Review of sublobar resection for lung adenocarcinoma with ground-glass presence

doi:10.3969/j.issn.1674-8115.2024.07.014

Abstract

Abstract:

Surgery is the mainstay of lung cancer treatment options. Traditionally, lobectomy has held its place as the gold standard for treating localized lung cancer, while sublobar resection, including wedge resection and segmentectomy, was primarily considered as an alternative, often reserved for patient ineligible to sustain a radical intervention. However, with the widespread application of computed tomography (CT) to clinical practice, the increasing detection rate of pulmonary ground glass nodules (GGNs) has reshaped this landscape. Ground glass opacity (GGO) in persistent lung nodules is an indicative factor of a favorable prognosis, typically corresponding to pathological changes such as atypical adenomatous hyperplasia (AAH), adenocarcinoma in situ (AIS), or adenocarcinomas predominantly featuring a lepidic growth pattern. A large number of retrospective studies have shown that sublobar resection can achieve satisfactory therapeutic outcomes for such lesions. A series of prospective studies from Japan have confirmed that for early-stage lung cancers dominated by GGOs, sublobar resection is also a viable curative surgical option. The follow-up data showed that there was no statistical difference in the survival status of these patients compared with that of pulmonary lobectomy. This article aims to delve into the role of limited lung resection in the context of lung adenocarcinoma presenting with GGO features.

Key words: non-small cell lung cancer, lung adenocarcinoma, pulmonary ground-glass nodule, sublobar resection

CLC Number:

R734.2

ZHU Mingyang, XU Yuanyuan, REN Jianghao, HUANG Jiazheng, LI Ruonan, TAN Qiang. Review of sublobar resection for lung adenocarcinoma with ground-glass presence[J]. Journal of Shanghai Jiao Tong University (Medical Science), 2024, 44(7): 922-927.

