STOCKHOLM, Oct. 12, 2023 /PRNewswire/ -- The medical
and technology teams at Bactiguard have, together with KTH,
Sweden's largest technical
university (Division of Micro and Nanosystems), and Karolinska Institute (Department of Clinical
Neuroscience), performed a study on the impact of using
Bactiguard's noble metal coating to reduce thrombo-inflammatory
reactions and acute stent thrombosis. In short, the conclusion of
the study is that when adding the Bactiguard's coating to implant
materials, the body's reaction to foreign objects is significantly
reduced.
Any medical device that is inserted into the blood stream will
cause a so called thrombo-inflammatory reaction. This includes
activation of the coagulation system, which potentially can result
in a thrombosis. A stent is a metal net designed to open a blood
vessel that is obstructed. Activation of the coagulation system and
build-up of a thrombosis within a stent is a very serious
complication that may lead to injury, or even to death.
The unique feature of Bactiguard's noble metal coating is that
it reduces microbial adhesion on the surface of a medical device.
Other studies have previously suggested that the coating also can
reduce the thrombo-inflammatory reaction. This specific study on
the impact of using Bactiguard's coating to reduce
thrombo-inflammatory reactions and acute stent thrombosis was
performed to gather even more clinical data and proof points of the
coating's efficacy. For innovation and future application
development purposes, two versions of the coating were applied to
the stents in the study - Bactiguard's "standard" coating
consisting of gold, silver and palladium, and a modified version
including neodymium.
The research methods used were both in vivo (in pigs) and in
vitro (through blood marker analysis which also included human
samples). The pigs underwent implantation of coated and non-coated
stents in a blinded fashion, where the interventionist did not know
which stents were coated and which were not. The experiment was
terminated after two hours, representing the acute phase of the
implantation. The stents were placed in the lingual artery with one
coated and one uncoated on each side. The volume of the stent was
analyzed using CT-scans data and performed by a treatment blinded
assessor. The researchers also conducted laboratory tests using
both human and pig blood. Note that the study obtained consent from
all human participants involved.
The measurements showed that the coated stent group had a
notable decrease in blood clot volume compared to the control
group. This effect was observed as early as one hour after the
stent was implanted and became even more accentuated after two
hours. The in vitro data, using both human and pig blood, showed a
significant decrease in markers of coagulation and inflammation in
the coated group compared to the control group.
Stefan Grass, Chief Medical
Officer at Bactiguard, says: "The finding of this study is
promising and yet another set of important data supporting the
efficacy of Bactiguard's coating. The combination of infection
prevention without increased risk of thrombosis is very appealing
and unique for a coated intravascular device."
The study was presented at the ISTH 2023 Congress in Montréal
late June, a conference for healthcare professionals working in the
fields of thrombosis and hemostasis. The study titled "A novel
noble metal stent coating reduces in vitro platelet activation and
acute in vivo thrombosis formation: a blinded study" is now
published in Scientific Reports.
https://www.nature.com/articles/s41598-023-44364-4
For further information, please contact:
Nina Nornholm, Communication &
IR Director +46 708 550 356
The following files are available for download:
https://mb.cision.com/Public/9686/3852519/b393d3c5b104aa15.pdf
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231012 Stent thrombosis
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