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Year : 2019  |  Volume : 8  |  Issue : 2  |  Page : 96-101

Perioperative factors influencing the incidence of postoperative pulmonary complications in patients undergoing head-and-neck versus abdominal surgeries and their outcome

Department of Anaesthesiology and Critical Care, Amrita Institute of Medical Sciences, Amrita Vishwa Vidyapeetham, Kochi, Kerala, India

Date of Submission14-Dec-2018
Date of Decision14-Jan-2019
Date of Acceptance16-Feb-2019
Date of Web Publication1-Jul-2019

Correspondence Address:
Dr. Sunil Rajan
Department of Anaesthesiology, Amrita Institute of Medical Sciences, Amrita Vishwa Vidyapeetham, Kochi, Kerala
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Source of Support: None, Conflict of Interest: None

DOI: 10.4103/ijrc.ijrc_53_18

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Background: Postoperative pulmonary complications(PPCs) are frequent causes for adverse outcomes after major surgeries. Aim: The aim of this study was to compare the perioperative factors influencing the incidence of PPCs in two groups of patients undergoing prolonged major surgeries, namely head-and-neck versus abdominal surgeries, receiving postoperative ventilation. Patients and Methods: This prospective observational study was designed, and the necessary data were collected from consecutive patients fulfilling all criteria in a single center between August 2017 and March 2018. Correlation of PPCs with duration of surgery, perioperative mechanical ventilation(PMV), and volume of crystalloids used in both the groups was analyzed by multiple binary logistic regression. The inhospital mortality and number of days of intensive care unit(ICU) and hospital stay were analyzed with Student's t-test. Results: A total of 155patients were studied in which 77patients who underwent head-and-neck surgeries(Group1) and 78 who underwent abdominal surgeries(Group2). Both the groups had a comparable demographic profile. Group2patients had a higher incidence of PPCs. Duration of PMV but not of surgery influenced the occurrence of PPCs independently, showing 8.2%(1.2%–15.7%) increase in PPCs with every hour increase in PMV(odds ratio: 1.08[95% confidence interval, 1.01–1.16] with P =0.002). PPCs prolonged the ICU and hospital stays and mortality. Conclusion: Duration of PMV is an independent risk factor for the development of PPCs. Abdominal surgeries proved to be an independent risk factor for PPCs. Early identification and risk modifications are required to reduce PPCs in high-risk category of patients who receive general anesthesia with prolonged mechanical ventilation.

Keywords: General anesthesia, mechanical ventilation, risk factor

How to cite this article:
Vasu BK, Rajan S, Raj AM, Paul J, Kumar L. Perioperative factors influencing the incidence of postoperative pulmonary complications in patients undergoing head-and-neck versus abdominal surgeries and their outcome. Indian J Respir Care 2019;8:96-101

How to cite this URL:
Vasu BK, Rajan S, Raj AM, Paul J, Kumar L. Perioperative factors influencing the incidence of postoperative pulmonary complications in patients undergoing head-and-neck versus abdominal surgeries and their outcome. Indian J Respir Care [serial online] 2019 [cited 2020 Aug 6];8:96-101. Available from:

  Introduction Top

Postoperative pulmonary complications(PPCs) are not uncommon after prolonged surgeries that affect the patient outcome adversely and increase hospital stay and utilization of resources. The incidence of PPCs which are heterogeneous depends on its definition and varies in different surgical categories. Even mild PPCs can be associated with increased early mortality and would need special attention for improving the outcome.[1] Identification and optimization of the risk factors are important to reduce or prevent PPCs and to minimize premature deaths in patients undergoing surgery.[2],[3] The risk factors for PPCs are identified in multiple studies, and various predictive factors have been recognized in LAS VEGAS risk scoring and by the validated ARISCAT scoring.[4],[5] The level of risk of surgery, duration of surgery, volume of intraoperative fluids, inotropic support, and neuromuscular blocking agents used are identified to be associated with PPCs.[4],[5],[6],[7],[8]

Currently, major prolonged surgeries are often performed that would need postoperative ventilation for various reasons. Balanced anesthesia techniques are used with neuromuscular blocking agents, fluids, blood transfusions, and inotropic support as part of standard care. Their needs are often inevitable though some of them are modifiable.

