Cold hibernated elastic memory foams for endovascular interventions

Cold hibernated elastic memory (CHEM) polyurethane-based foam is a new shape memory polymeric self-deployable structure. Standard cytotoxicity and mutagenicity tests were conducted on CHEM in vitro, to ensure biocompatibility before studying potential medical applications. In vivo, lateral wall aneu...

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Published inBiomaterials Vol. 24; no. 3; pp. 491 - 497
Main Authors Metcalfe, Annick, Desfaits, Anne-Cécile, Salazkin, Igor, Yahia, L’Hocine, Sokolowski, Witold M, Raymond, Jean
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier Ltd 01.02.2003
Subjects
Aneurysm
Aneurysm - therapy
Angiography
Animals
Biocompatible Materials
Carotid Artery Diseases - pathology
Carotid Artery Diseases - physiopathology
Cold hibernated elastic memory (CHEM)
Dogs
Embolization
Endothelium, Vascular - metabolism
Endovascular
Muscle, Smooth, Vascular - pathology
Mutagenicity Tests
Mutagens
Polyurethane
Polyurethanes - administration & dosage
Polyurethanes - chemistry
Polyurethanes - pharmacology
Shape memory polymer (SMP)
Temperature
Time Factors
Embolization
Shape memory polymer (SMP)
Cold hibernated elastic memory (CHEM)
Polyurethane
Endovascular
Aneurysm
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Abstract Cold hibernated elastic memory (CHEM) polyurethane-based foam is a new shape memory polymeric self-deployable structure. Standard cytotoxicity and mutagenicity tests were conducted on CHEM in vitro, to ensure biocompatibility before studying potential medical applications. In vivo, lateral wall aneurysms were constructed on both carotid arteries of eight dogs. Aneurysms were occluded per-operatively with CHEM blocks. In two dogs, CHEM embolization was compared with gelatin sponge fragment embolization. Internal maxillary arteries (Imax) were also occluded with CHEM using a 6F transcatheter technique. Angiography and pathology were used to study the evolution of aneurysms and Imax at 3 and 12 weeks. Imax embolized with CHEM foam remained occluded at 3 weeks. Most aneurysms embolized with CHEM showed a small residual crescent of opacification at initial angiography, but angiographic scores were significantly better at 3 weeks. Thick neointima formation over the CHEM at the neck of aneurysms was demonstrated at pathology. The foamy nature of CHEM favours the ingrowth of cells involved in neointima formation. New devices for endovascular interventions could be designed using CHEM's unique physical properties.
AbstractList Cold hibernated elastic memory (CHEM) polyurethane-based foam is a new shape memory polymeric self-deployable structure. Standard cytotoxicity and mutagenicity tests were conducted on CHEM in vitro, to ensure biocompatibility before studying potential medical applications. In vivo, lateral wall aneurysms were constructed on both carotid arteries of eight dogs. Aneurysms were occluded per-operatively with CHEM blocks. In two dogs, CHEM embolization was compared with gelatin sponge fragment embolization. Internal maxillary arteries (Imax) were also occluded with CHEM using a 6F transcatheter technique. Angiography and pathology were used to study the evolution of aneurysms and Imax at 3 and 12 weeks. Imax embolized with CHEM foam remained occluded at 3 weeks. Most aneurysms embolized with CHEM showed a small residual crescent of opacification at initial angiography, but angiographic scores were significantly better at 3 weeks. Thick neointima formation over the CHEM at the neck of aneurysms was demonstrated at pathology. The foamy nature of CHEM favours the ingrowth of cells involved in neointima formation. New devices for endovascular interventions could be designed using CHEM's unique physical properties.
Cold hibernated elastic memory (CHEM) polyurethane-based foam is a new shape memory polymeric self-deployable structure. Standard cytotoxicity and mutagenicity tests were conducted on CHEM in vitro, to ensure biocompatibility before studying potential medical applications. In vivo, lateral wall aneurysms were constructed on both carotid arteries of eight dogs. Aneurysms were occluded per-operatively with CHEM blocks. In two dogs, CHEM embolization was compared with gelatin sponge fragment embolization. Internal maxillary arteries (Imax) were also occluded with CHEM using a 6F transcatheter technique. Angiography and pathology were used to study the evolution of aneurysms and Imax at 3 and 12 weeks. Imax embolized with CHEM foam remained occluded at 3 weeks. Most aneurysms embolized with CHEM showed a small residual crescent of opacification at initial angiography, but angiographic scores were significantly better at 3 weeks. Thick neointima formation over the CHEM at the neck of aneurysms was demonstrated at pathology. The foamy nature of CHEM favours the ingrowth of cells involved in neointima formation. New devices for endovascular interventions could be designed using CHEM's unique physical properties.Cold hibernated elastic memory (CHEM) polyurethane-based foam is a new shape memory polymeric self-deployable structure. Standard cytotoxicity and mutagenicity tests were conducted on CHEM in vitro, to ensure biocompatibility before studying potential medical applications. In vivo, lateral wall aneurysms were constructed on both carotid arteries of eight dogs. Aneurysms were occluded per-operatively with CHEM blocks. In two dogs, CHEM embolization was compared with gelatin sponge fragment embolization. Internal maxillary arteries (Imax) were also occluded with CHEM using a 6F transcatheter technique. Angiography and pathology were used to study the evolution of aneurysms and Imax at 3 and 12 weeks. Imax embolized with CHEM foam remained occluded at 3 weeks. Most aneurysms embolized with CHEM showed a small residual crescent of opacification at initial angiography, but angiographic scores were significantly better at 3 weeks. Thick neointima formation over the CHEM at the neck of aneurysms was demonstrated at pathology. The foamy nature of CHEM favours the ingrowth of cells involved in neointima formation. New devices for endovascular interventions could be designed using CHEM's unique physical properties.
