Suction drainage: a new approach to the treatment of empyema (original) (raw)

Management of empyema - Role of a surgeon

Journal of Indian Association of Pediatric Surgeons, 2005

Postpneumonic empyema still remains quite common in developing countries, especially during the hot and humid months. While most cases would respond to antibiotic therapy, needle aspiration and intercostal drainage, few cases require further surgical management. The most common nontubercular etiological agent is Staphylococcus. Tubercular etiology is not uncommon in India, especially due to delayed presentation, multiresistant strains, mismanaged cases, and noncompliance with antitubercular treatment amidst malnutrition and anemia. Clinical symptoms, a skiagram chest followed by thoracentesis are enough for diagnosis. Pleural fluid is usually diagnostic and helps in choosing the appropriate antibiotics. Further investigations and management depends on the stage of the disease. Thoracentesis alone may be sufficient for the exudative phase. In fibrinopurulent stage, a properly sized and well-placed tube thoracostomy with underwater seal is curative in most cases. Interventional radiologists have placed small-bore catheters, specifically directed to the loculated collection and have used fibrinolytics like urokinase, streptokinase, and tissue plasminogen activator (TPA) to break loculations, ameliorate fibrous peel formation, and fibrin deposition. Thoracoscopic debridement and thoracoscopic decortication is an alternative with distinct advantages over thoracotmy and are indicated if there was no response with intercostal drainage procedure. In the organizing stage, a thoracotomy (for decortication) would be required if there is a loculated empyema, underlying lung disease or persistently symptomatic effusions. Timely institution of proper management prevents the need for any surgical intervention and avoids long-term morbid complications.

Role of medical Thoracoscopy in the Management of Multiloculated Empyema

BMC Pulmonary Medicine, 2018

Background: The treatment of early pleural empyema depends on the treatment of ongoing infection by antimicrobial therapy along with thoracocentesis. In complicated empyema this treatment does not work and lung will not expand until removal of adhesions. The objective of the current study is to analyze the experience of management of multiloculated, exudative and fibrinopurulent empyema through rigid medical thoracoscopy under local anaesthesia and to explore new ways to manage the entity. Methods: This is a descriptive case series in which 160 patients were recruited through non-probability convenient sampling, from department of pulmonology, Jinnah postgraduate medical centre, Karachi, from September 2014 to August 2016. All patients underwent medical thoracoscopy under local anesthesia. Written Informed consent was taken from the study participants. Ethical approval was obtained from Ethical Review Committee of the hospital. Patients age > 70 years, those with multiple organ failure and bleeding disorders were excluded. Results: Out of 160 patients, 108 (67.50%) were male and 52 (32.5%) were female with mean age 25.37 years (range 16 to 70 years). Out of total, 102 (63.7%) had tuberculous empyema, while pleural biopsy of 58 (36.3%) patients was suggestive of non-tuberculous empyema. Final evolution through chest x-ray revealed complete resolution in 92 (57.5%), partial resolution in 58 (36.25%) patients. 9 (5.6%) developed persistent air leak while 1 (0.6%) patient expired due to urosepsis. Conclusion: Medical Thoracoscopy under local anesthesia is a safe, efficient and cost effective intervention for management of complicated empyema, particularly in resource constraint settings.

Management of empyema thoracis

The Annals of Thoracic Surgery, 1990

Over a 5-year period, 65 adult patients with empyema thoracis were treated. The cause of the empyema was postpneumonic in 52%, postresectional in 24%, a complication of minor surgical procedures in 14%, posttraumatic in 5%, and the result of miscellaneous causes in 5%. In the postpneumonic group, infection resulted from a single aerobic organism in 41%, multiple aerobic organisms in 9%, single anaerobic organisms in 12%, and mixed aerobic-anaerobic organisms in 18%. Peptostreptococcus, Streptococcus viridans, Staphylococcus epidermidis, Peptococcus, Staphylococcus aureus, and diphtheespite the widespread availability of antibiotics and a D declining incidence [ 11, empyema thoracis remains a serious problem. The present series of 65 patients represents a typical patient population of empyema treated at a large tertiary-care facility with an associated community-based referral. The approach was conventional and included initial drainage followed by thoracotomy if the empyema failed to resolve. Although there are reports on the merits of early decortication (21, in most studies the conventional approach has been used. We found intrathoracic transposition of extrathoracic skeletal muscles to be very effective as an adjuvant to decortication in postpneumonic empyema. The transposed muscle filled all residual intratho-For editorial comment, see page 343. racic spaces after decortication, thereby avoiding the need for thoracoplasty. Material and Methods Over a 5-year period 65 adult patients, 60 men and 5 women, with empyema were referred to the Thoracic Surgical Service of the Health Sciences Center, Winnipeg. The Health Sciences Center is a major tertiary-care center and also serves a large population of patients from the surrounding central area of the city. All patients with suspected empyema in the Center are referred to the Thoracic Surgical Service. The patients included in this series all had pleural effusion with an elevated white blood cell count consisting predominantly of granulocytes or had bacterial organisms demonstrated on Gram stain or culture. Parapneumonic effusions that did not meet these criteria are not included in this review. All pleural fluid