The primary objective of the study was to compare the incidence of PPCs within 7days after surgery in patients undergoing major head-and-neck surgeries and abdominal surgeries who required continued mechanical ventilation in the immediate postoperative period. The secondary objectives were to find the influence of the duration of surgery, duration of postoperative mechanical ventilation, duration of total perioperative mechanical ventilation(PMV), and volume of intraoperative fluid used on the incidence of early PPCs. The mortality rate, length of stay in the intensive care unit(ICU), and duration of hospital stay were also evaluated related to PPCs.

  Patients and Methods Top

The study was designed as a prospective observational one involving two groups of patients undergoing elective major head-and-neck surgery(Group1) or abdominal surgery(Group2) requiring prolonged mechanical ventilation from induction running through the early postoperative period for any clinical reason(s). The study center was a multispecialty university teaching hospital in South India where anesthesia team supervises the postsurgical care, with multidisciplinary input taken as necessary. The Institutional Ethical Committee approval was obtained before commencing the study, and data were collected for analysis after obtaining valid consent.

Patients aged≥18years undergoing elective head-and-neck or abdominal surgery lasting for≥3 h and general anesthesia with total intra-and postoperative mechanical ventilation lasting for≥10h were included. Exclusion criteria included pregnancy, prior or simultaneous cardiothoracic or neurosurgery, palliative surgery, emergency surgery, progressive neuromuscular weakness, septic shock, trauma, burns and blast-related surgeries, history of mechanical ventilation for any reason within 30days prior to the current surgery, history of acute respiratory distress syndrome or respiratory failure, major cardiorespiratory event such as pulmonary edema, cardiac arrest, aspiration, pneumothorax, and PaO2/FiO2 ratio<200 in the intraoperative period.

The duration of surgery was the time taken from the start of induction to the completion of the surgery. Duration of mechanical ventilation in the ICU was the time of shifting the patient to the ICU to the extubation or disconnection from ventilatory support in case of tracheostomized patients. The sum of the two time periods was considered as total PMV. The volume of crystalloids used intraoperatively was the total volume of all types of crystalloids the patient received while undergoing surgery mentioned in the notes. Transfusion trigger was according to the clinical decision as per case-by-case scenario. Blood loss of≥20% or hemoglobin<10g/dL with ongoing bleeding without or with inotropic requirement was considered as a standard indication for transfusion. Albumin was the only colloid used in the department. The necessary data of all consecutive eligible patients were collected by a respiratory therapist over a period of 8months. Data on the PPCs that occurred in the 1stweek after surgery were noted according to the definition used in a previously published study, as shown in [Appendix1].[9] The other variables collected were the days of stay in the ICU, the days of hospital stay, and the inhospital mortality.

The sample size was calculated based on a previous observational study from a single center in which the incidence of PPCs in head-and-neck surgeries and abdominal surgeries was found to be 20.7% and 59.7%, respectively.[10] Based on that study, estimated risk difference was equal to 0.38 with 80% statistical power and 5% allowable error with a two-sided test, the required sample size was calculated to be 25 in each group. As the previous study involved only a small patient population and also in view of the variability of population, three times the calculated sample size was advised, to obtain statistically significant results with 99% power and 99% confidence interval(CI) with P <0.01.

Chi-square test was used to compare the incidence of PPCs as two surgical groups. Independent sample t-test or Mann–Whitney test was used to compare the continuous variables among the groups. Multiple binary logistic regression(backward stepwise regression) was used to calculate odds ratio with 99% CI to find the independent predictors of PPCs. The collected data were compiled using Microsoft Excel 2010, and statistical analysis was done using IBM SPSS Statistics 20 Windows(SPSS Inc., Chicago, Illinois, USA).

