Precision surgical approach with lymph-node dissection in early gastric cancer.

The gravest prognostic factor in early gastric cancer is lymph-node metastasis, with an incidence of about 10% overall. About two-thirds of early gastric cancer patients can be diagnosed as node-negative prior to treatment based on clinic-pathological data. Thus, the tumor can be resected by endoscopic submucosal dissection. In the remaining third, surgical resection is necessary because of the possibility of nodal metastasis. Nevertheless, almost all patients can be cured by gastrectomy with D1+ lymph-node dissection. Laparoscopic or robotic gastrectomy has become widespread in East Asia because perioperative and oncological safety are similar to open surgery. However, after D1+ gastrectomy, functional symptoms may still result. Physicians must strive to minimize post-gastrectomy symptoms and optimize long-term quality of life after this operation. Depending on the location and size of the primary lesion, preservation of the pylorus or cardia should be considered. In addition, the extent of lymph-node dissection can be individualized, and significant gastric-volume preservation can be achieved if sentinel node biopsy is used to distinguish node-negative patients. Though the surgical treatment for early gastric cancer may be less radical than in the past, the operative method itself seems to be still in transition.

Core tip: The surgical treatment for early gastric cancer seems to be appropriately radical, because almost all patients can be cured by gastrectomy with lymph-node dissection up to D1+. However, after D1+ gastrectomy, multiple functional symptoms are caused by the loss of the stomach. Physicians must strive to reduce post-gastrectomy symptoms and optimize quality of life. About two-thirds of early gastric cancers are node-negative and can be resected by endoscopic submucosal dissection. The extent of lymph-node dissection can be individualized, and significant gastric preservation can be achieved, with sentinel-node biopsy. The operative method itself is still in transition.

INTRODUCTION

Gastric cancer is a public health concern worldwide, and especially in Asia[1,2]. Therefore, Japanese and South Korean physicians have focused on early detection of gastric cancer[3]. For decades, half of the gastric cancers detected in Japan and Korea have been early-stage cancer[4]. The outcome of surgical resection for early gastric cancer is excellent, and most clinicians recognize that early gastric cancer is curable. The focus of recent topical discussion of early gastric cancer is minimally invasive treatment. Many early gastric cancers have been resected endoscopically[5]. Less invasive approaches such as laparoscopic gastrectomy and robotic gastrectomy have also been widely carried out[6-8]. On the other hand, standard surgery for early gastric cancer is distal partial gastrectomy (DG) or total gastrectomy (TG), with lymph-node dissection[9], so, even with a laparoscopic approach, post-gastrectomy symptoms and functional effects cannot be ignored[10]. In this article, we reconsider surgical treatment options for early gastric cancer and discuss the most appropriate treatment.

THE CHARACTERISTICS OF EARLY GASTRIC CANCER

Early gastric cancer is defined as carcinoma in which depth of invasion is restricted to the mucosal layer or submucosa[11]. The presence or absence of lymph-node metastasis is irrelevant to the classification[11]. Most early gastric cancers are asymptomatic. Early gastric cancer is often detected with gastroscopy or barium meal during a health-screening checkup[12]. Advanced gastric cancer is frequently associated with hematogenous or peritoneal metastases, while in contrast, early gastric cancer has few such distant metastases. On the other hand, early gastric cancer is rarely associated with lymph-node metastasis. The frequency of lymph-node metastasis is 2%-3% in mucosal cancer and 15%-20% in submucosal cancer[13-21]. Numerous previous studies have examined the location of these lymph node metastases. In the classification of gastric carcinoma of the Japanese Gastric Cancer Association[22], the regional lymph nodes of the stomach are classified in detail and numbered. Currently, the extent of lymph-node metastasis has been evaluated in terms of the number of metastases, but in the past, regional nodes were grouped according to the location of the cancer, and the degree of lymph-node metastasis was evaluated based on which group of nodes the metastasis had reached. The precise data of nodal metastasis of early gastric cancer described in a representative literature are summarized in Table 1[23-26]. Most nodal metastasis in early gastric cancer was found to be limited to perigastric nodes and nodes number 7, 8a, and 9. Based on these results, the Japanese Gastric Cancer Association established D1+[27], the extent of lymph-node dissection for submucosal cancer (Figure 1). The disease-specific survival of D1+ gastrectomy for early gastric cancer is often given as 96%-98% in articles investigating the outcome of laparoscopic gastrectomy[28-30].

