Decade Experience in Pleurectomy and Lung Decortications for Chronic Empyema Thoracis

Background: Chronic empyema thoracis is a debilitating illness with high morbidity and mortality, and is seen among all age groups in Nigeria. Objective: To review all cases of chronic empyema thoracis treated by pleurectomy and lung decortication and highlight the indications, challenges and the outcome. Materials and Method: In a 10-year period spanning 2007-2016, 90 patients with chronic empyema thoracis were admitted and managed in our institution. A retrospective study of 36 patients who underwent surgery was performed. Results: Ten patients (27.80%) out of 36 patients had unsuccessful one month closed chest tube drainage (CTTD). Six patients (16.67%) were referred from peripheral hospitals as chronic empyema thoracis that had failed CTTD. The remainder, 20 (55.60%) were diagnosed as chronic empyema thoracis de novo. Conclusion: Chronic empyema thoracis is a very difficult disease to manage especially in developing countries like ours, where patients present very late and the requisite facilities are inadequate.


Introduction
Empyema thoracis is a pyogenic or suppurative infection in the pleural space [1] [2] [3] [4].Empyema thoracis is exudative in nature and is the commonest exudative types of pleural effusion.Most cases of empyemas complicate Community Acquired Pneumonia (CAP) or Hospital Acquired Pneumonia (HAP), but a proportion results from iatrogenic causes or develops without pneumonia' (primary empyema) [5].Parapneumonic effusion (PPE) develops in about half of the patients hospitalised with pneumonia and their presence causes a 4 fold increase in mortality [5].Stages in the natural course according to American Tho-racic Society, are outlined as: exudative, fibrinopurulent and organising phases, and are referred to as stages I, II and III respectively [6].
Empyema thoracis is associated with high mortality ranging from 6% -24% [5] [7] [8] [9] [10].The incidence is increasing in both adults and children but the cause of which is yet unknown [5] [11]- [19].Pleural infection develops in 65,000 patients in a year in UK and USA and the peak incidence of empyema in childhood is those under 5 years [20].In USA, empyema associated hospitalisations rose by almost 70% during 2002 among children, 18 years of age or less compared to 1977.Among adults, the incidence of empyema increased significantly 1.2 fold during a 9-year period between 1995 and 2003 in North America [5].
Bacterial invasion (stasis) leads to accelerated immune reaction leading to further migration of neutrophils and activation of coagulation cascade which favours fibrin deposition and septation in the pleural space [21] [22].The inflammatory process continues, fuelled by more bacterial death and phagocytes with specific biochemical and microbiologic changes.
Although, fibrin deposition and early angioblastic as well as fibroblastic proliferation are seen in later phases of exudative phase, these processes accelerate and heavy fibrin deposition takes place on both pleural surfaces, especially the parietal pleura.Effusion becomes purulent [23].
Collagen organisation and deposition occur on both pleural surfaces with entrapment of the underlying lung.The organised collagen on the pleura is termed a peel.Effusion at this point is grossly purulent and 75% of the volume is sediment on standing.Chronicity is characterised by: dense fibrosis, contraction and trapping of the lung and atelectasis as well as prolonged pulmonary infection, crowding of the ribs and reduction in the size of the hemithorax and occasionally scoliosis [24].
The underlying lung is usually unaffected unless the pleural fluid production began as a parenchymal problem, e.g.PTB, necrotising pneumonia, penetrating chest trauma or malignancy [23].
The chest wall and diaphragm are usually coated by the fibrous process that is typically thicker and more exuberant over the parietal area.Entrapment of lung and thoracic cage leads to restrictive ventilatory defect that is characterised by reduction of the lung volumes: Force Vital Capacity (FVC), Total Lung Capacity (TLC), Vital Capacity (VC), Force Expiratory Volume in 1 second (FEV1) and Diffusion Capacity of Carbon Monoxide (DLCO) [24].
Pulmonary vasoconstriction leads to significant reduction of perfusion of the underlying lung.Perfusion abnormalities usually exceed the reduction of ventilation of the involved lung, and this prevents hypoxia if contralateral lung function is preserved [25].
Treatment of empyema thoracis is variable historically since Hippocrates days [26]  The traditional open access was used in managing the patients and our experience in 10 years is hereby described.When post decortication complication occurs, hospital stay lasts beyond 1 to 2 weeks.
Table 2 shows the treatment modalities performed on the patients.CTTD was done for 54 patients (60%).This is however excluded from the study and 36 patients (40%) had pleurectomy and lung decortications).Additional treatments in some patients were marked asterisk.

