Novel Macromolecular Crosslinking Hydrogel to Reduce Intra-Abdominal Adhesions

Background The aim of this study was to compare the anti-adhesion efficacy of a biodegradable, in situ , macromolecular cross-linking hydrogel made from oxidized dextran/N-carboxyethyl chitosan (Odex/CEC) with a commercially available carboxymethylcellulose/modified hyaluronan barrier film (Seprafil...

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Published inThe Journal of surgical research Vol. 159; no. 2; pp. 772 - 778
Main Authors Falabella, Christine A., B.S, Melendez, Mark M., M.D., M.B.A, Weng, Lihui, Ph.D, Chen, Weiliam, Ph.D
Format Journal Article
LanguageEnglish
Published New York, NY Elsevier Inc 01.04.2010
Elsevier
Subjects
Animals
barrier
Biological and medical sciences
Cecal Diseases - etiology
Cecal Diseases - prevention & control
Cecum - injuries
chitosan
Chitosan - analogs & derivatives
Chitosan - therapeutic use
Cross-Linking Reagents - therapeutic use
dextran
Dextrans - chemical synthesis
General aspects
hydrogel
Hydrogels - therapeutic use
Medical sciences
post surgical adhesion
rat
Rats
Surgery
Tissue Adhesions - prevention & control
Wound Healing - drug effects
dextran
chitosan
barrier
post surgical adhesion
rat
hydrogel
Postoperative
Accessibility
Rat
Rodentia
Polymer
Crosslinking
Barrier
Adhesion
Care
Abdomen
Dextran
Medicine
Vertebrata
Mammalia
Treatment
Macromolecule
Blood substitute
Animal
Surgery
Glycosaminoglycan
Chitosan
Hydrogel
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Abstract Background The aim of this study was to compare the anti-adhesion efficacy of a biodegradable, in situ , macromolecular cross-linking hydrogel made from oxidized dextran/N-carboxyethyl chitosan (Odex/CEC) with a commercially available carboxymethylcellulose/modified hyaluronan barrier film (Seprafilm; Genzyme Corporation, Cambridge, MA) in a rat cecum abrasion model. Methods The rat model utilized a cecal abrasion and abdominal wall insult surgical protocol. The 2% Odex/CEC hydrogel treatment was applied by syringe to coat both the cecal and the abdominal wall insults, while other animals were treated with Seprafilm applied to the cecal injury only. Control animals did not receive any treatment. Animals were sacrificed after post operative day 21 and adhesion severity was quantitatively graded using a whole number scale from 0 – 3. Histological analysis was also performed for animals receiving Odex/CEC hydrogel treatment and no treatment (control). Results Mean adhesion score was 2.09 ± 1.22 for control animals, 1.00 ± 1.00 for 2% Odex/CEC hydrogel animals, and 1.25 ± 1.22 for Seprafilm animals. Hydrogel treated animals showed significantly lower adhesion scores than control animals ( P < 0.05), while Seprafilm demonstrated a marginally lower adhesion score ( P < 0.1) compared with the controls. Histological analysis of an Odex/CEC treated rat showed tissue repair and small fragments of hydrogel inside both healed abdominal and cecal surfaces. Conclusions Both Seprafilm and the 2% Odex/CEC hydrogel showed a significantly decreased adhesion score compared with the control. However, the hydrogel, compared with Seprafilm, offers ease of application and ability to conform to complex tissue geometries that could provide surgeons with another prophylactic treatment to prevent abdominal adhesions.
