Personal information

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Education and qualifications (2)

The Ohio State University: Columbus, Ohio, US

2016 | PhD (Biomedical Engineering)
Education
Source: Self-asserted source
Rachel Childers

University of Georgia: Athens, GA, US

2010 | B.S.B.E Biological Engineering
Education
Source: Self-asserted source
Rachel Childers

Works (7)

Identifying Supports and Barriers in Engineering Students’ Processes Toward Career Attainment

Biomedical Engineering Education
2023-08-14 | Journal article | Author
Part of ISSN: 2730-5937
Part of ISSN: 2730-5945
Contributors: Renee Desing; Amena Shermadou; Tanya M. Nocera; David A. Delaine; Syedah Zahra Atiq; Alexis Ortiz-Rosario; Rachel Childers; Racheida Lewis
Source: Self-asserted source
Rachel Childers

Escaping the Laboratory: An Escape Room to Reinforce Biomedical Engineering Skills

Biomedical Engineering Education
2023-01 | Journal article | Author
Part of ISSN: 2730-5937
Part of ISSN: 2730-5945
Contributors: Sunny Kwok; Rachel Childers
Source: Self-asserted source
Rachel Childers

Decreased Substrate Stiffness Promotes a Hypofibrotic Phenotype in Cardiac Fibroblasts

International Journal of Molecular Sciences
2021-06 | Journal article | Author
Contributors: Rachel Childers; Pamela A. Lucchesi; Keith J. Gooch
Source: check_circle
Multidisciplinary Digital Publishing Institute

Role of the cytoskeleton in the development of a hypofibrotic cardiac fibroblast phenotype in volume overload heart failure

American Journal of Physiology-Heart and Circulatory Physiology
2019-03 | Journal article
Part of ISSN: 0363-6135
Part of ISSN: 1522-1539
Source: Self-asserted source
Rachel Childers

The Role of Tissue Modulus and Cardiac Fibroblast Phenotype in Volume Overload Induced Heart Failure

The Ohio State Univeristy
2016 | Dissertation or Thesis
Source: Self-asserted source
Rachel Childers

Development of Myocardial Structure and Function

Moss & Adams’ Heart Disease in Infants, Children, and Adolescents
2015 | Book chapter
Source: Self-asserted source
Rachel Childers

Arterial Levels of Oxygen Stimulate Intimal Hyperplasia in Human Saphenous Veins via a ROS-Dependent Mechanism

PLOS ONE
2015-03 | Journal article
Part of ISSN: 1932-6203
Contributors: Binata Joddar; Michael S. Firstenberg; Rashmeet K. Reen; Saradhadevi Varadharaj; Mahmood Khan; Rachel C. Childers; Jay L. Zweier; Keith J. Gooch; Rory Edward Morty
Source: Self-asserted source
Rachel Childers via Crossref Metadata Search

Peer review (11 reviews for 1 publication/grant)

Review activity for Biomedical engineering education. (11)