Outcomes of laparoscopic cholecystectomy in patients with and without COPD

Abstract

Objective: The aim of this study was to investigate the outcomes of patients with COPD after laparoscopic cholecystectomy (LC).

Patients and methods: All COPD patients who underwent LC from 2000 to 2010 were identified from the Taiwanese National Health Insurance Research Database. The outcomes of hospital stay, intensive care unit (ICU) stay, and use of mechanical ventilation and life support measures in COPD and non-COPD populations were compared.

Results: A total of 3,954 COPD patients who underwent LC were enrolled in our study. There were significant differences in the hospitalization period, ICU stay, and use of mechanical ventilation and life support measures between the COPD and non-COPD populations. The mean hospital stay, ICU stay and number of mechanical ventilation days in the COPD and non-COPD groups were 7.81 vs 6.01 days, 5.5 vs 4.5 days and 6.40 vs 4.74 days, respectively. The use of life support measures, including vasopressors and hemodialysis, and the rates of hospital mortality, acute respiratory failure and pneumonia were also increased in COPD patients compared with those in non-COPD patients.

Conclusion: COPD increased the risk of mortality, lengths of hospital and ICU stays, ventilator days and poor outcomes after LC in this study.

Keywords:

• COPD
• laparoscopic cholecystectomy
• outcome

Introduction

Laparoscopic cholecystectomy (LC) is a safe and effective treatment for patients with cholecystitis and is widely applied in clinical settings. LC has become the treatment of choice for many patients with symptomatic and asymptomatic gallstones.¹

Patients who undergo LC can have a reduced operative time, less scarring, less pain and blood loss, improved convalescence, a shorter length of hospital stay and less medical expenditures than those who undergo open cholecystectomy.^2,3

Factors predicting the technical difficulty have to be considered of primary importance since the conversion to laparotomy is a risk factor for postoperative respiratory insufficiency in high-risk groups. A previous meta-analysis showed that male sex, age >65 years, diabetes, acute cholecystitis, degree of gallbladder wall thickness, and history of upper abdominal surgery were all risk factors for converting LC to open cholecystectomy.⁴

Patients with COPD have airway obstructions that are not fully reversible by bronchodilators, decreased lung elasticity and reduced lung recoil pressure because of emphysema, which result in increased total lung capacity and pressure on the diaphragm.

Bayrak et al⁵ evaluated 60 COPD patients and showed that spinal anesthesia was better than general anesthesia in COPD patients who underwent LC because spinal anesthesia causes no impairment of lung function. Although studies have recognized the safety of LC in COPD patients, some studies have focused on LC vs open surgery and general anesthesia vs spinal anesthesia. The aim of our study was to compare the outcomes of COPD patients and the general population after LC in clinical practice using data from a large nationwide unselected population to assess the length of intensive care unit (ICU) and hospital stays, mortality, and resource use, including ventilator days, vasopressor use and hemodialysis. This study represents a comprehensive comparison of LC between COPD patients and the general population.

Patients and methods

Data source

Taiwan’s National Health Insurance Research Database (NHIRD), which is a claims population database, was used in this study. The claims from NHIRD consist of disease diagnosis, prescriptions, ambulatory care and surgical records, outpatient visits, and inpatient care and surgical operation records. The disease records were identified according to the International Classification of Diseases, Ninth Revision, Clinical Modification (ICD-9-CM) code. Encrypted personal identifiers are used in the NHIRD to protect patients’ privacy and to prevent the possibility of an ethical violation according to regulations of the Bureau of National Health Insurance in Taiwan. Because the identifiable personal information could not be found in the NHIRD, an exemption was approved by the Institutional Review Board of Chi Mei Medical Center.

Definition of study subjects

Patients having first-time surgery for LC from 1997 to 2013 were selected for this study. The order code of the medical expenditure application for LC was 75215B according to the rules of Taiwan’s national health insurance. COPD patients who received LC and were older than 40 years were identified as the case group. A diagnosis of COPD was based on the ICD-9-CM codes 490–492 and 496 from the hospital admission dataset. Patients with COPD diagnosis after LC and incomplete demographic data were excluded from this study. The controls were patients without COPD who received LC. For reducing the potential confounding bias, cases and controls were 1:8 matched by age and gender with enough statistical power.⁶ The selection process of the study subjects is presented in a flow diagram (Figure 1).

Figure 1 The selection process of study subjects.

Abbreviations: LC, laparoscopic cholecystectomy; y/o, year old.