  Results Top

A total of 155patients were included in the study who fulfilled the criteria. There were 77patients in Group1 and 78patients in Group2. Age, body mass index, gender, and the American Society of Anesthesiologists physical status were comparable in both the groups[Table1]. Twelve patients(15.6%) in Group1 and 40patients(51.3%) in Group2 developed PPCs in the 1stweek of surgery[Figure1], and the difference was statistically significant between the groups, with P <0.001.
Table 1: Comparison of patient characteristics, variables studied that are considered to affect the postoperative pulmonary complications, and the incidence of mortality and postoperative pulmonary complications

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Figure1: Postoperative pulmonary complications in groups

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The duration of surgery did not show any influence on PPCs when univariate analysis was applied to the selected factors. Surgical category and PMV were found to have a significant association with PPCs independently when the remaining risk factors were analyzed with multiple logistic stepwise regression. Abdominal surgery was an independent risk factor for developing PPCs with odds ratio of 3.84(1.35–10.96). One-hour increase in PMV was associated with 8.2% (1.2%–15.7%) increase in the odds of getting PPCs[Table2].
Table 2: Independent risk factor for postoperative pulmonary complications

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Fourteen patients in the study(9%) died while in the hospital. Two of the four patients who died in Group1 did not have any PPC. All ten patients in Group2 who died had various grades of PPCs[Table3]. The association of PPCs with the number of deaths was significant only in the abdominal surgery group of patients(P=0.112 and 0.001 in Group1 and Group2, respectively). Duration of surgery was comparable in both the groups. The amount of crystalloids used was 3.5±2.34L in Group1 and 2.6±1.8L in Group2. The volume of parenteral crystalloids used had statistically no significant difference on PPCs between the groups(P=0.032).
Table 3: Mortality among the groups and postoperative pulmonary complications

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There was a significant difference between the groups in their number of days of ICU stay and hospital stay. Patients without PPCs stayed for median 2(1–18) days in the ICU whereas those who had PPCs stayed for median 8(2–86) days, the difference of which was statically significant(P=0.001)[Table4]. The number of days of hospital stay was also significantly more for those who had PPCs, 26.58±21.124days, compared with 16.58±10.29days for those who were free of PPCs(P<0.001). The distribution of various grades of PPCs in the groups is depicted in [Figure2].
Table 4: Intensive care unit stay

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Figure2: Distribution of various grades of postoperative pulmonary complications

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In the present study, we observed that duration of PMV≥10h was an independent risk factor for the development of PPCs. It was inferred that addition of every 1 h of PMV was associated with 8.2% increased risk of developing PPCs. Even though both the groups had>10h of mechanical ventilation with similar protective ventilation, abdominal surgery group had increased incidence of PPCs.

  Discussion Top

PPCs are newly identified diseases or dysfunctions affecting the respiratory system that adversely influences patient outcome after the surgery.[3],[11] Pulmonary complications can lead to additional requirement of oxygen or respiratory support, which include noninvasive or invasive mechanical ventilation. PPCs are more common than postoperative cardiac complications leading to mortality and increasing hospital expenses.[12],[13] The criteria used in this study to define and gradePPCs were taken from the first publication of the IMPROVE study group[Appendix1].[9] The absence of any pulmonary complication was considered as Grade0, and most severe pulmonary complication was taken as Grade4. The occurrence of the highest grade of pulmonary complication was considered as a single event for comparison. The heterogeneous PPC definitions and the variability of reporting the severity of the event of postoperative complications were seen in many studies. PPC has been a popular subject for research. The recently published studies and articles have tried to recognize modifiable and nonmodifiable risk factors that would lead to changes in the morbidity and mortality due to PPCs. Abdominal surgeries, especially upper abdominal, longer duration of surgery lasting for>3h, emergency surgery, hemodynamic instability, and increased fluid shifts with massive fluid transfusions have been identified as risk factors in several studies done earlier.[1],[3],[6],[14],[15]

Lung-protective ventilation strategies including low tidal volumes of 6–8ml/kg body weight and 5–8 cm H2O of positive end-expiratory pressure(PEEP) were practiced routinely at our center for all patients who received general anesthesia and mechanical ventilation ever since the IMPROVE study was published. Our study definitions of PPCs were adapted from the same study where protective ventilation strategies were observed to have improved outcome by reducing the postoperative complications.[9] The lung dynamics begin to change from the induction of general anesthesia. Atelectasis commences mainly by three mechanisms: compression of the dependent lungs, resorption of gasses, and impairment of surfactant from local and systemic inflammatory responses happening in the perioperative period.[9],[16] The presence of the endotracheal tube obtunds the protective cough reflex and mucociliary function of the airway that may lead to airway micro-aspirations.[3],[15],[17]