Approach to Empyema Necessitatis

World Journal of Surgery, 2011

Background Thoracic empyema is a collection of pus in the pleural space. Empyema necessitatis is a rare complication of empyema, characterized by the dissection of pus through the soft tissues of the chest wall and eventually through the skin. We present nine cases of empyema necessitatis, including etiology, duration, and characteristics of clinical history, kind of surgery used, and treatment choices. Methods In a 4-year period nine patients were treated for empyema necessitatis. Six were male and 3 female with an age range of 13–89 years (median = 40 years). Results Empyema necessitatis was treated with drainage and antibiotherapy or antituberculosis therapy in three patients with the diagnosis of tuberculosis or nonspecific pleuritis. Decortication of the thoracic cavity was used in three patients successfully. Others were treated with open drainage. Final diagnoses were tuberculous empyema in five patients, chronic fibrinous pleuritis in three, and squamous cell carcinoma in one. Except for two patients, one with multisystem failure and one with squamous cell carcinoma, all were discharged with no complications. Conclusion Surgery plays a critical role in the management of empyema necessitatis in selected patients. Tube drainage, open drainage, and decortication are the choices in variable conditions for obliterating the cavity and regenerating pulmonary function.

Open thoracotomy and decortication for chronic empyema thoracis: Our experience

Chest Disease Reports

Empyema thoracis is defined as the presence of pus in the pleural space or a purulent pleural effusion. Chronic empyema is characterized by thickened visceral and parietal peels, which hamper the ability of the affected lung to re-expand and require definitive surgical intervention. In a resource constraint environment like ours, open thoracotomy and decortication is the treatment of choice. We review our experience with cases of chronic empyema thoracis that had thoracotomy and decortication. This is a descriptive, retrospective, and observational study. Medical records of patients who had thoracotomy and decortication on account of chronic empyema thoracis in the Cardiothoracic surgery unit of our hospital between 2012 and 2020 were retrieved and reviewed. The information obtained from the records included sex, age, premorbid conditions, aetiology of empyema, cultures of pleural fluids, histology results of the cortex removed, duration of chest tube drainage, duration of hospital ...

Surgical Management of Empyema

Clinics in Chest Medicine, 1998

The sterile pleural space can be invaded by organisms originating in extrathoracic and intrathoracic sites, leading to the development of a pyogenic collection referred to as empyema. From ancient times to the middle of this century, most empyemas were the result of pneumonic, traumatic, or tuberculous processes. With thoracotomy becoming a commonly performed procedure, postsurgical empyema now constitutes 20% of all cases.

The clinical course and management of thoracic empyema

QJM, 1996

We report a prospective multi-centre study of the clinical course and hospital management of thoracic empyema in 119 patients (mean age 54.8). The commonest presenting symptom was malaise (75%), 55% were febrile; 3 1 % were previously well with no predisposing condition. Initial treatments were antibiotics alone (5), needle aspirations (46), intercostal tube drainage (61), rib resection (3) and decortication (4). Overall, intercostal drainage was used in 77 patients (16 failed aspirations), surgical rib resection in 24 (1 failed aspirations, 20 failed drainage), and surgical decortication in 28 (6 failed aspirations, 17 failed drainage). Only 4 patients received intrapleural fibrinolytic agents. Aspiration and drainage were likely to fail if the empyema was > 40% of the hemithorax. Median time from treatment start to discharge was: aspirations, 26 days; drainage, 23 days; resection 11 days; decortication, 12 days. Overall 21 patients died (12 with empyema as the major cause); two had been surgically treated. Mortality correlated with age, diabetes, heart failure, and low serum albumin at admission. Infecting organisms, identified in 109 patients (92%) included anaerobes (37), Str. melleri (36), and Str. pneumoniae (28). Six months after discharge, all but six survivors had regained their previous health.