手机验证
20分钟快速成胶(包括10-15分钟水凝胶稳定时间)
即用型
无需特殊交联试剂,只需调整后与细胞混匀,添加培养基并培养即可。
可调节系统
可以通过调节不同水凝胶强度,为细胞创造更优生长微环境。
Xeno-free
多聚糖水凝胶,无任何动物源成分
室温操作
水凝胶可在室温条件下稳定保存操作,无需冰上操作
快速细胞收获- 20min操作方案
3D细胞培养后,可使用我们的无酶细胞回收液,从水凝胶中安全快速收获细胞,同时保持高细胞活力。
混合搭配
通过将不同类型的VitroGel混合使用,可构建多功能水凝胶。
透明
水凝胶颜色透明的,与不同的成像系统相容,便于细胞观察。
可注射
在软水凝胶形成后,可用于动物体内注射,研究细胞治疗和药物传递!
3D细胞培养(3D Cell Model)
共培养(Co-Culture)
类器官培养(Organoid)
细胞侵袭实验(Invasion Assay)
神经细胞培养(Neuron)
干细胞培养(Stem Cell)
血管生成试验(Angiogenesis Assay)
动物体内注射(In vivo Injection)
VitroGel系统可以相互混合搭配使用,可以通过混合不同的VitroGel系统来量身定制3D培养微环境。
产品名称 | 产品货号 | 规格 | 产品描述 |
VitroGel® 3D Kit | TWG001 | 3 ml | 无修饰水凝胶 - 可调节,无异源,高浓度水凝胶试剂盒 (3 mL 水凝胶, 50 ml 稀释液) |
VitroGel® RGD Kit | TWG003 | 3 ml | RGD 肽修饰水凝胶- 可调节,无异源,高浓度水凝胶试剂盒 (3 mL 水凝胶, 50 ml 稀释液) |
VitroGel® IKVAV Kit | TWG007 | 3 ml | IKVAV 肽修饰水凝胶- 可调节,无异源,高浓度水凝胶试剂盒 (3 mL 水凝胶, 50 mL 稀释液) |
VitroGel® YIGSR Kit | TWG008 | 3 ml | YIGSR 肽修饰水凝胶- 可调节,无异源,高浓度水凝胶试剂盒 (3 mL 水凝胶, 50 mL 稀释液) |
VitroGel® COL Kit | TWG009 | 3ml | 胶原蛋白模拟肽 (GFOFER 修饰) - 可调节,无异源,高浓度水凝胶试剂盒 (3 mL 水凝胶, 50 mL 稀释液) |
VitroGel® MMP Kit | TWG010 | 3 ml | 基质金属蛋白酶 (MMP) 可生物降解水凝胶, 可调节,无异源,高浓度水凝 胶试剂盒 (3 mL 水凝胶, 50 mL 稀释液) |
VitroGel®Hydrogel Matrix | VHM01 | 10 ml | 即用型, 无动物源功能水凝胶 (不可调节胶软硬度) |
VHM01S | 2 ml | ||
VitroGel® ORGANOID | VHM04-K | 10 ml | 即用型、无动物源类器官培养水凝胶系统 |
VitroGel® STEM | VHM02 | 2/10 ml | 即用型、无动物源功能水凝胶,用于hPSCs的3D培养和扩增 |
VitroGel® MSC | VHM03 | 2/10 ml | 即用型、无动物源功能水凝胶,用于MSC的3D培养和扩增 |
VitroGel® Dilution Solution TYPE 1 | MS01-100 | 100 ml | 用于水凝胶浓度调节, 含有蔗糖以维持最佳渗透 |
VitroGel® Dilution Solution TYPE 2 | MS02-100 | 100 ml | 用于水凝胶浓度调节, 不含蔗糖 |
VitroGel® Cell Recovery Solution | MS03-100 | 100 ml | 无酶配方, 用于从水凝胶系统中回收细胞 |
Cyto3DTM Live-Dead Assay Kit | BM01 | 1 mL |
即用型,用于3D、2D细胞培养的细胞活性分析 |
授权书
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Zhang C, Wang T, Zhang L, et al. Combination of lyophilized adipose-derived stem cell concentrated conditioned medium and polysaccharide hydrogel in the inhibition of hypertrophic scarring. Stem Cell Research & Therapy, 2021 Jan 7;12(1):23.
Grisan F, Spacci M, Paoli C, et al. Cholesterol Activates Cyclic AMP Signaling in Metaplastic Acinar Cells. Metabolites, 2021 Feb 26;11(3):141.
Gebeyehu A, Surapaneni S. K, Huang J, et al. (2021). Polysaccharide hydrogel based 3D printed tumor models for chemotherapeutic drug screening. Scientific Reports, 2021 Jan 11;11(1):372.
