •Suggested Approach
- •Summary and Future Directions
- •References
- •Introduction
- •Familial Interstitial Pneumonia
- •Telomere Related Genes
- •Genetic
- •Telomere Length
- •Pulmonary Involvement
- •Interstitial Lung Disease
- •Other Lung Disease
- •Hepatopulmonary Syndrome
- •Emphysema
- •Extrapulmonary Manifestations
- •Mucocutaneous Involvement
- •Hematological Involvement
- •Liver Involvement
- •Other Manifestations
- •Treatment
- •Telomerase Complex Agonists
- •Lung Transplantation
- •Surfactant Pathway
- •Surfactant Protein Genes
- •Pulmonary Involvement
- •Treatment
- •Heritable Forms of Pulmonary Fibrosis with Autoimmune Features
- •TMEM173
- •COPA
- •Pulmonary Alveolar Proteinosis
- •GMCSF Receptor Mutations
- •GATA2
- •MARS
- •Lysinuric Protein Intolerance
- •Lysosomal Diseases
- •Hermansky-Pudlak Syndrome
- •Lysosomal Storage Disorders
- •FAM111B, NDUFAF6, PEPD
- •Conclusion
- •References
- •Introduction
- •Pathophysiology
- •Clinical Presentation
- •Epidemiology
- •Genetic Causes of Bronchiectasis
- •Disorders of Mucociliary Clearance
- •Cystic Fibrosis
- •Primary Ciliary Dyskinesia
- •Other Ciliopathies
- •X-Linked Agammaglobulinemia
- •Chronic Granulomatous Disease and Other Disorders of Neutrophil Function
- •Other Genetic Disorders Predisposing to Bronchiectasis
- •Idiopathic Bronchiectasis
- •Diagnosis of Bronchiectasis
- •Management of Patients with Bronchiectasis
- •Airway Clearance Therapy (ACT)
- •Management of Infections
- •Immune Therapy
- •Surgery
- •Novel Therapies for Managing Cystic Fibrosis
- •Summary
- •References
- •Pulmonary Arteriovenous Malformations
- •Background Pulmonary AVMs
- •Anatomy Pulmonary AVMs
- •Clinical Presentation of Pulmonary AVMs
- •Screening Pulmonary AVMs
- •Treatment Pulmonary AVMs
- •Children with Hereditary Hemorrhagic Telangiectasia
- •Pulmonary Hypertension
- •Pulmonary Hypertension Secondary to Liver Vascular Malformations
- •Pulmonary Arterial Hypertension
- •Background HHT
- •Pathogenesis
- •References
- •27: Pulmonary Alveolar Microlithiasis
- •Introduction
- •Epidemiology
- •Pathogenesis
- •Clinical Features
- •Diagnosis
- •Management
- •Summary
- •References
- •Introduction
- •Hermansky-Pudlak Syndrome
- •Telomerase-Associated Pulmonary Fibrosis
- •Lysosomal Storage Diseases
- •Lysinuric Protein Intolerance
- •Familial Hypocalciuric Hypercalcemia
- •Surfactant Dysfunction Disorders
- •Concluding Remarks
- •References
- •Introduction
- •Background
- •Image Acquisition
- •Key Features of Fibrosis
- •Ancillary Features of Fibrosis
- •Other Imaging Findings in FLD
- •Probable UIP-IPF
- •Indeterminate
- •Alternative Diagnosis
- •UIP in Other Fibrosing Lung Diseases
- •Pleuroparenchymal Fibroelastosis (PPFE)
- •Combined Pulmonary Fibrosis and Emphysema
- •Chronic Hypersensitivity Pneumonitis
- •Other Fibrosing Lung Diseases
- •Fibrosing Sarcoidosis
- •CTD-ILD and Drug-Induced FLD
- •Complications
- •Prognosis
- •Computer Analysis of CT Imaging
- •The Progressive Fibrotic Phenotype
- •Other Imaging Techniques
- •Conclusion
- •References
- •Introduction
- •Bronchoalveolar Lavage (BAL)
- •Technique
- •Interpretation
- •Transbronchial Biopsy (TBB)
- •Transbronchial Lung Cryobiopsy (TLCB)
- •References
- •Introduction
- •Overview of ILD Diagnosis
- •Clinical Assessment
- •Radiological Assessment
- •Laboratory Assessment
- •Integration of Individual Features
- •Multidisciplinary Discussion
- •Diagnostic Ontology
- •Conclusions
- •References
- •Introduction
