about
Co-delivery of 10-hydroxycamptothecin with doxorubicin conjugated prodrugs for enhanced anticancer efficacy.ERK1/2 pathway-mediated differentiation of IGF-1-transfected spinal cord-derived neural stem cells into oligodendrocytesPolymeric topology and composition constrained polyether-polyester micelles for directional antitumor drug delivery.Characterization of nanostructured ureteral stent with gradient degradation in a porcine modelRemission of collagen-induced arthritis through combination therapy of microfracture and transplantation of thermogel-encapsulated bone marrow mesenchymal stem cells.Autoserum: An Optimal Supplement for Bone Marrow Mesenchymal Stem Cells of Liver-Injured Rats.Stereocomplex micelle from nonlinear enantiomeric copolymers efficiently transports antineoplastic drugGlutathione-degradable drug-loaded nanogel effectively and securely suppresses hepatoma in mouse model.Noncovalent interaction-assisted polymeric micelles for controlled drug delivery.Emerging antitumor applications of extracellularly reengineered polymeric nanocarriers.Boronic Acid as Glucose-Sensitive Agent Regulates Drug Delivery for Diabetes TreatmentMesomeric configuration makes polyleucine micelle an optimal nanocarrier.Role of scaffold mean pore size in meniscus regeneration.Glucose-sensitive polymer nanoparticles for self-regulated drug delivery.Acid-labile boronate-bridged dextran-bortezomib conjugate with up-regulated hypoxic tumor suppression.pH-Responsive Reversible PEGylation Improves Performance of Antineoplastic Agent.Preclinical evaluation of antitumor activity of acid-sensitive PEGylated doxorubicin.Micellization of antineoplastic agent to significantly upregulate efficacy and security.Disulfide cross-linked polyurethane micelles as a reduction-triggered drug delivery system for cancer therapy.Injectable Hydrogel-Microsphere Construct with Sequential Degradation for Locally Synergistic Chemotherapy.Self-reinforced endocytoses of smart polypeptide nanogels for "on-demand" drug delivery.Nanotherapeutics relieve rheumatoid arthritis.Versatile biofunctionalization of polypeptide-based thermosensitive hydrogels via click chemistry.Thermogel-mediated sustained drug delivery for in situ malignancy chemotherapy.Gelatin Tight-Coated Poly(lactide-co-glycolide) Scaffold Incorporating rhBMP-2 for Bone Tissue Engineering.Cholesterol-Enhanced Polylactide-Based Stereocomplex Micelle for Effective Delivery of Doxorubicin.Guanidinated Thiourea-Decorated Polyethylenimines for Enhanced Membrane Penetration and Efficient siRNA Delivery.pH-responsive metallo-supramolecular nanogel for synergistic chemo-photodynamic therapy.Hydration of hydrogels regulates vascularization in vivo.PEGylated stereocomplex polylactide coating of stent for upregulated biocompatibility and drug storage.Polymer materials for prevention of postoperative adhesion.Receptor and Microenvironment Dual-Recognizable Nanogel for Targeted Chemotherapy of Highly Metastatic Malignancy.Thermo-sensitive polypeptide hydrogel for locally sequential delivery of two-pronged antitumor drugs.Correction to Receptor and Microenvironment Dual-Recognizable Nanogel for Targeted Chemotherapy of Highly Metastatic Malignancy.Reduction-Responsive Polypeptide Micelles for Intracellular Delivery of Antineoplastic Agent.Correction: Acid-labile boronate-bridged dextran-bortezomib conjugate with up-regulated hypoxic tumor suppression.Positively charged polypeptide nanogel enhances mucoadhesion and penetrability of 10-hydroxycamptothecin in orthotopic bladder carcinoma.α-Cyclodextrin concentration-controlled thermo-sensitive supramolecular hydrogels.Antibacterial zinc oxide hybrid with gelatin coating.Phenylboronic acid-functionalized polypeptide nanogel for glucose-responsive insulin release under physiological pH.