In this study population, the impact of the changes in lung dynamics, impaired mucociliary clearance and the obtunded cough reflex affected by the endotracheal or tracheostomy tube had been continued beyond the operation theatre to the intensive care unit where patients were stabilized later on. The reason for continuing the ventilation postoperatively might also have contributed to the development of PPCs. The use of nondepolarizing muscle relaxants all through the long hours of surgeries, fluid resuscitation leading to massive fluid shifts, inotropic support, refractory hypothermia, and transfusions of blood products and rarely re-explorations might have contributed to the prolongation of mechanical ventilation beyond the operation theater.

Many modifiable and nonmodifiable risk factors were identified in the causation of PPCs.[4],[5],[14],[18],[19] In the occurrence of PPCs, the relevance of the type of surgery, duration of surgery, duration of intensive care ventilation, total duration of perioperative ventilation(PMV), and the total volume of different crystalloids used during surgery were examined in the current study using multivariate analysis. The abdominal type of surgery and the duration of PMV were the only two independent risk factors found to be associated with PPCs. PPCs are known to be the cause for increased mortality and hospital stay.[4],[12],[17],[19] In our study, patients with PPCs had a higher mortality rate than those who did not have PPCs and were significant in the abdominal surgery group(P<0.001). The all-cause mortality was 9% without showing any difference between the two surgical groups of patients. The length of hospital stay was higher in those patients who had PPCs, showing the financial implications caused by this complication. It is advised by many researchers that modifiable risk factors need to be identified early and optimized before or during surgery in order to prevent or mitigate the risks using “care bundles” for patients at high risk for pulmonary complications.[11] However, the feasibility of “care bundles” should be validated for future use.

The current study was from a single center where universal standard of care was delivered for all patients with low tidal volumes and normal range of PEEP as recommended by many other studies. This study focused on prolonged duration of the procedure in two different categories of patients who had longer exposure to mechanical ventilation and anesthetic agents. The data were collected prospectively on the site by a respiratory therapist who had followed uniformity and strict diagnostic criteria in identifying the PPCs.

The limitation of the study included fast tracking of certain patients, such as those with malignancy, which might have compromised uniform optimization before surgery. Some patients who had free flap surgeries had received a small flow of oxygen therapy in postoperative period as a local practice and also in certain patients who were on opioids for pain relief for up to 3days after surgery in some of whom minor atelectasis and hypoxemia might have been masked. The use of blood and blood products was not analyzed in this study. Restricted fluid strategy was used in abdominal surgeries, and hemodilution was aimed in major head-and-neck reconstructive surgeries with free flap which might have caused disparity in intraoperative fluid transfusions bringing forth inconsistency with other reports.[4],[19] Both the groups had wide spectrum of patients falling under head and neck or abdominal surgery without much stratification, use of complimentary regional anaesthesia, type or site of abdominal incision were also not subclassified in this study. Smoking, a well-recognized predictive factor, was more common in Group1patients in whom PPC was found be lower in our study; failure of explanation of the multifactorial influence on each case by case may be considered as a drawback of this study.

  Conclusion Top

PPCs are not uncommon after major surgeries of prolonged duration in which abdominal surgeries carry higher risk compared to major head-and-neck surgeries. Duration of PMV≥10h is an independent risk factor for PPC in the study. Modifiable risk factors need to be identified early and focused perioperative care may improve postoperative outcome.

