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Claudia C. Friedrich

ORCID: 0000-0003-3241-6556
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About
Contact & Profiles
A5028903085
Research Areas
  • Mesenchymal stem cell research
  • Tissue Engineering and Regenerative Medicine
  • Electrospun Nanofibers in Biomedical Applications
  • Hedgehog Signaling Pathway Studies
  • Developmental Biology and Gene Regulation
  • Musculoskeletal pain and rehabilitation
  • Spine and Intervertebral Disc Pathology
  • 3D Printing in Biomedical Research
  • Cancer Cells and Metastasis
  • Fibroblast Growth Factor Research
  • Shoulder Injury and Treatment
  • Cancer-related gene regulation

Marquette University
 2023

Vanderbilt University
 2023

Bridge University
 2023

Towson University
 2023

University of Nebraska–Lincoln
 2023

University of Pittsburgh
 2023

The University of Texas at Austin
 2023

University Hospital of Zurich
 2022

Massachusetts General Hospital
 2009-2018

Harvard University
 2009-2018

 Engineered vascularized bone grafts
OPENALEX - Publications 
Olga Tsigkou Irina Pomerantseva Joel A. Spencer Patricia Albuquerque Garcia Redondo Alison R. Hart and 8 more Elisabeth M. O’Doherty Yunfeng Lin Claudia C. Friedrich Laurence Dahéron Charles P. Lin Cathryn A. Sundback Joseph P. Vacanti Craig M. Neville

Clinical protocols utilize bone marrow to seed synthetic and decellularized allogeneic grafts for enhancement of scaffold remodeling fusion. Marrow-derived cytokines induce host neovascularization at the graft surface, but hypoxic conditions cause cell death core. Addition cellular components that generate an extensive primitive plexus-like vascular network would perfuse entire upon anastomosis could potentially yield significantly higher-quality grafts. We used a mouse model develop...

10.1073/pnas.0905445107 article EN Proceedings of the National Academy of Sciences 2010-02-02
 Bone marrow Derived Pluripotent Cells are Pericytes which Contribute to Vascularization
OPENALEX - Publications 
Xiaoxiao Cai Yunfeng Lin Claudia C. Friedrich Craig M. Neville Irina Pomerantseva and 6 more Cathryn A. Sundback Parul Sharma Zhiyuan Zhang Joseph P. Vacanti Peter V. Hauschka Brian E. Grottkau

10.1007/s12015-009-9097-6 article EN Stem Cell Reviews and Reports 2009-10-01
 DAPT Enhances the Apoptosis of Human Tongue Carcinoma Cells
OPENALEX - Publications 
Brian E. Grottkau Xi‐rui Chen Claudia C. Friedrich Xingmei Yang Wei Jing and 5 more Yao Wu Xiaoxiao Cai Yu‐rong Liu Yuanding Huang Yunfeng Lin

To investigate the effect of DAPT (γ‐secretase inhibitor) on growth human tongue carcinoma cells and to determine molecular mechanism enable potential application treatment carcinoma. Human Tca8113 were cultured with DAPT. Cell was determined using Indigotic Reduction method. The cell cycle apoptosis analyzed by flow cytometry. Real‐time PCR Immuno‐Fluorescence (IF) employed intracellular expression levels. inhibited inducing G0–G1 arrest apoptosis. mRNA levels Hairy/Enhancer Split‐1...

10.4248/ijos.08025 article EN cc-by-nc-nd International Journal of Oral Science 2009-06-01
 Enhancing engineered vascular networks in vitro and in vivo: The effects of IGF1 on vascular development and durability
OPENALEX - Publications 
Claudia C. Friedrich Yunfeng Lin Alexander Krannich Yinan Wu Joseph P. Vacanti and 1 more Craig M. Neville

Abstract Objectives Creation of functional, durable vasculature remains an important goal within the field regenerative medicine. Engineered biological has potential to restore or improve human tissue function. We hypothesized that pleotropic effects insulin‐like growth factor 1 ( IGF 1) would enhance engineering capillary‐like vasculature. Materials and methods The impact upon vasculogenesis was examined in vitro cultures for a period up 40 days as subcutaneous implants immunodeficient...

10.1111/cpr.12387 article EN Cell Proliferation 2017-11-07
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