AbstractList BACKGROUNDThe aim of this study was to compare the anti-adhesion efficacy of a biodegradable, in situ, macromolecular cross-linking hydrogel made from oxidized dextran/N-carboxyethyl chitosan (Odex/CEC) with a commercially available carboxymethylcellulose/modified hyaluronan barrier film (Seprafilm; Genzyme Corporation, Cambridge, MA) in a rat cecum abrasion model.METHODSThe rat model utilized a cecal abrasion and abdominal wall insult surgical protocol. The 2% Odex/CEC hydrogel treatment was applied by syringe to coat both the cecal and the abdominal wall insults, while other animals were treated with Seprafilm applied to the cecal injury only. Control animals did not receive any treatment. Animals were sacrificed after post operative day 21 and adhesion severity was quantitatively graded using a whole number scale from 0 - 3. Histological analysis was also performed for animals receiving Odex/CEC hydrogel treatment and no treatment (control).RESULTSMean adhesion score was 2.09+/-1.22 for control animals, 1.00+/-1.00 for 2% Odex/CEC hydrogel animals, and 1.25+/-1.22 for Seprafilm animals. Hydrogel treated animals showed significantly lower adhesion scores than control animals (P<0.05), while Seprafilm demonstrated a marginally lower adhesion score (P<0.1) compared with the controls. Histological analysis of an Odex/CEC treated rat showed tissue repair and small fragments of hydrogel inside both healed abdominal and cecal surfaces.CONCLUSIONSBoth Seprafilm and the 2% Odex/CEC hydrogel showed a significantly decreased adhesion score compared with the control. However, the hydrogel, compared with Seprafilm, offers ease of application and ability to conform to complex tissue geometries that could provide surgeons with another prophylactic treatment to prevent abdominal adhesions.
The aim of this study was to compare the anti-adhesion efficacy of a biodegradable, in situ, macromolecular cross-linking hydrogel made from oxidized dextran/N-carboxyethyl chitosan (Odex/CEC) with a commercially available carboxymethylcellulose/modified hyaluronan barrier film (Seprafilm; Genzyme Corporation, Cambridge, MA) in a rat cecum abrasion model. The rat model utilized a cecal abrasion and abdominal wall insult surgical protocol. The 2% Odex/CEC hydrogel treatment was applied by syringe to coat both the cecal and the abdominal wall insults, while other animals were treated with Seprafilm applied to the cecal injury only. Control animals did not receive any treatment. Animals were sacrificed after post operative day 21 and adhesion severity was quantitatively graded using a whole number scale from 0 - 3. Histological analysis was also performed for animals receiving Odex/CEC hydrogel treatment and no treatment (control). Mean adhesion score was 2.09+/-1.22 for control animals, 1.00+/-1.00 for 2% Odex/CEC hydrogel animals, and 1.25+/-1.22 for Seprafilm animals. Hydrogel treated animals showed significantly lower adhesion scores than control animals (P<0.05), while Seprafilm demonstrated a marginally lower adhesion score (P<0.1) compared with the controls. Histological analysis of an Odex/CEC treated rat showed tissue repair and small fragments of hydrogel inside both healed abdominal and cecal surfaces. Both Seprafilm and the 2% Odex/CEC hydrogel showed a significantly decreased adhesion score compared with the control. However, the hydrogel, compared with Seprafilm, offers ease of application and ability to conform to complex tissue geometries that could provide surgeons with another prophylactic treatment to prevent abdominal adhesions.
Background The aim of this study was to compare the anti-adhesion efficacy of a biodegradable, in situ , macromolecular cross-linking hydrogel made from oxidized dextran/N-carboxyethyl chitosan (Odex/CEC) with a commercially available carboxymethylcellulose/modified hyaluronan barrier film (Seprafilm; Genzyme Corporation, Cambridge, MA) in a rat cecum abrasion model. Methods The rat model utilized a cecal abrasion and abdominal wall insult surgical protocol. The 2% Odex/CEC hydrogel treatment was applied by syringe to coat both the cecal and the abdominal wall insults, while other animals were treated with Seprafilm applied to the cecal injury only. Control animals did not receive any treatment. Animals were sacrificed after post operative day 21 and adhesion severity was quantitatively graded using a whole number scale from 0 – 3. Histological analysis was also performed for animals receiving Odex/CEC hydrogel treatment and no treatment (control). Results Mean adhesion score was 2.09 ± 1.22 for control animals, 1.00 ± 1.00 for 2% Odex/CEC hydrogel animals, and 1.25 ± 1.22 for Seprafilm animals. Hydrogel treated animals showed significantly lower adhesion scores than control animals ( P < 0.05), while Seprafilm demonstrated a marginally lower adhesion score ( P < 0.1) compared with the controls. Histological analysis of an Odex/CEC treated rat showed tissue repair and small fragments of hydrogel inside both healed abdominal and cecal surfaces. Conclusions Both Seprafilm and the 2% Odex/CEC hydrogel showed a significantly decreased adhesion score compared with the control. However, the hydrogel, compared with Seprafilm, offers ease of application and ability to conform to complex tissue geometries that could provide surgeons with another prophylactic treatment to prevent abdominal adhesions.
