dc.description.abstract |
AIM
To establish a rat model of anal sphincter injury and
test different systems to provide stem cells to injured
area.
METHODS
Adipose-derived stem cells (ASCs) were isolated from
BDIX rats and were transfected with green fluorescent
protein (GFP) for cell tracking. Biosutures (sutures
covered with ASCs) were prepared with 1.5 x 106
GFPASCs, and solutions of 106
GFP-ASCs in normal saline
were prepared for injection. Anorectal normal anatomy
was studied on Wistar and BDIX female rats. Then,
we designed an anal sphincter injury model consisting
of a 1-cm extra-mucosal miotomy beginning at the
anal verge in the anterior middle line. The sphincter
lesion was confirmed with conventional histology
(hematoxylin and eosin) and immunofluorescence with
4', 6-diamidino-2-phenylindole (commonly known as
DAPI), GFP and ¿-actin. Functional effect was assessed
with basal anal manometry, prior to and after injury.
After sphincter damage, 36 BDIX rats were randomized
to three groups for: (1) Cell injection without repair;
(2) biosuture repair; and (3) conventional suture repair
and cell injection. Functional and safety studies were
conducted on all the animals. Rats were sacrificed after
1, 4 or 7 d. Then, histological and immunofluorescence
studies were performed on the surgical area.
RESULTS
With the described protocol, biosutures had been
covered with at least 820000-860000 ASCs, with
100% viability. Our studies demonstrated that some
ASCs remained adhered after suture passage through
the muscle. Morphological assessment showed that
the rat anal anatomy is comparable with human
anatomy; two sphincters are present, but the external
sphincter is poorly developed. Anal sphincter pressure
data showed spontaneous, consistent, rhythmic
anal contractions, taking the form of ¿plateaus¿ with
multiple twitches (peaks) in each pressure wave.
These basal contractions were very heterogeneous;
their frequency was 0.91-4.17 per min (mean 1.6980,
SD 0.57698), their mean duration was 26.67 s and
mean number of peaks was 12.53. Our morphological
assessment revealed that with the aforementioned
surgical procedure, both sphincters were completely
sectioned. In manometry, the described activity
disappeared and was replaced by a gentle oscillation of
basal line, without a recognizable pattern. Surprisingly,
these findings appeared irrespective of injury repair or
not. ASCs survived in this potentially septic area for 7
d, at least. We were able to identify them in 84% of
animals, mainly in the muscular section area or in the
tissue between the muscular endings. ASCs formed a
kind of ¿conglomerate¿ in rats treated with injections,
while in the biosuture group, they wrapped the suture.
ASCs were also able to migrate to the damaged zone.
No relevant adverse events or mortality could be
related to the stem cells in our study. We also did not
find unexpected tissue growths.
CONCLUSION
The proposed procedure produces a consistent sphincter lesion. Biosutures and injections are suitable for cell
delivery. ASCs survive and are completely safe in this
clinical setting.
Key words: Fecal incontinence; Experimental rat model;
Anal sphincter; Cell implantation; Cell therapy; Stem
cells; Mesenchymal stem cell |
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