TrendMD

References 60

1	SUNG H, FERLAY J, SIEGEL R L, et al. Global cancer statistics 2020: globocan estimates of incidence and mortality worldwide for 36 cancers in 185 countries[J]. CA Cancer J Clin, 2021, 71(3): 209-249.
2	THAI A A, SOLOMON B J, SEQUIST L V, et al. Lung cancer[J]. Lancet, 2021, 398(10299): 535-554.
3	HANSELL D M, BANKIER A A, MACMAHON H, et al. Fleischner society: glossary of terms for thoracic imaging[J]. Radiology, 2008, 246(3): 697-722.
4	COLLINS J, STERN E J. Ground-glass opacity at CT: the ABCs[J]. AJR Am J Roentgenol, 1997, 169(2): 355-367.
5	SUZUKI K, ASAMURA H, KUSUMOTO M, et al. “Early” peripheral lung cancer: prognostic significance of ground glass opacity on thin-section computed tomographic scan[J]. Ann Thorac Surg, 2002, 74(5): 1635-1639.
6	KIM Y T. Management of ground-glass nodules: when and how to operate?[J]. Cancers, 2022, 14(3): 715.
7	PEDERSEN J H, SAGHIR Z, WILLE M M, et al. Ground-glass opacity lung nodules in the era of lung cancer CT screening: radiology, pathology, and clinical management[J]. Oncology, 2016, 30(3): 266-274.
8	NAKATA M, SAEKI H, TAKATA I, et al. Focal ground-glass opacity detected by low-dose helical CT[J]. Chest, 2002, 121(5): 1464-1467.
9	ENGELER C E, TASHJIAN J H, TRENKNER S W, et al. Ground-glass opacity of the lung parenchyma: a guide to analysis with high-resolution CT[J]. AJR Am J Roentgenol, 1993, 160(2): 249-251.
10	KURIYAMA K, SETO M, KASUGAI T, et al. Ground-glass opacity on thin-section CT: value in differentiating subtypes of adenocarcinoma of the lung[J]. AJR Am J Roentgenol, 1999, 173(2): 465-469.
11	KODAMA K, HIGASHIYAMA M, YOKOUCHI H, et al. Prognostic value of ground-glass opacity found in small lung adenocarcinoma on high-resolution CT scanning[J]. Lung Cancer, 2001, 33(1): 17-25.
12	KIM E A, JOHKOH T, LEE K S, et al. Quantification of ground-glass opacity on high-resolution CT of small peripheral adenocarcinoma of the lung: pathologic and prognostic implications[J]. AJR Am J Roentgenol, 2001, 177(6): 1417-1422.
13	CHO S, YANG H, KIM K, et al. Pathology and prognosis of persistent stable pure ground-glass opacity nodules after surgical resection[J]. Ann Thorac Surg, 2013, 96(4): 1190-1195.
14	WOOD D E, KAZEROONI E A, BAUM S L, et al. Lung cancer screening, version 3.2018, NCCN clinical practice guidelines in oncology[J]. J Natl Compr Canc Netw, 2018, 16(4): 412-441.
15	HERBST R S, MORGENSZTERN D, BOSHOFF C. The biology and management of non-small cell lung cancer[J]. Nature, 2018, 553(7689): 446-454.
16	REA G, RUDRAPPA M. Lobectomy [M]. StatPearls. Treasure Island (FL): StatPearls Publishing: 2022.
17	CAHAN W G. Radical lobectomy[J]. J Thorac Cardiovasc Surg, 1960, 39: 555-572.
18	GINSBERG R J, RUBINSTEIN L V. Randomized trial of lobectomy versus limited resection for T1N0 non-small cell lung cancer. Lung Cancer Study Group[J]. Ann Thorac Surg, 1995, 60(3): 615-622; discussion 622-623.
19	LANDRENEAU R J, SUGARBAKER D J, MACK M J, et al. Wedge resection versus lobectomy for stage I (T1 N0 M0) non-small-cell lung cancer[J]. J Thorac Cardiovasc Surg, 1997, 113(4): 691-698; discussion 698-700.
20	STRAND T E, ROSTAD H, MØLLER B, et al. Survival after resection for primary lung cancer: a population based study of 3211 resected patients[J]. Thorax, 2006, 61(8): 710-715.
21	SCOTT W J, HOWINGTON J, FEIGENBERG S, et al. Treatment of non-small cell lung cancer stage I and stage II: accp evidence-based clinical practice guidelines (2nd edition)[J]. Chest, 2007, 132(3 Suppl): 234S-242S.
22	POSTMUS P E, KERR K M, OUDKERK M, et al. Early and locally advanced non-small-cell lung cancer (NSCLC): esmo Clinical Practice Guidelines for diagnosis, treatment and follow-up[J]. Ann Oncol, 2017, 28(suppl_4): iv1-iv21.
23	JENSIK R J, FABER L P, MILLOY F J, et al. Segmental resection for lung cancer. a fifteen-year experience[J]. J Thorac Cardiovasc Surg, 1973, 66(4): 563-572.
24	AOKAGE K, YOSHIDA J, HISHIDA T, et al. Limited resection for early-stage non-small cell lung cancer as function-preserving radical surgery: a review[J]. Jpn J Clin Oncol, 2017, 47(1): 7-11.
