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Acute and delayed implantation of positively charged 2-hydroxyethyl methacrylate scaffolds in spinal cord injury in the rat
Ales Hejcl, Lucie Urdzikova, Jiri Sedy, Petr Lesny, Martin Pradny, Jiri Michalek, Martin Burian, Milan Hajek, Josef Zamecnik, Pavla Jendelova, Eva Sykova
Jazyk angličtina Země Spojené státy americké
Typ dokumentu srovnávací studie
Grantová podpora
1A8697
MZ0
CEP - Centrální evidence projektů
Digitální knihovna NLK
Plný text - Článek
Zdroj
- MeSH
- axony fyziologie patologie MeSH
- biokompatibilní materiály chemie terapeutické užití MeSH
- časové faktory MeSH
- cysty patologie MeSH
- financování organizované MeSH
- hojení ran fyziologie MeSH
- hydrogely chemie terapeutické užití MeSH
- krysa rodu rattus MeSH
- methakryláty chemie terapeutické užití MeSH
- mícha krevní zásobení patologie MeSH
- modely nemocí na zvířatech MeSH
- neurofibrily ultrastruktura MeSH
- paraplegie patofyziologie MeSH
- pojivová tkáň patologie MeSH
- poranění míchy chirurgie MeSH
- potkani Wistar MeSH
- regenerace nervu fyziologie MeSH
- řízená tkáňová regenerace MeSH
- Schwannovy buňky patologie MeSH
- tkáňové podpůrné struktury MeSH
- zvířata MeSH
- Check Tag
- krysa rodu rattus MeSH
- mužské pohlaví MeSH
- zvířata MeSH
- Publikační typ
- srovnávací studie MeSH
OBJECT: Hydrogels are nontoxic, chemically inert synthetic polymers with a high water content and large surface area that provide mechanical support for cells and axons when implanted into spinal cord tissue. METHODS: Macroporous hydrogels based on 2-hydroxyethyl methacrylate (HEMA) were prepared by radical copolymerization of monomers in the presence of fractionated NaCl particles. Male Wistar rats underwent complete spinal cord transection at the T-9 level. To bridge the lesion, positively charged HEMA hydrogels were implanted either immediately or 1 week after spinal cord transection; control animals were left untreated. Histological evaluation was performed 3 months after spinal cord transection to measure the volume of the pseudocyst cavities and the ingrowth of tissue elements into the hydrogels. RESULTS: The hydrogel implants adhered well to the spinal cord tissue. Histological evaluation showed ingrowth of connective tissue elements, blood vessels, neurofilaments, and Schwann cells into the hydrogels. Morphometric analysis of lesions showed a statistically significant reduction in pseudocyst volume in the treated animals compared with controls and in the delayed treatment group compared with the immediate treatment group (p < 0.001 and p < 0.05, respectively). CONCLUSIONS: Positively charged HEMA hydrogels can bridge a posttraumatic spinal cord cavity and provide a scaffold for the ingrowth of regenerating axons. The results indicate that delayed implantation can be more effective than immediate reconstructive surgery.
Center for Cell Therapy and Tissue Repair 2nd Faculty of Medicine Charles University
Department of Neurosurgery Masaryk Hospital Usti nad Labem Czech Republic
Institute of Clinical and Experimental Medicine Prague
Institute of Experimental Medicine Academy of Sciences of the Czech Republic Czech Republic
Institutes of Experimental Medicine Academy of Sciences of the Czech Republic
Macromolecular Chemistry Academy of Sciences of the Czech Republic
Pathology and Molecular Medicine 2nd Faculty of Medicine Charles University
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- $a Acute and delayed implantation of positively charged 2-hydroxyethyl methacrylate scaffolds in spinal cord injury in the rat / $c Ales Hejcl, Lucie Urdzikova, Jiri Sedy, Petr Lesny, Martin Pradny, Jiri Michalek, Martin Burian, Milan Hajek, Josef Zamecnik, Pavla Jendelova, Eva Sykova
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- $a Institute of Experimental Medicine, Academy of Sciences of the Czech Republic, Czech Republic. ales.hejcl@mnul.cz
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- $a OBJECT: Hydrogels are nontoxic, chemically inert synthetic polymers with a high water content and large surface area that provide mechanical support for cells and axons when implanted into spinal cord tissue. METHODS: Macroporous hydrogels based on 2-hydroxyethyl methacrylate (HEMA) were prepared by radical copolymerization of monomers in the presence of fractionated NaCl particles. Male Wistar rats underwent complete spinal cord transection at the T-9 level. To bridge the lesion, positively charged HEMA hydrogels were implanted either immediately or 1 week after spinal cord transection; control animals were left untreated. Histological evaluation was performed 3 months after spinal cord transection to measure the volume of the pseudocyst cavities and the ingrowth of tissue elements into the hydrogels. RESULTS: The hydrogel implants adhered well to the spinal cord tissue. Histological evaluation showed ingrowth of connective tissue elements, blood vessels, neurofilaments, and Schwann cells into the hydrogels. Morphometric analysis of lesions showed a statistically significant reduction in pseudocyst volume in the treated animals compared with controls and in the delayed treatment group compared with the immediate treatment group (p < 0.001 and p < 0.05, respectively). CONCLUSIONS: Positively charged HEMA hydrogels can bridge a posttraumatic spinal cord cavity and provide a scaffold for the ingrowth of regenerating axons. The results indicate that delayed implantation can be more effective than immediate reconstructive surgery.
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