Ma H, Dean D. C, Wei R, et al. Cyclin-dependent kinase 7 (CDK7) is an emerging prognostic biomarker and therapeutic target in osteosarcoma. Therapeutic Advances in Musculoskeletal Disease, 2021 Feb 18;13:1759720X21995069.
Abbass M. M. S, El-Rashidy A. A, Sadek K. M, et al. Hydrogels and Dentin–Pulp Complex Regeneration: From the Benchtop to Clinical Translation. Polymers, 2020 Dec 9;12(12):2935.
De Donato M, Babini G, Mozzetti S, et al. KLF7: a new candidate biomarker and therapeutic target for high-grade serous ovarian cancer. Journal of Experimental & Clinical Cancer Research, 2020 Nov 30;39(1):265.
Xu H, Han Y, Zhao G, et al. Hypoxia-Responsive Lipid–Polymer Nanoparticle-Combined Imaging-Guided Surgery and Multitherapy Strategies for Glioma. ACS Applied Materials & Interfaces, 2020 Nov 25;12(47):52319-52328.
Li X, Dean D. C, Cote G. M, et al. Inhibition of ATR-Chk1 signaling blocks DNA double-strand-break repair and induces cytoplasmic vacuolization in metastatic osteosarcoma. Therapeutic Advances in Medical Oncology, 2020 Sep 14;12:1758835920956900.
Haruna, N.-F., & Huang, J. Investigating The Dynamic Biophysical Properties Of A Tunable Hydrogel For 3D Cell Culture. HSOA Journal of Cytology and Tissue Biology.
Kim A.-Y, Yoon Y. N, Leem J, et al. MKI-1, a Novel Small-Molecule Inhibitor of MASTL, Exerts Antitumor and Radiosensitizer Activities Through PP2A Activation in Breast Cancer. Frontiers in Oncology, 2020 Sep 29;10:571601.
Thanindratarn P, Dean D. C, Nelson S. D, et al. T‐LAK cell‐originated protein kinase (TOPK) is a Novel Prognostic and Therapeutic Target in Chordoma. Cell Proliferation, 2020 Oct;53(10):e12901.
Xi Q, Zhang J, Yang G, et al. Restoration of miR-340 controls pancreatic cancer cell CD47 expression to promote macrophage phagocytosis and enhance antitumor immunity. J Immunother Cancer. 2020 Jun;8(1):e000253.
Arthur P, Patel N, Surapaneni S. K, et al. Targeting lung cancer stem cells using combination of Tel and Docetaxel liposomes in 3D cultures and tumor xenografts. Toxicology and Applied Pharmacology,2020 Aug 15;401:115112.
Yin Q, Xu N, Xu D, et al. Comparison of senescence-related changes between three- and two-dimensional cultured adipose-derived mesenchymal stem cells. Stem Cell Research & Therapy,2020 Jun 9;11(1):226.
Buttarelli M, De Donato M, Raspaglio G, et al. Clinical Value of lncRNA MEG3 in High-Grade Serous Ovarian Cancer. Cancers, 2020 Apr 14;12(4):966.
Ramos R. I, Bustos M. A, Wu J, et al. Upregulation of cell surface GD3 ganglioside phenotype is associated with human melanoma brain metastasis. Molecular Oncology.2020 Aug;14(8):1760-1778.
Tian X, Song J, Zhang X,et al. MYC-regulated pseudogene HMGA1P6 promotes ovarian cancer malignancy via augmenting the oncogenic HMGA1/2. Cell Death & Disease, 2020 Mar 3;11(3):167.
Kawashima A, Yasuhara R, Akino R,et al. Engraftment potential of maternal adipose-derived stem cells for fetal transplantation. Heliyon, 2020 Mar 4;6(3):e03409.
Lan T, Guo J, Bai X, et al. RGD-modified injectable hydrogel maintains islet beta-cell survival and function. Journal of Applied Biomaterials & Functional Materials, 2020 Jan-Dec;18:2280800020963473.
Feng W, Dean D. C, Hornicek F. J, et al. ATR and p-ATR are emerging prognostic biomarkers and DNA damage response targets in ovarian cancer. Therapeutic Advances in Medical Oncology, 2020 Dec 23;12:1758835920982853.
Feng W, Dean DC, Hornicek FJ, et al. Myc is a prognostic biomarker and potential therapeutic target in osteosarcoma. Therapeutic Advances in Medical Oncology, 2020 May 10;12:1758835920922055.
Shen S, Dean DC, Yu Z, et al. Aberrant CDK9 expression within chordoma tissues and the therapeutic potential of a selective CDK9 inhibitor LDC000067. Journal of Cancer, 2020 Jan 1;11(1):132-141.
Kim E. J, Yang C, Lee J, et al. The new biocompatible material for mouse ovarian follicle development in three-dimensional in vitro culture systems. Theriogenology. 2020 Mar 1;144:33-40.
