Finite element numerical models and 3D printing codes related to the fabrication and oxygen transport within multi-compartment bioartificial pancreas devices. The dataset was contributed by author Hoesli, Corinne and was last updated on 2026-04-25.
Use Cases
- Simulating oxygen transport within bioartificial pancreas devices based on the finite element models.
- Replicating the fabrication process of multi-compartment devices using the provided 3D printing codes.
- Analyzing the structural and functional performance of engineered bioartificial organs.
- Validating computational models of mass transport in tissue-engineered constructs.
Strengths
- Dataset is associated with a specific, peer-reviewed research area: multi-compartment bioartificial organs.
- Includes both computational models (finite element) and fabrication codes (3D printing), offering a multi-faceted resource.
- Last updated on 2026-04-25, indicating recent maintenance.
Limitations
- Column-level documentation is absent; field semantics must be inferred after download.
- Row count and dataset scale are unknown, which may limit suitability assessment.
- Description metadata is limited; actual data quality requires manual inspection after download.
Provenance
- Source
- Hoesli, Corinne; Borealis Harvested Dataverse
- Collection Method
- Likely generated as part of academic research on bioartificial organ engineering.
- Time Range
- null
- Freshness
- Last updated 2026-04-25 04:14:17.
- Geography
- null