Article Boron Compounds Boron Determination Chemistry In-vitro Studies In-vivo Studies Pharmacokinetics Toxicity Year 2023

Proposal of recommended experimental protocols for in vitro and in vivo evaluation methods of boron agents for neutron capture therapy

Journal of Radiation Research, 2023

Article Chemistry Dug Delivery System Year 2013

Development of high boron content liposomes and their promising antitumor effect for neutron capture therapy of cancers

Bioconjugate Chemistry, 2013

Article Chemistry Small Boron compounds Year 2015

Boron-based drug design

Chemical Record, 2015

Article Boron Determination Chemistry Small Boron compounds Year 2000

In vivo evaluation of carborane gadolinium-DTPA complex as an MR imaging boron carrier

Chemical and Pharmaceutical Bulletin, 2000

Article Chemistry Drug Delivery System Year 2006

Transferrin-loaded nido-carborane liposomes: Tumor-targeting boron delivery system for neutron capture therapy

Bioconjugate Chemistry, 2006

Article Chemistry Middle Boron compounds Year 2013

Towards new boron carriers for boron neutron capture therapy: metallacarboranes bearing cobalt, iron and chromium and their cholesterol conjugates

Bioorganic & Medicinal Chemistry, 2013

2018 Article In-vitro Studies Small Boron compounds

Synthesis and biological evaluation of closo-dodecaborate ibuprofen conjugate (DIC) as a new boron agent for neutron capture therapy

Journal of Organometallic Chemistry, 2018

2019 Article In-vivo Studies Small Boron compounds

Folate receptor-targeted novel boron compound for boron neutron capture therapy on F98 glioma-bearing rats

Radiation and Environmental Biophysics, 2019

2019 Article Small Boron compounds

Design of S–S bond containing maleimide-conjugated closo -dodecaborate (SSMID): identification of unique modification sites on albumin and investigation of intracellular uptake

Organic & Biomolecular Chemistry, 2019

2016 Article Drug Delivery System Small Boron compounds

Maleimide-functionalized closo-dodecaborate albumin conjugates (MID-AC): Unique ligation at cysteine and lysine residues enables efficient boron delivery to tumor for neutron capture therapy

Journal of Controlled Release, 2016