Discussion
Chronic empyema thoracis is a stage III disease according to the American   study between the open and minimal accesses.Evidently, reports have shown that there are higher mortality and morbidity rates in the open procedure relative to VATS technique [30].In the use of VATS, preoperative computed tomography is mandatory.Also, facilities and expertise for VATS are limited in low income countries.In addition, thorascopic surgery is usually inadequate and not suitable in late stages of empyemas where the encasing thick pleura needs to be removed.Indeed, majority of our patients presented in this stage.
In our study, open method was used for the procedures of thoracotomy, pleu- Others are massive life threatening haemoptysis and recurrent haemptysis including bronchopleural fistula unresponsive to conventional CTTD.In our study, some patients with parenchymal diseases mainly due to PTB were offered lung resections ranging from segmentectomy to pneumonectomy.
In our study, aetiology of chronic emypema thoracis is shown in Table 1.
In the demography, the age range mostly affected were 21 -30 and 41 -50 years (n = 10, 27.8%) respectively.The reason for this bimodal peak was unknown.The range of 61 -70 and 71 -80 years were the least (n = 1, 2.8%); Table 2.In other studies, done in United Kingdom and North America, the age most affected was 1 -4 years [20].This might be connected with increased frequency of occurrence of pneumonia in that age group.However, another study, done in USA, showed an increment in adults relative to paediatric age group [5].
Intra-operative findings (Table 3) as seen in our study were ipislateral crowded ribs necessitating 1 or 2 rib resections before successful thoracotomy and thickened parietal and visceral pleurae (0.2 -0.5 cm thick).Such cases would not have yielded to VATS treatment if it were available; or lead to high procedure conversion rate.
Among the 11, postdecorticaion empyema was the highest (n = 4, 36.4%) and is most likely due to absent negative pressure suction in the immediate postoperative period, necessitating prolonged CTTD, prolonged hospital stay and redo decorticaions.This was closely followed by iatrogenic intraoperative diaphragmatic perforations (n = 3, 27.3%).This was in connection with dense adhesions.
They were sorted out intraoperatively and no resultant morbidity emanated there from.Contralateral pneumohorax necessitating institution of CTTD on the contralateral hemithorax was in 1 patient (9.1%).Also prolonged haemorrhagic effusion necessitating multiple allogenic blood transfusions was in 1 patient (9.1%).There was no recorded mortality.However, 2 cases of cardiac arrest  were encountered in the immediate postoperative period in the intensive care unit but were successfully revived.

Conclusion
Chronic empyema is not uncommon in our subregion.Patients present late, which causes challenges in the management.Though VATS facility is not available, open thoracotomy still offers relatively good outcome.Absence of negative suction due to nonavailability of the machine, via the CTTD in the immediate postoperative period accounts for the delayed hospital stay in some of the patients.Pulmonary tuberculosis accounts mainly for the added treatment in terms of residual space closure with muscle flaps and varied types of lung resections.

Figure 1 .
Figure 1.Age range of patients in years.

