Reduction of tendon adhesions following administration of adaprev, a hypertonic solution of mannose-6-phosphate: Mechanism of action studies

Reduction of tendon adhesions following administration of adaprev, a hypertonic solution of mannose-6-phosphate: Mechanism of action studies

10.1371/journal.pone.0112672

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Bibliographic Details
Main Authors: Wong J.K.F., Metcalfe A.D., Wong R., Bush J., Platt C., Garcon A., Goldspink N., McGrouther D.A., Ferguson M.W.J.
Other Authors: DUKE-NUS MEDICAL SCHOOL
Format: Article
Published: Public Library of Science 2020
Subjects:
adaprev
collagen type 1
heat shock protein 47
hypertonic solution
Smad2 protein
Smad3 protein
somatomedin B receptor
synaptophysin
transforming growth factor beta receptor 1
unclassified drug
collagen
mannose phosphate
mannose-6-phosphate
transforming growth factor beta
actin filament
adhesion
adult
animal cell
animal experiment
animal model
animal tissue
Article
cell migration
cell proliferation
cell stress
cell viability
collagen synthesis
concentration response
controlled study
cytotoxicity
drug bioavailability
ex vivo study
fibroblast
hyperosmotic stress
in vitro study
in vivo study
male
mouse
nonhuman
osmolality
protein phosphorylation
signal transduction
tendon fibroblast
tendon injury
tensile strength
animal
biomechanics
cell culture
disease model
drug effects
human
metabolism
pathophysiology
rabbit
Tendon Injuries
Tissue Adhesions
wound healing
Animals
Biomechanical Phenomena
Cell Proliferation
Cells, Cultured
Collagen
Disease Models, Animal
Humans
Hypertonic Solutions
Mannosephosphates
Mice
Rabbits
Signal Transduction
Tensile Strength
Transforming Growth Factor beta
Wound Healing
Online Access:https://scholarbank.nus.edu.sg/handle/10635/165707
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spelling sg-nus-scholar.10635-1657072023-10-31T08:37:40Z Reduction of tendon adhesions following administration of adaprev, a hypertonic solution of mannose-6-phosphate: Mechanism of action studies Wong J.K.F. Metcalfe A.D. Wong R. Bush J. Platt C. Garcon A. Goldspink N. McGrouther D.A. Ferguson M.W.J. DUKE-NUS MEDICAL SCHOOL adaprev collagen type 1 heat shock protein 47 hypertonic solution Smad2 protein Smad3 protein somatomedin B receptor synaptophysin transforming growth factor beta receptor 1 unclassified drug collagen hypertonic solution mannose phosphate mannose-6-phosphate transforming growth factor beta actin filament adhesion adult animal cell animal experiment animal model animal tissue Article cell migration cell proliferation cell stress cell viability collagen synthesis concentration response controlled study cytotoxicity drug bioavailability ex vivo study fibroblast hyperosmotic stress in vitro study in vivo study male mouse nonhuman osmolality protein phosphorylation signal transduction tendon fibroblast tendon injury tensile strength animal biomechanics cell culture disease model drug effects human metabolism pathophysiology rabbit Tendon Injuries Tissue Adhesions wound healing Animals Biomechanical Phenomena Cell Proliferation Cells, Cultured Collagen Disease Models, Animal Humans Hypertonic Solutions Mannosephosphates Mice Rabbits Signal Transduction Tendon Injuries Tensile Strength Tissue Adhesions Transforming Growth Factor beta Wound Healing 10.1371/journal.pone.0112672 PLoS ONE 9 11 e112672 2020-03-19T03:03:42Z 2020-03-19T03:03:42Z 2014 Article Wong J.K.F., Metcalfe A.D., Wong R., Bush J., Platt C., Garcon A., Goldspink N., McGrouther D.A., Ferguson M.W.J. (2014). Reduction of tendon adhesions following administration of adaprev, a hypertonic solution of mannose-6-phosphate: Mechanism of action studies. PLoS ONE 9 (11) : e112672. ScholarBank@NUS Repository. https://doi.org/10.1371/journal.pone.0112672 19326203 https://scholarbank.nus.edu.sg/handle/10635/165707 Public Library of Science Unpaywall 20200320
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
topic adaprev
collagen type 1
heat shock protein 47