Pang K, Park J, Ahn SG, et al. RNF208, an estrogen-inducible E3 ligase, targets soluble Vimentin to suppress metastasis in triple-negative breast cancers. Nature Communications, 2019 Dec 20;10(1):5805.
Piva, R., & Bethania, M. (2019). The impact and underlying molecular mechanisms of cell adhesion molecules integrins and syndecans in the cisplatin chemoresistance of melanoma cells. Bonndoc.Ulb.Uni-Bonn.De.
Thanindratarn P, Li X, Dean DC, et al. Establishment and Characterization of a Recurrent Osteosarcoma Cell Line: OSA 1777. Journal of Orthopaedic Research. 2020 Apr;38(4):902-910.
Shamloo B, Kumar N, Owen RH,et al. Dysregulation of adenosine kinase isoforms in breast cancer. Oncotarget, 2019 Dec 31;10(68):7238-7250.
Raddall G, Mello I, & Leung BM. Biomaterials and Scaffold Design Strategies for Regenerative Endodontic Therapy. Frontiers in Bioengineering and Biotechnology, 2019 Nov 15;7:317.
Borzi C, Calzolari L, Ferretti AM, et al. c-Myc shuttled by tumour-derived extracellular vesicles promotes lung bronchial cell proliferation through miR-19b and miR-92a. Cell Death & Disease, 2019 Oct 7;10(10):759.
Wang F, Nan L, Zhou S, et al. Injectable Hydrogel Combined with Nucleus Pulposus-Derived Mesenchymal Stem Cells for the Treatment of Degenerative Intervertebral Disc in Rats. Stem Cells International, 2019 Oct 15;2019:8496025.
Huang, J. (2019). 3D Cell Culture on VitroGel System. HSOA Journal of Cytology and Tissue Biology. https://doi.org/10.24966/CTB-9107/S1001
Di Donato M, Cernera G, Migliaccio A,et al. Nerve Growth Factor Induces Proliferation and Aggressiveness in Prostate Cancer Cells. Cancers, 2019 Jun 6;11(6):784.
Xiao M, Qiu J, Kuang R,et al. Synergistic effects of stromal cell-derived factor-1α and bone morphogenetic protein-2 treatment on odontogenic differentiation of human stem cells from apical papilla cultured in the VitroGel 3D system. Cell and Tissue Research, 2019 Nov;378(2):207-220.
Worden, A. (2019). Analysis of Cellular Interactions Within a Collagen Hydrogel. Theses and Dissertations.
Akamandisa MP, Nie K, Nahta R,et al. Inhibition of mutant PPM1D enhances DNA damage response and growth suppressive effects of ionizing radiation in diffuse intrinsic pontine glioma. Neuro-Oncology, 2019 Jun 10;21(6):786-799.
Ma H, Seebacher NA, Hornicek FJ, et al. Cyclin-dependent kinase 9 (CDK9) is a novel prognostic marker and therapeutic target in osteosarcoma. EBioMedicine, 2019 Jan;39:182-193.
Li X, Seebacher NA, Xiao T, et al. Targeting regulation of cyclin dependent kinase 9 as a novel therapeutic strategy in synovial sarcoma. Journal of Orthopaedic Research®, 2019 Feb;37(2):510-521.
Chen G, Tang W, Wang X, et al. Applications of Hydrogels with Special Physical Properties in Biomedicine. Polymers, 11(9),2019 Aug 29;11(9):1420.
Mahauad-Fernandez WD, Okeoma CM. B49, a BST-2-based peptide, inhibits adhesion and growth of breast cancer cells. Scientific Reports, 2018 Mar 9;8(1):4305.
Shin S, Kim J, Lee JR, et al. Enhancement of optical resolution in three-dimensional refractive-index tomograms of biological samples by employing micromirror-embedded coverslips. Lab on a Chip, 2018 Nov 6;18(22):3484-3491.
Wong TY, Juang WC, Tsai CT, et al. Mechanical Stretching Simulates Cardiac Physiology and Pathology through Mechanosensor Piezo1. Journal of Clinical Medicine, 2018 Nov 2;7(11):410.
Ali, A, Ahmed, S. Recent Advances in Edible Polymer Based Hydrogels as a Sustainable Alternative to Conventional Polymers. Journal of Agricultural and Food Chemistry, 2018 Jul 11;66(27):6940-6967.
Kampert, Taylor. (2018). Combinatorial therapy for triple negative breast cancer and the effect of nanoscale surfaces.
Mahauad-Fernandez WD, Naushad W, Panzner TD, et al. BST-2 promotes survival in circulation and pulmonary metastatic seeding of breast cancer cells. Scientific Reports, 2018 Dec 4;8(1):17608.
Powell, K. (2017). Adding depth to cell culture. Science, 2017 Apr 7 ;356(6333), 96–98.
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