Effect of intratumoral injection on the biodistribution and the therapeutic potential of HPMA copolymer-based drug delivery systems.
about
Targeting Antitumor Immune Response for Enhancing the Efficacy of Photodynamic Therapy of Cancer: Recent Advances and Future PerspectivesNeoplasia: Where We Have Been and Where We Are GoingTriphase interface synthesis of plasmonic gold bellflowers as near-infrared light mediated acoustic and thermal theranostics.Neoplasia: the second decade.Fatal cesium chloride toxicity after alternative cancer treatment.Localized in vivo activation of a photoactivatable doxorubicin prodrug in deep tumor tissue.Use of 1,25α dihydroxyvitamin D3 as a cryosensitizing agent in a murine prostate cancer model.Post-lumpectomy intracavitary retention and lymph node targeting of (⁹⁹m)Tc-encapsulated liposomes in nude rats with breast cancer xenograft.Effect of intratumoral administration on biodistribution of 64Cu-labeled nanoshells.Incorporation of chemotherapeutic agent and photosensitizer in a low temperature-sensitive liposome for effective chemo-hyperthermic anticancer activity.Piperlongumine and immune cytokine TRAIL synergize to promote tumor deathPigment epithelial-derived factor gene loaded novel COOH-PEG-PLGA-COOH nanoparticles promoted tumor suppression by systemic administrationTumour-targeted nanomedicines: principles and practice.Actively targeted in vivo multiplex detection of intrinsic cancer biomarkers using biocompatible SERS nanotags.Transporter molecules influence the gene expression in HeLa cells.Doxorubicin Conjugated to Glutathione Stabilized Gold Nanoparticles (Au-GSH-Dox) as an Effective Therapeutic Agent for Feline Injection-Site Sarcomas-Chick Embryo Chorioallantoic Membrane Study.Therapeutic Enzyme-Responsive Nanoparticles for Targeted Delivery and Accumulation in Tumors.The in vivo radiosensitizing effect of gold nanoparticles based MRI contrast agents.Effect of intratumoral injection on the biodistribution and therapeutic potential of novel chemophor EL-modified single-walled nanotube loading doxorubicin.Targeted lung cancer therapy using ephrinA1-loaded albumin microspheres.Arginine-conjugated albumin microspheres inhibits proliferation and migration in lung cancer cells.Two-stage nanoparticle delivery of piperlongumine and tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) anti-cancer therapy.Image-guided and passively tumour-targeted polymeric nanomedicines for radiochemotherapy.HPMA-based polymer therapeutics improve the efficacy of surgery, of radiotherapy and of chemotherapy combinations.In Situ-Forming Polyamidoamine Dendrimer Hydrogels with Tunable Properties Prepared via Aza-Michael Addition Reaction.Neoplasia: An Anniversary of Progress.Defined Host-Guest Chemistry on Nanocarbon for Sustained Inhibition of Cancer.MicroRNA-Responsive Drug Release System for Selective Fluorescence Imaging and Photodynamic Therapy In Vivo.Comparison of pharmacokinetics, tissue distribution and pharmacodynamics of liposomal and free doxorubicin in tumour-bearing mice following intratumoral injection.Distribution of Glutathione-Stabilized Gold Nanoparticles in Feline Fibrosarcomas and Their Role as a Drug Delivery System for Doxorubicin-Preclinical Studies in a Murine Model.
P2860
Q28066286-4DAABE6A-388F-44F8-8B5C-EB2811CEA94BQ28395095-FFAFFF91-4BE4-4F96-9F18-13CE99D12810Q30411585-834BF195-F0C2-4E2A-B9EA-705F030F770CQ30484000-CF928602-509A-4B57-A0A4-FF626E00FEA3Q33163016-196EF81D-05AB-4057-8231-B4CFB9B9430CQ33812832-C012C0D5-B966-4DB2-B862-06382EE5B8ABQ34981181-D988EF70-8AF4-4315-A7BB-A03801CF314DQ35249333-553F814B-690F-45B6-B472-1FF419D197ADQ35972741-93982EF9-D21B-4194-B4B3-850286A2D3F4Q36205205-1AD5E68E-1B77-4A00-82F1-0164F89A2F30Q36292383-36F42889-25E8-4497-89C6-841EFB385BE0Q36635993-6ACD5DA4-5A50-4065-A112-7459D81E8A6AQ36858135-05EC33A8-FFCF-4B0C-B3B5-1466AB4F3392Q37578894-A07657C3-3FA3-4D1B-9402-4007E2D652B0Q38510992-BCD7DC25-626B-406C-A534-D71F14C98FE1Q38716160-33602FBF-3D59-41AB-A837-8302CD66008EQ38852531-22AFA39C-0782-4A6E-AC0A-98583C727223Q39012715-7AD9181F-3A0B-49D6-B697-74E9BDFD463BQ39315014-0DBF8902-51DB-456B-9B48-CEB7355FE3D8Q39460078-5415F367-FBC0-4C86-886D-AF50EF8B3D8DQ41474166-9461DC3A-34A0-44AE-9DFA-0B72A62C9F5EQ41762619-4BE4F2A7-07CB-4A43-A1D9-8A293A83D84DQ42551562-27E8ED02-F6FF-4AF5-A913-9B6AD8BDDCADQ42782242-60558570-56EA-4352-90D2-8597758ADB2FQ45054066-25E73DB9-B44E-45B9-B58D-9699CE0FA131Q46932476-7C340979-E010-466C-A6D7-D0865B1E9629Q50282362-0CD7F05C-B783-41DC-B509-5480545799E4Q50787878-038BB790-2DAB-4353-80C4-EDC62B2DDD56Q51742805-9979D096-8219-4FC9-975F-67089F74D455Q52622309-A1BB7EF5-1C45-45E4-8863-D242D789EC25
P2860
Effect of intratumoral injection on the biodistribution and the therapeutic potential of HPMA copolymer-based drug delivery systems.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
2006年论文
@zh
2006年论文
@zh-cn
name
Effect of intratumoral injecti ...... r-based drug delivery systems.
@en
Effect of intratumoral injecti ...... r-based drug delivery systems.
@nl
type
label
Effect of intratumoral injecti ...... r-based drug delivery systems.
@en
Effect of intratumoral injecti ...... r-based drug delivery systems.
@nl
prefLabel
Effect of intratumoral injecti ...... r-based drug delivery systems.
@en
Effect of intratumoral injecti ...... r-based drug delivery systems.
@nl
P2093
P2860
P356
P1433
P1476
Effect of intratumoral injecti ...... r-based drug delivery systems.
@en
P2093
Gert Storm
Karel Ulbrich
Peter Huber
Peter Peschke
Rainer Kühnlein
Twan Lammers
Wim Hennink
P2860
P304
P356
10.1593/NEO.06436
P577
2006-10-01T00:00:00Z