A novel experimental rat model of peripheral nerve scarring that reliably mimics post-surgical complications and recurring adhesions

A novel experimental rat model of peripheral nerve scarring that reliably mimics post-surgical complications and recurring adhesions

Inflammation, fibrosis and perineural adhesions with the surrounding tissue are common pathological processes following nerve injury and surgical interventions on peripheral nerves in human patients. These features can reoccur following external neurolysis, currently the most common surgical treatme...

Full description

Bibliographic Details
Main Authors: Angela Lemke, Carina Penzenstadler, James Ferguson, Dominika Lidinsky, Rudolf Hopf, Monika Bradl, Heinz Redl, Susanne Wolbank, Thomas Hausner
Format: Article
Language:English
Published: The Company of Biologists 2017-08-01
Series:Disease Models & Mechanisms
Subjects:
Peripheral nerve adhesions
Perineural adhesions
Nerve fibrosis
Nerve scarring
Nerve inflammation
Online Access:http://dmm.biologists.org/content/10/8/1015
id doaj-c869f2ff55e241308c018eb32dd06d09
record_format Article
spelling doaj-c869f2ff55e241308c018eb32dd06d092020-11-25T02:21:37ZengThe Company of BiologistsDisease Models & Mechanisms1754-84031754-84112017-08-011081015102510.1242/dmm.028852028852A novel experimental rat model of peripheral nerve scarring that reliably mimics post-surgical complications and recurring adhesionsAngela Lemke0Carina Penzenstadler1James Ferguson2Dominika Lidinsky3Rudolf Hopf4Monika Bradl5Heinz Redl6Susanne Wolbank7Thomas Hausner8 Ludwig Boltzmann Institute for Experimental and Clinical Traumatology/AUVA Research Center, Donaueschingenstraße 13, Vienna 1200, Austria Ludwig Boltzmann Institute for Experimental and Clinical Traumatology/AUVA Research Center, Donaueschingenstraße 13, Vienna 1200, Austria Ludwig Boltzmann Institute for Experimental and Clinical Traumatology/AUVA Research Center, Donaueschingenstraße 13, Vienna 1200, Austria Ludwig Boltzmann Institute for Experimental and Clinical Traumatology/AUVA Research Center, Donaueschingenstraße 13, Vienna 1200, Austria Ludwig Boltzmann Institute for Experimental and Clinical Traumatology/AUVA Research Center, Donaueschingenstraße 13, Vienna 1200, Austria Department for Neuroimmunology, Center for Brain Research, Medical University Vienna, Spitalgasse 4, Vienna 1090, Austria Ludwig Boltzmann Institute for Experimental and Clinical Traumatology/AUVA Research Center, Donaueschingenstraße 13, Vienna 1200, Austria Ludwig Boltzmann Institute for Experimental and Clinical Traumatology/AUVA Research Center, Donaueschingenstraße 13, Vienna 1200, Austria Ludwig Boltzmann Institute for Experimental and Clinical Traumatology/AUVA Research Center, Donaueschingenstraße 13, Vienna 1200, Austria Inflammation, fibrosis and perineural adhesions with the surrounding tissue are common pathological processes following nerve injury and surgical interventions on peripheral nerves in human patients. These features can reoccur following external neurolysis, currently the most common surgical treatment for peripheral nerve scarring, thus leading to renewed nerve function impairment and chronic pain. To enable a successful evaluation of new therapeutic approaches, it is crucial to use a reproducible animal model that mimics the main clinical symptoms occurring in human patients. However, a clinically relevant model combining both histological and functional alterations has not been published to date. We therefore developed a reliable rat model that exhibits the essential pathological processes of peripheral nerve scarring. In our study, we present a novel method for the induction of nerve scarring by applying glutaraldehyde-containing glue that is known to cause nerve injury in humans. After a 3-week contact period with the sciatic nerve in female Sprague Dawley rats, we could demonstrate severe intra- and perineural scarring that resulted in grade 3 adhesions and major impairments in the electrophysiological peak amplitude compared with sham control (P=0.0478). Immunohistochemical analysis of the nerve structure revealed vigorous nerve inflammation and recruitment of T cells and macrophages. Also, distinct nerve degeneration was determined by immunostaining. These pathological alterations were further reflected in significant functional deficiencies, as determined by the analysis of relevant gait parameters as well as the quantification of the sciatic functional index starting at week 1 post-operation (P<0.01). Moreover, with this model we could, for the first time, demonstrate not only the primary formation, but also the recurrence, of severe adhesions 1 week after glue removal, imitating a major clinical challenge. As a comparison, we tested a published model for generating perineural fibrotic adhesions, which did not result in significant pathological changes. Taken together, we established an easily reproducible and reliable rat model for peripheral nerve scarring that allows for the effective testing of new therapeutic strategies.http://dmm.biologists.org/content/10/8/1015Peripheral nerve adhesionsPerineural adhesionsNerve fibrosisNerve scarringNerve inflammation
collection DOAJ
language English
format Article
sources DOAJ
author Angela Lemke
Carina Penzenstadler
James Ferguson
Dominika Lidinsky
Rudolf Hopf
Monika Bradl
Heinz Redl
Susanne Wolbank
Thomas Hausner
spellingShingle Angela Lemke
Carina Penzenstadler