Table 1

Summary of representative literature on the precise incidence of nodal metastasis in early gastric cancer

Nodal location	Total cases	Perigastric nodes (%)						aLGA (%)	Suprapancreatic nodes (%)				SpH (%)	aPHA (%)	PAN (%)
Station NO		1	2	3	4	5	6	7	8a	9	11p	11d	10	12a	16
Kitamura et al[23]	634	8.2						1.6	0.94	0.31	0.31	0.00	0.00	0.16	0.16
Tanaka et al[24]	2368	0.97	0.08	4.6	3.2	0.51	2.4	1.4	0.63	0.72	0.42	0.00	0.00	0.00	0.00
Nakajima et al[25]	3630	0.90	0.11	5.9	3.9	0.47	3.4	1.1	1.1	1.1	0.36	0.03	0.08	0.06	0.25
Yoshikawa et al[26]1	7151	19.01						2.01	1.81	0.131	0.131	0.001	0.001	0.001	0.001

Study of submucosal cancer. Percentages represent proportion of patients with metastasis in lymph nodes of given station. All articles but Yoshikawa include both mucosal cancer and submucosal cancer; Yoshikawa includes only submucosal cancer cases. aLGA: Nodes along left gastric artery; SpH: Nodes at the hilum of spleen; aPHA: Nodes along hepatic artery proper; PAN: Paraaortic nodes.

Figure 1

Standard surgery for early gastric cancer. A: Distal partial gastrectomy D1+; B: Total gastrectomy D1+.

In summary, the characteristics of early gastric cancer are as follows: there are few hematogenous and peritoneal metastases; the determining prognostic factor is lymph node metastasis; the incidence of nodal metastasis is about 10% overall; and even with nodal metastases, almost all patients can be cured by gastrectomy with D1+ lymph-node dissection.

ADVENT OF ENDOSCOPIC TREATMENT

However, after D1+ gastrectomy, several functional symptoms are caused by the loss of the stomach. Reduction of gastric acid secretion impairs food digestive capacity. The amount of food intake decreases, nutritional status worsens, and body weight decreases. In addition, patients suffer from various postgastrectomy symptoms (PGS). They include reflux esophagitis, dumping syndrome, defecation abnormalities, anorexia, and abdominal pain. These symptoms are thought to compromise patients’ quality of life (QOL). In addition, several long-term aftereffects may occur, such as iron deficiency anemia, pernicious anemia, bone metabolic disorders, gastric stump cancer, cholelithiasis, and ileus[31-37]. Taking these disadvantages into consideration, if there is another therapeutic option, we would like to adopt it to avoid gastrectomy.

