Coronary Bifurcation Stenosis Clinical Trial
Official title:
BIfurcation Optimal Treatment Strategy With LIMus Eluting Dedicated Bifurcation Versus Convention Stent Randomized Study
Study aims: to compare two intervention strategies for bifurcation treatment - provisional T-stenting (PTS) with drug-eluting stent (sirolimus eluting), with kissing balloon inflation at the end of procedure - the best treatment strategy at the moment, with stenting of bifurcation lesions with dedicated bifurcation drug-eluting stent BiOSS Lym.
The coronary bifurcation lesions pose a therapeutic problem with high rates of
periprocedural complications, higher rates of in-stent restenosis and stent thrombosis.
These are lesions where stenting is not superior in comparison to balloon angioplasty in
regard to side branch. It was demonstrated many times, in literature and in daily practice,
that angiographically high grade ostial side branch stenosis is not flow limiting and do not
cause ischemia, therefore do not require treatment. From the other side, our own data with
magnetic resonance imaging (MRI) before and after bifurcation percutaneous coronary
intervention (PCI) demonstrated that occurrence of angiographic stenosis more than 70% in
diameter is associated with periprocedural myonecrosis in the region of side branch. This
fact puts a very important question about the mechanisms of this myonecrosis. If the jailed
side branch has no significant flow limiting stenosis, but there is some degree of residual
ischemia, which after some period of persistence could lead to myonecrosis, will mean that
more aggressive treatment of ostial stenosis is needed. It is interesting that the strategy
of treatment is very important, because techniques with second stent implantation (with
primary purpose to limit side branch (SB) ischemia) are associated with higher grade of
troponin increase. Of course this is association and not causality, despite that in
randomized study it was confirmed also.
Even after the introduction of drug-eluting stents (DES) in the treatment of coronary
bifurcation lesions, important basic problems remain. It was proposed that these problems
are related to non-dedicated design of conventional stent intended for treatment of straight
vessel segments. Thus any deformation of the stents during bifurcation implantation depends
on the stent cell shape, size and material properties (11). To resolve these problems it was
suggested to make dedicated bifurcation stents (1, 2, 11). However, the special "dedication"
per se is not defined and unclear as terminology - the stent could be dedicated for patient
fitting the anatomical characteristics of particular bifurcation point (vessel diameters,
angulations), giving better hemodynamic conditions; or stent could be dedicated for operator
to make the procedure quicker and safer, eliminating or limiting SB compromise. Probably the
best option is the combination of both characteristics.
The currently available stents on the market generally target the second requirement. Three
groups of stents are available at this moment - proximal main vessel (MV) stent (Axxess,
Devax, USA), MV stenting across the SB with different designs making possible permanent
access to SB and finally purely SB dedicated stents (Tryton, Sideguard, Biguard). Neither of
these stents did not match proximal - distal MV size difference nor take into account
between vessel angulations. The device success rate varies considerably (75% - 100%);
however the study with 100% success was performed in only 11 patients. For all other devices
the success rate is around 85%. The proximal MV stent and SB only stents require additional
stent implantation for non-intended vessel. Stents designed to have permanent access to SB
are implanted over 2 wires, which in reality makes the procedure more difficult and
demanding rather to simplify it (which was the primary intention of those stents). The
reasons are wires crisscrossing, wire-bias in proper orientation of device to SB (rotational
and axial positioning). This, along with requirement of larger guide catheter size explains
why the dedicated stents do not gain popularity in the interventional cardiology community.
The BiOSS Lim stent (Balton, Warsaw, Poland) is completely different from the above systems.
The stent is designed to be user friendly: it tracked over one wire and its profile is quite
low (1.08mm), which make it possible to implant it even through 5 Fr guiding catheter. The
stent fits the bifurcation anatomy - it matches the proximal - distal diameters of the main
vessel (MV); as it permits deformation in its mid-part it can adapt exactly on main vessel -
main branch angle angle, making wide opening to SB. If the SB must be dilated the stent
recrossing is very easy, because wider proximal and narrow distal parts give step-down at
carina tip region, in this way self direct wire to SB. The proximal and distal parts of the
stent work independently and SB could be safely dilated without need from kissing balloon
inflation as no deformation of contralateral wall strut. This simplifies and shortens the
procedure. And finally, the stent construction prevents carina displacement, as a basic
mechanism of side branch compromise.
Study aims: to compare two intervention strategies for bifurcation treatment - provisional
T-stenting (PTS) with drug-eluting stent (sirolimus eluting), with kissing balloon inflation
at the end of procedure - the best treatment strategy at the moment, with stenting of
bifurcation lesions with dedicated bifurcation drug-eluting stent BiOSS Lym.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
| Status | Clinical Trial | Phase | |
|---|---|---|---|
| Completed |
NCT06446102 -
Bifurcation Coronary Lesion 0-0-1
|