Publication: Ultrastructural characterization of calcification onset and progression in subdermally implanted aortic valves. Histochemical and spectrometric data
Loading...
Date
2007
Authors
Ortolani, F. ; Bonetti, A. ; Tubaro, F. ; Petrelli, L. ; Contin, M. ; Nori, S.L. ; Spina, M. ; Marchini, M.
item.page.secondaryauthor
item.page.director
Publisher
Murcia : F. Hernández
publication.page.editor
publication.page.department
DOI
item.page.type
info:eu-repo/semantics/article
Description
Abstract
Detailed characterization of the subdermal
model is a significant tool for better understanding of
calcification mechanisms occurring in heart valves. In
previous ultrastructural investigation on six-weekimplantated
aortic valve leaflets, modified preembedding
glutaraldehyde-cuprolinic-blue reactions
(GA-CB) enabled sample decalcification with
concurrent retention/staining of lipid-containing
polyanionic material, which lined cells and cell-derived
matrix-vesicle-like bodies (phthalocyanin-positive
layers: PPLs) co-localizing with the earliest apatite
nucleation sites. Additional post-embedding silver
staining (GA-CB-S) revealed PPLs to contain calciumbinding
sites. This investigation concerns valve leaflets
subjected to shorter implantation times to shed light on
the modifications associated with PPLs generation and
calcification onset/progression. Spectrometric
estimations revealed time-dependent calcium increase,
for unreacted samples, and copper modifications
indicating an increase in acidic, non-glycanic material,
for GA-CB-reacted samples. Two-day-implant thin
sections showed emission and subsequent reabsorption
of lamellipodium-like protrusions by cells, originating
ECM-containing vacuoles, and/or degeneration stages
characterized by the appearance of GA-CB-S-reactive, organule-derived dense bodies and progressive
dissolution of all cell membranes. In one-week-implants,
the first PPL-lined cells were found to co-exist with cells
where GA-CB-S-reactive material accumulated, or
exudated towards their edges, or outcropped at the ECM
milieu, so acquiring PPL features. PPL-derived material
was observed increasingly to affect the ECM on thin sections of one-week- to six-week-implants. These
results show an endogenous source for PPLs and reveal
that a peculiar cascade of cell degenerative steps is
associated with valve mineralization in the subdermal
model, providing new useful parameters for more
reliable comparison of this experimental calcification
process versus the physiological and pathological
processes.
publication.page.subject
Citation
item.page.embargo
Ir a Estadísticas
Sin licencia Creative Commons.