Characterization of the structure, cells, and cellular mechanobiological response of human plantar fascia

Characterization of the structure, cells, and cellular mechanobiological response of human plantar fascia

In this study, we report that human plantar fascia consists of two distinct tissues with differential structural properties. These tissues also contain stem/progenitor cells with differential biological properties. The mechanobiological responses of these two plantar fascia stem cells also differ in...

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Main Authors: Jianying Zhang, Daibang Nie, Jorge L Rocha, MaCalus V Hogan, James H-C Wang
Format: Article
Language:English
Published: SAGE Publishing 2018-09-01
Series:Journal of Tissue Engineering
Online Access:https://doi.org/10.1177/2041731418801103
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spelling doaj-5659aeea5f39481db412b9f5d887ebe02020-11-25T03:48:36ZengSAGE PublishingJournal of Tissue Engineering2041-73142018-09-01910.1177/2041731418801103Characterization of the structure, cells, and cellular mechanobiological response of human plantar fasciaJianying Zhang0Daibang Nie1Jorge L Rocha2MaCalus V Hogan3James H-C Wang4MechanoBiology Laboratory, Department of Orthopaedic Surgery, University of Pittsburgh School of Medicine, Pittsburgh, PA, USAMechanoBiology Laboratory, Department of Orthopaedic Surgery, University of Pittsburgh School of Medicine, Pittsburgh, PA, USAMechanoBiology Laboratory, Department of Orthopaedic Surgery, University of Pittsburgh School of Medicine, Pittsburgh, PA, USAMechanoBiology Laboratory, Department of Orthopaedic Surgery, University of Pittsburgh School of Medicine, Pittsburgh, PA, USADepartment of Physical Medicine & Rehabilitation, University of Pittsburgh School of Medicine, Pittsburgh, PA, USAIn this study, we report that human plantar fascia consists of two distinct tissues with differential structural properties. These tissues also contain stem/progenitor cells with differential biological properties. The mechanobiological responses of these two plantar fascia stem cells also differ in terms of expression of collagen I and IV, non-ligament-related genes, and proinflammatory genes. The production of inflammatory agents (prostaglandin E 2 , interleukin-6) and matrix degradative enzymes (matrix metalloproteinase-1, matrix metalloproteinase-2) are also different between the two types of plantar fascia stem cells. Based on the findings from this study, we suggest that plantar fasciitis results from the aberrant mechanobiological responses of the stem cells from plantar fascia sheath and core tissues. Our findings may also be used to devise tissue engineering approaches to treat plantar fascia injury effectively.https://doi.org/10.1177/2041731418801103
collection DOAJ
language English
format Article
sources DOAJ
author Jianying Zhang
Daibang Nie
Jorge L Rocha
MaCalus V Hogan
James H-C Wang
spellingShingle Jianying Zhang
Daibang Nie
Jorge L Rocha
MaCalus V Hogan
James H-C Wang
Characterization of the structure, cells, and cellular mechanobiological response of human plantar fascia
Journal of Tissue Engineering
author_facet Jianying Zhang
Daibang Nie
Jorge L Rocha
MaCalus V Hogan
James H-C Wang
author_sort Jianying Zhang
title Characterization of the structure, cells, and cellular mechanobiological response of human plantar fascia
title_short Characterization of the structure, cells, and cellular mechanobiological response of human plantar fascia
title_full Characterization of the structure, cells, and cellular mechanobiological response of human plantar fascia
title_fullStr Characterization of the structure, cells, and cellular mechanobiological response of human plantar fascia
title_full_unstemmed Characterization of the structure, cells, and cellular mechanobiological response of human plantar fascia
title_sort characterization of the structure, cells, and cellular mechanobiological response of human plantar fascia
publisher SAGE Publishing
series Journal of Tissue Engineering
issn 2041-7314
publishDate 2018-09-01
description In this study, we report that human plantar fascia consists of two distinct tissues with differential structural properties. These tissues also contain stem/progenitor cells with differential biological properties. The mechanobiological responses of these two plantar fascia stem cells also differ in terms of expression of collagen I and IV, non-ligament-related genes, and proinflammatory genes. The production of inflammatory agents (prostaglandin E 2 , interleukin-6) and matrix degradative enzymes (matrix metalloproteinase-1, matrix metalloproteinase-2) are also different between the two types of plantar fascia stem cells. Based on the findings from this study, we suggest that plantar fasciitis results from the aberrant mechanobiological responses of the stem cells from plantar fascia sheath and core tissues. Our findings may also be used to devise tissue engineering approaches to treat plantar fascia injury effectively.
url https://doi.org/10.1177/2041731418801103
work_keys_str_mv AT jianyingzhang characterizationofthestructurecellsandcellularmechanobiologicalresponseofhumanplantarfascia
AT daibangnie characterizationofthestructurecellsandcellularmechanobiologicalresponseofhumanplantarfascia
AT jorgelrocha characterizationofthestructurecellsandcellularmechanobiologicalresponseofhumanplantarfascia
AT macalusvhogan characterizationofthestructurecellsandcellularmechanobiologicalresponseofhumanplantarfascia
AT jameshcwang characterizationofthestructurecellsandcellularmechanobiologicalresponseofhumanplantarfascia
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