hypertonic solution
Smad2 protein
Smad3 protein
somatomedin B receptor
synaptophysin
transforming growth factor beta receptor 1
unclassified drug
collagen
hypertonic solution
mannose phosphate
mannose-6-phosphate
transforming growth factor beta
actin filament
adhesion
adult
animal cell
animal experiment
animal model
animal tissue
Article
cell migration
cell proliferation
cell stress
cell viability
collagen synthesis
concentration response
controlled study
cytotoxicity
drug bioavailability
ex vivo study
fibroblast
hyperosmotic stress
in vitro study
in vivo study
male
mouse
nonhuman
osmolality
protein phosphorylation
signal transduction
tendon fibroblast
tendon injury
tensile strength
animal
biomechanics
cell culture
disease model
drug effects
human
metabolism
pathophysiology
rabbit
Tendon Injuries
Tissue Adhesions
wound healing
Animals
Biomechanical Phenomena
Cell Proliferation
Cells, Cultured
Collagen
Disease Models, Animal
Humans
Hypertonic Solutions
Mannosephosphates
Mice
Rabbits
Signal Transduction
Tendon Injuries
Tensile Strength
Tissue Adhesions
Transforming Growth Factor beta
Wound Healing
spellingShingle adaprev
collagen type 1
heat shock protein 47
hypertonic solution
Smad2 protein
Smad3 protein
somatomedin B receptor
synaptophysin
transforming growth factor beta receptor 1
unclassified drug
collagen
hypertonic solution
mannose phosphate
mannose-6-phosphate
transforming growth factor beta
actin filament
adhesion
adult
animal cell
animal experiment
animal model
animal tissue
Article
cell migration
cell proliferation
cell stress
cell viability
collagen synthesis
concentration response
controlled study
cytotoxicity
drug bioavailability
ex vivo study
fibroblast
hyperosmotic stress
in vitro study
in vivo study
male
mouse
nonhuman
osmolality
protein phosphorylation
signal transduction
tendon fibroblast
tendon injury
tensile strength
animal
biomechanics
cell culture
disease model
drug effects
human
metabolism
pathophysiology
rabbit
Tendon Injuries
Tissue Adhesions
wound healing
Animals
Biomechanical Phenomena
Cell Proliferation
Cells, Cultured
Collagen
Disease Models, Animal
Humans
Hypertonic Solutions
Mannosephosphates
Mice
Rabbits
Signal Transduction
Tendon Injuries
Tensile Strength
Tissue Adhesions
Transforming Growth Factor beta
Wound Healing
Wong J.K.F.
Metcalfe A.D.
Wong R.
Bush J.
Platt C.
Garcon A.
Goldspink N.
McGrouther D.A.
Ferguson M.W.J.
Reduction of tendon adhesions following administration of adaprev, a hypertonic solution of mannose-6-phosphate: Mechanism of action studies
description 10.1371/journal.pone.0112672
author2 DUKE-NUS MEDICAL SCHOOL
author_facet DUKE-NUS MEDICAL SCHOOL
Wong J.K.F.
Metcalfe A.D.
Wong R.
Bush J.
Platt C.
Garcon A.
Goldspink N.
McGrouther D.A.
Ferguson M.W.J.
format Article
author Wong J.K.F.
Metcalfe A.D.
Wong R.
Bush J.
Platt C.
Garcon A.
Goldspink N.
McGrouther D.A.
Ferguson M.W.J.
author_sort Wong J.K.F.
title Reduction of tendon adhesions following administration of adaprev, a hypertonic solution of mannose-6-phosphate: Mechanism of action studies
title_short Reduction of tendon adhesions following administration of adaprev, a hypertonic solution of mannose-6-phosphate: Mechanism of action studies
title_full Reduction of tendon adhesions following administration of adaprev, a hypertonic solution of mannose-6-phosphate: Mechanism of action studies
title_fullStr Reduction of tendon adhesions following administration of adaprev, a hypertonic solution of mannose-6-phosphate: Mechanism of action studies
title_full_unstemmed Reduction of tendon adhesions following administration of adaprev, a hypertonic solution of mannose-6-phosphate: Mechanism of action studies
title_sort reduction of tendon adhesions following administration of adaprev, a hypertonic solution of mannose-6-phosphate: mechanism of action studies
publisher Public Library of Science
publishDate 2020
url https://scholarbank.nus.edu.sg/handle/10635/165707
_version_ 1781791960056463360

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