An increasing number of thoracic decortications have been performed in Manitoba, from five in 2007 to 45 in 2014. The primary objective of this study was to define the epidemiology of decortications in Manitoba. The secondary objective was to compare patients who underwent decortication due to primary infectious vs non-infectious etiology with respect to their perioperative outcomes.
Methods
Data for this cohort study were extracted from consecutive charts of all adult patients who underwent a decortication in Manitoba from 2007-2014 inclusive.
Results
One hundred ninety-two patients underwent a decortication. The most frequent disease processes resulting in a decortication were pneumonia (60%), trauma (13%), malignancy (8%), and procedural complications (5%). The number of decortications due to complications of pneumonia rose at the greatest rate, from three cases in 2007 to 29 cases in 2014. Performing a decortication for an infectious vs a non-infectious etiology was associated with a higher rate of the composite postoperative outcome of myocardial infarction, acute kidney injury, need of vasopressors for > 12 hr, and mechanical ventilation for > 48 hr (44.4% vs 24.2%, respectively; relative risk, 1.83; 95% confidence interval, 1.1 to 2.9; P = 0.01).
Conclusion
There has been a ninefold increase in decortications over an eight-year period. Potential causes include an increase in the incidence of pneumonia, increased organism virulence, host changes, and changes in practice patterns. Patients undergoing decortication for infectious causes had an increased risk for adverse perioperative outcomes. Anesthesiologists need to be aware of the high perioperative morbidity of these patients and the potential need for postoperative admission to an intensive care unit.
Hinweise
This report describes human research. IRB contact information: Bannatyne Research Ethics Board P126 Pathology Building, 770 Bannatyne Avenue, University of Manitoba, Winnipeg, MB, R3E 0W3. Phone: 204 789-3255 Fax: 204 789-3414.
A thoracic decortication is a surgical procedure that involves the removal of abnormal fibrous tissue from the pleural surfaces as well as the evacuation of fluid, pus, or debris from the pleural space to facilitate lung expansion and pleural apposition.1,2 A decortication is required when patients are symptomatic due to an unexpandable lung. This can develop from remote inflammation of the pleural space or from an active pleural process, such as a pleural infection, that fails to respond to conservative treatment. The indications for a decortication due to a malignancy depend on such factors as expected duration of survival and etiology. In general, the evidence supporting the timing and use of decortications is based on small non-randomized studies, institutional practice, and individual experience.1,3‐12 Decortications can be performed as a minimally invasive procedure by video-assisted thoracoscopic surgery (VATS) or by open thoracotomy. The decision to perform VATS vs open decortication is an area of active research.13‐20 A decortication is a major operation with considerable morbidity, and the mortality rate could be as high as 16% at 30 days depending on such factors as baseline comorbidities, preoperative management, and etiology.1,2,13
At the Winnipeg Health Sciences Centre, the main referral centre for thoracic surgery in Manitoba, there has been a progressive increase in the number of decortications, from five performed in 2007 to 45 in 2014 (Fig. 1). The primary objective of this study was to describe this patient population in terms of demographic data, comorbidities, etiology leading to the need for a decortication, course in hospital, morbidity, and mortality. These findings will serve to generate hypotheses and contribute to future investigations into the cause(s) of the large increase in the number of decortications in Manitoba. A secondary objective of this study was to compare patients who underwent decortication due to a primary infectious vs a non-infectious etiology in terms of perioperative risk, course in hospital, morbidity, and mortality.
Fig. 1
Decortications per year by year
×
Anzeige
Methods
This study was undertaken after approval was obtained from the University of Manitoba Research Ethics Board (REB) in April 2015. The REB waived the requirement for consent. Three reviewers conducted a retrospective chart review and used a data collection sheet to extract data from the charts of all adults who underwent a decortication at the Winnipeg Health Sciences Centre from January 2007 to December 2014. Ten percent of the charts were randomly selected and independently reviewed a second time to ensure data accuracy and reproducibility. From 1998-2006, three surgeons at the Health Sciences Centre as well as one surgeon at a community hospital performed thoracic surgery. There was one citywide call schedule for emergency cases, which were performed exclusively at the Health Sciences Centre. Thoracic surgery was centralized to the Health Sciences Centre in 2006, facilitating data collection.