There are endoscopic treatments. The endoscopic treatments are alternatives to surgery using gastrofibroscopy. Gastroscopy was developed in Japan, and endoscopic treatments for gastric tumor were also invented and developed in Japan. The beginning of endoscopic treatment is endoscopic mucosal resection (EMR). EMR is a method of injecting physiological saline into the submucosal layer to lift the lesion, narrowing the mucosa with a snare, and removing the mucosa by applying a high frequency current[38]. During the same period, endoscopic treatments using lesion cauterization with laser, heating probe, argon plasma discharge, etc., had been attempted. These therapies have some advantages and serious disadvantages, and they have not attained therapeutic value sufficient to replace surgical treatment[39,40]. However, this situation has changed with the advent of endoscopic submucosal dissection (ESD) technique[40]. ESD is the method of dissecting and removing the specimen after incision of the mucosa around the entire circumference using a dedicated device. In ESD, the specimen is removed in one piece, which secures a safety margin, the treatment outcome is equal to prior surgical treatments, and it is possible for the patient to enjoy the same QOL as before the treatment. The greatest disadvantage of ESD was its technical difficulty, though this difficulty was decreased by the development of electrocautery equipment and advancements in the dedicated device. Nowadays, ESD is not just an alternative to surgery, it is becoming a complete replacement for certain types of surgery[40]. The indication for ESD is a case in which the clinic-pathological data available prior to treatment is presumed to be negative for nodal metastasis. The frequency of nodal metastasis is 2%-3% in mucosal cancer and 15%-20% in submucosal cancer. Therefore, ESD is indicated in most mucosal cancers. Gotoda et al[41] proposed an indication for ESD from a study of surgical cases of two Japanese high-volume centers. Since the probability of nodal metastasis was set not to exceed the mortality rate after surgical resection, these criteria includes cases with a very low, but not zero, percentage probability of nodal metastasis. Recently, the long-term prognosis of the cases who underwent ESD according to this indication has been reported, and it has been confirmed that it is equal to the prognosis of the surgical resection[42-44]. Current indications for ESD are shown in Tables 2 and 3. These are new recommendations, stated in Japanese gastric cancer treatment guidelines for 2018[9]. In the table of indications (Table 2), Zone A is a former absolute indication. Zone B is newly added absolute indication proven by prospective observational trial JCOG 0607. Zone C is the expanded indication. Although this area is considered to be sufficiently curable, caution is necessary because the proof of the prospective observational trial JCOG1009/1010 has not been completed yet. Zone D is labeled “relative indication”. This zone comprises an alternative treatment to surgery, reserved only for patients unable to endure surgical treatment. The guideline also defines the evaluation of curability after resection (Table 3). If the specimen is diagnosed as eCuraA or eCureB, the cancer is considered completely resected and no additional treatment is required. On the other hand, for eCuraC it is considered that the cancer has not been completely resected, and additional treatment is necessary. The lesion of eCuraC-1 needs additional local treatment, and in the case of cCuraC-2 surgical treatment with lymph-node dissection should be added.

Table 2

Updated preoperative indications for endoscopic submucosal dissection in Japanese gastric cancer treatment guidelines 2018

Depth of invasion (preoperative)	Clinical mucosal cancer
Intra-tumoral ulcer of ulcer scar	UL 0		UL 1
Tumor size (Long axis)	2 cm	> 2 cm	3 cm	> 3 cm
Differentiated	A	B	B	D
Undifferentiated	C	D	D	D

A: Absolute indication for both endoscopic mucosal resection and endoscopic submucosal dissection; B: Absolute indication for endoscopic submucosal dissection; C: Expanded indication for endoscopic submucosal dissection; D: Relative indication (Alternative).

Table 3

Updated evaluation of curability after endoscopic submucosal dissection in Japanese gastric cancer treatment guidelines 2018

Updated evaluation of curability after endoscopic submucosal dissection
eCuraA	En-bloc resection, predominantly differentiated adenocarcinoma, pathological mucosal cancer (pT1a), HM0, VM0, Ly0, V0
	UL0 (regardless of size)
	UL1, under 3 cm in diameter
	If size of undifferentiated component is > 2 cm, tumor is diagnosed as eCuraC-2
eCuraB	En-bloc resection, HM0, VM0, Ly0, V0
	UL0, under 2 cm in diameter, predominantly undifferentiated adenocarcinoma, pathological mucosal cancer (pT1a)
	UL1, under 3 cm in diameter, predominantly differentiated adenocarcinoma, pathological submucosal cancer within 500 µm (pT1b1)
	If there is an undifferentiated component in the submucosal layer, tumor is diagnosed as eCuraC-2
eCuraC-1	Lesion meeting criteria of eCuraA or eCuraB except with positive lateral margin or non–en-bloc resection.
eCuraC-2	The lesion meets none of eCuraA, eCuraB, or eCuraC-1

