PEER-REVIEWED PUBLICATION

2025

Surface functionalization of microscaffolds produced by high-resolution 3D printing: A new layer of freedom

Kopinski-Grunwald O, Schandl S, et al.

Materials Today Bio

TU Wien

RESEARCH SUMMARY

This work introduces a scalable chemical modification strategy for microscaffolds (MS) fabricated by two-photon polymerization (2PP) to enable controlled biomolecule binding and release. The authors achieved aminolysis of PCL-based MS surfaces to create reactive primary amines, followed by heparin conjugation via EDC–NHS chemistry, enabling growth-factor loading (e.g., VEGF). Each MS exhibited tunable surface heparin content (8–40 ng) and VEGF release up to 55 ± 22 ng per 10 MS over 16 days. VEGF-loaded MS sustained endothelial tube formation in vitro for > 50 h, validating the platform for modular angiogenic tissue assembly. Mechanical testing confirmed that surface modifications did not affect scaffold stiffness (~220 ± 50 kPa). The study demonstrates a versatile microscale platform for bioactive factor delivery in tissue-engineering constructs.

Mechanical compression testing of individual microscaffolds was performed using a CellScale MicroTester in PBS at room temperature. Single microscaffolds were placed under a 1 × 1 mm² platen attached to a 0.30 mm-diameter beam and compressed to 30 % strain at 1.5 % s⁻¹ (≈ 5 µm s⁻¹). Force–displacement data were recorded to calculate apparent Young’s modulus using the Hertz contact model assuming ν = 0.5. The analysis showed no statistically significant difference between heparin-modified and unmodified MS groups. The MicroTester validated that chemical functionalization preserves microscaffold mechanical integrity critical for biofabrication applications.

AUTHORS

Oliver Kopinski-Grünwald, Stephan Schandl, Jegor Gusev, Ourania Evangelia Chamalaki, Aleksandr Ovsianikov.

PUBLICATION DETAILS

JOURNAL

Materials Today Bio

YEAR

2025

INSTITUTIONS

TU Wien

COUNTRIES

Austria

INSTRUMENT USED

MicroTester

TESTING METHODS

Compression TestingHydrated and Temperature Controlled TestingMicro-Mechanical Testing

RESEARCH APPLICATIONS

Drug Screening & Drug Delivery MechanicsMicrotissue and Spheroid MechanicsOrganoid and Tissue Mimetic SystemsScaffold Mechanical Testing

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