- •Idiopathic Pulmonary Fibrosis
- •Chronic Hypersensitivity Pneumonitis
- •Connective Tissue Disease
- •Drug-Induced Lung Diseases
- •Radiation Pneumonitis
- •Asbestosis
- •Hermansky-Pudlak Syndrome
- •Risk Factors for Progression
- •Diagnosis
- •Pharmacological Management
- •Conclusions
- •References
- •Historical Perspective
- •Epidemiology and Etiologies
- •Tobacco Smoking and Male Sex
- •Genetic Predisposition
- •Systemic Diseases
- •Other Etiological Contexts
- •Clinical Manifestations
- •Pulmonary Function and Physiology
- •Imaging
- •Computed Tomography Characteristics and Patterns
- •Thick-Walled Large Cysts
- •Imaging Phenotypes
- •Pitfalls
- •Pathology
- •Diagnosis
- •CPFE Is a Syndrome
- •Biology
- •Complications and Outcome
- •Mortality
- •Pulmonary Hypertension
- •Lung Cancer
- •Acute Exacerbation of Pulmonary Fibrosis
- •Other Comorbidities and Complications
- •Management
- •General Measures and Treatment of Emphysema
- •Treatment of Pulmonary Fibrosis
- •Management of Pulmonary Hypertension
- •References
- •Acute Interstitial Pneumonia (AIP)
- •Epidemiology
- •Presentation
- •Diagnostic Evaluation
- •Radiology
- •Histopathology
- •Clinical Course
- •Treatment
- •Epidemiology
- •Presentation
- •Diagnostic Evaluation
- •Radiology
- •Histopathology
- •Clinical Course
- •Desquamative Interstitial Pneumonia (DIP)
- •Presentation
- •Diagnostic Evaluation
- •Radiology
- •Histopathology
- •Clinical Course
- •Treatment
- •Epidemiology
- •Presentation
- •Diagnostic Evaluation
- •Radiology
- •Histopathology
- •Clinical Course
- •Treatment
- •References
- •Organizing Pneumonias
- •Epidemiology
- •Pathogenesis
- •Clinical Features
- •Imaging
- •Multifocal Form
- •Isolated Nodular Form
- •Other Imaging Patterns
- •Histopathological Diagnosis of OP Pattern
- •Etiological Diagnosis of OP
- •Treatment
- •Clinical Course and Outcome
- •Severe Forms of OP with Respiratory Failure
- •Acute Fibrinous and Organizing Pneumonia
- •Granulomatous Organizing Pneumonia
- •Acute Interstitial Pneumonia
- •Epidemiology
- •Clinical Picture
- •Imaging
- •Histopathology
- •Diagnosis
- •Treatment
- •Outcome
- •References
- •36: Pleuroparenchymal Fibroelastosis
- •Introduction
- •Epidemiology
- •Clinical Manifestations
- •Laboratory Findings
- •Respiratory Function
- •Radiologic Features
- •Pathologic Features
- •Diagnosis
- •Treatment
- •Prognosis
- •Conclusions
- •References
- •Introduction
- •Acute Berylliosis
- •Chronic Beryllium Disease
- •Exposure
- •Epidemiology
- •Immunopathogenesis and Pathology
- •Genetics
- •Clinical Description and Natural History
- •Treatment and Monitoring
- •Indium–Tin Oxide-Lung Disease
- •Hard Metal Lung
- •Flock Worker’s Disease
- •Asbestosis
- •Nanoparticle Induced ILD
- •Flavoring-Induced Lung Disease
- •Silica-Induced Interstitial Lung Disease
- •Chronic Silicosis
- •Acute and Accelerated Silicosis
- •Chronic Obstructive Disease in CMDLD
- •Simple CMDLD
- •Complicated CMDLD
- •Conclusion
- •References
- •38: Unclassifiable Interstitial Lung Disease
- •Introduction
- •Diagnostic Scenarios
- •Epidemiology
- •Clinical Presentation
- •Diagnosis
- •Clinical Features
- •Radiology
- •Laboratory Investigations
- •Pathology
- •Conclusion
- •References
- •39: Lymphoproliferative Lung Disorders
- •Introduction
- •Nodular Lymphoid Hyperplasia
- •Lymphocytic Interstitial Pneumonia (LIP)
- •Follicular Bronchitis/Bronchiolitis
- •Castleman Disease
- •Primary Pulmonary Lymphomas
- •Primary Pulmonary MALT B Cell Lymphoma
