Glycerol treatment as recovery procedure for cryopreserved human skin allografts positive for bacteria and fungi

Gilbert Verbeken; Gunther Verween; Daniel De Vos; Bruno Pascual; Peter De Corte; Cornelia Richters; Arlette De Coninck; Diane Roseeuw; Nadine Ectors; Thomas Rose; Serge Jennes; Jean Paul Pirnay

doi:10.1007/s10561-011-9244-6

Glycerol treatment as recovery procedure for cryopreserved human skin allografts positive for bacteria and fungi

Gilbert Verbeken, Gunther Verween, Daniel De Vos, Bruno Pascual, Peter De Corte, Cornelia Richters, Arlette De Coninck, Diane Roseeuw, Nadine Ectors, Thomas Rose, Serge Jennes, Jean Paul Pirnay

Research output: Contribution to journal › Article › peer-review

Abstract

Human donor skin allografts are suitable and much used temporary biological (burn) wound dressings. They prepare the excised wound bed for final autografting and form an excellent substrate for revascularisation and for the formation of granulation tissue. Two preservation methods, glycerol preservation and cryopreservation, are commonly used by tissue banks for the long-term storage of skin grafts. The burn surgeons of the Queen Astrid Military Hospital preferentially use partly viable cryopreserved skin allografts. After mandatory 14-day bacterial and mycological culture, however, approximately 15% of the cryopreserved skin allografts cannot be released from quarantine because of positive culture. To maximize the use of our scarce and precious donor skin, we developed a glycerolisation-based recovery method for these culture positive cryopreserved allografts. The inactivation and preservation method, described in this paper, allowed for an efficient inactivation of the colonising bacteria and fungi, with the exception of spore-formers, and did not influence the structural and functional aspects of the skin allografts.

Original language	English
Pages (from-to)	1-7
Number of pages	7
Journal	Cell and Tissue Banking
Volume	13
Issue number	1
DOIs	https://doi.org/10.1007/s10561-011-9244-6
Publication status	Published - Mar 2012

Keywords

Bacterial and fungal contamination
Bacterial and fungal decontamination
Cryopreservation
Glycerol preservation
Skin allograft
Skin banking

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title = "Glycerol treatment as recovery procedure for cryopreserved human skin allografts positive for bacteria and fungi",

abstract = "Human donor skin allografts are suitable and much used temporary biological (burn) wound dressings. They prepare the excised wound bed for final autografting and form an excellent substrate for revascularisation and for the formation of granulation tissue. Two preservation methods, glycerol preservation and cryopreservation, are commonly used by tissue banks for the long-term storage of skin grafts. The burn surgeons of the Queen Astrid Military Hospital preferentially use partly viable cryopreserved skin allografts. After mandatory 14-day bacterial and mycological culture, however, approximately 15% of the cryopreserved skin allografts cannot be released from quarantine because of positive culture. To maximize the use of our scarce and precious donor skin, we developed a glycerolisation-based recovery method for these culture positive cryopreserved allografts. The inactivation and preservation method, described in this paper, allowed for an efficient inactivation of the colonising bacteria and fungi, with the exception of spore-formers, and did not influence the structural and functional aspects of the skin allografts.",

keywords = "Bacterial and fungal contamination, Bacterial and fungal decontamination, Cryopreservation, Glycerol preservation, Skin allograft, Skin banking",

author = "Gilbert Verbeken and Gunther Verween and {De Vos}, Daniel and Bruno Pascual and {De Corte}, Peter and Cornelia Richters and {De Coninck}, Arlette and Diane Roseeuw and Nadine Ectors and Thomas Rose and Serge Jennes and Pirnay, {Jean Paul}",

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AU - Verbeken, Gilbert

AU - Verween, Gunther

AU - De Vos, Daniel

AU - Pascual, Bruno

AU - De Corte, Peter

AU - Richters, Cornelia

AU - De Coninck, Arlette

AU - Roseeuw, Diane

AU - Ectors, Nadine

AU - Rose, Thomas

AU - Jennes, Serge

AU - Pirnay, Jean Paul

PY - 2012/3

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N2 - Human donor skin allografts are suitable and much used temporary biological (burn) wound dressings. They prepare the excised wound bed for final autografting and form an excellent substrate for revascularisation and for the formation of granulation tissue. Two preservation methods, glycerol preservation and cryopreservation, are commonly used by tissue banks for the long-term storage of skin grafts. The burn surgeons of the Queen Astrid Military Hospital preferentially use partly viable cryopreserved skin allografts. After mandatory 14-day bacterial and mycological culture, however, approximately 15% of the cryopreserved skin allografts cannot be released from quarantine because of positive culture. To maximize the use of our scarce and precious donor skin, we developed a glycerolisation-based recovery method for these culture positive cryopreserved allografts. The inactivation and preservation method, described in this paper, allowed for an efficient inactivation of the colonising bacteria and fungi, with the exception of spore-formers, and did not influence the structural and functional aspects of the skin allografts.

AB - Human donor skin allografts are suitable and much used temporary biological (burn) wound dressings. They prepare the excised wound bed for final autografting and form an excellent substrate for revascularisation and for the formation of granulation tissue. Two preservation methods, glycerol preservation and cryopreservation, are commonly used by tissue banks for the long-term storage of skin grafts. The burn surgeons of the Queen Astrid Military Hospital preferentially use partly viable cryopreserved skin allografts. After mandatory 14-day bacterial and mycological culture, however, approximately 15% of the cryopreserved skin allografts cannot be released from quarantine because of positive culture. To maximize the use of our scarce and precious donor skin, we developed a glycerolisation-based recovery method for these culture positive cryopreserved allografts. The inactivation and preservation method, described in this paper, allowed for an efficient inactivation of the colonising bacteria and fungi, with the exception of spore-formers, and did not influence the structural and functional aspects of the skin allografts.

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KW - Glycerol preservation

KW - Skin allograft

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Glycerol treatment as recovery procedure for cryopreserved human skin allografts positive for bacteria and fungi

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