Measurements

Age, gender, income, hospital level, comorbidities, and anesthesia duration of receiving LC records were collected in this study. Comorbidities were defined following ICD-9-CM codes: diabetes (ICD-9-CM: 250), hypertension (ICD-9-CM: 401–405), dyslipidemia (ICD-9-CM: 272), congestive heart failure (ICD-9-CM: 428), atrial fibrillation (ICD-9-CM: 427.31), stroke (ICD-9-CM: 430–437), malignancy (ICD-9-CM: 140–208), chronic kidney disease (ICD-9-CM: 403–404, 580–587, 250.4, 274.1, 440.1, 442.1, 572.4, 753.1), peptic ulcer disease (ICD-9-CM: 531–534), and obesity (ICD-9-CM: 278). The anesthesia duration of receiving LC was also estimated according to the medical expenditure applications.

Outcome measurements

The primary interesting outcomes were the resource utilization, such as length of ICU stay, the length of using mechanical ventilation, and life-support measures among the LC patients in this study. The life-support measurements included vasopressor use, hemodialysis and hospital mortality. Hospital mortality was based on the death records from the inpatient claims database. In addition, the complications of LC, such ARF (ICD-9-CM: 518.5, 518.81, 518.82, 518.84) and pneumonia (ICD-9-CM: 480–488), were also considered to measure the potential effects.

Statistical analysis

Statistical Analysis System (SAS) (version 9.4; SAS Institute, Inc., Cary, NC, USA) statistical software was applied for all analyses. The differences between patients with COPD and those without were estimated using Wilcoxon rank sum test for continuous variables and Pearson’s chi-square test for categorical variables. Logistic regression, which was adjusted all potential confounding factors, was used to estimate the associated risk of length of ICU stay, length of using MV, life-support measurements, and potential complications. The threshold for statistical significance was set P<0.05.

Results

A total of 3,954 COPD patients who underwent LC were enrolled in our study. Among the patients, 32.78% and 33.33% were aged 60–69 and 70–79 years, respectively. A total of 8.93% of the patients were older than 80 years. Most patients underwent LC in regional hospitals (41.81%), followed by medical centers and district hospitals. The most common comorbidity was hypertension (45.52%), and the second most common comorbidity was diabetes (29.69%). Most patients had an anesthesia duration (64%) that was between 0 and 2 hrs. Table 1 shows the characteristics of patients who underwent LC in the COPD and non-COPD populations.

Table 1 Comparison of laparoscopic cholecystectomy in patients with and without COPD

Patient characteristics	COPD (N=3,954)	Non-COPD (N=31,632)	P-value
	No. (%)	No. (%)
Age at the time of surgery (years)
40–49	303(7.66)	2,424(7.66)	1.0000
50–59	684(17.30)	5,472(17.30)
60–69	1,296(32.78)	10,376(32.80)
70–79	1,318(33.33)	10,544(33.33)
≥80	353(8.93)	2,816(8.90)
Gender
Female	2,283(57.74)	18,264(57.74)	1.0000
Male	1,671(42.26)	13,368(42.26)
Income (NT)
Low (<24,000)	3,709(93.80)	28,325(89.55)	<0.0001
Middle (24,000–42,000)	150(3.79)	1,353(4.28)
High (>42,000)	95(2.40)	1,954(6.18)
Hospital level
Medical center	1,351(34.17)	14,525(45.92)	<0.0001
Regional hospital	1,653(41.81)	12,093(38.23)
District hospital	950(24.03)	5,014(15.85)
Comorbidities
Diabetes	1,174(29.69)	6,870(21.72)	<0.0001
Hypertension	1,800(45.52)	11,292(35.70)	<0.0001
Dyslipidemia	250(6.32)	1,205(3.81)	<0.0001
Congestive heart failure	286(7.23)	556(1.76)	<0.0001
Atrial fibrillation	125(3.16)	4201(1.33)	<0.0001
Stroke	182(4.60)	570(1.80)	<0.0001
Malignancy	182(4.60)	1,126(3.56)	0.0010
Chronic kidney disease	331(8.37)	1,256(3.97)	<0.0001
Peptic ulcer disease	782(19.78)	3,355(10.61)	<0.0001
Obesity	12(0.30)	33(0.10)	0.0030
Anesthesia duration
0–2 hrs	2,534(64.09)	20,652(65.29)	0.2335
2–4 hrs	1,296(32.78)	10,090(31.90)
≥4 hrs	124(3.14)	890(2.81)

Note: P-values were derived from Pearson’s chi-square test.

