Pulmonary Embolism
DVT – Epidemiology and Etiology Annual incidence of venous thromboembolism (VTE) is 1/1000 DVT accounts for over one half of VTE Carefully evaluated, up to 80% of patients with VTE have one or more risk factors Majority of lower extremity DVT arise from calf veins but ~20% begin in proximal veins About 20% of calf-limited DVTs will propagate proximallyDVT – VTE Risk Factors Malignancy Surgery Trauma Pregnancy Oral contraceptives or hormonal therapy Immobilization Inherited thrombophillia
Presence of venous catheter Congestive failure Antiphospholipid antibody syndrome Hyperviscosity Nephrotic syndrome Inflammatory bowel disease
An Introduction to Pulmonary embolus
Pulmonary Blood FlowPulmonary embolism is a life-threatening condition that occurs when a clot of blood or other material blocks an artery of the lungs
Pulmonary Embolism back ground
Prompt diagnosis and treatment can dramatically reduce the mortality and morbidity rate. Majority of the cases are unrecognised clinically. One third of the patients who survive an initial PE die of a future embolic episode. Many patients who die of PE have not had any diagnostic workup nor have they received any prophylaxis for the disease. In most cases the CLINICIANS have not even considered the diagnosis of PE.Pathophysiology of pulmonary embolism
It is often a fatal complication of underlying venous thrombosis. Normally microthrombi (RBC,Platelets and Fibrin) are formed and lysed with in the venous circulatory system. Under pathological condition these microthrombi may escape and propagate and will block the pulmonary blood vessels causing PEPredisposing factors
Patients on prolonged bed rest for > a week. Prolonged immobilization.Patients in ICU, CCU.After bypass surgery or any surgery.All trimesters of pregnancy and puerperium.Older patients – Age no bar still.Predisposing factors
1-CCF. 2-Fractures. 3-Oral Contraceptives. 4-Drug abuse.5-MI. 6-Obesity. 7-Old age. 8-Malignancy. 9-Catheters
Patient presentation
Haemoptysis, Dyspnoea and Chest pain – (Virchows Triad)Back pain, Abdominal pain, wheezing, SOB, Seizures, Productive cough, Hiccoughs, Fever……Can be asymptomatic.Diagnostic Modalities in PE
ECG*** D Dimer assay test Plain film radiography Radionuclide imaging (VQ Scan) CT Angiography Pulmonary angiography Echocardiography Ultrasound(DVT)*** MRI & MRAD-Dimer Assays
Gainfully employed to select patients for further radiological imaging.It is a cross linked fibrin degradation product and a plasma marker of fibrin lysis.Serum level less than 500ng/L excludes PE with 90-95% accuracy.Unfortunately a positive test is non specific (specificity only 25 – 67% and occurs in about 40 – 69% of the patientsPlain film radiography Chest X-ray
Initial CxR always NORMALPlain film radiography Chest X-ray
Initial CxR always NORMAL.May show – Collapse, consolidation, small pleural effusion, elevated diaphragm.Pleural based opacities with convex medial margins are also known as a Hampton's HumpPlain film radiography Chest X-ray
Initial CxR always NORMAL.May show – Collapse, consolidation, small pleural effusion, elevated diaphragm.Westermark sign – Dilatation of pulmonary vessels proximal to embolism along with collapse of distal vessels, often withEmbolism without Infarction
Most PEs (90%) Frequently normal chest x-ray Pleural effusion Westermark’s sign “Knuckle” sign abrupt tapering of an occluded vessel distally Elevated hemidiaphragmEmbolism with Infarction
Consolidation Cavitation Pleural effusion (bloody in 65%) No air bronchograms “Melting” sign of healing Heals with linear scarVentilation-perfusion scanning V/Q Scanning
Single most important diagnostic modality for detecting PE. Always indicated when PE is suspected and there is no other diagnosis. 1 in every 25 pts sent home after a normal V/Q scan actually has a PE that has been MISSEDVentilation-perfusion scanning V/Q Scanning
Ventilation-perfusion scanning V/Q ScanningRadiological procedure which is often used to confirm or exclude the diagnosis of pulmonary embolism. It may also be used to monitor treatment. The ventilation part of the scan is the inhalation of Krypton 81m, which has a short half life and is a pure gamma emitter. Ventilation is assessed under a gamma camera.
Ventilation-perfusion scanning V/Q Scanning
The perfusion part of the scan is achieved by injecting the patient with technetium 99m, which is coupled with macro aggregated albumin (MAA). This molecule has a diameter of 30 to 50 micrometres, and thus sticks in the pulmonary capillaries. An embolus shows up as a cold area when the patient is placed under a gamma camera. The MAA has a half life of about 10 hoursSpiral CT
HRCT (spiral) CT with CT angiography is a promising technique.CT unlikely to miss any lesion.CT has better sensitivity, specificity and can be used directly to screen for PE.CT can be used to follow up “non diagnostic V/Q scans.Pulmonary Angiogram
Positive angiogram provides 100% certainty that an obstruction exists in the pulmonary artery.Negative angiogram provides > 90% certainty in the exclusion of PE. Catherterisation of the Subclavian vein – Superior vena cava – right atrium – right ventricle – main pulmonary arteryPulmonary Angiogram
Pulmonary AngiogramWestermark sign – Dilatation of pulmonary vessels proximal to embolism along with collapse of distal vessels, often with a sharp cut off.