pH-sensitive vesicles, polymeric micelles, and nanospheres prepared with polycarboxylates.
about
Cytokines as biomarkers of nanoparticle immunotoxicityChemophototherapy: An Emerging Treatment Option for Solid TumorspH-triggered echogenicity and contents release from liposomes.Multifunctional polymeric micelles for delivery of drugs and siRNA.Delivery of cancer therapeutics using nanotechnologySteric environment around acetylcholine head groups of bolaamphiphilic nanovesicles influences the release rate of encapsulated compounds.Reduction-responsive polymeric micelles and vesicles for triggered intracellular drug release.Self-assembled micelles based on pH-sensitive PAE-g-MPEG-cholesterol block copolymer for anticancer drug deliveryChitosan-based intelligent theragnosis nanocomposites enable pH-sensitive drug release with MR-guided imaging for cancer therapy.Switchable Lipids: Conformational Change for Fast pH-Triggered Cytoplasmic Delivery.Polydopamine-coated liposomes as pH-sensitive anticancer drug carriers.Doxorubicin encapsulated in stealth liposomes conferred with light-triggered drug release.Polymeric micelles as mighty nanocarriers for cancer gene therapy: a review.pH-responsive biodegradable assemblies containing tunable phenyl-substituted vinyl ethers for use as efficient gene delivery vehicles.Shell-crosslinked knedel-like nanoparticles induce lower immunotoxicity than their non-crosslinked analogs.Polycation-functionalized nanoporous silicon particles for gene silencing on breast cancer cells.Design, challenge, and promise of stimuli-responsive nanoantibiotics.Liposomal Nanoparticles Carrying anti-IL6R Antibody to the Tumour Microenvironment Inhibit Metastasis in Two Molecular Subtypes of Breast Cancer Mouse ModelspH-sensitive micelles self-assembled from polymer brush (PAE-g-cholesterol)-b-PEG-b-(PAE-g-cholesterol) for anticancer drug delivery and controlled release.Functional block copolymer assemblies responsive to tumor and intracellular microenvironments for site-specific drug delivery and enhanced imaging performance.Nanocarriers for oral drug delivery.Stimuli responsive synthetic polypeptides derived from N-carboxyanhydride (NCA) polymerisation.pH-sensitive liposomes for drug delivery in cancer treatment.pH-sensitive drug-delivery systems for tumor targeting.Vaginal drug delivery: strategies and concerns in polymeric nanoparticle development.Polymeric micelles with stimuli-triggering systems for advanced cancer drug targeting.Polymeric micelles for oral drug administration enabling locoregional and systemic treatments.Trigger responsive polymeric nanocarriers for cancer therapy."Smart" Materials Based on Cellulose: A Review of the Preparations, Properties, and Applications.Smart linkers in polymer-drug conjugates for tumor-targeted delivery.Synthesis and evaluation of pH-sensitive, self-assembled chitosan-based nanoparticles as efficient doxorubicin carriers.pH-Responsive carriers for oral drug delivery: challenges and opportunities of current platforms.Next Generation Multiresponsive Nanocarriers for Targeted Drug Delivery to Cancer Cells.pH-sensitive, polymer modified, plasma stable niosomes: promising carriers for anti-cancer drugs.Antibody Format and Drug Release Rate Determine the Therapeutic Activity of Noninternalizing Antibody-Drug Conjugates.pH-Responsive Reversible PEGylation Improves Performance of Antineoplastic Agent.Trends on polymer- and lipid-based nanostructures for parenteral drug delivery to tumors.Amphiphilic block copolymers bearing six-membered ortho ester ring in side chains as potential drug carriers: synthesis, characterization, and in vivo toxicity evaluation.Plasma stable, pH-sensitive fusogenic polymer-modified liposomes: A promising carrier for mitoxantrone.Plasma stable, pH-sensitive non-ionic surfactant vesicles simultaneously enhance antiproliferative effect and selectivity of Sirolimus.