Table 2 shows the resources used by the study population. There were significant differences in the hospitalization period, ICU stay, and use of mechanical ventilation and life support measures between the COPD and non-COPD populations. The mean hospital stay was 7.81 days in the COPD population and 6.01 days in the non-COPD population. The mean ICU stay was 5.5 days in the COPD population and 4.5 days in the non-COPD population. The duration of mechanical ventilation was also longer in the COPD population than in the non-COPD population at 6.40 and 4.74 days, respectively. The use of life support measures including vasopressor use and hemodialysis as well as hospital mortality were increased in the COPD population compared with those in the non-COPD population.

Table 2 Resource use in the study population

	COPD (N=3,954)	Non-COPD (N=31,632)	P-value
Hospital stay, days
Median (IQR)	5(4–8)	4(3–7)	<0.0001
1–7 days	2,801(70.84)	25,235(79.78)	<0.0001
8–14 days	758(19.17)	4,691(14.83)
>14 days	395(9.99)	1,706(5.39)
ICU stay, days
Median (IQR)	6(2–15)	2(1–4)	0.0083
1–7 days	318(81.33)	1,093(86.13)	0.0250
8–14 days	34(8.70)	98(7.72)
>14 days	39(9.97)	78(6.15)
Mechanical ventilation
Median (IQR)	2(1–7)	2(1–4)	0.0044
1–7 days	247(77.67)	770(88.61)	0.0006
8–14 days	29(9.12)	55(6.19)
>14 days	42(13.21)	64(7.20)
Life support measures
Vasopressor use	51(1.29)	210(0.66)	<0.0001
Hemodialysis	92(2.33)	386(1.22)	<0.0001
Hospital mortality	26(0.66)	79(0.25)	<0.0001

Note: P-values were derived from Pearson’s chi-square test.

Table 3 shows the OR for adverse clinical outcomes among patients with and without COPD who underwent LC after adjusting for patient characteristics, including age, gender, income, hospital level, diabetes, hypertension, dyslipidemia, congestive heart failure, atrial fibrillation, stroke, malignancy, chronic kidney disease, peptic ulcer disease, obesity and anesthesia duration.

Table 3 OR for adverse clinical outcomes for laparoscopic cholecystectomy patients with and without COPD

	Crude OR (95% CI)	Adjusted OR* (95% CI)	P-value
ICU stay	2.63(2.33–2.96)	2.14(1.87–2.44)	<0.0001
Mechanical ventilation	3.02(2.65–3.45)	2.56(2.22–2.97)	<0.0001
Life support measures
Vasopressor use	1.96(1.44–2.66)	1.37(0.99–1.90)	0.0581
Hemodialysis	1.93(1.53–2.43)	0.87(0.65–1.15)	0.3305
Hospital mortality	2.64(1.70–4.12)	1.74(1.08–2.78)	0.0221
Complication
Acute respiratory failure	3.70(3.02–4.53)	2.86(2.31–3.53)	<0.0001
Pneumonia	5.07(4.37–5.88)	3.97(3.40–4.64)	<0.0001

Note: *The OR was adjusted by the listed variables.

Abbreviation: ICU, intensive care unit.

COPD is a strong predictor of the length of ICU stay, duration of mechanical ventilation, acute respiratory failure and pneumonia after LC with adjusted hazard ratios and 95% CIs of 2.14 (1.87–2.44), 2.56 (2.22–2.97), 2.86 (2.31–3.53) and 3.97 (3.40–4.64), respectively.

Discussion

Our study showed that patients with COPD had a longer hospital and ICU stays, a longer duration of mechanical ventilation, increased use of life support medical resources, and increased rates of acute respiratory failure, pneumonia and mortality.

LC has become the most common and preferred method for surgery compared with open cholecystectomy. LC is associated with a smaller wound, faster operative time, less incisional pain, and faster recovery than open cholecystectomy. Although there are many advantages to laparoscopic surgery compared to open surgery, laparoscopy may not be suitable for all patients.

LC and COPD

Gramatica et al⁷ presented 28 COPD patients who successfully underwent LC under epidural anesthesia. Lowndes et al⁸ used the American College of Surgeons National Surgical Quality Improvement Program database and showed that COPD was not a significant predictor of an operative duration of >60 mins.