The predictors and outcomes of interest were specified in a written protocol a priori. Collected data included patient demographics, comorbidities, preceding disease processes, antibiotic use, microbiological results, perioperative management, and course in hospital. Postoperative complications were graded according to the Ottawa Thoracic Morbidity & Mortality (TM&M) Classification System until discharge from hospital (Appendix A).21,22 Presence of a condition in the preoperative period precluded inclusion as a postoperative complication, with the exception of a condition that worsened or deviated from the normal postoperative course.
Complications were defined in the study protocol by consensus and adapted from the Ottawa TM&M Classification System based on importance and relevance to a decortication. These included myocardial ischemia or infarction, congestive heart failure, atrial arrhythmia, cardiac arrest, cerebrovascular complication, venous thrombosis, pulmonary embolism, acute respiratory distress syndrome, post-procedure ventilator support > 48 hr, prolonged air leak, bronchopleural fistula, prolonged pleural drainage, hemothorax, empyema, confusion/delirium, seizure, gastrointestinal bleeding, acute kidney injury, sepsis, and death during hospitalization.21,22
The American College of Surgeons National Surgical Quality Improvement Program (ACS NSQIP®) Surgical Risk Calculator was used to risk stratify patients according to the severity of illness prior to undergoing surgery.23,24
Anzeige
The patients were divided into two groups, an infectious and a non-infectious group, based on the initial etiology that resulted in the need for a decortication. The infectious group consisted predominantly of patients who presented with a parapneumonic effusion, but it also included a small number of patients with pleural effusions secondary to another acquired or intrinsic infectious cause such as tuberculosis or an abdominal abscess. The non-infectious group consisted of patients who presented with non-infectious causes of a pleural space disorder, including trauma, malignancies, and procedural complications. The primary outcome was a composite of myocardial infarction, acute kidney injury, need for vasopressors for > 12 hr, and mechanical ventilation for > 48 hr.
The preceding disease processes and group assignments of 27 patients were independently reviewed a second time by two senior clinicians and researchers, as they had multifactorial or unclear disease processes resulting in the need for a decortication. The principal investigator resolved ties in eight cases.
Statistical analysis
To compare frequencies, we used either the Chi square or the Fisher’s exact test (if the expected cell size was < 6). We used a histogram and a Q-Q plot as well as the Kolmogorov-Smirnov and Shapiro-Wilk tests to determine whether a continuous variable was normally distributed. In the infectious group, age was the only continuous variable that was normally distributed, therefore; the Mann-Whitney U test was used to compare differences in continuous data between groups. Data are represented as mean (standard deviation [SD]) for normally distributed data and median [interquartile range (IQR)] for non-normally distributed data. A P value < 0.05 was considered statistically significant.
Inter-rater reliability
Percent agreement and kappa were calculated for comorbidities, the etiology leading to a decortication, presence of one or more postoperative complications (any TM&M grade), presence of one or more postoperative complications resulting in an invasive procedure, intensive care unit (ICU) admission or death (> TM&M grade 2), a new postoperative ICU admission, in-hospital mortality, a positive preoperative blood culture, and a positive pleural sample. Percent agreement alone was calculated for the duration of surgery and the length of hospitalization. The median difference between reviewers was calculated for the NSQIP predicted risk of a serious complication and the NSQIP predicted risk of death at 30 days (Appendices B, C, and D).
Results
All patients
Preoperative data
There were 192 patients who underwent a decortication during the study period. One patient was excluded from analysis due to insufficient data. Three patients underwent two decortications during the same hospital admission and three patients underwent two decortications during separate hospital admissions. The second decortication was regarded as a postoperative complication or a separate procedure depending on whether it occurred during the same or a separate hospital admission, respectively.