In vitro, standard cytotoxicity and mutagenicity tests were conducted on cold hibernated elastic memory (CHEM) polyurethane-based foam, to ensure biocompatibility before studying potential medical applications. In vivo, lateral wall aneurysms were constructed on both carotid arteries in 8 dogs and aneurysms were occluded per-operatively with CHEM blocks and compared with embolization by gelatin sponges. Internal maxillary arteries (Imax) were also occluded with CHEM. Imax embolized with CHEM foam remained occluded at 3 weeks. Thick neointima formation over the CHEM at the neck of aneurysms was demonstrated at pathology. The foamy nature of CHEM favours the ingrowth of cells involved in neointima formation.
Cold hibernated elastic memory (CHEM) polyurethane-based foam is a new shape memory polymeric self-deployable structure. Standard cytotoxicity and mutagenicity tests were conducted on CHEM in vitro, to ensure biocompatibility before studying potential medical applications. In vivo, lateral wall aneurysms were constructed on both carotid arteries of eight dogs. Aneurysms were occluded per-operatively with CHEM blocks. In two dogs, CHEM embolization was compared with gelatin sponge fragment embolization. Internal maxillary arteries (Imax) were also occluded with CHEM using a 6F transcatheter technique. Angiography and pathology were used to study the evolution of aneurysms and Imax at 3 and 12 weeks. Imax embolized with CHEM foam remained occluded at 3 weeks. Most aneurysms embolized with CHEM showed a small residual crescent of opacification at initial angiography, but angiographic scores were significantly better at 3 weeks. Thick neointima formation over the CHEM at the neck of aneurysms was demonstrated at pathology. The foamy nature of CHEM favours the ingrowth of cells involved in neointima formation. New devices for endovascular interventions could be designed using CHEM's unique physical properties.
Author Sokolowski, Witold M
Raymond, Jean
Salazkin, Igor
Metcalfe, Annick
Desfaits, Anne-Cécile
Yahia, L’Hocine
Author_xml – sequence: 1
  givenname: Annick
  surname: Metcalfe
  fullname: Metcalfe, Annick
  email: annick.metcalfe@polymtl.ca
  organization: Interventional Neuroradiology Laboratory, CHUM Research Center, Notre-Dame Hospital, Mailloux Pavilion M-8206, 1560 Sherbrooke East, Montreal, Que, Canada H2L 4M1
– sequence: 2
  givenname: Anne-Cécile
  surname: Desfaits
  fullname: Desfaits, Anne-Cécile
  organization: Interventional Neuroradiology Laboratory, CHUM Research Center, Notre-Dame Hospital, Mailloux Pavilion M-8206, 1560 Sherbrooke East, Montreal, Que, Canada H2L 4M1
– sequence: 3
  givenname: Igor
  surname: Salazkin
  fullname: Salazkin, Igor
  organization: Interventional Neuroradiology Laboratory, CHUM Research Center, Notre-Dame Hospital, Mailloux Pavilion M-8206, 1560 Sherbrooke East, Montreal, Que, Canada H2L 4M1
– sequence: 4
  givenname: L’Hocine
  surname: Yahia
  fullname: Yahia, L’Hocine
  organization: Biomedical Engineering Institute, École Polytechnique, PO Box 6079, Montreal, Que, Canada H3C 3A7
– sequence: 5
  givenname: Witold M
  surname: Sokolowski
  fullname: Sokolowski, Witold M
  organization: Jet Propulsion Laboratory, California Institute of Technology, Pasadena, CA 91109, USA
– sequence: 6
  givenname: Jean
  surname: Raymond
  fullname: Raymond, Jean
  organization: Interventional Neuroradiology Laboratory, CHUM Research Center, Notre-Dame Hospital, Mailloux Pavilion M-8206, 1560 Sherbrooke East, Montreal, Que, Canada H2L 4M1
BackLink https://www.ncbi.nlm.nih.gov/pubmed/12423604$$D View this record in MEDLINE/PubMed
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IsPeerReviewed true
IsScholarly true
Issue 3
Keywords Embolization
Shape memory polymer (SMP)
Cold hibernated elastic memory (CHEM)
Polyurethane
Endovascular
Aneurysm
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Snippet Cold hibernated elastic memory (CHEM) polyurethane-based foam is a new shape memory polymeric self-deployable structure. Standard cytotoxicity and mutagenicity...
Cold hibernated elastic memory (CHEM) polyurethane-based foam is a new shape memory polymeric self-deployable structure. Standard cytotoxicity and mutagenicity...
In vitro, standard cytotoxicity and mutagenicity tests were conducted on cold hibernated elastic memory (CHEM) polyurethane-based foam, to ensure...
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StartPage 491
SubjectTerms Aneurysm
Aneurysm - therapy
Angiography
Animals
Biocompatible Materials
Carotid Artery Diseases - pathology
Carotid Artery Diseases - physiopathology
Cold hibernated elastic memory (CHEM)
Dogs
Embolization
Endothelium, Vascular - metabolism
Endovascular
Muscle, Smooth, Vascular - pathology
Mutagenicity Tests
Mutagens
Polyurethane
Polyurethanes - administration & dosage
Polyurethanes - chemistry
Polyurethanes - pharmacology
Shape memory polymer (SMP)
Temperature
Time Factors
Title Cold hibernated elastic memory foams for endovascular interventions
URI https://www.clinicalkey.com/#!/content/1-s2.0-S0142961202003629
https://dx.doi.org/10.1016/S0142-9612(02)00362-9
https://www.ncbi.nlm.nih.gov/pubmed/12423604
https://www.proquest.com/docview/27813252
https://www.proquest.com/docview/72880646
Volume 24
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