Sublobar resection versus lobectomy in the treatment of synchronous multiple primary lung cancer

sMPLC was considered a rare disease in the past. In recent years, due to the continuous improvement of the diagnosis level, its incidence has increased. Existing research suggests that the incidence of MPLCs is on the rise. Guo [12] summarized 326 cases of MPLC with the incidence rate of 5.6%, and our result showed that the rate was 5.7%, which is similar to global research [5, 13,14,15] after the twentieth century. There are currently no clear diagnostic criteria for sMPLC, and the MM diagnostic criteria in 1975 [11] are the most classic. Of course, ACCP [16] guidelines have partially revised the MM criteria in 2003, 2007, and 2013, and the main point of the improvement is to increase the identification of differences in molecular genetics on the original basis. Dr. Liu Yi [17] found that the diagnostic criteria for MM and the second-generation gene sequencing technology based on gene rearrangement have a diagnostic consistency rate of 91.9% in the multicenter sMPLCs diagnostic verification test. Because gene sequencing technology has not been widely used clinically, the current MM standard is still the main reference standard for the diagnosis of MPLCs. Our research on the diagnosis of MPLCs also followed the MM standard in 1975. In this study, the pathological results of sMPLCs were mainly adenocarcinoma-adenocarcinoma, followed by squamous cell carcinoma-squamous cell carcinoma. However, different pathological types of sMPLCs were relatively rare, which is also in line with existing reports [12, 18, 19].

Many investigations have been carried out to help predict and improve the prognosis of lung cancer in recent years [20, 21]. For example, Le V. H. et al. [22] developed a model for predicting OS in patients with NSCLC based on risk scores of CT-based radiomics signatures. However, due to the complicated design of research involving sMPLC, there are still no multicenter prospective controlled studies to support and guide the treatment of this disease. At present, the treatment of sMPLCs only relies on the experience of clinicians and the consensus of a few experts. There are few studies on the prognosis regarding surgical treatment of MPLCs and single primary lung cancers. Early studies [23,24,25,26,27,28,29] have shown that lobectomy has a better prognosis than limited resection. In recent years, due to the overall diagnostic level of lung cancer improvement, the staging of operable lung cancer is relatively early, especially for the single ground-glass nodules with tumors ≤ 2 cm; sublobar resection can obtain a similar prognosis to lobectomy [30, 31]. Yu’s study [10] showed that there was no significant difference in the 5-year survival rate of MPLCs matching the single primary lung cancer stage (61.3% vs. 68.8%, P = 0.474). The sample size in our research was expanded. A total of 141 patients with sMPLC were enrolled in the group, and the grouping was more refined. We compared the prognosis of patients with sMPLCs and single primary lung cancers who underwent lobectomy or sublobectomy for main tumor, respectively. We used statistical methods to match single primary lung cancers with sMPLCs in terms of age, sex, and size of main tumor, especially similar in stage of main tumor, whether lobectomy was selected (77.1% vs. 77.2%, P = 0.157) or sublobar resection (98.7% vs. 90.7%, P = 0.309) can achieve similar oncological prognosis. This result also indicates that the prognosis of sMPLCs depends on its main tumor stage.

If the prognosis of multiple primary tumors depends on the staging of its main tumor, whether the surgical options for the main lesions of sMPLCs are the same as that of single primary lung cancer remains to be further studied. For single primary lung cancer, the North American Lung Cancer Research Group’s research [32] established the gold standard positioning of lobectomy + mediastinal lymph node dissection for the treatment of operable lung cancer more than 20 years ago. In recent years, due to changes in the types of lung cancer, more and more indolent lung cancers, sMPLCs, and elderly lung cancer patients who cannot tolerate lobectomy have gradually increased. Sublobar resection with less damage, including anatomical segmentectomy and wedge resection, is gradually increasing [33]. The current research [30, 34] supports anatomical segmentectomy for the treatment of stage 1 NSCLC, especially for stage 1 lung cancer with a diameter of ≤ 2 cm. These studies only focus on single primary lung cancer, and there is no prospective study on sublobar resection for sMPLCs. Previous retrospective studies [13,14,15,16] included few cases and did not specifically compare the prognosis of sMPLCs with different surgical methods. Trousse [13] believes that pneumonectomy alone is an independent risk factor for MPLC surgery. Yu [10] pointed out that for patients with stage 1 bilateral MPLC, sublobar resection can achieve a 5-year survival rate of 75%, not inferior to lobectomy. Xue [35] also believes that sMPLCs with two or more tumors should be evaluated separately and treated as independent tumors, and the prognosis of MPLCs is significantly better than that of metastatic lung tumors.