Of the 192 patients, 146 (76%) were male and the mean (SD) age was 53 (16) yr. One hundred thirty-two (69%) patients had a smoking history, and 52 (27%) patients had a history of unhealthy alcohol use.25
The median NSQIP predicted risk of a serious postoperative complication was 20% and the median predicted risk of death was 3%. Preoperatively, 21 (11%) patients received tracheal intubation and mechanical ventilation, 67 (35%) patients received supplemental oxygen, and 104 (54%) patients breathed room air only.
The most frequent disease processes resulting in the need for a decortication were pneumonia (115/192, 60%), trauma (25/192, 13%), malignancy (15/192, 8%), and procedural complications (10/192, 5%) (Fig.2).
Fig. 2
Etiology leading to a decortication by year
×
Decortications due to complications of pneumonia rose at the greatest rate (Fig. 2). Among these patients, a decortication was performed after a median [IQR] of 17 [12-27] days after symptom onset and a median of 11 [5-21] days from presentation to a healthcare provider. Once a thoracic surgeon was consulted, a decortication was performed after a median of 2 [1-4] days.
Surgical data
Decortication was carried out via a thoracotomy in 152 (79%) patients, VATS resulting in conversion to a thoracotomy in 23 (12%) patients, and VATS alone in 17 (9%) patients. The median operative duration was 101 [69-134] min.
Airway management included intubation and lung isolation with a double-lumen endotracheal tube or bronchial blocker in 131 (68%) patients. An arterial line and central line were inserted intraoperatively in 177 (92%) and 25 (13%) patients, respectively.
Postoperative data
Forty-two (22%) patients had a postoperative complication resulting in the need for an invasive procedure (e.g., endoscopy, tube thoracostomy, surgery), ICU admission, or death (TM&M grade 3 and above). The median duration of hospitalization was 15 [10-23] days. Seven (4%) patients died in hospital postoperatively.
Fifty-two (27%) patients required a postoperative ICU admission, and the median duration of intensive care was 5 [3-18] days. Twenty-three (44%) of the 52 patients requiring postoperative ICU admission were in an ICU in the immediate preoperative period.
Sixty-one (32%) patients received a packed red blood cell transfusion intraoperatively or postoperatively, and 25 (13%) patients were transfused with ≥ 3 units. Furthermore, 42 (22%) patients required postoperative vasopressors.
Pain control included patient-controlled analgesia in 131 (68%) patients, an intercostal block in 64 (33%) patients, an epidural catheter in 45 (23%) patients, and a paravertebral catheter in 34 (18%) patients. Ninety-two (48%) patients received two or more modalities for pain control.
The infectious group vs the non-infectious group
There were 126 patients in the infectious group and 66 patients in the non-infectious group. The median age was similar between groups (54.5 [46-66] yr vs 51 [36-66] yr; P = 0.14). Additionally, baseline comorbidities were similar between groups (Table 1). Based on the NSQIP score, the infectious group had a higher median predicted risk of a serious complication and death at 30 days compared with the non-infectious group (21 [16-28]% vs 16 [13-20]%; P < 0.01 and 3[1-8]% vs 2 [1-4]%, respectively; P < 0.01).