LESS INVASIVE SURGICAL TREATMENT

In cases where ESD is not indicated, surgical resection is necessary because of the possibility of nodal metastasis[20,41]. In East Asia, most surgical treatment for early gastric cancer is laparoscopic D1+ gastrectomy. Laparoscopic gastrectomy was introduced in Japan in 1991[45]. At the time, the quality of laparoscopic views was poor, and the instruments were inadequate to the task. Therefore, lymph-node dissection was extremely difficult. Laparoscopic surgeries for early gastric cancer at that time consisted of local resection (LR) without lymphadenectomy[46], and intra-gastric surgery dissecting the mucosa[47]. Though the pioneers also attempted laparoscopic DG, the extent of nodal dissection was confined to peri-gastric nodes[45]. The indication for these treatments were cases in which lymph-node metastasis was presumed to be absent based on clinico-pathological features[45-47]. These approaches gradually disappeared with the advent of ESD. Subsequently, the invention of ultrasonic activated devices and technological advancements by surgeons have enabled laparoscopic lymph-node dissection comparable to conventional open surgery. Therefore, laparoscopic DG or TG with D1+ or D2 came to be performed as daily practice, and gradually replaced conventional open surgery.

There are many articles comparing laparoscopic gastrectomy and conventional open gastrectomy for patients with early gastric cancer[48,49], and a meta-analysis of prospective trials has also been conducted[49]. Perioperative surgical safety and oncological safety are considered similar[48,49]. The advantages of laparoscopic gastrectomy over conventional open surgery are as follows: the smaller size of the incision; lower number of times analgesic is required; lesser amount of intraoperative hemorrhage; and fewer occurrences of wound dehiscence and respiratory complications. On the other hand, the drawbacks are high cost and longer operation time[49]. Although it is difficult to conclusively establish the minimal invasiveness of laparoscopic gastrectomy, it is suggested by the shorter time to first flatus and shorter hospital stays.

THE PGS AND QOL AFTER GASTRECTOMY

Because the size of the wound is clearly visible, laparoscopic surgery is an attractive option for hospitals. The high degree of difficulty of the laparoscopic gastrectomy is an attractive challenge for young surgeons. Thus, laparoscopic gastrectomy has become widespread in East Asia. However, the benefits of laparoscopic gastrectomy in the long term have not yet been sufficiently examined.

Various PGS occur after gastrectomy[34-37], and, these symptoms seem to worsen QOL[35]. The severity of these PGS and the deterioration of QOL are subjective measures, and objective evaluations are difficult. These items are patient-reported outcomes whose scientific validation must be performed using definitive questionnaires that have already been validated psychometrically. DAUGS[50] and PGSAS-45[34] have been reported as questionnaires specifically for post-gastrectomy patients. Of these, PGSAS-45 seems to be the de-facto standard to verify PGS and QOL, because it covers items that are considered important by gastrectomy specialists, it includes a short-form 8 (SF-8) for the assessment of generic QOL, and the standard values of Japanese patients are known based on data from more than 2500 cases[34].

Kinami et al[51] evaluated the superiority in PGS and QOL at least 1 year after surgery of patients who underwent laparoscopic gastrectomy, using data from the PGSAS study for additional analysis. The outcome measures included in the PGSAS-45 are classified into three domains: the symptom domain, the living status domain, and the QOL domain[34]. A few main outcome measures of PGSAS-45 were superior after laparoscopic, compared to conventional open, DG surgery. These measures were: The need of additional food; dissatisfaction with symptoms; and the mental component summary of SF-8. These items were of the living status or QOL domain, not the symptom domain. In contrast, for TG, there was no difference in the scores of main outcome measures between laparoscopic surgery and conventional open surgery. From this large-scale analysis, it was concluded that there is no advantage for laparoscopic TG from the viewpoint of the PGS[51]. Generally, the only difference between laparoscopic surgery and conventional open surgery is the length of the incision. Therefore, a large difference in PGS between laparoscopic and open surgery would not be expected.

LIMITED SURGERY FOR EARLY GASTRIC CANCER

Even if the advantages are small, such as the size of the incision, the number of times analgesic is used, and a slight improvement in QOL, it is reasonable to apply laparoscopic gastrectomy to the early gastric cancer, if the surgical and oncological safety are equivalent. However, if other approaches can be used to prevent PGS, palliation of PGS should be prioritized to benefit patients in the long term, rather than focusing on the small incision size afforded by laparoscopic surgery. Limited surgery is a method expected to palliate PGS. Limited surgical approaches consist of reduced resection area of the stomach and smaller extent of nodal dissection. These include pylorus-preserving gastrectomy (PPG), proximal gastrectomy (PG), and LR. In performing LR, the unconventional decision to omit lymph-node dissection is necessary. Therefore, LR is rarely done today, while ESD is routinely performed[52].

