Aaron S Goldstein

Overview

Explore the profile of Aaron S Goldstein including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 37

Citations 1129

Followers 0

Related Specialties

Biomedical Engineering

Biotechnology

Anatomy & Histology

Top 10 Co-Authors

Scott A Guelcher

Chris A Bashur

Linda A Dahlgren

Michelle R Kreke

Brian J Love

Katherine D Kavlock

Abby R Whittington

Satyavrata Samavedi

Christine E Schmidt

Patrick S Thayer

Published In

J Biomed Mater Res A

Biomaterials

Acta Biomater

J Tissue Eng Regen Med

Tissue Eng Part A

Affiliations

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Recent Articles

Improving the Osteogenicity of PCL Fiber Substrates by Surface-Immobilization of Bone Morphogenic Protein-2

Gadalla D, Goldstein A

Ann Biomed Eng . 2019 May; 48(3):1006-1015. PMID: 31115719

Polycaprolactone (PCL) fiber scaffolds are attractive, albeit inert, substrates for ligament regeneration, that may be improved by incorporating trophic factors to guide tissue remodeling in vivo. In particular, immobilization of...

Cell layer-electrospun mesh composites for coronary artery bypass grafts

Erndt-Marino J, Becerra-Bayona S, McMahon R, Goldstein A, Hahn M

J Biomed Mater Res A . 2016 Apr; 104(9):2200-9. PMID: 27101019

This work investigates the potential of cell layer-electrospun mesh constructs as coronary artery bypass grafts. These cell-mesh constructs were generated by first culturing a confluent layer of 10T½ smooth muscle...

Fiber/collagen composites for ligament tissue engineering: influence of elastic moduli of sparse aligned fibers on mesenchymal stem cells

Thayer P, Verbridge S, Dahlgren L, Kakar S, Guelcher S, Goldstein A

J Biomed Mater Res A . 2016 Apr; 104(8):1894-901. PMID: 27037972

Electrospun microfibers are attractive for the engineering of oriented tissues because they present instructive topographic and mechanical cues to cells. However, high-density microfiber networks are too cell-impermeable for most tissue...

Static and cyclic mechanical loading of mesenchymal stem cells on elastomeric, electrospun polyurethane meshes

Cardwell R, Kluge J, Thayer P, Guelcher S, Dahlgren L, Kaplan D, et al.

J Biomech Eng . 2015 Apr; 137(7). PMID: 25902471

Biomaterial substrates composed of semi-aligned electrospun fibers are attractive supports for the regeneration of connective tissues because the fibers are durable under cyclic tensile loads and can guide cell adhesion,...

Electrospun meshes possessing region-wise differences in fiber orientation, diameter, chemistry and mechanical properties for engineering bone-ligament-bone tissues

Samavedi S, Vaidya P, Gaddam P, Whittington A, Goldstein A

Biotechnol Bioeng . 2014 Jun; 111(12):2549-59. PMID: 24898875

Although bone-patellar tendon-bone (B-PT-B) autografts are the gold standard for repair of anterior cruciate ligament ruptures, they suffer from drawbacks such as donor site morbidity and limited supply. Engineered tissues...

Cellularized cylindrical fiber/hydrogel composites for ligament tissue engineering

Thayer P, Dimling A, Plessl D, Hahn M, Guelcher S, Dahlgren L, et al.

Biomacromolecules . 2013 Nov; 15(1):75-83. PMID: 24266805

Electrospun meshes suffer from poor cell infiltration and limited thickness, which restrict their use to thin tissue applications. Herein, we demonstrate two complementary processes to overcome these limitations and achieve...

Calcium phosphate ceramics in bone tissue engineering: a review of properties and their influence on cell behavior

Samavedi S, Whittington A, Goldstein A

Acta Biomater . 2013 Jun; 9(9):8037-45. PMID: 23791671

Calcium phosphate ceramics (CPCs) have been widely used as biomaterials for the regeneration of bone tissue because of their ability to induce osteoblastic differentiation in progenitor cells. Despite the progress...

Electrospun fibre diameter, not alignment, affects mesenchymal stem cell differentiation into the tendon/ligament lineage

Cardwell R, Dahlgren L, Goldstein A

J Tissue Eng Regen Med . 2012 Oct; 8(12):937-45. PMID: 23038413

Efforts to develop engineered tendons and ligaments have focused on the use of a biomaterial scaffold and a stem cell source. However, the ideal scaffold microenvironment to promote stem cell...

Response of bone marrow stromal cells to graded co-electrospun scaffolds and its implications for engineering the ligament-bone interface

Samavedi S, Guelcher S, Goldstein A, Whittington A

Biomaterials . 2012 Jul; 33(31):7727-35. PMID: 22835644

Biomaterial scaffolds with gradients in architecture, mechanical and chemical properties have the potential to improve the osseointegration of ligament grafts by recapitulating phenotypic gradients that exist at the natural ligament-bone...

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Degradable segmented polyurethane elastomers for bone tissue engineering: effect of polycaprolactone content

Kavlock K, Whang K, Guelcher S, Goldstein A

J Biomater Sci Polym Ed . 2012 Feb; 24(1):77-93. PMID: 22304961

Segmented polyurethanes (PURs), consisting of degradable poly(a-hydroxy ester) soft segments and aminoacid-derived chain extenders, are biocompatible elastomers with tunable mechanical and degradative properties suitable for a variety of tissue-engineering applications....