Introduction

Although the mortality rate of gastric cancer has been declining, there is currently no difference in the mortality ranking among organs affected by malignant neoplasms, including the stomach, worldwide1,2,3,4. Gastric cancer is one of the five leading malignant neoplasms in South Korea3,5. Nevertheless, its incidence can be reduced by various active efforts, such as smoking cessation, alcohol abstinence, low sodium intake, body weight control, and Helicobacter pylori eradication3,6,7,8,9,10,11,12,13. If gastric cancer occurs despite efforts to prevent it, the prognosis after treatment can be favorable if gastric cancer is detected early4. Endoscopic examination is recommended for the early detection of gastric cancer14. If detected early through endoscopy, gastric cancer can be treated with endoscopic procedures that are less burdensome to patients15,16. However, even in cases of early gastric cancer (EGC), gastrectomy is necessary if the tumor is outside the scope of standard endoscopic treatments17,18,19.

Recently, the incidence of EGC has increased, especially in South Korea. According to the data from the Korean Gastric Cancer Association (KGCA)-led nationwide survey on surgically treated gastric cancers, the incidence rate of EGC increased from approximately 58% in 2009 to approximately 64% in 2019, and stage I gastric cancer cases accounted for approximately 66% in 201920. The proportion of laparoscopic surgery in Korea was only 6.6% in 2004; it rapidly increased to 64.9% in 2019. In cases of early diagnosis, laparoscopic gastrectomy is recommended for faster postoperative recovery20,21,22. In previous studies, short-term postoperative outcomes, such as first flatus, hospital stay, and postoperative pain, were better after laparoscopic gastrectomy than after open surgery21,23,24,25. Most previous studies have reported that the morbidity rate is lower after laparoscopy than after open gastrectomy for patients with EGC21,23,24,25,26. However, other previous studies have not shown significantly better postoperative outcomes, including complications, after laparoscopic gastrectomy27,28,29. Moreover, there remains a lack of studies that compare the complications of the two surgical approaches based on nationwide data. In this study, we aimed to reconfirm the relationship between complications and the surgical approaches (laparoscopy vs. open) for gastrectomy in patients with EGC using the 2019 KGCA-led nationwide survey data.

Methods

Patients

Data of 14,076 patients who underwent gastric cancer surgery obtained from the 2019 Korean nationwide survey were reviewed. Patients who underwent open or laparoscopic gastrectomy for pathological EGC (T1) were included in this study. Patients who met any of the following criteria were excluded from this study: receiving preoperative chemotherapy; undergoing non-curative resection including R1 or R2 resection; with no resection; with distant metastasis; undergoing palliative surgery; with positive cytology; undergoing wedge resection, bypass, or biopsy; and with insufficient data (Fig. 1). Insufficient data included clinicopathological features, such as American Society of Anesthesiologists (ASA) physical status classification and previous abdominal surgery, perioperative outcomes (including resection extent, operative time, blood loss, complication, and Clavien–Dindo grade), or patients’ pathological features (such as tumor size, Lauren’s classification, and lymphovascular invasion). This study was approved by the Institutional Review Boards of the Dongnam Institute of Radiological and Medical Sciences and Ajou University Hospital (D-2302-002-002 and AJOUIRB-EX-2022-551, respectively), which waived the requirement for written informed consents from the patients owing to the retrospective nature of the study. All work involving patient data was performed in accordance with the Declaration of Helsinki.

Figure 1

Study flowchart.

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Data

The data acquisition procedure has been described in a previous study20. In 2019, the Information Committee of the KGCA requested representatives from all registered institutions to collect data on gastric cancer surgery. Representative data were submitted according to the case report form of December 2020. After detailed reviewing and revisions between the Information Committee of the KGCA and each representative, the final data collection was completed in February 2021. The Information Committee of the KGCA approved the protocol of this study and also allowed us to use the 2019 KGCA-led nationwide survey data of 14,076 patients who underwent gastric cancer surgery.

