Macrophages-Fibroblast Coculture Model Development Service

Macrophages and fibroblasts play crucial roles in the body's response to foreign materials and implants. When an implant is introduced into the body, macrophages are activated and initiate an inflammatory response to remove the foreign material. Fibroblasts are then recruited to the site of the implant, where they differentiate into myofibroblasts and produce ECM to encapsulate the implant. Understanding the interactions between macrophages and fibroblasts is essential for developing biocompatible materials that minimize the inflammatory response and promote proper tissue integration with the implant. Backed up by our robust platform and experienced scientists, Creative Biolabs globally provides a macrophage-fibroblast coculture model development service to serve for the deep dive of their interactions.

Macrophage-Fibroblast Coculture Model Development Service at Creative Biolabs

Create Biolabs offers a cutting-edge macrophage-fibroblast coculture model development service that empowers customers worldwide in constructing robust and consistent research models. By cultivating macrophages and fibroblasts together or separately on distinct carriers within the same culture setup, the Macrophage-Fibroblast coculture model emulates the intricate dynamics of the in vivo inflammatory milieu. This sophisticated model enables in-depth exploration of the impact of soluble signaling molecules on the cross-talk between these cell types, facilitating investigations into disease mechanisms and the identification of potential therapeutic targets. In addition, this innovative model is also beneficial for evaluating customers' candidate therapeutic compounds, accelerating their entry into the clinical stage and market.

Fig.1 Experimental setup of human M-Mɸ and MyoFB coculture. (Ullm, et al., 2020)Fig.1 Development of a novel coculture system using human macrophages and myofibroblasts.1

As a professional biotechnology service provider, we design and develop the optimal macrophage-fibroblast co-culture models according to the needs and objectives of our customers, including the selection of appropriate cell sources, cell types, culture conditions, etc. In order to ensure the stability and repeatability of the model, we are able to detect the growth, differentiation, and other aspects of the indicators and optimize the models. Collectively, Creative Biolabs is a dependable partner for high-quality outcomes delivery.

Features of Our Macrophage-Fibroblast Coculture Model

  • Accurate simulation of the interaction between macrophages and fibroblasts in vivo.
  • Our macrophage-fibroblast co-culture model allows direct observation and study of signaling and communication mechanisms between the two cell types.
  • Compared with the traditional single-cell culture model, our macrophage-fibroblast co-culture model provides more comprehensive information.
  • Our macrophage-fibroblast co-culture model can be customized according to the needs of customers, such as changing cell types, culture conditions, etc., with more flexibility.

Popular Applications

  • Mechanisms of tissue repair and regeneration
  • Inflammatory response and immune regulation process
  • Drug screening and efficacy assessment.
  • Examine of bio-material.

Whether you seek to explore the intricate communication pathways between macrophages and fibroblasts or evaluate potential therapeutics, our tailored models have the capacity to advance your research goals. Reach out to us for more details.

Reference

  1. Ullm, Franziska, et al. "3D scaffold‐based macrophage fibroblast coculture model reveals IL‐10 dependence of wound resolution phase." Advanced Biosystems 4.1 (2020): 1900220.
Online Inquiry
  •  

CONTACT US
(USA)
(UK)
(Germany)
ADDRESS

> Global

ISO 9001 Certified - Creative Biolabs Quality Management System.

Copyright © 2024 Creative Biolabs. All Rights Reserved.