| 1 |
Izzo F, Granata V, Grassi R, et al. Radiofrequency ablation and microwave ablation in liver tumors: an update [J]. Oncologist, 2019,24(10): e990-e1005.
|
| 2 |
Wada Y, Takami Y, Ryu T, et al. Predictive factors for local recurrence after intraoperative microwave ablation for colorectal liver metastases[J]. Cancers (Basel), 2022, 15(1): 122.
|
| 3 |
Meijerink MR, Puijk RS, Van Tilborg A, et al. Radiofrequency and microwave ablation compared to systemic chemotherapy and to partial hepatectomy in the treatment of colorectal liver metastases: a systematic review and meta-analysis [J]. Cardiovasc Intervent Radiol,2018, 41(8): 1189-204.
|
| 4 |
Takahashi H, Berber E. Role of thermal ablation in the management of colorectal liver metastasis [J]. Hepatobiliary Surg Nutr, 2020, 9(1): 49-58.
|
| 5 |
Qin S, Liu GJ, Huang M, et al. The local efficacy and influencing factors of ultrasound-guided percutaneous microwave ablation in colorectal liver metastases: a review of a 4-year experience at a single center [J]. Int J Hyperthermia, 2019, 36(1): 36-43.
|
| 6 |
Liang P, Yu J, Lu MD, et al. Practice guidelines for ultrasound-guided percutaneous microwave ablation for hepatic malignancy [J]. World J Gastroenterol, 2013, 19(33): 5430-5438.
|
| 7 |
中国医师协会超声医师分会. 中国介入超声临床应用指南 [M]. 北京: 人民卫生出版社, 2017: 185-186.
|
| 8 |
Yoshino T, Cervantes A, Bando H, et al. Pan-asian adapted ESMO clinical practice guidelines for the diagnosis, treatment and follow-up of patients with metastatic colorectal cancer [J]. ESMO Open, 2023, 8(3): 101558.
|
| 9 |
Fan H, Wang X, Qu J, et al. Periprocedural risk factors for incomplete radiofrequency ablation of liver metastases from colorectal cancer: a singlecenter retrospective analysis [J]. Int J Hyperthermia, 2021, 38(1): 985-994.
|
| 10 |
Nault JC, Sutter O, Nahon P, et al. Percutaneous treatment of hepatocellular carcinoma: state of the art and innovations [J]. J Hepatol, 2018, 68(4): 783-797.
|
| 11 |
NCCN. NCCN Clinical Practice Guidelines in Oncology (NCCN Guidelines®)Colon Cancer (Version 1.2024) [EB/OL]. (2024-01-29) [2024-02-14] https://www.nccn.org/professionals/physician_gls/pdf/colon.pdf.
|
| 12 |
Yang G, Wang G, Sun J, et al. The prognosis of radiofrequency ablation versus hepatic resection for patients with colorectal liver metastases: a systematic review and meta-analysis based on 22 studies[J]. Int J Surg, 2021, 87: 105896.
|
| 13 |
Qin S, Hu H, Cui R, et al. A prognostic nomogram for intrahepatic progression-free survival in patients with colorectal liver metastases after ultrasound-guided percutaneous microwave ablation [J]. Int J Hyperthermia, 2022, 39(1): 144-154.
|
| 14 |
Peng S, Huang P, Yu H, et al. Prognostic value of carcinoembryonic antigen level in patients with colorectal cancer liver metastasis treated with percutaneous microwave ablation under ultrasound guidance [J].Medicine (Baltimore), 2018, 97(10): e0044.
|
| 15 |
Akhan O, Akcalar S, Unal E, et al. Radiofrequency ablation for colorectal cancer liver metastases: outcomes and prognostic factors associated with survival [J]. Turk J Gastroenterol, 2023, 34(6): 645-651.
|
| 16 |
张旭辉, 彭玉兰, 廖中凡, 等. 热消融治疗肿瘤的研究进展 [J]. 临床超声医学杂志, 2022, 24(10): 772-775.
|
| 17 |
Ozen M, Raissi D. Current perspectives on microwave ablation of liver lesions in difficult locations [J]. J Clin Imaging Sci, 2022, 12: 61.
|
| 18 |
Shady W, Petre EN, Do KG, et al. Percutaneous microwave versus radiofrequency ablation of colorectal liver metastases: ablation with clear margins (a0) provides the best local tumor control [J]. J Vasc Interv Radiol, 2018, 29(2): 268-275.e1.