In comparison with DG, PPG is a pylorus-preserving procedure[53]. Generally, the right gastric artery and pyloric branch of the vagus nerve are preserved to secure an antral cuff of about 3 cm. It is expected to be effective for preventing dumping symptoms, regurgitation of duodenal juice into the stomach, and gallstone formation after gastrectomy[54,55]. This procedure is indicated in cases in which right gastric-artery lymph-node dissection can be omitted. Practically speaking, these patients will have tumors located at the middle part of the stomach with distal margins more than 4 cm from the pylorus[9]. Even if PPG is adopted, lymph-node dissection at nodes other than those located at the right gastric artery area is possible, and D1+ for PPG is included in the Japanese gastric cancer treatment guidelines[9] (Figure 2). The survival outcome of PPG is considered equal to that of DG[54,55]. In the PGSAS study, it was confirmed that, in comparison with Billroth I cases, diarrhea and dumping symptoms and the necessity of additional food was lower in PPG cases[56].

Figure 2

Pylorus-preserving gastrectomy D1+.

PG is an alternative to TG for early gastric cancer located in the stomach’s upper third. Compared with TG, PG preserves over one-half of the distal stomach and is considered to be superior in improving nutritional status and preventing anemia because of higher dietary intake and preserved secretion of gastric acid, Castle intrinsic factor, and gastrin. It is reported that if the cancer lesion is limited to the upper-third of the stomach, dissection of the lymph nodes along the right gastric artery and right gastroepiploic artery can be omitted without compromising radicality[57-60]. In the Japanese gastric cancer treatment guideline, D1+ for PG is set[9] (Figure 3). In the PGSAS study, PG prevented diarrhea and dumping symptoms, slightly diminished weight loss, and lowered the necessity of additional food than TG[36].

Figure 3

Proximal gastrectomy D1+.

Though these limited surgeries are superior in terms of preserving some functions lost by gastrectomy, it is known that some patient dissatisfaction may result from PGS. PPG occasionally creates cases where the hospitalization period is extended due to either delayed gastric emptying or small-stomach symptoms[61]. There are also many cases in which reflux esophagitis or gastric stasis are generated after PG[62,63]. Due to these facts, such limited surgeries are sometimes considered difficult procedures. In a questionnaire survey conducted by gastric cancer specialists in Japan by the Japanese Society for Gastro-surgical Pathophysiology, only 30% of surgeons had adopted PPG and 70% of surgeons had adopted PG. Several attempts to reduce the aforementioned postoperative difficulties have been reported. In PPG, preservation of the infra-pyloric arteries and veins has been reported to be beneficial in preventing delayed gastric emptying[64-66]. The PGSAS study also concluded that size of proximal remnant stomach, gastro-gastric anastomoses with hand sewing, and adequate size of the antral cuff were helpful in reducing postoperative disability[67]. In PG, the reconstruction method is considered to be useful for the prevention of reflux esophagitis, and pyloroplasty and preservation of the hepatic and pyloric branches of vagus are considered to be useful for the reduction of gastric stasis. Reconstruction is particularly important, and various method to prevent reflux have been devised (Figure 4), but every method has its own advantages and disadvantages, and there is still no definitive operative method[68-76]. Methods to reduce postoperative damage of PG were also studied in the PGSAS study, and it has been concluded that a large distal remnant stomach and a pyloric bougie were effective[77].

Figure 4

Reconstruction after proximal gastrectomy. A: Additional anti-reflux procedures for esophagogastric anastomosis; B: Gastric tube reconstruction; C: Double-flap technique (Kamikawa method); D: Double tract reconstruction; E: Jejunal interposition; F: Jejunal pouch interposition.