Table 1
Baseline comorbidities
Comorbidity
Infectious Group
Non-infectious Group
Ischemic heart disease
14/126 (11%)
7/66 (11%)
Cerebrovascular disease
3/126 (2%)
3/66 (5%)
Peripheral artery disease
2/126 (2%)
2/66 (3%)
Hypertension
48/126 (38%)
24/66 (36%)
Atrial arrhythmia
12/126 (10%)
7/66 (11%)
Chronic pulmonary disease
31/126 (25%)
17/66 (26%)
Obstructive sleep apnea
7/126 (6%)
2/66 (3%)
Gastroesophageal reflux disease
18/126 (14%)
3/66 (5%)
Liver cirrhosis
4/126 (3%)
2/66 (3%)
Chronic kidney disease
12/126 (10%)
8/66 (12%)
End-stage renal disease
5/126 (4%)
6/66 (9%)
Obesity
36/126 (29%)
14/66 (21%)
Smoking history
86/126 (68%)
46/66 (70%)
Substance use
32/126 (25%)
22/66 (33%)
Poor dentition
9/126 (7%)
1/66 (2%)
Diabetes mellitus
26/126 (21%)
14/66 (21%)
The operative duration was similar between groups (99 [69-133] min vs 103 [69-156] min; P = 0.23). Eight (6%) patients in the infectious group underwent a video-assisted thoracoscopic decortication vs 11 (17%) in the non-infectious group (P = 0.02). The decortication was right-sided in 83 (66%) cases in the infectious group and 40 (61%) cases in the non-infectious group (P = 0.47). Sixty-four (51%) patients in the infectious group had at least one postoperative complication vs 35 (53%) in the non-infectious group (P = 0.77). The rate of the composite postoperative outcome (myocardial infarction, acute kidney injury, vasopressor use > 12 hr, and mechanical ventilation > 48 hr) was higher in the infectious group than in the non-infectious group (44.4% vs 24.2%, respectively; relative risk, 1.83; 95% confidence interval, 1.1 to 2.9; P = 0.01) (Table 2). Patients in the infectious group also had a longer median duration of hospitalization than patients in the non-infectious group (15 [11-25] days vs 12 [7-21] days, respectively; P = 0.04).
Table 2
Postoperative events
Event
Infectious Group
Non-infectious Group
P Value
In-hospital mortality
6/126 (5%)
1/66 (2%)
0.43
Atrial arrhythmia
6/126 (5%)
1/66 (2%)
0.43
Myocardial infarction (MI)
0/126 (0%)
1/66 (2%)
0.34
Acute kidney injury (AKI)
13/126 (10%)
4/66 (6%)
0.43
Postoperative vasopressors > 12 hr
20/126 (16%)
7/66 (11%)
0.39
Postoperative mechanical ventilation > 48 hr
23/126 (18%)
4/66 (6%)
0.03
Composite outcome
56/126 (44%)
16/66 (24%)
0.01
New postoperative ICU admission
24/126 (19%)
5/66 (8%)
0.04
Hospital length of stay, days [IQR]
15 [11-25]
12 [7-21]
0.04
Composite outcome includes MI, AKI, postoperative vasopressors > 12 hr, postoperative mechanical ventilation > 48 hr. ICU = intensive care unit; IQR = interquartile range
The majority of patients in the infectious group (115/126, 91%) received at least one dose of an antibiotic prior to pleural sampling. The pleural sample and preoperative blood culture were positive in 74 (59%) and 13 (10%) patients, respectively. Moreover, more than one organism was isolated from the pleural space in 23 (18%) patients. Streptococcus spp., S. aureus, Gram-negative bacteria, and anaerobes represented 58/120, 7/120, 9/120, and 24/120 isolates from pleural samples, respectively. In three patients, Mycobacterium tuberculosis was the causative organism (Appendix E).
Discussion
Pleural infections are a significant problem worldwide and are an important cause for the need to perform a decortication.26‐28 Pneumonia often precedes pleural infections; however, the pathophysiology of this process is not completely understood and the organisms isolated from pleural samples differ considerably from usual pneumonia pathogens. Administration of antibiotics prior to sampling, low diagnostic yield, and difficulty isolating and identifying fastidious organisms likely contribute to this; however, transpleural spread of bacteria may be only one of several mechanisms for developing pleural infections.28‐32
Anzeige
Decortications due to parapneumonic effusions represented the largest category in this study and increased more than ninefold during the study period. The number of decortications performed due to the other etiologies remained largely unchanged (Fig. 2). Potential causes of this discrepant rise include an increase in the incidence of pneumonia, increased organism virulence, host changes, and changes in practice patterns. The number of thoracic surgeons did not change appreciably over the study period. From 2007-2012, there were three thoracic surgeons, and in 2013 and 2014 there were four thoracic surgeons on staff, but with no increase in operating room slates. With regard to the indications for decortication, the evidence supporting the timing and use of decortications is based on small non-randomized studies and institutional practice. Ultimately, it has been at the surgeon’s discretion.1,3‐12
With regard to operative management, a thoracotomy was performed in the majority of cases. Approximately one-third of decortications were performed with a single-lumen tube and no lung isolation. This was also at the request of the surgeon, and due to the retrospective study design, it is not possible to determine why lung isolation was not requested.
