Treena Livingston Arinzeh
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Explore the profile of Treena Livingston Arinzeh including associated specialties, affiliations and a list of published articles.
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28
Citations
679
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Recent Articles
1.
Vincent R, Foston M, Hammond W, Collins G, Arinzeh T
ACS Omega
. 2025 Feb;
10(5):4505-4515.
PMID: 39959109
Tissue engineering strategies to treat cartilage damage remain inadequate because of the difficulty in regenerating fully functional cartilage tissue. Sulfated glycosaminoglycans (GAGs), which are found in the native extracellular matrix,...
2.
Limaye A, Perumal V, Karner C, Arinzeh T
Adv Nanobiomed Res
. 2024 Apr;
4(3).
PMID: 38665311
Natural biomaterials are commonly used as tissue engineering scaffolds due to their biocompatibility and biodegradability. Plant-derived materials have also gained significant interest due to their abundance and as a sustainable...
3.
Stratton S, Wang S, Hashemi S, Pressman Y, Nanchanatt J, Oudega M, et al.
J Neural Eng
. 2023 Nov;
20(6).
PMID: 37931311
Schwann cells (SCs) transplanted in damaged nervous tissue promote axon growth, which may support the recovery of function lost after injury. However, SC transplant-mediated axon growth is often limited and...
4.
Menezes R, Sherman L, Rameshwar P, Arinzeh T
J Biomed Mater Res A
. 2023 Jan;
111(8):1135-1150.
PMID: 36708060
Cartilage tissue engineering strategies seek to repair damaged tissue using approaches that include scaffolds containing components of the native extracellular matrix (ECM). Articular cartilage consists of glycosaminoglycans (GAGs) which are...
5.
Menezes R, Vincent R, Osorno L, Hu P, Arinzeh T
Acta Biomater
. 2022 Oct;
163:210-227.
PMID: 36182056
Glycosaminoglycans (GAGs) are an important component of the extracellular matrix as they influence cell behavior and have been sought for tissue regeneration, biomaterials, and drug delivery applications. GAGs are known...
6.
Calcutt R, Vincent R, Dean D, Arinzeh T, Dixit R
Sci Adv
. 2021 Oct;
7(43):eabj1469.
PMID: 34669469
Mechanistic studies of plant development would benefit from an in vitro model that mimics the endogenous physical interactions between cells and their microenvironment. Here, we present artificial scaffolds to which...
7.
Wang S, Hashemi S, Stratton S, Arinzeh T
Adv Healthc Mater
. 2020 Dec;
10(3):e2001244.
PMID: 33274860
Stem cells have been sought as a promising cell source in the tissue engineering field due to their proliferative capacity as well as differentiation potential. Biomaterials have been utilized to...
8.
Khader A, Arinzeh T
Biotechnol Bioeng
. 2019 Sep;
117(1):194-209.
PMID: 31544962
Osteoarthritis (OA) involves the degeneration of articular cartilage and subchondral bone. The capacity of articular cartilage to repair and regenerate is limited. A biodegradable, fibrous scaffold containing zinc oxide (ZnO)...
9.
Wu S, Chen M, Maurel P, Lee Y, Bunge M, Arinzeh T
J Neural Eng
. 2018 May;
15(5):056010.
PMID: 29794323
Objective: Polyvinylidene fluoride-trifluoroethylene (PVDF-TrFE), which is a piezoelectric, biocompatible polymer, holds promise as a scaffold in combination with Schwann cells (SCs) for spinal cord repair. Piezoelectric materials can generate electrical...
10.
Lee Y, Wu S, Arinzeh T, Bunge M
J Vis Exp
. 2017 Nov;
(129).
PMID: 29155759
Among various models for spinal cord injury in rats, the contusion model is the most often used because it is the most common type of human spinal cord injury. The...