|
| 19 |
De Baere T, Deschamps F, Briggs P, et al. Hepatic malignancies:percutaneous radiofrequency ablation during percutaneous portal or hepatic vein occlusion [J]. Radiology, 2008, 248(3): 1056-1066.
|
| 20 |
Andreano A, Brace CL. A comparison of direct heating during radiofrequency and microwave ablation in ex vivo liver [J]. Cardiovasc Intervent Radiol, 2013, 36(2): 505-511.
|
| 21 |
Tan C, Fisher OM, Huang L, et al. Comparison of microwave and radiofrequency ablation in the treatment of pulmonary metastasis of colorectal cancer [J]. Anticancer Res, 2022, 42(9): 4563-4571.
|
| 22 |
Han K, Kim JH, Yang SG, et al. A single-center retrospective analysis of periprocedural variables affecting local tumor progression after radiofrequency ablation of colorectal cancer liver metastases [J].Radiology, 2021, 298(1): 212-218.
|
| 23 |
Šustić I, Racetin A, Vukojević K, et al. Expression pattern of DAB adaptor protein 2 in left- and right-side colorectal carcinoma [J]. Genes(Basel), 2023, 14(7): 1306.
|
| 24 |
Gervaz P, Bucher P, Morel P. Two colons-two cancers: paradigm shift and clinical implications [J]. J Surg Oncol, 2004, 88(4): 261-266.
|
| 25 |
Zhou F, Yu X, Liang P, et al. Does primary tumor location impact the prognosis of colorectal liver metastases patients after microwave ablation? - Lessons from 10 years' experience [J]. Oncotarget, 2017,8(59): 100791-100800.
|
| 26 |
Kennedy TJ, Cassera MA, Khajanchee YS, et al. Laparoscopic radiofrequency ablation for the management of colorectal liver metastases:10-year experience [J]. J Surg Oncol, 2013, 107(4): 324-328.
|
| 27 |
Vasiniotis Kamarinos N, Vakiani E, Gonen M, et al. Biopsy and margins optimize outcomes after thermal ablation of colorectal liver metastases [J]. Cancers (Basel), 2022, 14(3): 693.
|
| 28 |
Mauri G, Monfardini L, Garnero A, et al. Optimizing loco regional management of oligometastatic colorectal cancer: technical aspects and biomarkers, two sides of the same coin [J]. Cancers (Basel), 2021,13(11): 2617.
|
| 29 |
Lin YM, Paolucci I, O'Connor CS, et al. Ablative margins of colorectal liver metastases using deformable CT image registration and autosegmentation [J]. Radiology, 2023, 307(2): e221373.
|
| 30 |
Sotirchos VS, Petrovic LM, Gönen M, et al. Colorectal cancer liver metastases: biopsy of the ablation zone and margins can be used to predict oncologic outcome [J]. Radiology, 2016, 280(3): 949-959.
|
| 31 |
Filella X, Rodriguez-Garcia M, Fernandez-Galan E. Clinical usefulness of circulating tumor markers [J]. Clin Chem Lab Med,2023, 61(5): 895-905.
|
| 32 |
刘蓉, 胡建功. 肿瘤标志物在结直肠癌诊断中应用的研究进展 [J].中国肛肠病杂志, 2021, 41(5): 76-78.
|
| 33 |
中国医师协会外科医师分会, 中华医学会外科学分会胃肠外科学组,中华医学会外科学分会结直肠外科学组, 等. 中国结直肠癌肝转移诊断和综合治疗指南(2023) [J]. 中国临床医学, 2023, 30(1): 166-198.
|
| 34 |
Shahveranova A, Balli HT, Aikimbaev K, et al. Prediction of local tumor progression after microwave ablation in colorectal carcinoma liver metastases patients by MRI radiomics and clinical characteristicsbased combined model: preliminary results [J]. Cardiovasc Intervent Radiol, 2023, 46(6): 713-725.
|
| 35 |
Huo YR, Glenn D, Liauw W, et al. Evaluation of carcinoembryonic antigen (CEA) density as a prognostic factor for percutaneous ablation of pulmonary colorectal metastases [J]. Eur Radiol, 2017, 27(1): 128-137.
|
| 36 |
Modest DP, Pant S, Sartore-Bianchi A. Treatment sequencing in metastatic colorectal cancer [J]. Eur J Cancer, 2019, 109: 70-83.
|
| 37 |
Lin YM, Paolucci I, Brock KK, et al. Image-guided ablation for colorectal liver metastasis: principles, current evidence, and the path forward [J]. Cancers (Basel), 2021, 13(16): 3926.