The surgical procedure of gastrectomy for gastric cancer was based on the treatment guidelines for gastric cancer in Korea and Japan30,31,32. Total omentectomy was usually performed for T3 or deeper tumors or according to the surgeons’ preference. The choice of gastric resection type (distal, total, proximal, or pylorus-preserving gastrectomy) depended on the location of the tumor. Patients with EGC without suspected lymph node metastasis underwent D1 + lymphadenectomy, while D2 lymphadenectomy was performed for advanced cases or cases with suspected lymph node metastasis. Distal gastrectomy was followed by reconstruction methods such as gastroduodenostomy, gastrojejunostomy with/without braun anastomosis, Roux-en Y gastrojejunostomy, or uncut Roux-en Y gastrojejunostomy. Total gastrectomy involved Roux-en Y esophagojejunostomy or jejunal interposition, and proximal gastrectomy used double tract reconstruction or esophagogastrostomy. Gastrogastrostomy was the reconstruction method for pylorus-preserving gastrectomy. All reconstruction methods were determined by the surgeon. Overall, similar surgical procedures were applied to open and laparoscopic surgeries.

The survey data consisted of 54 items, including demographic, surgical, pathological, and perioperative characteristics. Pathological tumor stage was defined according to the 8th edition of the American Joint Committee on Cancer staging system33. Tumors were histologically classified as differentiated or undifferentiated according to the Japanese Classification of Gastric Carcinoma 15th edition34. The differentiated type consisted of papillary carcinoma or well-/moderately differentiated tubular adenocarcinoma. The undifferentiated types included poorly differentiated tubular adenocarcinoma, signet ring cell carcinoma, and mucinous carcinoma. Postoperative morbidity was defined as any complication occurring within 30 days of surgery. The severity of morbidity was classified using the Clavien–Dindo classification, and complications of grade III or higher were defined as major complications35.

Statistical analyses

The propensity score matching (PSM) method was used to reduce selection bias. The variables for propensity scores included age, sex, body mass index (BMI), ASA classification, previous abdominal surgery, extent of resection, combined resection, extent of lymph node dissection, tumor size, histology, Lauren classification, depth of invasion, lymph node metastasis, pathological stage, lymphovascular invasion, and perineural invasion. Surgical approaches were matched with a caliper width of 0.1, and a 1:1 nearest-neighbor strategy without replacement was performed using the MatchIt package in R software. The standardized mean difference (SMD) was used to estimate the balance of the covariates. An absolute SMD value < 0.1 was considered a small imbalance, and the SMDs of all clinical variables were reduced to < 0.1 after matching.

The PSM identified 612 pairs of patients who underwent open or laparoscopic gastrectomy, and their perioperative outcomes were compared using the McNemar test (categorical variables) or paired T-test (continuous variables). Differences were considered statistically significant at P values of < 0.05. Logistic regression analysis was performed to identify the independent risk factors for morbidity and major complications. Variables with a P value < 0.05 in univariate analysis and surgical approach were included in the multivariate analysis. Statistical analyses were performed using IBM SPSS software for Windows (version 25.0; IBM Corp., Armonk, New York, USA) and R software (version 3.3.3; R Foundation for Statistical Computing, Vienna, Austria).

Results

Patient characteristics

Among the 7765 patients with pathological T1 gastric cancer who underwent open or laparoscopic gastrectomy, 3562 were excluded because of preoperative chemotherapy (N = 273); non-curative resection or no resection (N = 31); distant metastasis (N = 40); palliative intent surgery (N = 4); positive cytology (N = 13); wedge resection, bypass, or biopsy only (N = 34); and insufficient data (N = 3167). Finally, 4203 patients were included in this study, with 3562 and 641 in the laparoscopic gastrectomy and open gastrectomy groups, respectively. After PSM, 612 patient pairs were identified in both groups (Fig. 1).

