BP@CS Nanoparticles: In Vitro and In Vivo Efficacy Data for Corneal Injury
by Jilin Zhou·Updated 2mo ago
930.7 KB3files
Available on 2 platforms
Sign in to view source links and access this dataset
Description
Black phosphorus quantum dot-chitosan nanoparticles (BP@CS) demonstrate sustained antioxidant activity to inhibit pathological corneal blood vessel growth in a mouse alkali burn model. Experimental data includes in vitro cytotoxicity, drug release, and antioxidant assays, alongside in vivo imaging, histology (HE, Masson), and protein analysis (immunofluorescence, Western blot). This 953,071-byte dataset supports a novel therapeutic approach using subconjunctival injection for sustained reactive oxygen species regulation.
Use Cases
Evaluating nanoparticle cytotoxicity and antioxidant capacity based on CCK8 and cell co-culture experiments
Assessing anti-angiogenic efficacy in vivo based on small animal imaging and front segment photos
Characterizing nanoparticle physicochemical properties based on TEM, Zeta potential, and Raman spectroscopy data
Correlating reactive oxygen species levels with neovascularization based on immunofluorescence and Western blot results
Studying the biosafety and tissue response of subconjunctival injections based on HE and Masson staining
Strengths
Dataset is openly licensed (CC-BY-4.0), facilitating reuse and redistribution.
Data integrates multimodal experimental results, from physicochemical characterization to in vivo efficacy and biosafety.
Research presents a specific, novel therapeutic approach (BP@CS nanoparticles via subconjunctival injection) with supporting evidence.
Limitations
Column names and row counts are not provided, limiting precise understanding of data structure.
The dataset's primary file formats (JPG, DOCX) suggest it may contain processed images and documents rather than raw, machine-readable data tables.
The 'Last updated' date (2026-03-24) is in the future, indicating a metadata error that affects trust in timestamp accuracy.
Provenance
Source
Jilin Zhou
Collection Method
Generated from laboratory experiments including transmission electron microscopy, spectroscopy, cell culture, and a mouse corneal alkali burn model.
Time Range
Experimental period not specified.
Freshness
2026-03 24 11:40:04 (note: this date is in the future)
Geography
Laboratory study; geographic location not specified.
The stated update date is in the future (2026), which is likely a metadata error. License is CC-BY-4.0.