Because of the limitations of surgical access in the sublobar group, the diameter of the main lesion of sublobar group was smaller than that of lobectomy group, and the main lesion in the lobectomy group was staged relatively late. The sMPLCs are generally dominated by 2 lesions, and the pathological type is mainly adenocarcinoma-adenocarcinoma, which is also consistent with existing reports [12, 25, 30, 31, 10, 32, 33, 30, 34, 35]. Because carcinoma in situ often does not spread to local lymph nodes or distant metastases, the 5-year survival rate of patients with carcinoma in situ is close to 100%; while patients with invasive adenocarcinoma are more aggressive and prone to recurrence and metastasis after surgery, the prognosis is poor [36, 37]. In this study, we excluded patients whose main lesion was carcinoma in situ, and the 5-year OS rate of 141 patients with sMPLC was 84.6%, which was higher than some current retrospective studies [9, 10, 17, 30, 34], similar to Guo Haifa’s research results [12]. It is worth noting that this study suggests that different surgical methods for the main lesion do not affect the prognosis of sMPLCs. In order to further balance the bias between the MPLC group and the sublobar group, we performed a tendency-matching analysis of sublobar resection and lobectomy in the main tumor of sMPLCs. A total of 49 pairs of sMPLCs were matched. Although the size of the primary and secondary lesions after matching is still different, the difference is decreasing, and there was no statistically significant difference in the stage of the main lesions and the degree of tumor differentiation. Due to the limitation of the number of cases, perfect propensity matching could not be achieved. However, there were still no statistically significant differences in age, sex, main lesion size and stage, degree of differentiation, number of lesions, and pathological types between the two groups. On this basis, we compared the prognosis of patients with sMPLCs who underwent lobectomy and sublobar resection. The 1-year, 3-year, and 5-year DFS rates of the two groups were 93.9% vs. 98.0%, 84.4,% vs. 91.1%, and 67.6 vs. 87.7%, P = 0.324, and the 1-year, 3-year, and 5-year OS rates were 95.9% vs. 100%, 86.7% vs. 93.2%, and 86.7% vs. 83.9%, P = 0.482, indicating no statistically significant difference in the DFS rate and OS rate of the matched MPLC lesions regardless of sublobar resection or lobectomy. The possible reason is that the main lesion staging is caused by a larger proportion of stage 1 MPLC. As the number of cases increases, this result may change but for the main lesion stage 1 MPLC, and the choice of method is not a decisive factor affecting the prognosis.

At present, with the popularization of thoracic surgery techniques, the surgical method of sublobar resection, especially anatomical segment resection, is gradually becoming more mature [38]. At present, from a technical point of view, sublobar resection is safe and feasible to treat early invasive NSCLC [39]. In the current literature, 10% of these major complications reported in some prospective trials and large database analyses occur late. In a recently published randomized study [40] (CALGB/Alliance 140,503), the inpatient mortality after lobectomy for patients with suitable cardiopulmonary function was 1.1%, and the inpatient mortality after segmentectomy was 0.6%. This study found that the incidence rate of serious complications of sMPLCs such as pulmonary embolism (3/141, 2.1%), respiratory failure (1/141, 0.7%), but the more frequent occurrence is lung infection (24/141, 17.0%). Postoperative complications in the sublobar resection group (7 cases of respiratory infection, 0 case of respiratory failure, 1 case of pulmonary embolism) were significantly less than that of the lobectomy group (17 cases of respiratory infection, 1 case of respiratory failure, 2 cases of pulmonary embolism). There was no death during the perioperative period. In general, sublobar resection for sMPLCs has shorter hospital stays than lobectomy (9.72 ± 4.33 vs. 11.22 ± 5.35, P = 0.049) and a lower incidence of postoperative complications (16.3% vs. 40.8%, P = 0.007). We believe that the advantages of sublobar resection in the perioperative period are mainly because the wound area is smaller than that of lobectomy, and the exudation is less; at the same time, its perioperative complication rates were lower than that of lobectomy. Therefore, in patients with MPLCs, sublobar resection can be considered as an effective alternative to lobectomy in perioperative.

There is no statistically significant difference in the prognosis of sMPLCs, whether lobectomy or sublobar resection is selected for the main lesion, compared with the corresponding single primary lung cancer. The prognosis of sMPLCs generally depends only on the main lesion. This special form of lung cancer can be considered in the traditional TNM staging system according to the staging of the main lesion to predict the patient’s prognosis more accurately. The main focus of MPLC surgery can be selected according to the patient’s lung function. Sublobar resection or lobectomy, and sublobal treatment of sMPLC, is safer than lobectomy in the perioperative period and shorter postoperative hospital stay.

This study is a retrospective study of a single institution with a small sample size and a certain degree of bias. Due to the limitation of the sublobar resection entry criteria, the tumor diameter of the sublobar resection group is smaller than that of the lobectomy, older age, and more comorbidities, which are often incalculable confounding factors. Based on these factors, we tried our best to balance the confounding factors of tumor staging and tumor size by propensity matching analysis. We did not observe a difference in survival between the two groups. In addition, compared with lobectomy, sublobar resection has perioperative advantages such as shorter hospital stay and lower postoperative complications. Finally, it should be pointed out that the choice of surgical methods for MPLCs is still in the exploratory stage, and prospective studies are needed to further verify these observations.

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