25	WARREN W H, FABER L P. Segmentectomy versus lobectomy in patients with stage I pulmonary carcinoma. five-year survival and patterns of intrathoracic recurrence[J]. J Thorac Cardiovasc Surg, 1994, 107(4): 1087-1093; discussion 1093-1094.
26	SIENEL W, STREMMEL C, KIRSCHBAUM A, et al. Frequency of local recurrence following segmentectomy of stage IA non-small cell lung cancer is influenced by segment localisation and width of resection margins: implications for patient selection for segmentectomy[J]. Eur J Cardiothorac Surg, 2007, 31(3): 522-527;discussion 527-528.
27	OU S H, ZELL J A, ZIOGAS A, et al. Prognostic factors for survival of stage I nonsmall cell lung cancer patients: a population-based analysis of 19, 702 stage I patients in the California Cancer Registry from 1989 to 2003[J]. Cancer, 2007, 110(7): 1532-1541.
28	BANDO T, YAMAGIHARA K, OHTAKE Y, et al. A new method of segmental resection for primary lung cancer: intermediate results[J]. Eur J Cardiothorac Surg, 2002, 21(5): 894-899; discussion900.
29	BANDO T, MIYAHARA R, SAKAI H, et al. A follow-up report on a new method of segmental resection for small-sized early lung cancer[J]. Lung Cancer, 2009, 63(1): 58-62.
30	WATANABE S, WATANABE T, ARAI K, et al. Results of wedge resection for focal bronchioloalveolar carcinoma showing pure ground-glass attenuation on computed tomography[J]. Ann Thorac Surg, 2002, 73(4): 1071-1075.
31	EL-SHERIF A, FERNANDO H C, SANTOS R, et al. Margin and local recurrence after sublobar resection of non-small cell lung cancer[J]. Ann Surg Oncol, 2007, 14(8): 2400-2405.
32	OKADA M, NISHIO W, SAKAMOTO T, et al. Effect of tumor size on prognosis in patients with non-small cell lung cancer: the role of segmentectomy as a type of lesser resection[J]. J Thorac Cardiovasc Surg, 2005, 129(1): 87-93.
33	SAKURAI H, DOBASHI Y, MIZUTANI E, et al. Bronchioloalveolar carcinoma of the lung 3 centimeters or less in diameter: a prognostic assessment[J]. Ann Thorac Surg, 2004, 78(5): 1728-1733.
34	YAMADA S, KOHNO T. Video-assisted thoracic surgery for pure ground-glass opacities 2 cm or less in diameter[J]. Ann Thorac Surg, 2004, 77(6): 1911-1915.
35	SAWABATA N, OHTA M, MATSUMURA A, et al. Optimal distance of malignant negative margin in excision of nonsmall cell lung cancer: a multicenter prospective study[J]. Ann Thorac Surg, 2004, 77(2): 415-420.
36	SCHUCHERT M J, PETTIFORD B L, KEELEY S, et al. Anatomic segmentectomy in the treatment of stage I non-small cell lung cancer[J]. Ann Thorac Surg, 2007, 84(3): 926-933.
37	LI X F, REN F, WANG S H, et al. The epidemiology of ground glass opacity lung adenocarcinoma: a network-based cumulative meta-analysis[J]. Front Oncol, 2020, 10: 1059.
38	NAKAMURA H, SAJI H, OGATA A, et al. Lung cancer patients showing pure ground-glass opacity on computed tomography are good candidates for wedge resection[J]. Lung Cancer, 2004, 44(1): 61-68.
39	TSUTANI Y, MIYATA Y, NAKAYAMA H, et al. Appropriate sublobar resection choice for ground glass opacity-dominant clinical stage IA lung adenocarcinoma: wedge resection or segmentectomy[J]. Chest, 2014, 145(1): 66-71.
40	NAKATA M, SAWADA S, YAMASHITA M, et al. Objective radiologic analysis of ground-glass opacity aimed at curative limited resection for small peripheral non-small cell lung cancer[J]. J Thorac Cardiovasc Surg, 2005, 129(6): 1226-1231.
41	NAKAYAMA H, YAMADA K, SAITO H, et al. Sublobar resection for patients with peripheral small adenocarcinomas of the lung: surgical outcome is associated with features on computed tomographic imaging[J]. Ann Thorac Surg, 2007, 84(5): 1675-1679.
42	OKADA M, NAKAYAMA H, OKUMURA S, et al. Multicenter analysis of high-resolution computed tomography and positron emission tomography/computed tomography findings to choose therapeutic strategies for clinical stage IA lung adenocarcinoma[J]. J Thorac Cardiovasc Surg, 2011, 141(6): 1384-1391.