P2860
Q28383550-13DF8123-BDFF-4175-B01F-055D63FE1D33Q28468315-2E8CB420-47BC-4BB9-8884-7450347E25CAQ30402045-F097AB7F-FF4D-4A83-95C1-C8B03BA2F89AQ30438973-3C9FB523-DFA6-4DBA-AA6E-DBCC034F0328Q30446963-BADA8CC2-955A-4150-9A40-1B9A02E8D088Q30568293-0976AB01-CDAB-460F-B2AB-AE78B6B29913Q33903420-115F74A1-8C6C-4AB7-917B-7F13C7F2317FQ34415598-76A9BE22-02C4-4E8E-8F2B-E619F26EC70FQ34481521-D2A537E3-3190-4085-9BCA-ACF49829AAD4Q34485756-4F582609-32B7-4599-8814-C7849993ABD2Q36016481-9EAB50D1-13BD-4B25-9E76-10B6A4552ADFQ36278952-AC595E43-8623-4D94-95DD-F4F14591C80CQ36313520-A378017E-44C4-41BB-B39B-7076F997EA53Q37087260-7A51EB86-7B66-473F-B3AC-D588D5871FC0Q37265121-CDE7D4E6-FF36-4BAB-AC4F-826BA3E1EB61Q37347118-A7B5E234-40A7-4B30-807B-29B79326F3C6Q37610372-EA9CAD29-BA7E-464E-B148-1AB30C9B49A1Q37668583-6ADBA74E-5A04-429E-8DD4-D27474EC74EDQ37722704-7B946FF0-B8E3-410F-9067-E74D54067F99Q38095361-EB5AD5D4-9E87-4260-BCD8-7EB30518E830Q38101960-C0F3687C-791B-4F24-9E32-AEEC49EA3F7EQ38103174-7F790E7A-62C7-43D2-8A03-166B996AAC9EQ38136240-82C5A59A-3B60-47B1-9138-FBF16A19A0CEQ38168593-2C889C49-A60A-4CC7-BEE5-6BA2B9AB5246Q38222809-B7AF2E08-5A2C-4E35-B152-C6159207EDDEQ38228139-9B62FF26-6BB5-41FD-BEEA-E2651C46105AQ38250152-0A52E4BE-330D-49AC-B730-27DCEE0D3965Q38556755-3464CE5F-2CB5-4F38-A4E1-94677583E7DCQ38624141-C0AE7B4D-F2BA-4A1A-AE86-872B8412A8F6Q38631193-73F8DEAB-C4E5-4912-BBEC-7FDA18D82CB9Q38721673-F4B11F3A-C965-4749-9F81-121A198E5B11Q38757836-18913BF4-A43A-4DAE-96C3-BF42D60ACAE3Q38830048-EC690894-E085-47C6-B132-7538CAB3BB32Q38831634-E82CEFCC-CC6F-496B-9BFA-B3D8ABD083FAQ38842103-5596BA03-A233-432A-9AA1-3120E2ABDF6DQ38913764-EEC4F747-DDEB-4623-A450-FEBBB4F60FAFQ38981743-43D731DF-DE81-4577-9100-FC9C108B0B6BQ38994780-8788C40A-9A29-4517-A76E-02B5B5CF2478Q39043619-70CC52A3-0A71-4D0F-95A4-1790E88E43E2Q39058091-B9F83779-5378-496C-8451-1E6BE785E98B
P2860
pH-sensitive vesicles, polymeric micelles, and nanospheres prepared with polycarboxylates.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
pH-sensitive vesicles, polymer ...... repared with polycarboxylates.
@en
pH-sensitive vesicles, polymer ...... repared with polycarboxylates.
@nl
type
label
pH-sensitive vesicles, polymer ...... repared with polycarboxylates.
@en
pH-sensitive vesicles, polymer ...... repared with polycarboxylates.
@nl
prefLabel
pH-sensitive vesicles, polymer ...... repared with polycarboxylates.
@en
pH-sensitive vesicles, polymer ...... repared with polycarboxylates.
@nl
P2093
P1476
pH-sensitive vesicles, polymer ...... repared with polycarboxylates.
@en
P2093
Arnaud E Felber
Jean-Christophe Leroux
Marie-Hélène Dufresne
P304
P356
10.1016/J.ADDR.2011.09.006
P407
P577
2011-09-29T00:00:00Z