The clinical, surgical, and pathological characteristics of the open and laparoscopic gastrectomy groups before and after PSM are presented in Table 1. Among all patients, the laparoscopic gastrectomy group was characterized by young age (P = 0.001), female sex (P = 0.017), low ASA score (P < 0.001), small tumors (P < 0.001), distal gastrectomy (P < 0.001), less than D2 lymph node dissection (P < 0.001), and Lauren intestinal type (P < 0.001). The open gastrectomy group had a higher proportion of previous abdominal surgery (P < 0.001), combined resection (P < 0.001), lymph node metastasis (P < 0.001), stage IB or advanced disease (P < 0.001), lymphovascular invasion (P = 0.001), and perineural invasion (P < 0.001) than the laparoscopic gastrectomy group. However, all these variables were well balanced between the open and laparoscopic gastrectomy groups after PSM. Further, detailed combined resection lists were not significantly different between the groups after PSM (Supplementary Table S1).

Table 1 Clinical, surgical, and pathological characteristics of open and laparoscopic gastrectomy approaches before and after the propensity score matching.
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Perioperative outcomes

Perioperative outcomes between the open and laparoscopic gastrectomy groups before and after PSM are shown in Table 2. In all patients, the laparoscopic gastrectomy group had a significantly longer operative time, less blood loss, greater number of harvested lymph nodes, shorter hospital stays, and less receipt of adjuvant chemotherapy compared with the open gastrectomy group (P = 0.005, P < 0.001, P < 0.001, P < 0.001, and P < 0.001, respectively). These perioperative outcomes were significant after PSM (P < 0.001 for operative time, P < 0.001 for blood loss, P < 0.001 for number of harvested lymph nodes, P = 0.001 for hospital stay, and P = 0.039 for adjuvant chemotherapy). Morbidity rate was not significantly different between groups before and after PSM (P = 0.721 and P = 0.709, respectively). No significant differences were observed between the two groups before and after PSM according to the Clavien–Dindo classification of complications (all P > 0.05).

Table 2 Perioperative outcomes of open and laparoscopic gastrectomy approaches before and after the propensity score matching.
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Major complications of Clavien–Dindo grade III or higher complications occurred in 54 patients after PSM. Detailed lists of major complications are summarized in Table 3. Wound complication was notably more common in open gastrectomy than in laparoscopic surgery (P = 0.012). The incidences of other detailed complications were not significantly different between the two groups (all P > 0.05).

Table 3 Comparison of major complications according to surgical approach after the propensity score matching.
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Risk factors for morbidity

Of the 1224 matched patients, morbidity occurred in 137 (11.2%) patients. In the univariate analysis, age, sex, previous abdominal surgery, histology, resection extent, combined resection, and Lauren classification were associated with morbidity (P = 0.028, P < 0.001, P = 0.042, P = 0.001, P = 0.032, P = 0.017, and P = 0.005, respectively) (Table 4). Other variables, including body mass index, ASA score, tumor size, surgical approach, extent of lymph node dissection, depth of tumor invasion, lymph node metastasis, pathological stage, lymphovascular invasion, and perineural invasion, were not significantly different between the two groups (all P > 0.05). Multivariate analysis identified male sex (odds ratio [OR], 2.232; P = 0.001), previous abdominal surgery (OR, 1.772; P = 0.006), total gastrectomy (OR, 1.794; P = 0.005), and combined resection (OR, 1.929; P = 0.016) as independent risk factors for morbidity. The surgical approach was not an independent risk factor for morbidity (P = 0.300).

Table 4 Risk factors for morbidity after the propensity score matching.
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Univariate and multivariate analyses for major complications are demonstrated in Table 5. Univariate analysis identified age, sex, histology, extent of tumor resection, and combined resection as significant predictors of major complications (P = 0.020, P = 0.001, P = 0.002, P = 0.028, and P = 0.001, respectively) (Table 5). The surgical approach was not associated with major complications (P = 0.578). In multivariate analysis, male sex (OR, 3.219; P = 0.005), total gastrectomy (OR, 1.940; P = 0.033), and combined resection (OR, 3.034; P = 0.002) were independent risk factors for major complications. The surgical approach was not an independent risk factor for major complications (P = 0.441).

