Jeffrey A Paten
Cited by
Cited by
Molecular crowding of collagen: a pathway to produce highly-organized collagenous structures
N Saeidi, KP Karmelek, JA Paten, R Zareian, E DiMasi, JW Ruberti
Biomaterials 33 (30), 7366-7374, 2012
Production-scale fibronectin nanofibers promote wound closure and tissue repair in a dermal mouse model
CO Chantre, PH Campbell, HM Golecki, AT Buganza, AK Capulli, ...
Biomaterials 166, 96-108, 2018
Flow-Induced Crystallization of Collagen: A Potentially Critical Mechanism in Early Tissue Formation
JA Paten, SM Siadat, ME Susilo, EN Ismail, JL Stoner, JP Rothstein, ...
ACS nano, 2016
Collagen network strengthening following cyclic tensile loading
ME Susilo, JA Paten, EA Sander, TD Nguyen, JW Ruberti
Interface focus 6 (1), 20150088, 2016
Molecular interactions between collagen and fibronectin: a reciprocal relationship that regulates de novo fibrillogenesis
JA Paten, CL Martin, JT Wanis, SM Siadat, AM Figueroa-Navedo, ...
Chem 5 (8), 2126-2145, 2019
Differential contributions of conformation extension and domain unfolding to properties of fibronectin nanotextiles
LF Deravi, T Su, JA Paten, JW Ruberti, K Bertoldi, KK Parker
Nano letters 12 (11), 5587-5592, 2012
Utility of an optically-based, micromechanical system for printing collagen fibers
JA Paten, GE Tilburey, EA Molloy, R Zareian, CV Trainor, JW Ruberti
Biomaterials 34 (11), 2577-2587, 2013
Human corneal fibroblast pattern evolution and matrix synthesis on mechanically-biased substrates
R Zareian, ME Susilo, JA Paten, JP McLean, J Hollmann, D Karamichos, ...
Tissue Engineering, 2016
Design and performance of an optically accessible, low-volume, mechanobioreactor for long-term study of living constructs
JA Paten, R Zareian, N Saeidi, SA Melotti, JW Ruberti
Tissue Engineering Part C: Methods 17 (7), 775-788, 2011
Protein‐based hydrogels that actuate self‐folding systems
CM Gomes, C Liu, JA Paten, SM Felton, LF Deravi
Advanced Functional Materials 29 (4), 1805777, 2019
A role for monosaccharides in nucleation inhibition and transport of collagen
CL Martin, MR Bergman, LF Deravi, JA Paten
Bioelectricity 2 (2), 186-197, 2020
Development of Fluorescently Labeled, Functional Type I Collagen Molecules
SM Siadat, AA Silverman, ME Susilo, JA Paten, CA DiMarzio, JW Ruberti
Macromolecular Bioscience 22 (3), 2100144, 2022
Design and Production of Customizable and Highly Aligned Fibrillar Collagen Scaffolds
CL Martin, C Zhai, JA Paten, J Yeo, LF Deravi
ACS Biomaterials Science & Engineering 9 (7), 3962-3971, 2021
Development and validation of fluorescently labeled, functional type I collagen molecules
SM Siadat, ME Susilo, JA Paten, AA Silverman, CA DiMarzio, JW Ruberti
bioRxiv, 2021.03. 26.437209, 2021
Design and production of customizable and highly aligned fibrillar collagen scaffolds
CL Martin, L Deravi, J Paten
Collagen Nucleation Inhibitors
J Paten
US Patent App. 17/915,638, 2023
Mechanochemical collagen assembly
JW Ruberti, J Paten
US Patent 10,888,637, 2021
Mechanochemical Collagen Assembly
JW Ruberti, J Paten
US Patent 10,213,523, 2019
Collagenous Tissue Repair Device
JA Paten, JW Ruberti
US Patent App. 15/536,358, 2017
Investigation into the Mechano-Chemistry of De Novo Collagen Assembly
JA Paten
Northeastern University, 2014
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