43	WILSHIRE C L, LOUIE B E, MANNING K A, et al. Radiologic evaluation of small lepidic adenocarcinomas to guide decision making in surgical resection[J]. Ann Thorac Surg, 2015, 100(3): 979-988.
44	ASAMURA H, CHANSKY K, CROWLEY J, et al. The international association for the study of lung cancer lung cancer staging project: proposals for the revision of the N descriptors in the forthcoming 8th edition of the TNM classification for lung cancer[J]. J Thorac Oncol, 2015, 10(12): 1675-1684.
45	MACCHIARINI P, FONTANINI G, HARDIN M J, et al. Blood vessel invasion by tumor cells predicts recurrence in completely resected T1 N0 M0 non-small-cell lung cancer[J]. J Thorac Cardiovasc Surg, 1993, 106(1): 80-89.
46	ICHINOSE Y, YANO T, YOKOYAMA H, et al. The correlation between tumor size and lymphatic vessel invasion in resected peripheral stage I non-small-cell lung cancer. A potential risk of limited resection[J]. J Thorac Cardiovasc Surg, 1994, 108(4): 684-686.
47	KOIKE T, TERASHIMA M, TAKIZAWA T, et al. Clinical analysis of small-sized peripheral lung cancer[J]. J Thorac Cardiovasc Surg, 1998, 115(5): 1015-1020.
48	MATSUGUMA H, YOKOI K, ANRAKU M, et al. Proportion of ground-glass opacity on high-resolution computed tomography in clinical T1 N0 M0 adenocarcinoma of the lung: a predictor of lymph node metastasis[J]. J Thorac Cardiovasc Surg, 2002, 124(2): 278-284.
49	OHDE Y, NAGAI, YOSHIDA J, et al. The proportion of consolidation to ground-glass opacity on high resolution CT is a good predictor for distinguishing the population of non-invasive peripheral adenocarcinoma[J]. Lung Cancer, 2003, 42(3): 303-310.
50	SUZUKI K, KOIKE T, ASAKAWA T, et al. A prospective radiological study of thin-section computed tomography to predict pathological noninvasiveness in peripheral clinical IA lung cancer (Japan Clinical Oncology Group 0201)[J]. J Thorac Oncol, 2011, 6(4): 751-756.
51	TRAVIS W D, BRAMBILLA E, NOGUCHI M, et al. International Association for the Study of Lung Cancer/American Thoracic Society/European Respiratory Society: international multidisciplinary classification of lung adenocarcinoma: executive summary[J]. Proc Am Thorac Soc, 2011, 8(5): 381-385.
52	RUSSELL P A, WAINER Z, WRIGHT G M, et al. Does lung adenocarcinoma subtype predict patient survival? : a clinicopathologic study based on the new international association for the study of Lung Cancer/American Thoracic Society/European Respiratory Society international multidisciplinary lung adenocarcinoma classification[J]. J Thorac Oncol, 2011, 6(9): 1496-1504.
53	MANDREKAR J N. Simple statistical measures for diagnostic accuracy assessment[J]. J Thorac Oncol, 2010, 5(6): 763-764.
54	SUZUKI K, WATANABE S I, WAKABAYASHI M, et al. A single-arm study of sublobar resection for ground-glass opacity dominant peripheral lung cancer[J]. J Thorac Cardiovasc Surg, 2022, 163(1): 289-301.e2.
55	SAJI H, OKADA M, TSUBOI M, et al. Segmentectomy versus lobectomy in small-sized peripheral non-small-cell lung cancer (JCOG0802/WJOG4607L): a multicentre, open-label, phase 3, randomised, controlled, non-inferiority trial[J]. Lancet, 2022, 399(10335): 1607-1617.
56	MACMAHON H, NAIDICH D P, GOO J M, et al. Guidelines for management of incidental pulmonary nodules detected on CT images: from the fleischner society 2017[J]. Radiology, 2017, 284(1): 228-243.
57	SUZUKI K, SAJI H, AOKAGE K, et al. Comparison of pulmonary segmentectomy and lobectomy: safety results of a randomized trial[J]. J Thorac Cardiovasc Surg, 2019, 158(3): 895-907.
58	HUANG T W, LIN K H, HUANG H K, et al. The role of the ground-glass opacity ratio in resected lung adenocarcinoma[J]. Eur J Cardiothorac Surg, 2018, 54(2): 229-234.
59	KOIKE W, IWANO S, MATSUO K, et al. Doubling time calculations for lung cancer by three-dimensional computer-aided volumetry: effects of inter-observer differences and nodule characteristics[J]. J Med Imaging Radiat Oncol, 2014, 58(1): 82-88.
60	CHANG B, HWANG J H, CHOI Y H, et al. Natural history of pure ground-glass opacity lung nodules detected by low-dose CT scan[J]. Chest, 2013, 143(1): 172-178.