Figure 2 .
Figure 2. Shows the complications of surgical treatment.
rectomy and lung decortications.Twelve out of 36 patients (33.30%) had additional treatment, ranging from Eloesser flap, segmentectomy to pneumonectomy.Lobectomy or bilobectomy and pneumonectomy constitute an integral management of chronic empyema thoracis in a low income setting where pulmonary tuberculosis is rampant and neglected cases of empyema thoracis is not uncommon.In some of the patients, there was failure of lung re-expansion following pleurectomy and lung decortications due to underlying necrosis, cavitations or pulmonary parenchymal mass lesions.The residual spaces were managed by thoracoplasty using right superior rectus abdominis muscle flap in one patient and right serratus anterior muscle flap in another patient.The two patients did well.The classical indications for lung resections in cases of pulmonary tuberculosis complicating chronic empyema thoracis are persistent positive sputum after 6 months of continuous optimal chemotherapy with 2 or more drugs and where drug resistant PTB has been ruled out.Some other relative indications for resections were severe cavitations, bronchiectiasis and bronchial stenosis which contributed to failure of treatment.Other relative indications as were localized parenchymal disease by atypical Mycobacterium tuberculosis with broad resistance to chemotherapy, mass lesion of the lung in areas of PTB involvement as it helped with simultaneous diagnosis of the mass lesion and treatment of PTB.

Figure 3 .
Figure 3. Shows the preoperative Chest X-ray of the patient → of the 36 patients treated surgically, sex distribution was equal; i.e., sex ratio is male: female = 1:1.
In our institution in a low income country, VAT is not available.
Teaching Hospital, Ituku/Ozalla (UNTH), Enugu state is a tertiary hospital and a referral center in the south-eastern Nigeria for cases of chronic empyema thoracis requiring surgical treatment.Over a 10-year period spanning 2008-2016, 90 patients with chronic empyema thoracis were admitted and managed in our institution.Of these, (n = 36, 24.0%) were treated by pleurectomy and lung decortications with or without lung resections.A retrospective study of such surgical patients was performed.The hospital database in the moved when the drainage is between 50 and 70 mls in 2 consecutive days.This postoperative hospital stay is dependent on this and varies in different patients.
record's department was reviewed.The data obtained and analyzed were patients' biodata, age range of patients, sex distribution, aetiological causes, surgical procedures performed, intraoperative findings, challenges and outcome as well as the complications.Exclusion criteria were those treated by closed chest tube drainage (CTTD), alone.Data were analyzed using SPSS version 16 (Chicago).Rates and proportions were calculated with 95% confidence interval (CI).The proportions were compared using students' t-tests.Level of significance was set at P < 0.05.Surgical technique: The patient is usually postioned supine and connected to cardiopulmonary monitors.Endotracheal intubation with muscle relaxation is done.Thereafter, patient is positioned either left or right lateral decubitus.Posteriorlateral thoracotomy incision is done splitting latismusdorsi and serratus anterior muscle.The chest is entered through the 5 th or 6 th intercostals space.Where there is extensive crowding of the ribs are encountered, 1 or 2 ribs are resected.Subsequently, Finochette rib spreader is applied to increase the intercostals space.Using, fingers and swab on a stick, blunt dissection is done thereby stripping the cortex from the parietal pleura laterally and medially, superiorly and inferiorly staring from the margin of the incision.Parietal pleurotomy is done to enter the pleural cavity and any remaining purulent material is sucked out.The parietal pleura is resected with scissors.Thereafter, decortication plane is developed using multiple cruciate incisions and Lahey swabs, visceral pleurectomy (decortications) is done piece meal and In the process, multiple air leacatheter is on the posterior axillary line and is basal thereby lying on the diaphragm.The removal of the anterior CTTD is done between 3 rd to 5 th day postoperatively when air bubble has reduced significantly.The posterior CTTD is re-DOI: 10.4236/wjcs.2018.810016168 World Journal of Cardiovascular Surgery

Table 2 .
Showing treatment procedures for the patients.CTTD: Closed Chest Tube Drainage.*: additional treatment to pleurectomy and lung decortications.