Healing of sub-critical femoral osteotomies in mice is unaffected by tacrolimus and deletion of recombination activating gene 1

Healing of sub-critical femoral osteotomies in mice is unaffected by tacrolimus and deletion of recombination activating gene 1

Clinical management of delayed healing or non-union of long bone fractures and segmental defects poses a substantial orthopaedic challenge. There are suggestions in the literature that bone healing may be enhanced by inhibiting the activities of T and B lymphocytes, but this remains controversial. T...

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Main Authors: T-Y Liu, M Bartnikowski, AC Wu, M Veitch, KA Sokolowski, SM Millard, AR Pettit, V Glatt, CH Evans, JW Wells
Format: Article
Language:English
Published: AO Research Institute Davos 2021-03-01
Series:European Cells & Materials
Subjects:
tacrolimus
fk506
bone healing
immunosuppression
local administration
mouse
Online Access:https://www.ecmjournal.org/papers/vol041/pdf/v041a22.pdf
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spelling doaj-350f73564bb14ea8b5484ab025e30d002021-03-17T09:53:17Zeng AO Research Institute DavosEuropean Cells & Materials1473-22622021-03-014134535410.22203/eCM.v041a22Healing of sub-critical femoral osteotomies in mice is unaffected by tacrolimus and deletion of recombination activating gene 1T-Y LiuM Bartnikowski AC WuM VeitchKA SokolowskiSM MillardAR PettitV GlattCH Evans JW WellsClinical management of delayed healing or non-union of long bone fractures and segmental defects poses a substantial orthopaedic challenge. There are suggestions in the literature that bone healing may be enhanced by inhibiting the activities of T and B lymphocytes, but this remains controversial. To examine this matter in more detail, sub-critical-sized segmental defects were created in the femora of mice and it was assessed whether there might be a benefit from the administration of a Food and Drug Administration (FDA)-approved drug that blocks T cell activation (tacrolimus). Defects were stabilised using an internal plate. In certain groups of animals, 1 mg/kg or 10 mg/kg tacrolimus was delivered locally to the defect site for 3 or 7 d using an implanted osmotic pump with a silicon catheter directing drug delivery into the defect area. Healing was monitored by weekly X-ray and assessed at 12 weeks by mechanical testing, µCT and histology. Radiographic and histological evaluations revealed that 100 % of defects healed well regardless of tacrolimus dosage or duration. A comparison of healed C57BL/6 and Rag1−/− femora by µCT and ex vivo torsion testing showed no differences within mouse strains in terms of bone volume, tissue volume, bone volume/tissue volume ratio, shear modulus, torsional rigidity or torsional stiffness. These data failed to support an important role for tacrolimus in modulating the natural healing of segmental defects under those experimental conditions.https://www.ecmjournal.org/papers/vol041/pdf/v041a22.pdftacrolimusfk506bone healingimmunosuppressionlocal administrationmouse
collection DOAJ
language English
format Article
sources DOAJ
author T-Y Liu
M Bartnikowski
AC Wu
M Veitch
KA Sokolowski
SM Millard
AR Pettit
V Glatt
CH Evans
JW Wells
spellingShingle T-Y Liu
M Bartnikowski
AC Wu
M Veitch
KA Sokolowski
SM Millard
AR Pettit
V Glatt
CH Evans
JW Wells
Healing of sub-critical femoral osteotomies in mice is unaffected by tacrolimus and deletion of recombination activating gene 1
European Cells & Materials
tacrolimus
fk506
bone healing
immunosuppression
local administration
mouse
author_facet T-Y Liu
M Bartnikowski
AC Wu
M Veitch
KA Sokolowski
SM Millard
AR Pettit
V Glatt
CH Evans
JW Wells
author_sort T-Y Liu
title Healing of sub-critical femoral osteotomies in mice is unaffected by tacrolimus and deletion of recombination activating gene 1
title_short Healing of sub-critical femoral osteotomies in mice is unaffected by tacrolimus and deletion of recombination activating gene 1
title_full Healing of sub-critical femoral osteotomies in mice is unaffected by tacrolimus and deletion of recombination activating gene 1
title_fullStr Healing of sub-critical femoral osteotomies in mice is unaffected by tacrolimus and deletion of recombination activating gene 1
title_full_unstemmed Healing of sub-critical femoral osteotomies in mice is unaffected by tacrolimus and deletion of recombination activating gene 1
title_sort healing of sub-critical femoral osteotomies in mice is unaffected by tacrolimus and deletion of recombination activating gene 1
publisher AO Research Institute Davos
series European Cells & Materials
issn 1473-2262
publishDate 2021-03-01
description Clinical management of delayed healing or non-union of long bone fractures and segmental defects poses a substantial orthopaedic challenge. There are suggestions in the literature that bone healing may be enhanced by inhibiting the activities of T and B lymphocytes, but this remains controversial. To examine this matter in more detail, sub-critical-sized segmental defects were created in the femora of mice and it was assessed whether there might be a benefit from the administration of a Food and Drug Administration (FDA)-approved drug that blocks T cell activation (tacrolimus). Defects were stabilised using an internal plate. In certain groups of animals, 1 mg/kg or 10 mg/kg tacrolimus was delivered locally to the defect site for 3 or 7 d using an implanted osmotic pump with a silicon catheter directing drug delivery into the defect area. Healing was monitored by weekly X-ray and assessed at 12 weeks by mechanical testing, µCT and histology. Radiographic and histological evaluations revealed that 100 % of defects healed well regardless of tacrolimus dosage or duration. A comparison of healed C57BL/6 and Rag1−/− femora by µCT and ex vivo torsion testing showed no differences within mouse strains in terms of bone volume, tissue volume, bone volume/tissue volume ratio, shear modulus, torsional rigidity or torsional stiffness. These data failed to support an important role for tacrolimus in modulating the natural healing of segmental defects under those experimental conditions.
topic tacrolimus
fk506
bone healing
immunosuppression
local administration
mouse
url https://www.ecmjournal.org/papers/vol041/pdf/v041a22.pdf
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