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PATHOLOGY of the RESPIRATORY SYSTEM Dr. Mohammad A.A. Al-Qudah Soul batch Lung pathology may involve any or all of the following : The airways The parenchyma & interstitium The pulmonary vascular system Some diseases end in heart failure : COR PULMONALE Many diseases may be accompanied by ATELECTASIS PATHOGENESIS : Alveolar septae structure Atelectasis : Loss of lung volume due to inadequate expansion of airspace leading to ventilationperfusion imbalance → hypoxia. May involve : 1- Segment 2- Lobe 3- Lung Maybe reversible if cause is removed. Types of Atelectasis : 1-Resorption atelectasis ( obstructive ) : -Foreign body -Mucus plug in asthma & chronic bronchitis -Post surgery -Tumor. Mediastinal Shift to Same Side 2- Compression atelectasis : causes include - Air or fluid in pleural cavity - Elevated diaphragm Mediastinal Shift to Opposite Side Types of Atelectasis Atelectasis 3- Contraction atelectasis :- - Localized or generalized. - Post inflammatory scarring. - Fibrotic changes . Usually irreversible. 4- Microatelectasis : - Due to loss of surfactant. - Usually generalized. - Acute or Neonatal Respiratory Distress Syndrome. Note : No mediastinal shift in 3 or 4 Morphology of Atelectasis : Gross : - Shrunken, purple & subcrepitant lung. (nodular). Microscopic : - Slit like alveoli, congested septae ,fluid in spaces. - Hyaline membranes in microetelectasis. Outcome of atelectasis depends on: 1- Cause (regardless of the type of atelectasis). 2- Size of involved area. 3- Duration to start treatment. ACUTE LUNG INJURY Acute Respiratory Distress Syndrome Clinical syndrome that is caused by many conditions. Clinical manifestations include: Sudden and Acute onset of severe dyspnea. Hypoxaemia, hypercapnia. Diffuse bilateral pulmonary infiltrates (radiology). ** This will lead to respiratory failure. - The above mentioned manifestations should happen in the absence of left sided heart failure. Again, it is a disease caused by many diseases that might affect Endothelial or Epithelial cells in the alveoli. Acute Respiratory Distress Syndrome is a severe form of acute lung injury. ARDS: Cause: diffuse alveolar (epithelia & endothelial) damage. Cascade of reactions that will be activated more and more by inflammation. Rapid onset and life threatening condition. Aetiology Direct injury Pneumonia. Aspiration of gastric contents. Toxic inhalation. Indirect injury Sepsis. ***** Multiple trauma. Multiple bone fractures Head trauma Severe Burns Multiple transfusions. Drug overdose. Pancreatitis. Aetiology Sepsis & pneumonia account for 40-50% of cases Risk factors: Multiple pre-disposing medical conditions specially with a severe critical illness Older age Chronic alcohol abuse Metabolic acidosis Many others PATHOGENESIS : Alveolar septae structure Pathogenesis : Injurious agent ( airways or hematogenous) Diffuse Alveolar Damage ( DAD ) - VASCULAR ENDOTHELIUM. - ALVEOLAR EPITHELIUM. Endothelium permeability, severe edema. Epithelium ↓surfactant microatelectasis. Injury is caused by imbalance of pro-inflammatory & antiinflammatory mediators. • Nuclear Factor (NF-κB) activation is pro-inflammatory . Activated macrophages IL-8, IL-1,TNF..etc Selection, isolation & activation of neutrophils in the microcirculation. Neutrophils release oxidants, proteases,PAF , leukotrienes tissue damage. LATER : Macrophage derived fibrogenic factors ( TGF, PDGF, IL-1, TNF) Recruitment of fibroblasts → Fibrogenesis. All previous can be counteracted by endogenous antiproteases, antioxidants & anti - inflammatory cytokines(IL-10) Clotting cascade is also triggered. PHASES of ARDS: Acute phase: Accumulation of protein-rich fluid in interstitium & alveoli, most in dependent areas diminished gas exchange and atelectasis. Significant concentration of cytokines in lung neutrophil infiltration.