- •Pulmonary Plasmacytoma
- •Follicular Lymphoma
- •Lymphomatoid Granulomatosis
- •Primary Pulmonary Hodgkin Lymphoma (PPHL)
- •Treatment
- •References
- •Introduction
- •Late-Onset Pulmonary Complications
- •Bronchiolitis Obliterans (BO)
- •Pathophysiology
- •Diagnosis
- •Management of BOS
- •Post-HSCT Organizing Pneumonia
- •Other Late-Onset NonInfectious Pulmonary Complications (LONIPCs)
- •Conclusion
- •References
- •Introduction
- •Pulmonary Hypertension Associated with Sarcoidosis (Group 5.2)
- •PH Associated with Pulmonary Langerhans Cell Histiocytosis (Group 5.2)
- •PH in Combined Pulmonary Fibrosis and Emphysema (Group 3.3)
- •PH Associated with Lymphangioleiomyomatosis (Group 3)
- •Hereditary Hemorrhagic Telangiectasia (Group 1.2)
- •Pulmonary Veno-Occlusive Disease (Group 1.5)
- •Small Patella Syndrome (Group 1.2)
- •Conclusion
- •References
- •Introduction
- •Epidemiology
- •Timing, Chronology, Delay Time
- •Route of Administration
- •Patterns of Involvement [3, 4]
- •Drugs and Agents Fallen Out of Favor
- •Drug-Induced Noncardiac Pulmonary Edema
- •Drug-Induced Cardiogenic Pulmonary Edema
- •The “Chemotherapy Lung”
- •Drug-Induced/Iatrogenic Alveolar Hemorrhage
- •Drugs
- •Superwarfarin Rodenticides
- •Transfusion Reactions: TACO–TRALI
- •Acute Eosinophilic Pneumonia
- •Acute Granulomatous Interstitial Lung Disease
- •Acute Organizing Pneumonia (OP), Bronchiolitis Obliterans Organizing Pneumonia (BOOP), or Acute Fibrinous Organizing Pneumonia (AFOP) Patterns
- •Acute Amiodarone-Induced Pulmonary Toxicity (AIPT)
- •Accelerated Pulmonary Fibrosis
- •Acute Exacerbation of Previously Known (Idiopathic) Pulmonary Fibrosis
- •Anaphylaxis
- •Acute Vasculopathy
- •Drug-Induced/Iatrogenic Airway Emergencies
- •Airway Obstruction as a Manifestation of Anaphylaxis
- •Drug-Induced Angioedema
- •Hematoma Around the Upper Airway
- •The “Pill Aspiration Syndrome”
- •Catastrophic Drug-Induced Bronchospasm
- •Peri-operative Emergencies (Table 42.8)
- •Other Rare Presentations
- •Pulmonary Nodules and Masses
- •Pleuroparenchymal Fibroelastosis
- •Late Radiation-Induced Injury
- •Chest Pain
- •Rebound Phenomenon
- •Recall Pneumonitis
- •Thoracic Bezoars: Gossipybomas
- •Respiratory Diseases Considered Idiopathic That May Be Drug-Induced (Table 42.4)
- •Eye Catchers
- •Conclusion
- •References
- •Cancer Mimics of Organizing Pneumonia
- •Lung Adenocarcinoma/Bronchioloalveolar Carcinoma
- •Primary Pulmonary Lymphoma
- •Cancer Mimics of Interstitial Lung Diseases
- •Lymphangitic Carcinomatosis
- •Epithelioid Hemangio-Endothelioma
- •Lymphomatoid Granulomatosis
- •Cystic Tumors
- •Cavitating Tumors
- •Intrathoracic Pseudotumors
- •Respiratory Papillomatosis
- •Pulmonary Langerhans Cell Histiocytosis
- •References
- •Index
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pressure separating atmospheric and intrathoracic pressures that reduces air entry from the pharynx and prevents retrograde movement of esophageal contents. This pressure varies signi cantly during normal daily activities (ex. respiration, sleep, and coughing) and adaptive changes in pressure are controlled by afferent signaling from the vagus nerve. A number of refexes increase UES tone and play a key role in preventing the refux of gastric contents into the lung. For example, UES tone increases in response to slow dilation of the esophagus or in response to increase in intrathoracic pressure (i.e., gagging or the Valsalva maneuver).
