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Gastrectomy has no effect on bone regeneration in rats despite a decrease in bone mass

Zellin, G ; Håkanson, Rolf LU and Linde, A (2002) In Scandinavian Journal of Gastroenterology 37(10). p.1149-1155
Abstract
Background: Gastrectomy, specifically the removal of the acid-producing part of the stomach (fundectomy), is known to cause osteopenia. This effect has been ascribed to the elimination of a hypothetical osteotropic peptide hormone, presumably produced in the oxyntic mucosa. Since osteopenia is due to a disturbed balance between bone formation and resorption, we assessed the effect of gastrectomy on osteogenesis, more specifically mandibular orthotopic bone regeneration. Methods: Adult rats were either gastrectomized or sham-operated. Two weeks later, unilateral 5-mm transosseous defects were made in the mandibles and covered with microporous barrier membranes (GORE-TEX(R) Membrane). After 6 weeks of healing, bone-bridging of the defects... (More)
Background: Gastrectomy, specifically the removal of the acid-producing part of the stomach (fundectomy), is known to cause osteopenia. This effect has been ascribed to the elimination of a hypothetical osteotropic peptide hormone, presumably produced in the oxyntic mucosa. Since osteopenia is due to a disturbed balance between bone formation and resorption, we assessed the effect of gastrectomy on osteogenesis, more specifically mandibular orthotopic bone regeneration. Methods: Adult rats were either gastrectomized or sham-operated. Two weeks later, unilateral 5-mm transosseous defects were made in the mandibles and covered with microporous barrier membranes (GORE-TEX(R) Membrane). After 6 weeks of healing, bone-bridging of the defects was analyzed by computerized light microscopic image analysis. Furthermore, bone mass was analyzed in the contralateral untreated mandibular side, in calvaria l bone, and in femora by morphometry and dry/ash weights. Results: While gastrectomy resulted in a clearly decreased bone mass, manifested as increased marrow spaces in all bones and as decreased dry and ash weights in femora, no difference in mandibular bone healing rate was found between the groups. Conclusions: Since secluding of the defect space by membrane barriers implies that osteogenic cells have to be recruited primarily from intra-osseous stem cells by their proliferation and differentiation into actively bone-forming osteoblasts, the results indicate that gastrectomy has no effect on these processes. The findings thus imply that the disturbed balance in bone remodeling caused by gastrectomy, resulting in osteopenia, may be due to stimulated bone resorption rather than to reduced bone formation. (Less)
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author
; and
organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
osteogenesis, mandible, gastrectomy, bone regeneration, gastrin, polytetrafluoroethylene membrane, osteopenia
in
Scandinavian Journal of Gastroenterology
volume
37
issue
10
pages
1149 - 1155
publisher
Taylor & Francis
external identifiers
  • wos:000178606100006
  • pmid:12408519
  • scopus:0036795123
ISSN
1502-7708
language
English
LU publication?
yes
id
4d953c0c-988f-408f-b782-beb94f9276ea (old id 325135)
date added to LUP
2016-04-01 16:42:52
date last changed
2022-01-28 21:39:25
@article{4d953c0c-988f-408f-b782-beb94f9276ea,
  abstract     = {{Background: Gastrectomy, specifically the removal of the acid-producing part of the stomach (fundectomy), is known to cause osteopenia. This effect has been ascribed to the elimination of a hypothetical osteotropic peptide hormone, presumably produced in the oxyntic mucosa. Since osteopenia is due to a disturbed balance between bone formation and resorption, we assessed the effect of gastrectomy on osteogenesis, more specifically mandibular orthotopic bone regeneration. Methods: Adult rats were either gastrectomized or sham-operated. Two weeks later, unilateral 5-mm transosseous defects were made in the mandibles and covered with microporous barrier membranes (GORE-TEX(R) Membrane). After 6 weeks of healing, bone-bridging of the defects was analyzed by computerized light microscopic image analysis. Furthermore, bone mass was analyzed in the contralateral untreated mandibular side, in calvaria l bone, and in femora by morphometry and dry/ash weights. Results: While gastrectomy resulted in a clearly decreased bone mass, manifested as increased marrow spaces in all bones and as decreased dry and ash weights in femora, no difference in mandibular bone healing rate was found between the groups. Conclusions: Since secluding of the defect space by membrane barriers implies that osteogenic cells have to be recruited primarily from intra-osseous stem cells by their proliferation and differentiation into actively bone-forming osteoblasts, the results indicate that gastrectomy has no effect on these processes. The findings thus imply that the disturbed balance in bone remodeling caused by gastrectomy, resulting in osteopenia, may be due to stimulated bone resorption rather than to reduced bone formation.}},
  author       = {{Zellin, G and Håkanson, Rolf and Linde, A}},
  issn         = {{1502-7708}},
  keywords     = {{osteogenesis; mandible; gastrectomy; bone regeneration; gastrin; polytetrafluoroethylene membrane; osteopenia}},
  language     = {{eng}},
  number       = {{10}},
  pages        = {{1149--1155}},
  publisher    = {{Taylor & Francis}},
  series       = {{Scandinavian Journal of Gastroenterology}},
  title        = {{Gastrectomy has no effect on bone regeneration in rats despite a decrease in bone mass}},
  volume       = {{37}},
  year         = {{2002}},
}