More importantly, the incidence of pleural infections appears to be increasing in North America in both adults and children and for reasons that are not clear. A United States database study showed a twofold increase in the national rates of hospitalization due to parapneumonic empyema over a 13-year period.26 A Canadian study reported an approximate increase of 50% in the overall incidence of empyema from 1995–2003.27 Similarly, a more recent study by Pandian et al. reported a rising incidence of empyema in children of 3.5 to 5.6 per 100,000 from 2000–2009, again an almost 50% increase.33 Furthermore, there is evidence to suggest that children and young adults may be disproportionally affected by this increase.26‐28,33
An infectious etiology leading to a decortication was associated with almost double the rate of the composite postoperative outcome of myocardial infarction, acute kidney injury, need for vasopressors for > 12 hr, and mechanical ventilation for > 48 hr. Age, baseline comorbidities, and operative duration were similar between the infectious and non-infectious groups, but the infectious group had a higher predicted risk of a serious postoperative complication and death based on the NSQIP Surgical Risk Calculator. This suggests that these patients were at significantly higher risk primarily due to the severity of their infection. Furthermore, more patients in the infectious group had new postoperative ICU admissions, suggesting a greater frequency of clinical deterioration in the intraoperative and postoperative period (Table 2). This may have been due to bacteremia from the release of a loculated infection, the associated systemic inflammatory response, as well as the physiological stress of anesthesia and decortication in an already vulnerable population.
Anzeige
The microbiology of pleural infections in adults is known to be complex, varies by geographic location, and can change over time. Therefore, knowledge of the organisms is important to patient care. A causative organism was identified in approximately 60% of cases in the infectious group based on pleural samples or preoperative blood cultures. Streptococcus spp. and anaerobic bacteria represented a large proportion (82/120) of isolates from the pleural space, which is consistent with other studies of community-acquired infections in adults.28,34 Community and hospital-acquired pleural infections, however, were not differentiated in this study. The isolation of bacteria consistent with oropharyngeal flora, as well as the higher frequency of right-sided surgeries, gastroesophageal reflux disease, and poor dentition in the infectious group support the contributory role of aspiration in this population.
Limitations
The retrospective design of this study limits the ability to reach conclusions as to the cause of the increase in decortications in Manitoba. With regard to the microbiology of pleural infections culminating in a decortication, it is difficult to establish the true pathogen in the majority of cases, as most patients had received antimicrobial therapy. The specific factors used to decide which patients would undergo a decortication are not known. Additionally, the number and characteristics of patients managed non-surgically are not known. It remains unclear if more patients have developed pleural space complications or if the proportion of patients managed surgically has changed over time. Furthermore, all adult patients documented as having undergone a decortication were included in this study; however, this was determined retrospectively, and due to variations in nomenclature, cases may have been missed.
Conclusion
In summary, there has been a ninefold increase in decortications performed in Manitoba over an eight-year period. Decortications are associated with considerable morbidity, mortality, and use of resources. Parapneumonic effusions were the most frequent reason for performing a decortication and increased at the greatest rate. Furthermore, a primary infectious etiology resulting in the need for a decortication was associated with a higher rate of the composite postoperative outcome (i.e., myocardial infarction, acute kidney injury, need for vasopressors for > 12 hr, and mechanical ventilation for > 48 hr) as well as a longer duration of hospitalization. There is evidence that the incidence of pleural infections due to parapneumonic effusions has been increasing in North America, which raises the question as to the extent of this problem.26‐28 A continued increase in the need for decortications due to parapneumonic effusions and the associated perioperative complications should be anticipated. A study analyzing administrative data would be an appropriate next step to gain a further understanding of the scope and cause of this increase.