Esophagus and Peristalsis
The esophagus is a 22–24 cm tube in adults that terminates at the gastroesophageal junction (GEJ). Primary peristalsis is triggered by the swallowing mechanism which results in a sequence of contractile events through four distinct segments. Secondary peristalsis can also occur at any segment of the esophagus and occurs in response to luminal distension. These actions propel the esophageal contents distally towards the stomach. Esophageal motility can be abnormal with decreased contractions (hypocontracting esophagus), increased contractions (nutcracker esophagus), or be affected by systemic disorders such as scleroderma ( brosis of esophageal smooth muscle) [30]. Esophageal function is best assessed by high resolution manometry which is discussed in detail in a later section.
Lower Esophageal Sphincter and Diaphragm
The lower esophageal sphincter (LES) is a specialized section of smooth muscle at the junction of the esophagus and stomach. Similar to the UES tonic contraction of this region creates a resting pressure that is 15–30 mmHg higher than intra-abdominal pressure. The most distal portion of the LES lies distal to the diaphragm and is exposed to intra-abdominal pressures which has a valve-like effect. The portions of the diaphragm adjacent to the LES are the crura, bromuscular structures that originate from the vertebra wrapping around the esophageal hiatus and inserting into the central tendon (Fig. 23.3). The crural diaphragm plays a key role in maintaining LES pressure during dynamic events such as respiration or increased intra-abdominal pressure. Several studies have demonstrated that even in the absence of lower esophageal sphincter tone the activity of the crural diaphragm can prevent refux of gastric contents. In addition to relaxation during swallowing and peristalsis the LES undergoes transient episodes of relaxation to allow for events such as belching. It is thought that during these episodes of relaxation the majority of GER occurs [31].
A hiatal hernia is the translocation of abdominal contents through the esophageal hiatus into the thoracic cavity (Fig. 23.4). There are three recognized types with Type I being the most common (>90% of cases) and describes the
Fig. 23.3 The undersurface of the diaphragm. The esophageal hiatus is marked by the dashed circle. The origins of the left and right crus are marked by (*) originating from the vertebra wrapping around the esophageal hiatus to insert into the central tendon. These structures are essential to maintaining lower esophageal sphincter pressure
herniation of the gastric cardia upwards due to widening of the aperture of the esophageal hiatus [32]. The presence of a hiatal hernia increases the risk of GER through several mechanisms including: decreased LES pressure and length, impaired diaphragmatic sphincter activity, and delayed esophageal acid clearance [33]. Numerous studies have demonstrated that the presence of a hiatal hernia is associated with more frequent GER, increased severity, and a poorer response to pharmacologic therapy [34, 35].
One theory has proposed a causative link between IPF and abnormal GER as a result of decreased compliance of the pulmonary system and distortion of mediastinal structures as brosis progresses. This distortion effect could impact the pressure and behavior of the esophageal sphincter causing increased refux. Furthermore, the presence of pulmonary brosis could lead to increased transdiaphragmatic pressure gradients. This has not been rigorously tested and several studies have not shown any positive correlation between severity of lung function impairment and the presence of GER [9, 36, 37].
Esophageal pH and Impedance Testing
The direct measurement of acid GER is facilitated by the use of a catheter which can measure the pH of the esophageal contents in the area of the sensor. A transnasal catheter is advanced through the esophagus with the end resting at 5 cm above the lower esophageal sphincter (to allow for shifting with head movement). Some catheters have a second sensor at the proximal esophagus to allow for measurements in this
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a |
c |
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b |
d |
Fig. 23.4 High resolution computed tomography (HRCT) images with sagittal and coronal sections. Panels a and b demonstrate in the sagittal plane a moderate sized hiatal hernia in the thoracic cavity (red circle
and arrows). Panels c and d demonstrate the same nding in a coronal plane. In addition, there are basal predominant subpleural reticular markings and interlobular septal thickening
area. Less commonly, a wireless pH sensor can be placed via endoscopy in the distal esophageal mucosa. The catheter is left in position and takes repeated measurements over a period of 24 h. This duration is chosen to capture and entire circadian cycle with a variety of activities and postures including eating (upright) and sleeping (recumbent). Most reports are provided with tracings showing the pH at both the proximal and distal probes over the duration of the study (Fig. 23.5).