Though PPG and PG are complicated procedures, reports of laparoscopic PPG and laparoscopic PG have increased recently[78-82]. However, the results of PPG and PG performed laparoscopically are equivalent to conventional open surgery in terms of safety and radicality, while preservation of function is not yet fully proven. Regarding function preservation, a retrospective study comparing laparoscopic PPG with laparoscopic DG was reported, again with fewer cases presenting with diarrhea and dumping symptoms[80]. However, reports comparing PPG or PG in conventional open surgery and laparoscopic surgery are not impressive[82]. Kinami et al[51] analyzed the data of the PGSAS study and found that laparoscopic PPG had better physical-component scores on SF-8 than open PPG, whereas there was no difference in the scores for main outcome measures between laparoscopic PG and open PG. From these results, it is concluded that the function preserved in PPG and PG in laparoscopic surgeries are equivalent to those in the conventional open surgeries. Thus, it appears that there is little long-term advantage in laparoscopic surgery.

FUNCTION PRESERVING RADICAL GASTRECTOMY

As described above, studies of large cohorts using the PGSAS demonstrated that PPG and PG are superior in the occurrence rate of dumping symptoms and diarrhea, and the maintenance of eating habits. Nevertheless, comparing PPG and DG, or PG and TG, other functional outcomes were found to be similar[36,56]. Therefore, more extensive gastric preservation is required to prevent more PGS outbreaks and improve QOL. The extent of resection of the stomach is inseparable from that of lymph-node dissection. Therefore, in order to carry out better function-preserving procedures, it is necessary to boldly omit the lymph-node dissection in order to preserve blood circulation to the stomach.

What is the lymph-node metastasis rate of surgical cases for early gastric cancer today, when ESD has become standard? In the latest version of the Japanese gastric-cancer treatment guideline (5th edition, in Japanese), the results of research on equalization and actual conditions of gastric-cancer medical treatment in Japan as of fiscal 2013 is reported[9]. This study investigated the course of gastric-cancer treatment in 297 cancer hospitals in Japan. The total number of patients with gastric cancer was 44879, and the endoscopic treatment rate for pretreatment T1N0 gastric cancer was 64.1%. Therefore, at standard cancer treatment facilities in Japan, the number of primary surgical cases for T1N0 gastric cancer may be estimated to be approximately one-third. This is considering that 90% of early gastric cancers are negative for metastases. If all endoscopically treated cases are assumed to be node negative, 70% of surgical cases are calculated to be negative for metastasis. Therefore, only 30% of cases require D1+ (i.e., are those in which the possibility of lymph-node metastasis cannot be ruled out). D1+ may be unnecessary in 70% of cases.

Currently, however, it is difficult to reduce the extent of dissection below D1+. The frequency of metastasis in group 2 lymph nodes is low. There are two opinions: one is that there is no large benefit from the prophylactic dissection[16]; and the other is that there is a significant difference in the prognosis for D1 and D2[17]. The general view of specialists is that the extent of lymph-node dissection should not be indiscriminately reduced. In addition, there is no large difference in gastrectomy extent between D1+ and D1. Reduction of nodal dissection from D1+ to D1 is of little value in terms of PGS prevention. To prevent PGS, intraoperative diagnosis of node-negative patients should be required to establish the appropriateness of omitting peri-gastric nodal dissection, with its benefits of preservation of gastric blood flow and reduction in the resection area of stomach.

