logo
搜索
菜单

Generation and Expansion of Human Cardiomyocytes from Patient Peripheral Blood Mononuclear Cells

作者: Shiqiao Ye1,2, Xiaoping Wan3, Juan Su1,2, Akshar Patel1,2,4, Blake Justis1,2,5, Isabelle Deschênes3, Ming-Tao Zhao1,2,5,6 1Center for Cardiovascular Research, The Abigail Wexner Research Institute,Nationwide Children’s Hospital, 2The Heart Center,Nationwide Children’s Hospital, 3Department of Physiology and Cell Biology,The Ohio State University College of Medicine, 4Department of Anatomy,The Ohio State University College of Medicine, 5MCDB Graduate Program,The Ohio State University, 6Department of Pediatrics,The Ohio State University College of Medicine
简介:

Overview

This protocol facilitates the generation and expansion of patient-specific cardiomyocytes from peripheral blood mononuclear cells. It is designed to be reproducible and accessible for researchers, especially beginners.

Key Study Components

Area of Science

  • Cardiovascular medicine
  • Stem cell biology

Background

  • Cardiomyocytes are crucial for studying heart diseases.
  • Patient-specific cells can enhance disease modeling.
  • Peripheral blood mononuclear cells are a non-invasive source.
  • Stem cell reprogramming requires careful maintenance.

Purpose of Study

  • To develop a protocol for generating cardiomyocytes from blood samples.
  • To enable modeling of cardiovascular diseases.
  • To test cardiac toxicity of new drugs.

Methods Used

  • Collection of peripheral blood mononuclear cells.
  • Stem cell reprogramming techniques.
  • Directed differentiation into cardiomyocytes.
  • Long-term culture maintenance protocols.

Main Results

  • Successful generation of patient-specific cardiomyocytes.
  • Reproducibility of the protocol for various samples.
  • Feasibility for beginners without extensive expertise.
  • Potential applications in drug testing and disease modeling.

Conclusions

  • This protocol offers a practical approach for researchers.
  • It supports advancements in cardiovascular research.
  • Future studies can build on this methodology.

Frequently Asked Questions

What are cardiomyocytes?
Cardiomyocytes are heart muscle cells essential for heart function.
How are peripheral blood mononuclear cells collected?
They are collected through a standard blood draw procedure.
Is prior expertise required to follow this protocol?
No, the protocol is designed for beginners and does not require specialized training.
What diseases can be modeled using these cardiomyocytes?
They can be used to model various cardiovascular diseases.
How long does the reprogramming process take?
The reprogramming process requires a significant time commitment.
Can this protocol be used for drug testing?
Yes, it is suitable for testing the cardiac toxicity of novel drugs.
What is the significance of patient-specific cells?
They provide a more accurate model for studying individual disease mechanisms.

Here, we present a protocol to robustly generate and expand human cardiomyocytes from patient peripheral blood mononuclear cells.

标签: Human Cardiomyocytes,    Patient Peripheral Blood Mononuclear Cells,    Stem Cell Reprogramming,    Cardiac Toxicity Testing,    Cardiomyocyte Differentiation,    IPSC Colonies,    DPBS,    Cardiomyocyte Differentiation Medium,    Culture Confluency,    Transfection,    Sendai Virus Reprogramming Factors,   
En Face Endocardial Cushion Preparation for Planar Morphogenesis Analysis in Mouse Embryos 10.3791/64207-v 08:57 min
En Face Endocardial Cushion Preparation for Planar Morphogenesis Analysis in Mouse Embryos
Rapid and Efficient Spatiotemporal Monitoring of Normal and Aberrant Cytosine Methylation within Intact Zebrafish Embryos 10.3791/64190-v 07:16 min
Rapid and Efficient Spatiotemporal Monitoring of Normal and Aberrant Cytosine Methylation within Intact Zebrafish Embryos
In Ovo and Ex Ovo Methods to Study Avian Inner Ear Development 10.3791/64172-v 10:09 min
In Ovo and Ex Ovo Methods to Study Avian Inner Ear Development
Zygote Microinjection for Creating Gene Cassette Knock-in and Flox Alleles in Mice 10.3791/64161-v
Zygote Microinjection for Creating Gene Cassette Knock-in and Flox Alleles in Mice
Fixation of Embryonic Mouse Tissue for Cytoneme Analysis 10.3791/64100-v
Fixation of Embryonic Mouse Tissue for Cytoneme Analysis
Real Time and Repeated Measurement of Skeletal Muscle Growth in Individual Live Zebrafish Subjected to Altered Electrical Activity 10.3791/64063-v
Real Time and Repeated Measurement of Skeletal Muscle Growth in Individual Live Zebrafish Subjected to Altered Electrical Activity
Use of Bisection to Reduce Mitochondrial DNA in the Bovine Oocyte 10.3791/64060-v 06:15 min
Use of Bisection to Reduce Mitochondrial DNA in the Bovine Oocyte
A Guide to Examining Intramuscular Fat Formation and its Cellular Origin in Skeletal Muscle 10.3791/63996-v
A Guide to Examining Intramuscular Fat Formation and its Cellular Origin in Skeletal Muscle
返回顶部