Tartışma
The presence of a low coronary orifice is an important
limitation of TAVI.[
2] During TAVI, coronary flow
restriction due to the obstruction of the coronary
ostium may occur either by direct blocking from
the implanted stent or from the native aortic leaflets
immobilized against the coronary orifices.[
2] Coronary
ostium height is an important factor associated with
coronary obstruction following TAVI.[
2] The incidence
of this complication may vary depending on the type
of the transcatheter valves (balloon-expandable and
self-expandable).[
2] The coronary obstruction rate is
doubled among patients who received a balloonexpandable
valve.[
2] Varying frame characteristics
and valve implantation mechanisms of these two
transcatheter valve systems can partially explain these
differences. Moreover, the vast majority (>80%) of
patients with coronary obstruction following TAVI are
women and the occurrence of coronary obstruction
is also more frequent among patients with a previous
surgical aortic bio-prosthesis.[
2] Recent reports have
shown that less coronary occlusion occurs, if a shorter
stent is placed on the lower level as possible in the aortic
annulus.[
4] We implanted the Sapien XT valve instead of
CoreValve (Medtronic Inc., Minneapolis, MN, USA),
as 23 no Sapien XT, which has a 14.3 mm height, is
more suitable and shorter than the other valves for our
case. We considered that THV should have been placed
in a lower level as possible into the left ventricular
outflow tract to avoid the proximity between THV and
the coronary ostium. However, malposition of the THV
into the sinus of Valsalva was seen on aortography,
after the first deployment without an occluded LMCA.
The possible reason of the continuing coronary flow
after the initial THV might be coronary ostium lateral
to the stent frame or there might be flow laterally from
the open sinuses (Figure
1f). The Sapien XT valve
was used in our case. Different prosthetic materials
and their implantation mechanisms may also affect
the possibility of the coronary flow impairment. For
instance, a new generation Edwards Sapien 3 THV can
better prevent the occurrence of this severe complication
than the earlier generation of the balloon-expandable
valve.[
5] Furthermore, CoreValve THV, which consists of a concave shape with self-expandable implantation
technique, can also prevent this complication. In patients
at a high-risk for coronary obstruction, we suggest to
implement additional precautions during the TAVI
procedure, such as simultaneous angiography during
the balloon valvuloplasty to visualize the coronary
obstruction or coronary protection with placing a
guidewire to the coronary artery in the presence of
suggestive clinical and anatomical parameters of risk.
Importantly, percutaneous coronary intervention was
also reported to be feasible, which was attempted
in 75% of the patients previously, with a success
rate of 81.8%.[
2] Finally, the use of a transcatheter
valve, which can be re-positioned or retrieved in
case of coronary obstruction following the valve
implantation, should probably be preferred in certain
high-risk cases. In the present case, despite the intraprocedural
pitfalls, the final result was satisfactory
with relatively low transvalvular gradients without a
coronary obstruction. It should be kept in mind that
malposition of the prosthesis can complicate the TAVI
procedure; however, it can be managed safely and
effectively with bailout transcatheter techniques.
In conclusion, coronary obstruction following the
transcatheter aortic valve implantation is a rare, but
potentially fatal complication. Low-lying coronary
ostium and small sinus of Valsalva may be anatomical
risk factors, which highlight the importance of a
thorough pre-procedural evaluation to avoid this
complication.
Declaration of conflicting interests
The authors declared no conflicts of interest with respect to
the authorship and/or publication of this article.
Funding
The authors received no financial support for the research
and/or authorship of this article.