|
| 38 |
Calandri M, Yamashita S, Gazzera C, et al. Ablation of colorectal liver metastasis: Interaction of ablation margins and RAS mutation profiling on local tumour progression-free survival [J]. Eur Radiol, 2018, 28(7):2727-2734.
|
| 39 |
Odisio BC, Yamashita S, Huang SY, et al. Local tumour progression after percutaneous ablation of colorectal liver metastases according to RAS mutation status [J]. Br J Surg, 2017, 104(6): 760-768.
|
| 40 |
Shady W, Petre EN, Vakiani E, et al. Kras mutation is a marker of worse oncologic outcomes after percutaneous radiofrequency ablation of colorectal liver metastases [J]. Oncotarget, 2017, 8(39): 66117-66127.
|
| 41 |
Laoukili J, Van Schelven S, Kucukkose E, et al. BRAF(V600E) in colorectal cancer reduces sensitivity to oxidative stress and promotes site-specific metastasis by stimulating glutathione synthesis [J]. Cell Rep, 2022, 41(9): 111728.
|
| 42 |
Kitsel Y, Cooke T, Sotirchos V, et al. Colorectal cancer liver metastases: genomics and biomarkers with focus on local therapies [J].Cancers (Basel), 2023, 15(6): 1679.
|
| 43 |
Brudvik KW, Mise Y, Chung MH, et al. RAS mutation predicts positive resection margins and narrower resection margins in patients undergoing resection of colorectal liver metastases [J]. Ann Surg Oncol, 2016, 23(8): 2635-2643.
|
| 44 |
Shao D, Chen Y, Huang H, et al. LAG3 blockade coordinates with microwave ablation to promote CD8(+) T cell-mediated anti-tumor immunity [J]. J Transl Med, 2022, 20(1): 433.
|
| 45 |
Chen Y, Huang H, Li Y, et al. TIGIT blockade exerts synergistic effects on microwave ablation against cancer [J]. Front Immunol, 2022, 13: 832230.
|
| 46 |
Shi L, Wang J, Ding N, et al. Inflammation induced by incomplete radiofrequency ablation accelerates tumor progression and hinders PD-1 immunotherapy [J]. Nat Commun, 2019, 10(1): 5421.
|
| 47 |
Halpern AL, Fitz JG, Fujiwara Y, et al. Hepatic thermal injury promotes colorectal cancer engraftment in C57/black 6 mice [J]. Am J Physiol Cell Physiol, 2021, 320(1): C142-C51.
|
| 48 |
任建伟, 周祖邦, 马雯娟, 等. PD-L1 在结直肠癌原发灶中的表达及对肝转移微波消融术后复发的预测价值 [J]. 肿瘤防治研究,2023, 50(1): 38-42.
|
| 49 |
Li Y, Zhao L, Li XF. Hypoxia and the tumor microenvironment [J].Technol Cancer Res Treat, 2021, 20: 15330338211036304.
|
| 50 |
Vanagas T, Gulbinas A, Pundzius J, et al. Radiofrequency ablation of liver tumors (I): biological background [J]. Medicina (Kaunas), 2010,46(1): 13-17.
|
| 51 |
Kroeze SG, Van Melick HH, Nijkamp MW, et al. Incomplete thermal ablation stimulates proliferation of residual renal carcinoma cells in a translational murine model [J]. BJU Int, 2012, 110(6 Pt B): E281-E286.
|
| 52 |
Govaert KM, Emmink BL, Nijkamp MW, et al. Hypoxia after liver surgery imposes an aggressive cancer stem cell phenotype on residual tumor cells [J]. Ann Surg, 2014, 259(4): 750-759.
|
| 53 |
Liao H, Ahmed M, Markezana A, et al. Thermal ablation induces transitory metastatic growth by means of the STAT3/c-Met molecular pathway in an intrahepatic colorectal cancer mouse model [J].Radiology, 2020, 294(2): 464-472.
|
| 54 |
Li S, Chen Z, Tan L, et al. MOF@COF nanocapsule for the enhanced microwave thermal-dynamic therapy and anti-angiogenesis of colorectal cancer [J]. Biomaterials, 2022, 283: 121472.
|
| 55 |
Li R, Tian Y, Zhu B, et al. Graphene-containing metal-organic framework nanocomposites for enhanced microwave ablation of salivary adenoid cystic carcinoma [J]. Nanoscale Adv, 2022, 4(5): 1308-1317.
