The properties of inducible membranes in animals and humans

Monique Bethel; Susan McDowell; Brahmananda Chitteti; Ying Hua Cheng; Brian H. Mullis; Janos P. Ertl; Tien Min G. Chu; Melissa A. Kacena; Jeffrey O. Anglen

doi:10.1504/IJMEI.2017.085045

The properties of inducible membranes in animals and humans

Monique Bethel, Susan McDowell, Brahmananda Chitteti, Ying Hua Cheng, Brian H. Mullis, Janos P. Ertl, Tien Min G. Chu, Melissa A. Kacena, Jeffrey O. Anglen

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

Abstract

Membranes form around spacers used in large bone defects. We studied the effect of the spacer material on the ability of the membrane to promote osteogenesis in an animal model and the gene expression patterns of membranes obtained from humans. Critical-sized osseous defects were created in the ulnae of 12 rabbits. Stainless steel (SS) or polymethymethacrylate (PMMA) spacers were inserted into the defects, and the animals healed for four or eight weeks. After sacrifice, samples of the membrane were grown in cell culture. Human membrane samples were collected for gene expression analyses. Cultures of rabbit membranes with bone marrow cells showed significantly greater alkaline phosphatase activity (PMMA) and mineral deposition (SS) than bone marrow cells alone. All membranes had elevated expression of osteoblast-related genes. Inducible membranes around orthopaedic implants likely contain active cells of the OB lineage and the spacer material may influence the healing properties of the membrane.

Original language	English (US)
Pages (from-to)	189-200
Number of pages	12
Journal	International Journal of Medical Engineering and Informatics
Volume	9
Issue number	3
DOIs	https://doi.org/10.1504/IJMEI.2017.085045
State	Published - 2017
Externally published	Yes

Keywords

Animal model
Bone healing
Masquelet membrane
Segmental bone defects

ASJC Scopus subject areas

Medicine (miscellaneous)
Biomaterials
Biomedical Engineering
Health Informatics

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10.1504/IJMEI.2017.085045

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title = "The properties of inducible membranes in animals and humans",

abstract = "Membranes form around spacers used in large bone defects. We studied the effect of the spacer material on the ability of the membrane to promote osteogenesis in an animal model and the gene expression patterns of membranes obtained from humans. Critical-sized osseous defects were created in the ulnae of 12 rabbits. Stainless steel (SS) or polymethymethacrylate (PMMA) spacers were inserted into the defects, and the animals healed for four or eight weeks. After sacrifice, samples of the membrane were grown in cell culture. Human membrane samples were collected for gene expression analyses. Cultures of rabbit membranes with bone marrow cells showed significantly greater alkaline phosphatase activity (PMMA) and mineral deposition (SS) than bone marrow cells alone. All membranes had elevated expression of osteoblast-related genes. Inducible membranes around orthopaedic implants likely contain active cells of the OB lineage and the spacer material may influence the healing properties of the membrane.",

keywords = "Animal model, Bone healing, Masquelet membrane, Segmental bone defects",

author = "Monique Bethel and Susan McDowell and Brahmananda Chitteti and Cheng, {Ying Hua} and Mullis, {Brian H.} and Ertl, {Janos P.} and Chu, {Tien Min G.} and Kacena, {Melissa A.} and Anglen, {Jeffrey O.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2017 Inderscience Enterprises Ltd.",

year = "2017",

doi = "10.1504/IJMEI.2017.085045",

language = "English (US)",

volume = "9",

pages = "189--200",

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AU - Bethel, Monique

AU - McDowell, Susan

AU - Chitteti, Brahmananda

AU - Cheng, Ying Hua

AU - Mullis, Brian H.

AU - Ertl, Janos P.

AU - Chu, Tien Min G.

AU - Kacena, Melissa A.

AU - Anglen, Jeffrey O.

PY - 2017

Y1 - 2017

N2 - Membranes form around spacers used in large bone defects. We studied the effect of the spacer material on the ability of the membrane to promote osteogenesis in an animal model and the gene expression patterns of membranes obtained from humans. Critical-sized osseous defects were created in the ulnae of 12 rabbits. Stainless steel (SS) or polymethymethacrylate (PMMA) spacers were inserted into the defects, and the animals healed for four or eight weeks. After sacrifice, samples of the membrane were grown in cell culture. Human membrane samples were collected for gene expression analyses. Cultures of rabbit membranes with bone marrow cells showed significantly greater alkaline phosphatase activity (PMMA) and mineral deposition (SS) than bone marrow cells alone. All membranes had elevated expression of osteoblast-related genes. Inducible membranes around orthopaedic implants likely contain active cells of the OB lineage and the spacer material may influence the healing properties of the membrane.

AB - Membranes form around spacers used in large bone defects. We studied the effect of the spacer material on the ability of the membrane to promote osteogenesis in an animal model and the gene expression patterns of membranes obtained from humans. Critical-sized osseous defects were created in the ulnae of 12 rabbits. Stainless steel (SS) or polymethymethacrylate (PMMA) spacers were inserted into the defects, and the animals healed for four or eight weeks. After sacrifice, samples of the membrane were grown in cell culture. Human membrane samples were collected for gene expression analyses. Cultures of rabbit membranes with bone marrow cells showed significantly greater alkaline phosphatase activity (PMMA) and mineral deposition (SS) than bone marrow cells alone. All membranes had elevated expression of osteoblast-related genes. Inducible membranes around orthopaedic implants likely contain active cells of the OB lineage and the spacer material may influence the healing properties of the membrane.

KW - Animal model

KW - Bone healing

KW - Masquelet membrane

KW - Segmental bone defects

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EP - 200

JO - International Journal of Medical Engineering and Informatics

JF - International Journal of Medical Engineering and Informatics

IS - 3

ER -

The properties of inducible membranes in animals and humans

Abstract

Keywords

ASJC Scopus subject areas

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