A refux event is de ned as a decrease in the esophageal pH to less than 4. The acid exposure time (AET) can be calculated by determining the percent of time of the total study with a pH < 4. The DeMeester score is a composite of six parameters from the 24-h test including: total AET, upright AET, supine AET, number of refux episodes (of any length), number of refux episodes >5 mins, and the duration of the longest refux episode. A 24-h pH score (DeMeester Score) is
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Fig. 23.5 Sample tracing from a 24-h pH monitor study. Time is displayed along the X-axis in 15-min intervals and both the proximal (pH1) and distal (pH2) probes are displayed. The pH measured at each probe is displayed on the Y-axis. Patient-reported events including meals, and symptoms are reported above the pH tracings. In this example an early period of normal pH is demonstrated with periodic
Table 23.1 Components of the DeMeester score [39]
|
Normal values (mean control values |
Parameters |
+/− 1 SD) |
Total AET |
<4.2% (1.47% ± 1.38) |
|
|
Upright AET |
<6.3% (2.33% ± 1.97) |
|
|
Supine AET |
<1.2% (0.286% ± 0.467) |
|
|
Number of refux episodes |
<50 (18.93 ± 13.78) |
Number of refux episodes |
≤3 (0.64 ± 1.28) |
>5 mins |
|
Duration of longest refux |
<9.2 min (3.83 min ± 2.78) |
episode |
|
|
|
AET acid exposure time |
|
determined by calculating the number of standard deviation equivalents in each measured value of the six components. The normal values for these measurements are displayed in Table 23.1 and a normal total score is <14.7 [38, 39].
A major disadvantage of pH testing is the inability to measure weakly acidic or non-acidic refux episodes which contain other gastric contents that can be introduced to the lower respiratory system. Impedance testing provides the ability to measure and characterize the movement of liquid in the esophagus. Several pairs of electrodes are placed along the esophageal catheter and the electrical resistance between these pairs is measured (as impedance). Impedance is low with liquid present between the electrodes and high when air is present. This allows for anterograde and retrograde movement of esophageal fuid to be quanti ed and characterized. When added to pH testing this increases the speci city and sensitivity of detecting refux episodes [40].
episodes of decreased pH at both the distal and proximal probes associated with a meal (red arrows). A subsequent period in the recumbent position is associated with a prolonged episode of refux (pH < 4) at the distal probe (red box). This example highlights an episode of prolonged refux after eating a meal and lying recumbent shortly thereafter
High Resolution Esophageal Manometry
The evaluation of esophageal function is a critical part of the investigation of patients with IPF and suspected GER or microaspiration. High resolution manometry is the recommended test for identifying major or minor disorders of peristalsis and outfow obstruction of the distal esophagus. A standardized approach to test performance and interpretation has been published in the Chicago Classi cation [41].
A manometry catheter is introduced into the esophagus and in the supine position the patient ingests 10 separate boluses of 5 mL of saline. An additional set of swallowed boluses can be performed with a viscous gel to better simulate the consistency of food. Sensors distributed along the catheter measure pressure along the esophagus and allows for the assessment of peristalsis and sphincter function (Fig. 23.6).
Peristalsis is critical for the propulsion of a food bolus through the esophagus and coordinated function of the upper and lower esophageal sphincters prevent retrograde movement. Impaired esophageal motility can increase the prevalence and severity of GER [42, 43]. Gao et al. compared patients with IPF and matched controls (both groups had GERD) and performed high resolution esophageal manometry, pH, and impedance testing. When compared to controls IPF patients with GER (con rmed with pH testing) had lower upper esophageal sphincter pressures and increased food bolus transit times [44].
While some disagreement exists over whether any speci c ndings on manometry studies correlate with GERD [45, 46] identifying abnormal esophageal motility can iden-
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