Glucose-responsive polymer gel bearing phenylborate derivative as a glucose-sensing moiety operating at the physiological pH.
about
Responsive Boronic Acid-Decorated (Co)polymers: From Glucose Sensors to Autonomous Drug DeliveryInjectable and Glucose-Responsive Hydrogels Based on Boronic Acid-Glucose ComplexationMaterials for diabetes therapeutics.Stimuli sensitive polymers and self regulated drug delivery systems: a very partial reviewSensing the cardiac environment: exploiting cues for regenerationpH-Triggered reversible morphological inversion of orthogonally-addressable poly(3-acrylamidophenylboronic acid)-block-poly(acrylamidoethylamine) micelles and their shell crosslinked nanoparticles.Managing diabetes with nanomedicine: challenges and opportunitiesA chemomechanical polymer that functions in blood plasma with high glucose selectivity.Smart polymers for responsive drug-delivery systems.Boronic Acid-based approach for separation and immobilization of glycoproteins and its application in sensing.Engineered polymers for advanced drug delivery.Measurement of glucose in blood with a phenylboronic acid optical sensor.Hard and soft micro- and nanofabrication: An integrated approach to hydrogel-based biosensing and drug delivery.Microchips and controlled-release drug reservoirs.The development of boronic acids as sensors and separation tools.Boronic acid-containing hydrogels: synthesis and their applications.Current and emerging challenges of field effect transistor based bio-sensing.A phenylboronate-functionalized polyion complex micelle for ATP-triggered release of siRNA.Development of glucose-responsive 'smart' insulin systems.Boronic acid building blocks: tools for sensing and separation.Chemorheology of phenylboronate-salicylhydroxamate crosslinked hydrogel networks with a sulfonated polymer backbone.Sugar-Responsive Pseudopolyrotaxane Composed of Phenylboronic Acid-Modified Polyethylene Glycol and γ-CyclodextrinGlucose-sensitive polyelectrolyte nanocapsules based on layer-by-layer technique for protein drug delivery.Chemomechanical Polymers as Sensors and Actuators for Biological and Medicinal Applications.Highly stable and degradable multifunctional microgel for self-regulated insulin delivery under physiological conditions.One-step synthesis of an organic-inorganic hybrid boronate affinity monolithic column with synergistic co-monomers.Synthetic "smart gel" provides glucose-responsive insulin delivery in diabetic mice.'Borono-lectin' based engineering as a versatile platform for biomedical applications.Phenylboronic Acid Appended Pyrene-Based Low-Molecular-Weight Injectable Hydrogel: Glucose-Stimulated Insulin Release.Biomolecule-Responsive Hydrogels in Medicine.A self-healable and tough nanocomposite hydrogel crosslinked by novel ultrasmall aluminum hydroxide nanoparticles.Core-Shell Microneedle Gel for Self-Regulated Insulin Delivery.Glucose sensitive poly (N-isopropylacrylamide) microgel based etalons.Experimental studies and modeling of drug release from a tunable affinity-based drug delivery platform.Bioresponsive Microneedles with a Sheath Structure for H2 O2 and pH Cascade-Triggered Insulin Delivery.Programmable hydrogels.Ultrasound-induced controllable morphology and growth dimension in a dihydrazide-based self-assembly system.The glyco-stereoisomerism effect on hydrogelation of polymers interacting via dynamic covalent bonds.A synthetic approach toward a self-regulated insulin delivery system.Boronate-Containing Polymers
P2860
Q28079504-A0995BBF-4278-40C0-9CAB-7D208C951A55Q28468535-9A29B6E4-B366-4E83-B9AB-07A867F5D916Q30444149-2FA5F645-90B8-48EB-A9F0-7AF2998115D5Q34079626-E9400350-32AE-41F7-A51B-5428A40914FEQ35906866-E04261E5-9AA0-4ED7-BDF8-2CB0DDA704CEQ36419444-0004A319-5EE7-4A75-8A0C-244EAD1F54ADQ36574654-694DCBD2-CC34-4DD5-9661-295B628C3E10Q37142940-76A7E7BE-52FC-45DC-9B95-108CC94AFAFDQ37183542-47BDF638-4F5B-4FCE-A49E-E0A22BB26D06Q37291380-27A21BAC-3616-4FE1-B488-AB8184287AF2Q37314701-918C7B03-6F55-4DF2-A9F8-328CBDE450B8Q37407981-0960B888-E9B8-4B4C-967E-F7FE7DF49C6BQ37662958-F61150A2-FD2B-48D7-BD93-9E557A926D38Q37766559-6518FD75-0409-4846-8E8F-950579898875Q38026016-ACED0FEF-DFB1-4877-97C7-696E4C751E6DQ38122075-06F90174-590F-4857-86C8-1B6BB0B2499AQ38142680-A4D6475D-57CC-4DF7-B629-034DB719C2A1Q39294151-49B85E94-F0C8-4F17-8827-AF15E68B7179Q39309814-2797F761-F6DD-4A2B-8FED-7DF2F403B1E9Q39960678-5F24238F-AD0C-43C3-8961-DDF6964EA4BFQ41512247-7378AE98-CB39-4A81-9E92-989B821BFE63Q42228244-21A2C5AA-D595-4488-81AB-AE127AC4098BQ42812867-4776B46F-EF49-4491-AE7B-9E99EBD40769Q42925078-0BBD67F9-BF9C-4A74-A222-E013FB5362A7Q44514826-2BA5CF1C-3C58-457B-BD85-00D5CE828A3BQ45257499-0915016E-C63B-4A46-A731-D12A684CFFD5Q47121485-BAB643C5-A6A5-4E5F-A25E-5D7917C20796Q47131624-FA893574-DD51-4FF7-BADF-F6720FF2331BQ47374354-0FFC6639-B85D-481D-BCEA-5AD0F2301288Q47422634-4B1B29F1-DFD7-44FA-9948-05205BAE7B5AQ47602891-CB43E2A5-74F2-435E-A515-718D580EF2D1Q49889663-C8BBED24-9DE1-407C-83BB-C92A0C9AFF3BQ50518239-B4986CB1-9465-4B97-A238-017D3DB238FBQ51557598-9C37DFAD-9046-4DE0-8702-FDA62484B1F9Q52373088-9B97FAF8-A726-49A3-A506-D1D54009F6C9Q52650887-96FB5497-9DC0-44E8-B3E5-172B2B7AEF97Q53424324-05325B2C-1902-4E38-A6D5-4E0DBCBA5045Q53501672-3E7501FA-2E25-4B84-A24F-1983D7477054Q54600648-3E51632B-0E3D-4936-9DF2-18591A6DAA4BQ57341901-8F3E8C28-9D6A-4685-AB7F-8D49E19F409A
P2860
Glucose-responsive polymer gel bearing phenylborate derivative as a glucose-sensing moiety operating at the physiological pH.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
@zh
2004年论文
@zh-cn
name
Glucose-responsive polymer gel ...... ating at the physiological pH.
@en
type
label
Glucose-responsive polymer gel ...... ating at the physiological pH.
@en
prefLabel
Glucose-responsive polymer gel ...... ating at the physiological pH.
@en
P2093
P356
P1433
P1476
Glucose-responsive polymer gel ...... ating at the physiological pH.
@en
P2093
Akira Matsumoto
Kazunori Kataoka
Ryo Yoshida
P304
P356
10.1021/BM0345413
P577
2004-05-01T00:00:00Z