Preoperative evaluation of lung function in patients with lung cancer using two-phase dual-energy CT perfusion imaging_Chinese Journal of Clinical Thoracic and Cardiovascular Surgery

Authors：

LING Lifang ¹ , JIA Yizhen ¹ , HAO Qinmin ¹ , XU Wenzheng ² , WANG Zhibo ² , WANG Jun ² , CHEN Liang ² ,  YUAN Mei ¹

1. Department of Radiology, the First Affiliated Hospital of Nanjing Medical University, Nanjing, 210029, P. R. China;
2. Department of Thoracic Surgery, the First Affiliated Hospital of Nanjing Medical University, Nanjing, 210029, P. R. China;

Corresponding author：

YUAN Mei, Email: yuanmeijiangsu@163.com

Keywords：

Dual-energy CT; perfusion imaging; lung cancer; pulmonary function test; lung function

DOI：

10.7507/1007-4848.202412021

Video：

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Objective To explore the application value of dual-phase dual-energy CT (DECT) perfusion imaging in preoperative lung function assessment of lung cancer patients. Methods Data were collected from patients with stageⅠA non-small cell lung cancer who underwent surgical treatment in the Department of Thoracic Surgery, the First Affiliated Hospital of Nanjing Medical University, from November 2022 to June 2024. All patients underwent DECT perfusion imaging and pulmonary function testing (PFT) before surgery. PFT observation indicators included ventilation function indicators such as forced expiratory volume in one second (FEV1), forced vital capacity (FVC), 1-second rate (FEV1/FVC), maximal voluntary ventilation (MVV), and diffusion function indicators such as diffusing capacity for carbon monoxide (DLCO) and DLCO per liter of alveolar volume (DLCO/VA). The software eXamine was used to obtain quantitative parameters of DECT perfusion imaging, including volume parameters and perfusion parameters of both lungs and each lung lobe. The correlation between the volume parameters and perfusion parameters of both lungs and the ventilation and diffusion function indicators of the patients, as well as the differences in quantitative parameters of each lung lobe, was analyzed. Results The end-inspiration lung volume and biphasic volume difference were strongly positively correlated with FEV1 and FVC (r=0.638, r=0.682, r=0.614, r=0.624, P<0.001) and moderately positively correlated with MVV and DLCO (r=0.499, r=0.514, r=0.549, r=0.447, P<0.001); the end-expiration lung volume was weakly negatively correlated with DLCO/VA (r=−0.295, P<0.05); the volume ratio was positively correlated with FEV1, FVC, MVV, and MVV% (r=0.424, r=0.399, r=0.415, r=0.310, P<0.05); the end-inspiration iodine content was weakly positively correlated with DLCO/VA% (r_s=0.292, P<0.05); the end-expiration iodine content was weakly positively correlated with FEV1, FVC, MVV, DLCO%, and DLCO/VA (r=0.307, r=0.299, r=0.295, r=0.366, r=0.320, P<0.05) and moderately positively correlated with DLCO (r=0.439, P<0.001); the end-inspiration iodine concentration was negatively correlated with FEV1, FVC, MVV, and MVV% (r_s=−0.407, r_s=−0.426, r_s=−0.352, r_s=−0.277, P＜0.05); the end-expiratory phase iodine concentration is moderately positively correlated with DLCO/VA (r=0.403, P＜0.05); both the iodine concentration difference and the iodine concentration ratio are moderately positively correlated with FEV1, FEV1%, FVC, MVV, MVV% (P＜0.005). The lung volume and iodine concentration ratio values are both highest in the left upper lung lobe and lowest in the right middle lung lobe; the differences in lung volume, lung volume ratio, intrapulmonary iodine content, and intrapulmonary iodine concentration and concentration difference, from high to low, are in the lower lobes of both lungs, the upper lobes of both lungs, and the right middle lung lobe. Conclusion Dual-phase DECT perfusion imaging can accurately assess overall lung function and quantify regional lung function.

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11.	宋子潜, 王家林, 马恒敏. 原发性肺癌初诊患者临床特征及预后分析. 中华肿瘤防治杂志, 2023, 30(13): 799-805.Song ZQ, Wang JL, Ma HM. Clinical characteristics and prognosis analysis of primary lung cancer patients at initial diagnosis. Chin J Cancer Prev Treat, 2023, 30(13): 799-805.
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19.	Wu F, Chen L, Huang J, et al. Total lung and lobar quantitative assessment based on paired inspiratory-expiratory chest CT in healthy adults: Correlation with pulmonary ventilatory function. Diagnostics (Basel), 2021, 11(10): 1791.
20.	Bailey DL, Farrow CE, Lau EM. V/Q SPECT-normal values for lobar function and comparison with CT volumes. Semin Nucl Med, 2019, 49(1): 58-61.
21.	李琳, 罗娅红. 能谱CT及CT灌注成像技术在孤立性肺结节诊断中的研究进展. 现代肿瘤医学, 2021, 29(9): 1642-1646.Li L, Luo YH. Research progress of spectral CT and CT perfusion imaging in the diagnosis of solitary pulmonary nodules. J Mod Oncol, 2021, 29(9): 1642-1646.