SENTINEL NODE BIOPSY AND BASIN DISSECTION

Currently, the best reliable method of intraoperative nodal diagnosis is the sentinel-node biopsy[83]. A sentinel node (SN) is defined as the node that receives lymphatic flow directly from a primary tumor. SN biopsy has been attempted most for gastric cancer among all gastrointestinal cancers[84-88]. In a multicenter prospective clinical trial in Japan, the SN concept was proved valid in early gastric cancer[85]. It is believed that the extent of lymph-node dissection can be reduced without compromising the radicality, if the node-negative patient is able to be diagnosed by SN biopsy[89]. Unfortunately, unlike breast cancer, in gastric cancer there is no room for additional nodal dissection after initial surgery, the prognosis of micro-metastasis is unknown, and a method for predicting non-SN metastases in patients with positive SN metastases has not been established. Rapid intraoperative diagnostic methods for nodal metastasis which can diagnose to the micro-metastasis level has not been established either. Therefore, it is considered premature to omit all lymphadenectomy by utilizing SN biopsy in gastric cancer. Lymphatic-basin dissection has been proposed as a realistic solution for omitting the nodal dissection[84-89]. This is a method for gastric SN biopsy, in which the lymphatic basin identified by dye mapping is removed en-bloc, and the SNs are identified ex-vivo after basin dissection, and is sent for intraoperative rapid diagnosis[88]. After SN biopsy, D2 gastrectomy is added if the patient is diagnosed as node-positive, but if the patient is diagnosed as node negative, additional dissection is omitted, the gastric feeding artery outside the basin is preserved, and the resection area of stomach is minimized. Thus, by adopting the SN biopsy, a large-area stomach-sparing function-preserving radical gastrectomy, as shown in Figure 5, can be performed. Kinami et al[88] reported that there was no recurrence in 174 cases in which nodal dissection outside the basin was omitted. Isozaki et al[90] reported that PGS in cases involving function-preserving procedures according to this protocol were clearly better than standard procedures.

Figure 5

Function-preserving radical gastrectomy derived by sentinel node biopsy. A: Mini-proximal gastrectomy; B: High segmental gastrectomy; C: Segmental gastrectomy; D: Mini-distal gastrectomy; E: Local resection of stomach.

A large-scale prospective study is currently ongoing in Korea to verify survival prognoses after gastric-cancer SN biopsy[91]. Additionally, a prospective trial to verify both prognosis and function-preservation effects of the function-preserving radical gastrectomy accompanied by basin dissection is on-going in Japan[89]. In addition, attempts to reproduce this function-preserving radical gastrectomy using laparoscopic surgery have also been reported[84,89,92]. If the two prospective studies described above show evidence supporting SN biopsy in gastric cancer, the surgery for early gastric cancer will eventually shift from the current laparoscopic D1+ gastrectomy to a laparoscopic, tailor-made, function-preserving radical gastrectomy, in which patients may be diagnosed as node-negative intraoperatively.

However, there are many problems to be solved in SN-directed, tailor-made function-preserving gastrectomy techniques. Solutions for the following issues are necessary: setting the proper range for lymphatic basin dissection; establishment of quick, convenient, universally-applicable intraoperative diagnosis method; and strategies for preventing dysfunction after surgery. Physicians should also pay attention to the risk of metachronous multiple gastric cancers when the remnant stomach area is large.

SUMMARY: OPTIMAL SURGICAL TREATMENT, NOW AND IN THE FUTURE

Early gastric cancer can be cured by surgical treatment, and physicians must be mindful of reduction of PGS and improvement of QOL over the long term after the operation. The authors intention in this article is to provide a roadmap for developing precision surgery for early gastric cancer from these three perspectives: Lymph-node dissection, function preservation, and a less invasive approach.

Lymph-node dissection: D1+ is an appropriate and standardized extent of dissection for early gastric cancer in view of radicality and safety. However, D1+ is not essential in all cases. The extent of lymph-node dissection can be individualized if SN biopsy is used to distinguish node-negative patients.

Function preserving: Depending on the location and size of the primary lesion, preservation of the pylorus or cardia should be considered. If the patient is diagnosed as node-negative by SN biopsy, significant, large-volume gastric preservation can be achieved.

Less invasive approach: There seems to be no problem with the use of laparoscopic surgery because the perioperative and oncological safety are similar to open surgery, but the physician should be aware that laparoscopic surgery is technically difficult. Prioritizing completion of laparoscopic surgery and forgoing conversion to limited or function-preserving open surgery is undesirable in terms of PGS reduction. However, if advances in surgical devices or technological innovations in robotic-assisted surgery are made, all operations will eventually be undertaken using a less invasive approach.

Though the surgical treatment for early gastric cancer is currently radical, the operative method itself seems to be still in a transitional stage. Evidence-based gastric-cancer SN biopsy and technological innovations in robotic-assisted surgery are sure to bring a new era of minimally invasive, significantly function-preserving surgery.