Table 5 Risk factors for major complications after the propensity score matching.
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Discussion

In our study, we compared the complications between laparoscopic and open gastrectomies in EGC by performing PSM analysis to minimize selection bias based on the KGCA-led nationwide survey data. There was no significant difference in postoperative morbidity, major complications, and mortality between laparoscopic and open gastrectomies for EGC. Among all complications, wound complications were the only ones associated with a higher incidence after laparoscopic surgery than after open gastrectomy.

According to the Korean Practice Guidelines for Gastric Cancer 2022, laparoscopic distal gastrectomy is recommended for clinical stage I gastric cancer17. The Korean multicenter randomized controlled trial (RCT) (KLASS-01) reported that laparoscopic distal gastrectomy for clinical stage I gastric cancer was safe and showed a lower incidence of wound complications than open distal gastrectomy21. In contrast, a systematic review and meta-analysis reported that the distributions of complication grades based on the Clavien–Dindo classification were not different between laparoscopic and open gastrectomies36; in this meta-analysis, laparoscopic gastrectomy had lower rates of wound complications and intra-abdominal fluid collection compared with open gastrectomy. Other complications did not differ significantly between the two approaches. In addition, laparoscopic gastrectomy was associated with a longer operation time and shorter postoperative hospital stay than open gastrectomy, which is consistent with the findings of our study. A Western multicenter randomized trial (LOGICA trial) reported that postoperative complications did not differ between laparoscopic and open gastrectomies27. Similar to the present study, the LOGICA trial included patients who underwent total and distal gastrectomies. An RCT compared the safety of laparoscopic total gastrectomy (LTG) for clinical stage I gastric cancer with that of open total gastrectomy (OTG). A total of 214 patients (105 in the LTG group and 109 in the OTG group) were analyzed for morbidity and mortality. Postoperative morbidity and mortality rates were not significantly different between the LTG and OTG groups. Another feasibility study (KLASS-03) showed acceptable morbidity and mortality compared with those of a previous study on OTG37. Aforementioned several pivotal RCTs were conducted by selected surgeons who performed many laparoscopic surgeries, especially in South Korea. In this study, where we collected nationwide data on gastric cancer surgeries, regardless of the number of gastrectomies performed by a surgeon, the postoperative complications of laparoscopic gastrectomy were comparable to those of open gastrectomy. Therefore, this study can prove the efficacy of laparoscopic gastrectomy including total gastrectomy regardless of the surgeon’s experience of laparoscopic surgery.

Several previous studies have suggested the risk factors for complications after gastric cancer surgery, and the KLASS-01 for EGC described the open approach and number of patient comorbidities as independent risk factors for postoperative complications21. In this study, where we performed PSM analysis based on the KGCA-led nationwide survey data, the operative approach for gastrectomy was not a risk factor for postoperative complications. Surgical experience overcoming learning curve was revealed to be a factor influencing complications after laparoscopic distal or total gastrectomy38,39,40. Therefore, laparoscopic surgery for gastrectomy is considered a more demanding procedure than open surgery in terms of technique and safety36. This study documented several risk factors for morbidity and major complications such as female sex, total gastrectomy, and combined resection, in accordance with previous studies41,42,43.

This study had some limitations. First, as this was a retrospective multicenter study, some data were missing. Despite nationwide data, the number of patients included in the analysis was limited owing to a large amount of missing data. Furthermore, detailed analyses of the specific types of complications were limited. Second, the detailed number of gastrectomies performed by a surgeon was missing in this nationwide data. Therefore, it was not possible to analyze the relationship between surgeons’ experience and postoperative complications. Third, several patients underwent D2 lymph node dissection (open gastrectomy group, 78.3%; laparoscopic gastrectomy group, 73.9%). According to the Korean Practice Guidelines for Gastric Cancer 2022, D1 + lymph node dissection can be performed in patients with EGC with negative lymph node metastasis17. Nevertheless, to the best of our knowledge, this is the first study to compare and analyze complications using PSM by collecting large-scale patient data from the KGCA-led nationwide survey.

In conclusion, laparoscopic gastrectomy showed similar complication rates to open gastrectomy in this study, where we used the PSM method based on the KGCA-led nationwide survey data. Surgical approach was not a risk factor for complications after gastrectomy for EGC.