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  References Top

Fernandez-BustamanteA, FrendlG, SprungJ, KorDJ, SubramaniamB, Martinez RuizR, etal. Postoperative pulmonary complications, early mortality, and hospital stay following noncardiothoracic surgery: Amulticenter study by the perioperative research network investigators. JAMA Surg 2017;152:157-66.  Back to cited text no. 1
HallerG, WalderB. Postoperative pulmonary complications–Still room for improvement. Eur J Anaesthesiol 2017;34:489-91.  Back to cited text no. 2
DaviesOJ, HusainT, StephensRC. Postoperative pulmonary complications following non-cardiothoracic surgery. BJA Educ 2017;17:295-300.  Back to cited text no. 3
MazoV, Sabaté S, CanetJ, GallartL, de AbreuMG, BeldaJ, etal. Prospective external validation of a predictive score for postoperative pulmonary complications. Anesthesiology 2014;121:219-31.  Back to cited text no. 4
NetoAS, da CostaLG, HemmesSN, CanetJ, HedenstiernaG, JaberS, etal. The LAS VEGAS risk score for prediction of postoperative pulmonary complications: An observational study. Eur J Anaesthesiol 2018;35:691-701.  Back to cited text no. 5
ArozullahAM, KhuriSF, HendersonWG, Daley J; Participants in the National Veterans Affairs Surgical Quality Improvement Program. Development and validation of a multifactorial risk index for predicting postoperative pneumonia after major noncardiac surgery. Ann Intern Med 2001;135:847-57.  Back to cited text no. 6
McLeanDJ, Diaz-GilD, FarhanHN, LadhaKS, KurthT, EikermannM, etal. Dose-dependent association between intermediate-acting neuromuscular-blocking agents and postoperative respiratory complications. Anesthesiology 2015;122:1201-13.  Back to cited text no. 7
BulkaCM, TerekhovMA, MartinBJ, DmochowskiRR, HayesRM, EhrenfeldJM, etal. Nondepolarizing neuromuscular blocking agents, reversal, and risk of postoperative pneumonia. Anesthesiology 2016;125:647-55.  Back to cited text no. 8
FutierE, ConstantinJM, Paugam-BurtzC, PascalJ, EurinM, NeuschwanderA, etal. Atrial of intraoperative low-tidal-volume ventilation in abdominal surgery. NEngl J Med 2013;369:428-37.  Back to cited text no. 9
DenuZA, YasinMO, MelekieTB, BerhemA. Postoperative pulmonary complications and associated factors among surgical patients. JAnesth Clin Res 2015;6:1-5.  Back to cited text no. 10
GriffithsSV, Conway DH; POPC-CB Investigators, SanderM, JammerI, GrocottMP. What are the optimum components in a care bundle aimed at reducing post-operative pulmonary complications in high-risk patients? Perioper Med(Lond) 2018;7:7.  Back to cited text no. 11
ShanderA, FleisherLA, BariePS, BigatelloLM, SladenRN, WatsonCB, etal. Clinical and economic burden of postoperative pulmonary complications: Patient safety summit on definition, risk-reducing interventions, and preventive strategies. Crit Care Med 2011;39:2163-72.  Back to cited text no. 12
SmetanaGW. Postoperative pulmonary complications: An update on risk assessment and reduction. Cleve Clin J Med 2009;76Suppl4:S60-5.  Back to cited text no. 13
CanetJ, GallartL, GomarC, PaluzieG, Vallès J, CastilloJ, etal. Prediction of postoperative pulmonary complications in a population-based surgical cohort. Anesthesiology 2010;113:1338-50.  Back to cited text no. 14
MiskovicA, LumbAB. Postoperative pulmonary complications. Br J Anaesth 2017;118:317-34.  Back to cited text no. 15
DugganM, KavanaghBP. Pulmonary atelectasis: Apathogenic perioperative entity. Anesthesiology 2005;102:838-54.  Back to cited text no. 16
PatelK, HadianF, AliA, BroadleyG, EvansK, HorderC, etal. Postoperative pulmonary complications following major elective abdominal surgery: Acohort study. Perioper Med(Lond) 2016;5:10.  Back to cited text no. 17
CanetJ, MazoV. Postoperative pulmonary complications. Minerva Anestesiol 2010;76:138-43.  Back to cited text no. 18
LAS VEGAS Investigators. Epidemiology, practice of ventilation and outcome for patients at increased risk of postoperative pulmonary complications: LAS VEGAS–An observational study in 29 countries. Eur J Anaesthesiol 2017;34:492-507.  Back to cited text no. 19


  [Figure1], [Figure2]

  [Table1], [Table2], [Table3], [Table4]


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