[1]SUNG H,FERLAY J,SIEGEL RL,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]MAOMAO C,HE L,DIANQIN S,et al.Current cancer burden in China:epidemiology,etiology,and prevention[J].Cancer Biol Med,2022,19(8):1121-1138.
[3]LUO Z,ZHOU X,MANDAL K,et al.Reconstructing the tumor architecture into organoids [J].Adv Drug Deliv Rev,2021,176:113839.
[4]MIRABELLI P,MIRABELLI P,COPPOLA L,et al.Cancer cell lines are useful model systems for medical research[J].Cancers(Basel),2019,11(8):1098.
[5]CORSINI NS,KNOBLICH JA.Human organoids:New strategies and methods for analyzing human development and disease[J].Cell,2022,185(15):2756-2769.
[6]LESAVAGE BL,SUHAR RA,BROGUIERE N,et al.Next-generation cancer organoids [J].Nat Mater,2022,21(2):143-159.
[7]LAI Y,WEI X,LIN S,et al.Current status and perspectives of patient-derived xenograft models in cancer research[J].J Hematol Oncol,2017,10(1):106.
[8]WANG E,XIANG K,ZHANG Y,et al.Patient-derived organoids(PDOs) and PDO-derived xenografts(PDOXs):New opportunities in establishing faithful pre-clinical cancer models[J].Journal of the National Cancer Center,2022,2(4):263-276.
[9]BEN-DAVID U,HA G,TSENG YY,et al.Patient-derived xenografts undergo mouse-specific tumor evolution[J].Nat Genet,2017,49(11):1567-1575.
[10]COLELLA G,FAZIOLI F,GALLO M,et al.Sarcoma spheroids and organoids-promising tools in the era of personalized medicine[J].Int J Mol Sci,2018,19(2):615.
[11]GUNTI S,HOKE ATK,VU KP,et al.Organoid and spheroid tumor models:techniques and applications[J].Cancers(Basel),2021,13(4):874.
[12]THAKURI PS,LIU C,LUKER GD,et al.Biomaterials-based approaches to tumor spheroid and organoid modeling[J].Adv Healthc Mater,2018,7(6):e1700980.
[13]JAGER M,BLOKZIJL F,SASSELLI V,et al.Measuring mutation accumulation in single human adult stem cells by whole-genome sequencing of organoid cultures[J].Nat Protoc,2018,13(1):59-78.
[14]TUVESON D,CLEVERS H.Cancer modeling meets human organoid technology[J].Science,2019,364(6444):952-955.
[15]MOSCONA A,MOSCONA H.The dissociation and aggregation of cells from organ rudiments of the early chick embryo[J].J Anat,1952,86(3):287-301.
[16]WEISS P,TAYLOR AC.Reconstitution of complete organs from single-cell suspensions of chick embryos in advanced stages of differentiation[J].Proc Natl Acad Sci USA,1960,46(9):1177-1185.
[17]RHEINWALD JG,GREEN H.Formation of a keratinizing epithelium in culture by a cloned cell line derived from a teratoma[J].Cell,1975,6(3):317-330.
[18]LI ML,AGGELER J,FARSON DA,et al.Influence of a reconstituted basement membrane and its components on casein gene expression and secretion in mouse mammary epithelial cells[J].Proc Natl Acad Sci USA,1987,84(1):136-140.
[19]STREULI CH,SCHMIDHAUSER C,BAILEY N,et al.Laminin mediates tissue-specific gene expression in mammary epithelia[J].J Cell Biol,1995,129(3):591-603.
[20]SATO T,VRIES RG,SNIPPERT HJ,et al.Single Lgr5 stem cells build crypt-villus structures in vitro without a mesenchymal niche[J].Nature,2009,459(7244):262-265.
[21]DALERBA P,KALISKY T,SAHOO D,et al.Single-cell dissection of transcriptional heterogeneity in human colon tumors[J].Nat Biotechnol,2011,29(12):1120-1127.
[22]DROST J,CLEVERS H.Organoids in cancer research[J].Nat Rev Cancer,2018,18(7):407-418.
[23]SAITO Y.Establishment of an organoid bank of biliary tract and pancreatic cancers and its application for personalized therapy and future treatment[J].J Gastroenterol Hepatol,2019,34(11):1906-1910.
[24]HOMAN KA,GUPTA N,KROLL KT,et al.Flow-enhanced vascularization and maturation of kidney organoids in vitro[J].Nat Methods,2019,16(3):255-262.
[25]LOHMUSSAAR K,KOPPER O,KORVING J,et al.Assessing the origin of high-grade serous ovarian cancer using CRISPR-modification of mouse organoids[J].Nat Commun,2020,11(1):2660.
[26]ROELOFS C,HOLLANDE F,REDVERS R,et al.Breast tumour organoids:promising models for the genomic and functional characterisation of breast cancer[J].Biochem Soc Trans,2019,47(1):109-117.
[27]YI SA,ZHANG Y,RATHNAM C,et al.Bioengineering approaches for the advanced organoid research[J].Adv Mater,2021,33(45):e2007949.
[28]BOIX-MONTESINOS P,SORIANO-TERUEL PM,ARMINAN A,et al.The past,present,and future of breast cancer models for nanomedicine development[J].Adv Drug Deliv Rev,2021,173:306-330.
