Co-delivery of Human Adipose-Derived Stromal Cells and Endothelial Colony-Forming Cells in Cell-Assembled Decellularized Adipose Tissue Scaffolds for Applications in Soft Tissue Regeneration

From SA, Walker JT, et al.

Acta Biomaterialia

The University of Western Ontario

RESEARCH SUMMARY

This study presents a modular bottom-up tissue engineering strategy for co-delivering human adipose-derived stromal cells (ASCs) and endothelial colony-forming cells (ECFCs) within decellularized adipose tissue (DAT) scaffolds. The authors fabricated “cell-assembled” scaffolds by culturing ASC- and ECFC-seeded DAT microcarriers, which fused via ECM remodeling into cohesive tissues. In vitro analysis showed high cell viability, matrix deposition, and upregulation of proangiogenic genes (ANGPT2, RUNX1) in co-cultures. In vivo implantation in nude mice demonstrated that co-delivery improved ECFC retention without altering ASC persistence, while microCT angiography confirmed similar vascularization across all groups. Interestingly, scaffolds containing ECFCs alone remodeled extensively into adipose tissue, suggesting host-derived adipogenesis.

Mechanical compression testing of the ASC, ECFC, and ASC+ECFC cell-assembled scaffolds was conducted using a CellScale UniVert system (Waterloo, ON, Canada) to determine Young’s modulus after the 8‑day assembly phase. All scaffolds were soft and compliant (moduli ≈ 2–3 kPa), with no significant differences between groups. The UniVert data confirmed scaffold integrity and reproducible compliance across cell conditions, validating the DAT‑based architecture for soft tissue regeneration.

AUTHORS

Sarah A. From; John T. Walker; Connor J. Gillis; John A. Ronald; David A. Hess; Lauren E. Flynn.

PUBLICATION DETAILS

JOURNAL

Acta Biomaterialia

YEAR

2026

INSTITUTIONS

The University of Western Ontario

COUNTRIES

Canada

INSTRUMENT USED

UniVert

TESTING METHODS

Compression TestingMicro-Mechanical TestingUltra Low Force Testing

RESEARCH APPLICATIONS

Cell Laden HydrogelsECM & Decellularized Matrix MechanicsInjectable & Regenerative BiomaterialsScaffold Mechanical TestingSkin and Wound Healing BiomechanicsVascular Tissue Engineering & Mechanics

Related Publications:

Instrument Used:

Year:

Testing Method:

Research Application:

Country:

Annealing-Enabled 3D Printing of MXene/Carbon Aerogels with Stability in Harsh Conditions

Osman A, Xie Y, et al.

Advanced Functional Materials

UniVert

Material Fatigue and DurabilitySoft Robotics MaterialsWearable Bioelectronics

2026

Water-Repellent, Surface-Adaptive, and Switchable Adhesive Patch Using Microstructured Shape Memory Polymers

Kim J, Choi G, et al.

Small Structures

UniVert

Hydrated and Temperature Controlled TestingTensile Testing

Adhesives and Sealants TestingPolymers and Elastomers TestingSoft Robotics Materials

2026

Photoluminescent BNCQD-Loaded Hydrogels for Real-Time Sensing, pH-Responsive Drug Release, and UV Protection

Marvi PK, Das P, et al.

ACS Applied Polymer Materials

UniVert

Compression TestingHydrated and Temperature Controlled Testing

3D Bioprinting & Bioink Materials TestingDrug Screening & Drug Delivery MechanicsHydrogel Mechanical TestingSkin and Wound Healing BiomechanicsStimuli Responsive Hydrogels Characterization

2026