Anesthesiologists caring for patients undergoing a decortication for a parapneumonic effusion should maintain a low threshold in the preoperative period with respect to the placement of arterial and central lines due to the high rate of vasopressor use in these patients. In the postoperative period, early consultation with the intensive care unit should be considered due to the high number of patients who require postoperative mechanical ventilation and vasopressor support.
Anzeige
Conflicts of interest
None declared.
Editorial responsibility
This submission was handled by Dr. Gregory L. Bryson, Deputy Editor-in-Chief, Canadian Journal of Anesthesia.
Author contributions
Jay Gorman, Duane Funk, Sadeesh Srinathan, John Embil, Linda Girling, and Stephen Kowalski helped conduct the study, analyze the data, and write the manuscript. Jay Gorman, Linda Girling, and Stephen Kowalski helped collect the data. Duane Funk, Sadeesh Srinathan, John Embil, Linda Girling, and Stephen Kowalski helped design the study. Duane Funk is the author responsible for archiving the study files.
Funding
University of Manitoba Department of Anesthesiology.
Open AccessThis article is distributed under the terms of the Creative Commons Attribution-NonCommercial 4.0 International License (http://creativecommons.org/licenses/by-nc/4.0/), which permits any noncommercial use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.
Mit e.Med Anästhesiologie erhalten Sie Zugang zu CME-Fortbildungen des Fachgebietes AINS, den Premium-Inhalten der AINS-Fachzeitschriften, inklusive einer gedruckten AINS-Zeitschrift Ihrer Wahl.
Ottawa thoracic morbidity & mortality (TM&M) grading system
Grade
Description
1
Any complication without need for pharmacologic treatment or other intervention
2
Any complication that requires pharmacologic treatment or minor intervention only
3
(a) Any complication that requires surgical, radiological, endoscopic intervention, or multi-therapy. The intervention does not require general anesthesia
(b) Any complication that requires surgical, radiological, endoscopic intervention, or multi-therapy. The intervention requires general anesthesia
4
(a) Any complication requiring ICU management and life support. Single organ dysfunction
(b) Any complication requiring ICU management and life support. Multi-organ dysfunction
5
Any complication leading to the death of the patient
ICU = intensive care unit
Appendix B
Percent agreement and kappa for categorical data
Categorical Data
Percent Agreement
Kappa
Ischemic heart disease
100%
N/A
Cerebrovascular disease
100%
N/A
Peripheral artery disease
100%
N/A
Hypertension
90%
0.79
Atrial arrhythmia
100%
N/A
Chronic pulmonary disease
100%
N/A
Obstructive sleep apnea
100%
N/A
Gastroesophageal reflux disease
100%
N/A
Liver cirrhosis
95%
0.64
Chronic kidney disease
95%
0.00
End-stage renal disease
100%
N/A
Obesity
100%
N/A
Smoking history
90%
0.78
Substance use
90%
0.80
Poor dentition
85%
0.00
Diabetes mellitus
100%
N/A
Etiology leading to a decortication
90%
0.81
Presence of 1 or more postoperative complications (any TM&M grade)
90%
0.80
Presence of 1 or more postoperative complications resulting in an invasive procedure, ICU admission or death (> TM&M grade 2)
85%
0.63
New postoperative ICU admission
100%
N/A
In-hospital mortality
100%
N/A
Positive preoperative blood culture
100%
N/A
Positive pleural sample
95%
0.89
ICU = intensive care unit; TM&M = Ottawa thoracic morbidity & mortality grading system
Appendix C
Percent agreement for ratio data
Ratio Data
Percent Agreement
Duration of decortication (min)
90%
Length of hospitalization (days)
100%
Appendix D
Difference between reviewers for the NSQIP surgical risk calculator results
NSQIP Results
Median Difference Between Reviewers
IQR
NSQIP predicted risk of a serious complication (%)
4.5%
1.75-10.25
NSQIP predicted risk of death (%)
1%
0-2
IQR = interquartile range; NSQIP = National Surgical Quality Improvement Program