[29]CLARK CC,YOO KM,SIVAKUMAR H,et al.Immersion bioprinting of hyaluronan and collagen bioink-supported 3D patient-derived brain tumor organoids[J].Biomed Mater,[2023-03-06].https://www.researchgate.net/publication/365148747_Immersion_bioprinting_of_hyaluronan_and_collagen_bioink-supported_3D_patient-derived_brain_tumor_organoids.
[30]JIANG S,ZHAO H,ZHANG W,et al.An automated organoid platform with inter-organoid homogeneity and inter-patient heterogeneity[J].Cell Rep Med,2020,1(9):100161.
[31]KASSIS T,HERNANDEZ-GORDILLO V,LANGER R,et al.Orga quant:human intestinal organoid localization and quantification using deep convolutional neural networks[J].Sci Rep,2019,9(1):12479.
[32]MATTHEWS JM,SCHUSTER B,KASHAF SS,et al.OrganoID:A versatile deep learning platform for tracking and analysis of single-organoid dynamics[J].PLoS Comput Biol,2022,18(11):e1010584.
[33]HENKE E,NANDIGAMA R,ERGUN S.Extracellular matrix in the tumor microenvironment and its impact on cancer therapy[J].Front Mol Biosci,2019,6:160.
[34]FANG G,LU H,RODRIGUEZ DE LA FUENTE L,et al.Mammary tumor organoid culture in non-adhesive alginate for luminal mechanics and high-throughput drug screening[J].Adv Sci(Weinh),2021,8(21):e2102418.
[35]CAPELING MM,CZERWINSKI M,HUANG S,et al.Nonadhesive alginate hydrogels support growth of pluripotent stem cell-derived intestinal organoids[J].Stem Cell Reports,2019,12(2):381-394.
[36]CARIGGA GUTIERREZ NM,LE CLAINCHE T,COLL JL,et al.Generating large numbers of pancreatic microtumors on alginate-gelatin hydrogels for quantitative imaging of tumor growth and photodynamic therapy optimization[J].Methods Mol Biol,2022,2451:91-105.
[37]CRUZ-ACUNA R,GARCIA AJ.Synthetic hydrogels mimicking basement membrane matrices to promote cell-matrix interactions[J].Matrix Biol,2017,57:324-333.
[38]LIANG L,CUI R,ZHONG S,et al.Analysis of the potential role of photocurable hydrogel in patient-derived glioblastoma organoid culture through RNA sequencing[J].Biomater Sci,2022,10(17):4902-4914.
[39]NG S,TAN WJ,PEK MMX,et al.Mechanically and chemically defined hydrogel matrices for patient-derived colorectal tumor organoid culture[J].Biomaterials,2019,219:119400.
[40]JUNTTILA MR,DE SAUVAGE FJ.Influence of tumour micro-environment heterogeneity on therapeutic response[J].Nature,2013,501(7467):346-354.
[41]FORSYTHE SD,SIVAKUMAR H,ERALI RA,et al.Patient-specific sarcoma organoids for personalized translational research:unification of the operating room with rare cancer research and clinical implications[J].Ann Surg Oncol,2022,29(12):7354-7367.
[42]BOCK N,FOROUZ F,HIPWOOD L,et al.GelMA,click-chemistry gelatin and bioprinted polyethylene glycol-based hydrogels as 3D ex vivo drug testing platforms for patient-derived breast cancer organoids[J].Pharmaceutics,2023,15(1):261.
[43]COSTARD LS,HOSN RR,RAMANAYAKE H,et al.Influences of the 3D microenvironment on cancer cell behaviour and treatment responsiveness:A recent update on lung,breast and prostate cancer models[J].Acta Biomater,2021,132:360-378.
[44]CONTESSI NEGRINI N,RICCI C,BONGIORNI F,et al.An osteosarcoma model by 3D printed polyurethane scaffold and in vitro generated bone extracellular matrix[J].Cancers(Basel),2022,14(8):2003.
[45]VELASCO V,SHARIATI SA,ESFANDYARPOUR R.Microtechnology-based methods for organoid models[J].Microsyst Nanoeng,2020,6:76.
[46]BRANDENBERG N,HOEHNEL S,KUTTLER F,et al.High-throughput automated organoid culture via stem-cell aggregation in microcavity arrays[J].Nat Biomed Eng,2020,4(9):863-874.
[47]OZCELIK A,ABAS BI,ERDOGAN O,et al.On-chip organoid formation to study CXCR4/CXCL-12 chemokine microenvironment responses for renal cancer drug testing[J].Biosensors(Basel),2022,12(12):1177.
[48]ABDUL L,XU J,SOTRA A,et al.D-CryptO:deep learning-based analysis of colon organoid morphology from brightfield images[J].Lab Chip,2022,22(21):4118-4128.
[49]LIBBY ARG,BRIERS D,HAGHIGHI I,et al.Automated design of pluripotent stem cell self-organization[J].Cell Syst,2019,9(5):483-495.
[50]ZHOU Z,CONG L,CONG X.Patient-derived organoids in precision medicine:drug screening,organoid-on-a-chip and living organoid biobank[J].Front Oncol,2021,11:762184.
[51]KONDO T.Current status and future outlook for patient-derived cancer models from a rare cancer research perspective[J].Cancer Sci,2021,112(3):953-961.