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第44卷第9期 张 虎,毛春蓉,练 云,等. 一种新型结直肠癌预后模型的建立与治疗预测[J].
2024年9月 南京医科大学学报(自然科学版),2024,44(9):1217-1226 ·1225 ·
验证PSCRC的治疗预测作用。 mor microenvironment:From cancer progression to treat⁃
ment[J]. Prog Lipid Res,2020,80:101055
[参考文献]
[16]LEE J H,JUNG S,PARK W S,et al. Prognostic nomo⁃
[1] SUNG H,FERLAY J,SIEGEL R L,et al. Global cancer
gram of hypoxia⁃related genes predicting overall survival
statistics 2020:GLOBOCAN estimates of incidence and
of colorectal cancer ⁃ analysis of TCGA database[J]. Sci
mortality worldwide for 36 cancers in 185 countries[J].
Rep,2019,9(1):1803
CA Cancer J Clin,2021,71(3):209-249
[17]XIANG M J,GAO Y,ZHOU Y,et al. A novel nomogram
[2] 王锡山. 中美结直肠癌流行病学特征对比及防控策略 based on cell cycle ⁃ related genes for predicting overall
分析[J]. 中华结直肠疾病电子杂志,2019,8(1):1-5 survival in early⁃onset colorectal cancer[J]. BMC Cancer,
[3] 张宇涛. 结直肠癌的治疗进展[J]. 山西医药杂志, 2023,23(1):595
2020,49(5):535-536 [18]LI L,SUN F Y,KONG F Y,et al. Characterization of a cu⁃
[4] 王正航,李彦豪,陈米芬,等. 2019年结直肠癌领域治疗 proptosis ⁃ related signature to evaluate immune features
进展[J]. 中华结直肠疾病电子杂志,2020,9(1):7-12
and predict prognosis in colorectal cancer[J]. Front On⁃
[5] MCQUADE R M,STOJANOVSKA V,BORNSTEIN J C,
col,2023,13:1083956
et al. Colorectal cancer chemotherapy:the evolution of [19]KANANI A,VEEN T,SØREIDE K. Neoadjuvant immuno⁃
treatment and new approaches[J]. Curr Med Chem, therapy in primary and metastatic colorectal cancer[J].
2017,24(15):1537-1557 Br J Surg,2021,108(12):1417-1425
[6] ROSATI G,APRILE G,COLOMBO A,et al. Colorectal [20]FAN A H,WANG B D,WANG X,et al. Immunotherapy
cancer heterogeneity and the impact on precision medi⁃ in colorectal cancer:current achievements and future per⁃
cine and therapy efficacy[J]. Biomedicines,2022,10 spective[J]. Int J Biol Sci,2021,17(14):3837-3849
(5):1035 [21]LEI X,HE Q L,LI Z Q,et al. Cancer stem cells in colorec⁃
[7] SHINJI S,YAMADA T,MATSUDA A,et al. Recent ad⁃ tal cancer and the association with chemotherapy resis⁃
vances in the treatment of colorectal cancer:a review[J]. tance[J]. Med Oncol,2021,38(4):43
J Nippon Med Sch,2022,89(3):246-254 [22]HU J L,WANG W,LAN X L,et al. CAFs secreted exo⁃
[8] MARISA L,REYNIÈS A D,DUVAL A,et al. Gene ex⁃ somes promote metastasis and chemotherapy resistance
pression classification of colon cancer into molecular sub⁃ by enhancing cell stemness and epithelial⁃mesenchymal
types:characterization,validation,and prognostic value[J]. transition in colorectal cancer[J]. Mol Cancer,2019,18
PLoS Med,2013,10(5):e1001453 (1):91
[9] SMITH J J,DEANE N G,WU F,et al. Experimentally de⁃ [23]KOLACZKOWSKA E,KUBES P. Neutrophil recruitment
rived metastasis gene expression profile predicts recur⁃ and function in health and inflammation[J]. Nat Rev Im⁃
rence and death in patients with colon cancer[J]. Gastro⁃ munol,2013,13(3):159-175
enterology,2010,138(3):958-968 [24]JAILLON S,PONZETTA A,MITRI D D,et al. Neutrophil
[10]LIU J F,LICHTENBERG T,HOADLEY K A,et al. An in⁃ diversity and plasticity in tumour progression and thera⁃
tegrated TCGA pan⁃cancer clinical data resource to drive py[J]. Nat Rev Cancer,2020,20(9):485-503
high⁃quality survival outcome analytics[J]. Cell,2018, [25]ZHANG Y T,GUOQIANG L,SUN M M,et al. Targeting
173(2):400-416 and exploitation of tumor ⁃ associated neutrophils to en⁃
[11]YU G C,WANG L G,HAN Y Y,et al. clusterProfiler:an hance immunotherapy and drug delivery for cancer treat⁃
R package for comparing biological themes among gene ment[J]. Cancer Biol Med,2020,17(1):32-43
clusters[J]. OMICS,2012,16(5):284-287 [26]XIONG S M,DONG L L,CHENG L. Neutrophils in can⁃
[12]FU J X,LI K R,ZHANG W B,et al. Large⁃scale public cer carcinogenesis and metastasis[J]. J Hematol Oncol,
data reuse to model immunotherapy response and resis⁃ 2021,14(1):173
tance[J]. Genome Med,2020,12(1):21 [27]SHAUL M E,FRIDLENDER Z G. Tumour⁃associated neu⁃
[13]BEJARANO L,JORDĀO M J C,JOYCE J A. Therapeutic trophils in patients with cancer[J]. Nat Rev Clin Oncol,
targeting of the tumor microenvironment[J]. Cancer Dis⁃ 2019,16(10):601-620
cov,2021,11(4):933-959 [28]ALBRENGUES J,SHIELDS M A,NG D,et al. Neutrophil
[14]KHALAF K,HANA D,CHOU J T,et al. Aspects of the tu⁃ extracellular traps produced during inflammation awaken
mor microenvironment involved in immune resistance and dormant cancer cells in mice[J]. Science,2018,361
drug resistance[J]. Front Immunol,2021,12:656364 (6409):eaao4227
[15]CORN K C,WINDHAM M A,RAFAT M. Lipids in the tu⁃ [29]DEMKOW U. Neutrophil extracellular traps(NETs)in can⁃