There are some special considerations for access in patients with umbilical hernias or prior abdominal surgery⁹ and obese¹⁰ or pregnant patients.¹¹ Patients with COPD may need additional pulmonary function tests and arterial blood gas analyses. Stéphane et al¹² created a preoperative score to evaluate the operative difficulty in patients undergoing LC and found that male sex, a previous cholecystitis attack, and laboratory data (fibrinogen levels, neutrophil counts, and alkaline phosphatase levels) can predict operative difficulties. However, they did not mention the impact of patient comorbidities. Lowndes et al⁸ identified some patient factors were related to the operative duration. In their studies, COPD, cardiovascular disease, and diabetes were not associated with the operative duration. However, their study focused on procedural difficulty and did not mention complications after surgery or utilization of medical resources. During the LC procedure, insufflation of the abdomen with carbon dioxide to displace the abdominal wall from the internal organs can reduce lung and chest wall compliance. In addition, carbon dioxide can transfer from the abdominal cavity to the circulation via peritoneal absorption and excretion from the airways. These effects may not influence the general population but may deteriorate lung function in patients with COPD and increase complications or the length of hospital stay.

Hospitalization and complications

To our knowledge, limited data are available comparing the complications and medical resource utilization between COPD and non-COPD populations. Hsieh¹³ enrolled 21 COPD patients, including 20 patients with mild COPD and 1 patient with moderate COPD, to compare with patients without COPD undergoing LC and showed that the operative duration and duration of hospitalization were similar in both groups. There were also no pulmonary complications reported in COPD patients.

There was a limited number of patients (21 COPD patients) included in the previous study. We enrolled 3,954 COPD patients from a nationwide database and comprehensively included COPD patients with 4 different stages of COPD (mild, moderate, severe and very severe). Our data showed that COPD patients had a longer duration of hospitalization and higher risk of pneumonia and acute respiratory failure than patients without COPD. Because of the underlying destruction of lung structure in COPD, patients with COPD were more susceptible to pneumonia and acute respiratory failure than those without COPD, and these results were also observed in our previous studies.^14–16

Some studies have shown that complications were rare after LC in patients with COPD. Gramatica et al⁷ presented 28 COPD patients who underwent LC with epidural anesthesia. Pursnani et al¹⁷ performed LC in 6 patients with obstructive airway disease. However, they enrolled few cases in these studies, and the patients may have been specifically selected. The risks of performing LC in patients with COPD also need more meticulous attention.

PaCO₂ after LC in COPD

Hsieh¹³ surveyed patients undergoing LC and found that the end-tidal carbon dioxide value was significantly higher in COPD patients than in those without COPD with similar ventilator settings. However, a previous study¹³ showed that COPD patients had similar outcomes to non-COPD patients. Previous studies have shown that the benefits of laparoscopy included an improved operative field and faster mobilization after surgery.¹⁸ During LC with carbon dioxide insufflation into the peritoneal cavity, patients with COPD exhibited an increased partial pressure of carbon dioxide (PaCO₂) that reached the highest level after extubation and did not return to baseline levels.¹⁹ These physiological levels may not play an important role in the general population of patients without chronic lung disease. For patients with COPD, an increased PaCO₂ that results in acidosis is a poor prognosis factor. Acidosis deteriorates hemodynamics and metabolism and increases mortality in COPD patients.²⁰

Although our limitations included the lack of data from arterial blood gas analyses and pulmonary lung function testing, we thought that PaCO₂ may increase in patients with COPD after LC and impacts on outcomes and complications. Meticulous attention should be paid in terms of preoperative evaluation, medical therapy optimization, indications for surgery and appropriate patient selection.

Limitations

There are some limitations associated with the retrospective analysis of the database performed in our study. First, the most important limitation is the lack of COPD staging among patients and, therefore, subgroup analyses. Second, we were unable to review data, including arterial blood gas analysis, pulmonary function testing, gallbladder wall thickness, body mass index and the actual onset of disease, in our database. Our results represent a comprehensive evaluation of COPD patients with varying severities of COPD. Third, the operative time in this study was estimated according to the medical expenditures from the beginning of analgesia to the recovery from analgesia and may not reflect the original data. Fourth, the reason why LC or open surgery was selected is unknown. Patients may have had contraindications for LC or economic reasons to elect a specific procedure. Therefore, selection bias may exist; however, we anticipate that this bias is similar in both COPD and non-COPD patients. Fifth, this analysis relied on the accuracy of both the procedural and diagnostic records. The diagnosis of COPD has been validated in a previous study.²¹ Despite these limitations, our results compared the outcomes in COPD patients who underwent LC with those of patients without COPD.

Conclusion

LC is associated with a longer duration of hospitalization and a poorer prognosis in COPD patients than in non-COPD patients. Given the increased prevalence of COPD and longevity, safer surgical approaches may be of considerable benefit to this population. As age and comorbidities increase, physicians need an appropriate diagnosis and treatment of COPD prior to LC, considering the higher postoperative complication rate in this subgroup of patients.

Disclosure

The authors report no conflicts of interest in this work.