|
| 56 |
Takahashi H, Akyuz M, Aksoy E, et al. Local recurrence after laparoscopic radiofrequency ablation of malignant liver tumors: Results of a contemporary series [J]. J Surg Oncol, 2017, 115(7): 830-834.
|
| 57 |
Piccioni F, Poli A, Templeton LC, et al. Anesthesia for percutaneous radiofrequency tumor ablation (PRFA): a review of current practice and techniques [J]. Local Reg Anesth, 2019, 12: 127-137.
|
| 58 |
Kurilova I, Bendet A, Petre EN, et al. Factors associated with local tumor control and complications after thermal ablation of colorectal cancer liver metastases: a 15-year retrospective cohort study [J]. Clin Colorectal Cancer, 2021, 20(2): e82-e95.
|
| 59 |
Tang Y, Zhong H, Wang Y, et al. Efficacy of microwave ablation versus radiofrequency ablation in the treatment of colorectal liver metastases: A systematic review and meta-analysis [J]. Clin Res Hepatol Gastroenterol, 2023, 47(7): 102182.
|
| 60 |
Engstrand J, Toporek G, Harbut P, et al. Stereotactic CT-guided percutaneous microwave ablation of liver tumors with the use of highfrequency jet ventilation: an accuracy and procedural safety study [J].AJR Am J Roentgenol, 2017, 208(1): 193-200.
|
| 61 |
Yu L, Xie H, Wang L, et al. Microwave ablation induces abscopal effect via enhanced systemic antitumor immunity in colorectal cancer[J]. Front Oncol, 2023, 13: 1174713.
|
| 62 |
Faraoni EY, O'Brien BJ, Strickland LN, et al. Radiofrequency ablation remodels the tumor microenvironment and promotes neutrophilmediated abscopal immunomodulation in pancreatic cancer [J]. Cancer Immunol Res, 2023, 11(1): 4-12.
|
| 63 |
Khan SY, Melkus MW, Rasha F, et al. Tumor-infiltrating lymphocytes(TILs) as a biomarker of abscopal effect of cryoablation in breast cancer: a pilot study [J]. Ann Surg Oncol, 2022, 29(5): 2914-2925.
|
| 64 |
Som A, Rosenboom JG, Wehrenberg-Klee E, et al. Percutaneous intratumoral immunoadjuvant gel increases the abscopal effect of cryoablation for checkpoint inhibitor resistant cancer [J]. Adv Healthc Mater, 2024, 13(6): e2301848.
|
| 65 |
Minami Y, Kudo M. Image guidance in ablation for hepatocellular carcinoma: contrast-enhanced ultrasound and fusion imaging [J]. Front Oncol, 2021, 11: 593636.
|
| 66 |
Casadaban LC, Catalano PJ, Lee LK, et al. Assessing ablation margins of FDG-avid liver tumors during PET/CT-guided thermal ablation procedures: a retrospective study [J]. Eur J Nucl Med Mol Imaging,2021, 48(9): 2914-2924.
|
| 67 |
Reich CM, Sattler B, Jochimsen TH, et al. Practical setting and potential applications of interventions guided by PET/MRI [J]. Q J Nucl Med Mol Imaging, 2021, 65(1): 43-50.
|
| 68 |
Zirakchian Zadeh M, Yeh R, Kunin HS, et al. Real-time split-dose PET/CT-guided ablation improves colorectal liver metastasis detection and ablation zone margin assessments without the need for repeated contrast injection [J]. Cancers (Basel), 2022, 14(24): 6253.
|
| 69 |
Guo W, Pang Y, Yao L, et al. Imaging fibroblast activation protein in liver cancer: a single-center post hoc retrospective analysis to compare[68Ga]Ga-FAPI-04 PET/CT versus MRI and [18F]-FDG PET/CT [J].Eur J Nucl Med Mol Imaging, 2021, 48(5): 1604-1617.
|
| 70 |
Bonnet B, DE Baère T, Beunon P, et al. Robotic-assisted CT-guided percutaneous thermal ablation of abdominal tumors: an analysis of 41 patients [J]. Diagn Interv Imaging, 2024, 105(6): 227-232.
|
| 71 |
Johnston EW, Basso J, Silva F, et al. Robotic versus freehand CT-guided radiofrequency ablation of pulmonary metastases: a comparative cohort study [J]. Int J Comput Assist Radiol Surg, 2023, 18(10): 1819-1828.
|