[1]	WU Lei, DU Fenglin, ZHAO Mingna, REN Yizhe, ZHANG Xianzhou, LOU Jiatao. Expression of PTPRN in lung adenocarcinoma and its mechanism of promoting tumor metastasis [J]. Journal of Shanghai Jiao Tong University (Medical Science), 2025, 45(7): 846-857.
[2]	ZHANG Xianzhou, DU Fenglin, WU Lei, REN Yizhe, ZHAO Mingna, LOU Jiatao. Mechanistic study of OGT-promoted non-small cell lung cancer proliferation via the ERK signaling pathway [J]. Journal of Shanghai Jiao Tong University (Medical Science), 2025, 45(10): 1288-1297.
[3]	XU Wanxing, WANG Lin, GUO Qiaomei, WANG Xueqing, LOU Jiatao. Clinical validation and application value exploration of multi-modal pulmonary nodule diagnosis model [J]. Journal of Shanghai Jiao Tong University (Medical Science), 2024, 44(8): 1030-1036.
[4]	LIU Chenxi, HAN Lin, YANG Yi, ZHOU Han, LIU Yayun, SHENG Deqiao. GPR87 promotes invasion and migration through the RHO/ROCK pathway in non-small cell lung cancer [J]. Journal of Shanghai Jiao Tong University (Medical Science), 2024, 44(12): 1514-1525.
[5]	WANG Mengfei, YANG Shouzhi, QIAO Yongxia, HUANG Lin. Establishment of discriminative models for predicting the infiltration degree of patients with lung adenocarcinoma based on clinical laboratory indicators [J]. Journal of Shanghai Jiao Tong University (Medical Science), 2024, 44(1): 98-107.
[6]	HUANG Huayan, XU-ZHANG Wendi, XIA Liliang, YU Yongfeng, LU Shun. Advances in immunotherapy of advanced non-small cell lung cancer with EGFR mutation [J]. Journal of Shanghai Jiao Tong University (Medical Science), 2023, 43(5): 611-618.
[7]	ZHAO Zhuoming, LIU Zhenhao, LU Manman, ZHANG Yu, XU Linfeng, XIE Lu. Analysis of tumor-related features of non-small cell lung cancer based on TCR repertoire workflow [J]. Journal of Shanghai Jiao Tong University (Medical Science), 2023, 43(12): 1520-1528.
[8]	LIAO Yahui, LIU Liyun, ZHU Hongrui, LIN Houwen, YAN Jizhou, SUN Fan. Marine sponge-derived smenospongine overcomes resistance of cisplatin via inhibiting EGFR-Akt-ABCG2 pathway in NSCLC cells [J]. Journal of Shanghai Jiao Tong University (Medical Science), 2022, 42(8): 997-1007.
[9]	LIU Ziyang, WANG Xiaowen, CHEN Li. lncRNA GK-IT1 influences the carcinogenesis of non-small cell lung cancer cells through regulating aldolase A [J]. Journal of Shanghai Jiao Tong University (Medical Science), 2022, 42(5): 591-601.
[10]	LU Wenqing, MENG Zhouwenli, YU Yongfeng, LU Shun. Resistance mechanisms and overcoming strategies of the third-generation EGFR-TKI in non-small cell lung cancer [J]. Journal of Shanghai Jiao Tong University (Medical Science), 2022, 42(4): 535-544.
[11]	ZHAO Xue, DONG Chunyan. Correlation of WD 40 repeat 43 expression in lung adenocarcinoma and its effect on paclitaxel-resistance of cells [J]. Journal of Shanghai Jiao Tong University (Medical Science), 2022, 42(12): 1656-1665.
[12]	LI Ruonan, CHEN Xiaoke, XU Yuanyuan, TAN Qiang. Advances in postoperative adjuvant targeted therapy for patients with stage ⅠB-ⅢA non-small cell lung cancer [J]. Journal of Shanghai Jiao Tong University (Medical Science), 2022, 42(11): 1612-1619.
[13]	Yu ZHANG, Xiaoyuan WU, Lihua GUAN, Yiyuan LIU, Xingyue PENG, Haiyan XIE, Wei HU, Keke HAO, Ning XIA, Guojun LU, Zhibo HOU. Application of high-throughput drug sensitivity screening system in the treatment of non-small cell lung cancer with malignant pleural effusion [J]. JOURNAL OF SHANGHAI JIAOTONG UNIVERSITY (MEDICAL SCIENCE), 2022, 42(1): 82-89.
[14]	Lei XIONG, Qian YI, Ming-fang XU, Jian CHEN. Expression and prognosis analysis of MRPL12 in lung adenocarcinoma [J]. JOURNAL OF SHANGHAI JIAOTONG UNIVERSITY (MEDICAL SCIENCE), 2021, 41(8): 1033-1040.
[15]	Yun-fang MA, Li-na PAN, Zhen LI, Bei-li GAO, Jia-an HU, Zhi-hong XU. Exploratory study on downregulation of PD-L1 in KRAS G12V-mutant non-small cell lung cancer cells by selumetinib [J]. JOURNAL OF SHANGHAI JIAOTONG UNIVERSITY (MEDICAL SCIENCE), 2021, 41(6): 741-748.