1. 郑荣寿, 张思维, 孙可欣, 等. 2016年中国恶性肿瘤流行情况分析. 中华肿瘤杂志, 2023, 45(3): 212-220.Zheng RS, Zhang SW, Sun KX, et al. Analysis of the prevalence of malignant tumors in China in 2016. Chin J Oncol, 2023, 45(3): 212-220.
2. Zhang Y, Vaccarella S, Morgan E, et al. Global variations in lung cancer incidence by histological subtype in 2020: A population-based study. Lancet Oncol, 2023, 24(11): 1206-1218.
3. 罗国庆, 卢潇, 李定慧, 等. 2024年第5版《NCCN肿瘤临床实践指南: 非小细胞肺癌》更新解读. 中国胸心血管外科临床杂志, 2024, 31(7): 955-961.Luo GQ, Lu X, Li DH, et al. Interpretation of the 2024 5th edition of the NCCN clinical practice guidelines for non-small cell lung cancer. Chin J Clin Thorac Cardiovasc Surg, 2024, 31(7): 955-961.
4. 中华医学会肿瘤学分会, 中华医学会杂志社. 中华医学会肺癌临床诊疗指南(2023版). 中华肿瘤杂志, 2023, 45(7): 539-574.Chinese Society of Oncology, Chinese Medical Association Press. Chinese Medical Association guidelines for clinical diagnosis and treatment of lung cancer (2023 edition). Chin J Oncol, 2023, 45(7): 539-574.
5. Ettinger DS, Wood DE, Aisner DL, et al. NCCN Guidelines® insights: Non-small cell lung cancer, version 2. 2023. J Natl Compr Canc Netw, 2023, 21(4): 340-350.
6. 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. Lancet, 2022, 399(10335): 1607-1617.
7. Altorki N, Wang X, Kozono D, et al. Lobar or sublobar resection for peripheral stageⅠA non-small-cell lung cancer. N Engl J Med, 2023, 388(6): 489-498.
8. 姜格宁, 张雷, 朱余明, 等. 肺切除手术患者术前肺功能评估肺科共识. 中国胸心血管外科临床杂志, 2020, 27(1): 1-9.Jiang GN, Zhang L, Zhu YM, et al. Consensus on preoperative pulmonary function assessment in patients undergoing lung resection. Chin J Clin Thorac Cardiovasc Surg, 2020, 27(1): 1-9.
9. Ohno Y, Seo JB, Parraga G, et al. Pulmonary functional imaging: Part 1-state-of-the-art technical and physiologic underpinnings. Radiology, 2021, 299(3): 508-523.
10. Hwang HJ, Hoffman EA, Lee CH, et al. The role of dual-energy computed tomography in the assessment of pulmonary function. Eur J Radiol, 2017, 86: 320-334.
11. 宋子潜, 王家林, 马恒敏. 原发性肺癌初诊患者临床特征及预后分析. 中华肿瘤防治杂志, 2023, 30(13): 799-805.Song ZQ, Wang JL, Ma HM. Clinical characteristics and prognosis analysis of primary lung cancer patients at initial diagnosis. Chin J Cancer Prev Treat, 2023, 30(13): 799-805.
12. 王天佑, 李单青, 崔永, 等. 胸外科围手术期肺保护中国专家共识(2019版). 中国胸心血管外科临床杂志, 2019, 26(9): 835-842.Wang TY, Li DQ, Cui Y, et al. Chinese expert consensus on perioperative lung protection in thoracic surgery (2019 edition). Chin J Clin Thorac Cardiovasc Surg, 2019, 26(9): 835-842.
13. Bayat S, Wild J, Winkler T. Lung functional imaging. Breathe (Sheff), 2023, 19(3): 220272.
14. Moore J, Remy J, Altschul E, et al. Thoracic applications of spectral CT scan. Chest, 2024, 165(2): 417-430.
15. Ozawa Y, Ohno Y, Nagata H, et al. Advances for pulmonary functional imaging: Dual-energy computed tomography for pulmonary functional imaging. Diagnostics (Basel), 2023, 13(13): 2295.
16. Bahig H, Campeau MP, Lapointe A, et al. Phase 1-2 study of dual-energy computed tomography for assessment of pulmonary function in radiation therapy planning. Int J Radiat Oncol Biol Phys, 2017, 99(2): 334-343.
17. Chae EJ, Kim N, Seo JB, et al. Prediction of postoperative lung function in patients undergoing lung resection: Dual-energy perfusion computed tomography versus perfusion scintigraphy. Invest Radiol, 2013, 48(8): 622-627.
18. Kim S, Kim J, Jeong U, et al. Robust imaging approach for precise prediction of postoperative lung function in lung cancer patients prior to curative operation. Thorac Cancer, 2024, 15(1): 35-43.
19. Wu F, Chen L, Huang J, et al. Total lung and lobar quantitative assessment based on paired inspiratory-expiratory chest CT in healthy adults: Correlation with pulmonary ventilatory function. Diagnostics (Basel), 2021, 11(10): 1791.
20. Bailey DL, Farrow CE, Lau EM. V/Q SPECT-normal values for lobar function and comparison with CT volumes. Semin Nucl Med, 2019, 49(1): 58-61.
21. 李琳, 罗娅红. 能谱CT及CT灌注成像技术在孤立性肺结节诊断中的研究进展. 现代肿瘤医学, 2021, 29(9): 1642-1646.Li L, Luo YH. Research progress of spectral CT and CT perfusion imaging in the diagnosis of solitary pulmonary nodules. J Mod Oncol, 2021, 29(9): 1642-1646.

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Latest ArticlesPreoperative evaluation of lung function in patients with lung cancer using two-phase dual-energy CT perfusion imaging

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