** Plasma protein in air spaces with cellular debris and dysfunctional surfactant HYALINE MEMBRANES ** Vascular injury microthrombi & fibrocellular proliferation Pulm. HTN. Hyaline membranes in ARDS Organizing phase: Patients may recover rapidly or may still experience dyspnea,& hypoxaemia. Histology Organisation of alveolar exudates. Lymphocyte-predominant infiltrate. Proliferation of Type II pneumocytes. Fibrosis: Most patients recover lung function after 3-4 weeks, but some enter a fibrotic phase. Requires long-term mechanical ventilation and/or supplementary O2. Histology Extensive fibrosis. Disrupted architecture Emphysema like. Intimal proliferation of microcirculation vascular occlusion + pulmonary HTN. End result is HONEY COMB LUNG Honeycomb Lung Clinical picture : Manifested as Acute Respiratory Distress Syndrome Acute severe dyspnea, rapid hypoxemia & cyanosis. That usually develops within 72 hours of insult in 85% of patients. Bilateral severe pulmonary edema in the absence of left ventricular failure Radiological evidence of bilateral pulmonary infiltrates Multisystem failure, secondary infection & DIC. Clinical Course: Highly fatal in acute phase (30-40% ) - Prognosis is worse in old age. - Bronchoalveolar lavage done to assess level of IL-1 & Procollagen III In patients surviving acute insult restored pulmonary function in 6-12 months. DISEASES OF VASCULAR ORIGIN IN THE LUNG VASCULAR PULMONARY DISEASES PULMONARY EMBOLISM (with or usually WITHOUT infarction). PULMONARY HYPERTENSION, leading to cor pulmonale. HEMORRHAGIC SYNDROMES GOODPASTURE SYNDROME. HEMOSIDEROSIS, idiopathic. Pulmonary Angiitis (WEGENER GRANULOMATOSIS). 1- Pulmonary thromboembolism - Preventable cause of death in hospital - 95% originate from deep veins in legs - Predisposing causes : Prolonged surgery. Pregnancy or birth control pills ( estrogen). Disseminated cancer. Congestive Heart Failure. Prolonged bed rest without moving legs. Hypercoagulability states. Outcome of occlusion : Depends on size of vessel & state of circulation i - Large in P.Trunk or Saddle embolus Sudden Death ii- Medium size, ischemic damage to capillaries or occlusion Lung Hemorrhage OR Pulmonary Infarction Morphology : - Negative if sudden death. - Wedge shaped necrosis ,thrombus in vessel , may be with hemorrhage, fibrinous exudate on the pleura. - Fibrosis Base of necrosis will be on the pleura, while the apex will point toward the hilum of the lung. Clinical Presentation of P.embolism: - Asymptomatic (60-80%). - If more than 60% reduction in blood flow Acute cor pulmonale &sudden death (5%). - If in between: Sudden dyspnea, chest pain due to infarction. - Recurrent multiple emboli & infarcts leading to chronic pulmonary hypertension (3%). - One attack 30% increase of the risk to have recurrent attacks. 2- Pulmonary Hypertension : - Arises in one of two ways : i- Decrease in the cross sectional area of pulmonary vascular bed. ii-Increase in pulmonary vascular flow. - Primary OR secondary Causes of secondary hypertension : i - Cardiac disease ii - Chronic lung disease iii- Inflammatory vascular disease iv- Recurrent thromboembolism Primary Pulmonary Hypertension : More in young females Familial & sporadic cases occur Probably genetic: TGF-β, 5-HTT Pathogenesis : Endothelial cell dysfunction & smooth muscle proliferation → vasoconstriction. - Endothelin regulates the diameter of blood vessels in the lungs. - An increase in endothelin can cause the small arteries in the lungs to narrow pulmonary hypertension Pathology of pulmonary hypertension 1- Main arteries Atheroma. 2- Medium sized muscular arteries myointimal & smooth muscle proliferation. 3- Small arteries & arterioles medial hypertrophy duplication elastic lamina. 4- In long standing primary cases Complicated Plexiform Lesions Poor prognosis unless lung transplant Normal Capillary Hyaline Arteriolosclerosis Arteriolar wall is hyalinized and the lumen is markedly narrowed in benign hypertension 3- Diffuse Alveolar Hemorrhage Syndromes : Primary immune mediated diseases. Clinically : Hemoptysis, Anemia,Diffuse pulmonary infiltrates. Include several types e.g. Goodpasture’s Syndrome. GPS:proliferative progressive Glomerulonephritis & hemorrhagic interstitial pneumonitis. Caused by Ab against collagen IV in BM. 4- IDIOPATHIC HEMOSIDEROSIS Similar histology to GP but no renal involvement. Unknown cause. No Anti Basement membrane antibodies. 5- Pulmonary Angiitis: Wegener granulomatosis. 80% of patients will develop lung manifestations. Necrotizing vasculitis & granulomas. Can present with upper respiratory tract manifestations. (sinusitis, epistaxis). If not involving kidney Limited Wegener.