James Ferguson
Dominika Lidinsky
Rudolf Hopf
Monika Bradl
Heinz Redl
Susanne Wolbank
Thomas Hausner
A novel experimental rat model of peripheral nerve scarring that reliably mimics post-surgical complications and recurring adhesions
Disease Models & Mechanisms
Peripheral nerve adhesions
Perineural adhesions
Nerve fibrosis
Nerve scarring
Nerve inflammation
author_facet Angela Lemke
Carina Penzenstadler
James Ferguson
Dominika Lidinsky
Rudolf Hopf
Monika Bradl
Heinz Redl
Susanne Wolbank
Thomas Hausner
author_sort Angela Lemke
title A novel experimental rat model of peripheral nerve scarring that reliably mimics post-surgical complications and recurring adhesions
title_short A novel experimental rat model of peripheral nerve scarring that reliably mimics post-surgical complications and recurring adhesions
title_full A novel experimental rat model of peripheral nerve scarring that reliably mimics post-surgical complications and recurring adhesions
title_fullStr A novel experimental rat model of peripheral nerve scarring that reliably mimics post-surgical complications and recurring adhesions
title_full_unstemmed A novel experimental rat model of peripheral nerve scarring that reliably mimics post-surgical complications and recurring adhesions
title_sort novel experimental rat model of peripheral nerve scarring that reliably mimics post-surgical complications and recurring adhesions
publisher The Company of Biologists
series Disease Models & Mechanisms
issn 1754-8403
1754-8411
publishDate 2017-08-01
description Inflammation, fibrosis and perineural adhesions with the surrounding tissue are common pathological processes following nerve injury and surgical interventions on peripheral nerves in human patients. These features can reoccur following external neurolysis, currently the most common surgical treatment for peripheral nerve scarring, thus leading to renewed nerve function impairment and chronic pain. To enable a successful evaluation of new therapeutic approaches, it is crucial to use a reproducible animal model that mimics the main clinical symptoms occurring in human patients. However, a clinically relevant model combining both histological and functional alterations has not been published to date. We therefore developed a reliable rat model that exhibits the essential pathological processes of peripheral nerve scarring. In our study, we present a novel method for the induction of nerve scarring by applying glutaraldehyde-containing glue that is known to cause nerve injury in humans. After a 3-week contact period with the sciatic nerve in female Sprague Dawley rats, we could demonstrate severe intra- and perineural scarring that resulted in grade 3 adhesions and major impairments in the electrophysiological peak amplitude compared with sham control (P=0.0478). Immunohistochemical analysis of the nerve structure revealed vigorous nerve inflammation and recruitment of T cells and macrophages. Also, distinct nerve degeneration was determined by immunostaining. These pathological alterations were further reflected in significant functional deficiencies, as determined by the analysis of relevant gait parameters as well as the quantification of the sciatic functional index starting at week 1 post-operation (P<0.01). Moreover, with this model we could, for the first time, demonstrate not only the primary formation, but also the recurrence, of severe adhesions 1 week after glue removal, imitating a major clinical challenge. As a comparison, we tested a published model for generating perineural fibrotic adhesions, which did not result in significant pathological changes. Taken together, we established an easily reproducible and reliable rat model for peripheral nerve scarring that allows for the effective testing of new therapeutic strategies.
topic Peripheral nerve adhesions
Perineural adhesions
Nerve fibrosis
Nerve scarring
Nerve inflammation
url http://dmm.biologists.org/content/10/8/1015
work_keys_str_mv AT angelalemke anovelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
AT carinapenzenstadler anovelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
AT jamesferguson anovelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
AT dominikalidinsky anovelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
AT rudolfhopf anovelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
AT monikabradl anovelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
AT heinzredl anovelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
AT susannewolbank anovelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
AT thomashausner anovelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
AT angelalemke novelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
AT carinapenzenstadler novelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
AT jamesferguson novelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
AT dominikalidinsky novelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
AT rudolfhopf novelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
AT monikabradl novelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
AT heinzredl novelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
AT susannewolbank novelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
AT thomashausner novelexperimentalratmodelofperipheralnervescarringthatreliablymimicspostsurgicalcomplicationsandrecurringadhesions
_version_ 1724865204188086272

Similar Items