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NIR-II window tracking of hyperglycemia induced intracerebral hemorrhage in cerebral cavernous malformation deficient mice

Abdul K. Parchur, Zhi Fang, Jaidip Jagtap, Gayatri Sharma, Christopher B. Hansen, Shayan Shafiee, Wenquan Hu, Qing Miao, Amit Joshi

2020Biomaterials Science14 citationsDOIOpen Access PDF

Abstract

S quantum dots (QDs) with a bright fluorescent emission peak centred at 1135 nm under an 808 nm NIR light for dynamic imaging of cerebral vasculature in mice and determined the development of ICH and BBB impairment in hyperglycaemic CCM1+/- mice. In vivo optical imaging was conducted with micro-CT (including k-mean cluster analysis) as well as in vivo permeability assays using FITC-dextran perfusion and IgG staining, respectively. The increased BBB permeability in CCM1+/- mice was further demonstrated to be associated with a high-glucose-caused decrease of CCM1 expressions. This study validates that deep-penetrating NIR-II QDs can be used for the tracking of ICH and BBB hyperpermeability in transgenic mice models of cerebral vascular anomalies.

Topics & Concepts

Ex vivoIn vivoNuclear medicineChemistryPathologyMolecular biologyMedicineBiologyGeneticsVascular Malformations Diagnosis and TreatmentIntracerebral and Subarachnoid Hemorrhage ResearchIntracranial Aneurysms: Treatment and Complications
NIR-II window tracking of hyperglycemia induced intracerebral hemorrhage in cerebral cavernous malformation deficient mice | Litcius