P50
Q30590874-92520B58-726C-48D3-9A4B-27444DF1AB25Q34097671-D3DACE21-79BA-43A8-8DB1-78EA05980CEFQ34801322-C7960119-B276-4271-8339-4F0428C71BACQ35535404-D46B0D2E-4235-4838-BC58-6D233008EB6FQ35578068-642277CE-9867-4F42-AF05-556BEA311CE5Q35690790-47EA6F62-87D0-41FF-9508-78EA7D3F04B5Q35725508-1917FA0A-69C1-43C1-AE40-CEA952E7CCA0Q36212932-730D6128-AE4B-4BE6-A968-311B0376F3AFQ38227515-88E40997-BDF5-4723-B7FA-07DF5249DF45Q38556756-3BC57EA2-0058-46D9-9B50-04645AAFCC2BQ38647443-173B5817-F00C-4AD6-8BED-3D9428351E84Q38794153-975AA154-4254-4226-B2D8-F48369D49CE1Q38835553-F9EBA907-B7F1-4E31-910E-7BB6BF678D65Q38837883-B53D2CF1-E851-4C53-9414-5EE22ECE92A2Q38897881-6414A983-32BB-4E71-B032-396B15D04543Q38913764-021A447C-DE4F-4CC2-A13C-E6D50BE535ABQ38938618-54EF7401-FE17-4282-85CE-DE2AE19687D6Q38941828-12048D16-2F1A-4B57-AD6A-88BB5534A4D7Q39020510-6549B303-5381-4003-9E95-CB465AEE9C5AQ39032200-60F74330-1255-4257-A6D2-032B050F3884Q39143130-AE31B2BC-3CCB-4AEF-A2A0-E51944F8526EQ39160341-40D1D35D-D4FD-4EB9-B829-2A146892B7C2Q39212224-361E0DA9-7BDD-45DE-92DA-A93B6D7B1D33Q41428148-13CDAE52-0E8C-4B88-AEAC-ECD1829F6926Q42228213-12E15877-9F23-4E8D-838C-A92A4C100480Q42228640-77B7D116-C19B-46AA-A3D5-A8BE632ACB90Q45875187-C2D08966-56E4-452D-B05B-CD2879D11040Q46698188-8BEEF609-FE47-4599-9ABC-79499C5745F4Q47620718-7E68912C-A746-41FE-B088-7CFDDA07F08BQ47695256-62E10A6C-D853-4A62-B259-14033B889CBDQ47829019-309984F1-249C-4A34-BAA4-2A1C99AAAC26Q47991965-CFEAF516-F233-413E-9EEC-84B6584C5A94Q48019002-D0271F57-0829-4C0C-B7D9-B194FB91EC6DQ48109755-DB23E216-ED77-4945-B5B8-3EE019B891A1Q48119497-19C2C5EC-45DF-45D0-8B9B-50BDA9BB1E69Q48713624-97940F3B-1EF8-4177-A863-8BC68D326B55Q48877500-349AD7F9-6659-4917-9634-D717711EE0E9Q50061320-49081E40-59DA-4F6D-908E-E4A1B00CAEB4Q50191148-8EBB2212-2D6B-42E1-A940-23AFF16B6D7FQ51423746-AE5B6BC2-102F-4166-9482-6BADFFC1FC7C
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Jianxun Ding
@ast
Jianxun Ding
@en
Jianxun Ding
@es
Jianxun Ding
@nl
Jianxun Ding
@sl
type
label
Jianxun Ding
@ast
Jianxun Ding
@en
Jianxun Ding
@es
Jianxun Ding
@nl
Jianxun Ding
@sl
prefLabel
Jianxun Ding
@ast
Jianxun Ding
@en
Jianxun Ding
@es
Jianxun Ding
@nl
Jianxun Ding
@sl
P106
P31
P3835
jianxun-ding
P496
0000-0002-5232-8863