The aim of this study was to compare the anti-adhesion efficacy of a biodegradable, in situ, macromolecular cross-linking hydrogel made from oxidized dextran/N-carboxyethyl chitosan (Odex/CEC) with a commercially available carboxymethylcellulose/modified hyaluronan barrier film (Seprafilm; Genzyme Corporation, Cambridge, MA) in a rat cecum abrasion model. The rat model utilized a cecal abrasion and abdominal wall insult surgical protocol. The 2% Odex/CEC hydrogel treatment was applied by syringe to coat both the cecal and the abdominal wall insults, while other animals were treated with Seprafilm applied to the cecal injury only. Control animals did not receive any treatment. Animals were sacrificed after post operative day 21 and adhesion severity was quantitatively graded using a whole number scale from 0 – 3. Histological analysis was also performed for animals receiving Odex/CEC hydrogel treatment and no treatment (control). Mean adhesion score was 2.09 ± 1.22 for control animals, 1.00 ± 1.00 for 2% Odex/CEC hydrogel animals, and 1.25 ± 1.22 for Seprafilm animals. Hydrogel treated animals showed significantly lower adhesion scores than control animals ( P < 0.05), while Seprafilm demonstrated a marginally lower adhesion score ( P < 0.1) compared with the controls. Histological analysis of an Odex/CEC treated rat showed tissue repair and small fragments of hydrogel inside both healed abdominal and cecal surfaces. Both Seprafilm and the 2% Odex/CEC hydrogel showed a significantly decreased adhesion score compared with the control. However, the hydrogel, compared with Seprafilm, offers ease of application and ability to conform to complex tissue geometries that could provide surgeons with another prophylactic treatment to prevent abdominal adhesions.
Author Falabella, Christine A., B.S
Chen, Weiliam, Ph.D
Melendez, Mark M., M.D., M.B.A
Weng, Lihui, Ph.D
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Issue 2
Keywords dextran
chitosan
barrier
post surgical adhesion
rat
hydrogel
Postoperative
Accessibility
Rat
Rodentia
Polymer
Crosslinking
Barrier
Adhesion
Care
Abdomen
Dextran
Medicine
Vertebrata
Mammalia
Treatment
Macromolecule
Blood substitute
Animal
Surgery
Glycosaminoglycan
Chitosan
Hydrogel
Language English
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SSID ssj0002973
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Snippet Background The aim of this study was to compare the anti-adhesion efficacy of a biodegradable, in situ , macromolecular cross-linking hydrogel made from...
The aim of this study was to compare the anti-adhesion efficacy of a biodegradable, in situ, macromolecular cross-linking hydrogel made from oxidized...
The aim of this study was to compare the anti-adhesion efficacy of a biodegradable, in situ, macromolecular cross-linking hydrogel made from oxidized...
BACKGROUNDThe aim of this study was to compare the anti-adhesion efficacy of a biodegradable, in situ, macromolecular cross-linking hydrogel made from oxidized...
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elsevier
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Publisher
StartPage 772
SubjectTerms Animals
barrier
Biological and medical sciences
Cecal Diseases - etiology
Cecal Diseases - prevention & control
Cecum - injuries
chitosan
Chitosan - analogs & derivatives
Chitosan - therapeutic use
Cross-Linking Reagents - therapeutic use
dextran
Dextrans - chemical synthesis
General aspects
hydrogel
Hydrogels - therapeutic use
Medical sciences
post surgical adhesion
rat
Rats
Surgery
Tissue Adhesions - prevention & control
Wound Healing - drug effects
Title Novel Macromolecular Crosslinking Hydrogel to Reduce Intra-Abdominal Adhesions
URI https://www.clinicalkey.es/playcontent/1-s2.0-S002248040900002X
https://dx.doi.org/10.1016/j.jss.2008.09.035
https://www.ncbi.nlm.nih.gov/pubmed/19481223
https://search.proquest.com/docview/733812793
Volume 159
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