10.3791/62076-v

The Preparation of Chicken Ex Ovo Embryos and Chorioallantoic Membrane Vessels as In Vivo Model for Contrast-Enhanced Ultrasound Imaging and Microbubble-Mediated Drug Delivery Studies

10.3791/61404-v 09:55 min

Generation and Quantitative Characterization of Functional and Polarized Biliary Epithelial Cysts

10.3791/56523-v 09:53 min

A Protocol for Decellularizing Mouse Cochleae for Inner Ear Tissue Engineering

10.3791/53328-v 10:46 min

Preparation and Photoacoustic Analysis of Cellular Vehicles Containing Gold Nanorods

10.3791/64712-v 11:52 min

Evaluation of Antimicrobial Activities of Nanoparticles and Nanostructured Surfaces In Vitro

10.3791/64554-v 08:11 min

Controlling Particle Fraction in Microporous Annealed Particle Scaffolds for 3D Cell Culture

10.3791/64457-v 07:12 min

Microengineering 3D Collagen Hydrogels with Long-Range Fiber Alignment

10.3791/64449-v 07:40 min

A Flexible Chamber for Time-Lapse Live-Cell Imaging with Stimulated Raman Scattering Microscopy

10.3791/64399-v

Preclinical Drug Testing in Scalable 3D Engineered Muscle Tissues

10.3791/63985-v 07:14 min

Synthesis of Graphene-Hydroxyapatite Nanocomposites for Potential Use in Bone Tissue Engineering

10.3791/63151-v

Engineered Lung Tissues Prepared from Decellularized Lung Slices

10.3791/63132-v 07:05 min

Injection of Porcine Adipose Tissue-Derived Stroma Cells via Waterjet Technology

Three-Dimensional Acoustic Assembly Device for Mass Manufacturing of Cell Spheroids

作者： Yuecheng Qian1, Xiaoyun Wei1,2, Keke Chen1,2, Mingen Xu1,2 1School of Automation,Hangzhou Dianzi University, 2Key Laboratory of Medical Information and 3D Bioprinting of Zhejiang Province,Hangzhou Dianzi University

简介：

Overview

This article presents a method for generating cell spheroids using a 3D acoustic assembly device. This approach allows for the efficient and scalable fabrication of uniform cell spheroids, which are valuable in various biological applications.

Key Study Components

Area of Science

Cell biology
3D culture models
Acoustic assembly techniques

Background

Cell spheroids are important for biological studies.
Traditional methods may involve scaffolds, which can complicate the process.
Acoustic waves offer a non-toxic alternative for cell assembly.
High-throughput assembly is crucial for research efficiency.

Purpose of Study

To develop a method for fabricating high-quality cell spheroids.
To eliminate the need for scaffolds in spheroid formation.
To enhance the throughput of spheroid production.

Methods Used

3D acoustic assembly device for cell aggregation.
Culture medium for spheroid growth.
Comparison with magnetic assembly techniques.
Protocol for scalable spheroid fabrication.

Main Results

Successful assembly of cell spheroids without scaffolds.
Increased throughput compared to traditional methods.
Non-toxic effects of acoustic waves on cells.
Uniformity in spheroid size and structure.

Conclusions

The acoustic assembly method is efficient and scalable.
It provides a viable alternative to scaffold-based spheroid formation.
This technique can advance biological research involving 3D models.

Frequently Asked Questions

What are cell spheroids?

Cell spheroids are three-dimensional aggregates of cells that mimic the structure and function of tissues.

Why use acoustic assembly for spheroids?

Acoustic assembly is non-toxic and allows for labor-free, efficient cell aggregation.

What are the advantages of 3D culture models?

3D culture models provide a more accurate representation of in vivo environments compared to traditional 2D cultures.

How does this method compare to magnetic assembly?

Unlike magnetic assembly, acoustic assembly does not pose potential toxic effects on cells.

What applications can benefit from this research?

This research can benefit applications in drug screening, tissue engineering, and cancer research.

Cell spheroids have been considered one potential model in the field of biological applications. This article describes protocols for scalably generating cell spheroids using a 3D acoustic assembly device, which provides an efficient method for the robust and rapid fabrication of uniform cell spheroids.

标签: Three-Dimensional Acoustic Assembly Device, Cell Spheroids, In Vitro Culture Models, Disease Modeling, Drug Screening, GelMA Scaffold, Acoustic Assembly, High-throughput Manufacturing, Lead Zirconate Titanate Transducers, Levitated Acoustic Nodes, UV-photocuring, Crosslinking, Organoids,