Authored by Parivash Badar
Valvular heart disease affects >100 million patients worldwide
out of which 200,000 cases of aortic valve replacements are
performed annually and the numbers are predicted to rise
further due to the aging population and a subsequent increase in
degenerative valve disease. Based on an analysis of the Society
of Thoracic Surgeons National Database; between 1997 and
2006, Bioprosthetic tissue valve replacement gained prominence
causing a massive shift from mechanical to bioprosthetic valve
replacements. The use of mechanical valves decreased to 20.5%,
whereas the use of bioprosthetic valves increased to 78.4% [1, 2]
The transition from mechanical to bioprosthetic valve was partially
attributed to the fact that, younger individuals refuse long-term
anticoagulation and elderly patients are at a higher bleeding risk
[1].
Historically, it was regarded that chronic anti-coagulation and
monitoring could be deferred in patients receiving bioprosthetic
tissue valves. However, recent data shows bioprosthetic tissue
valves could also develop thrombosis, particularly since the
utilization of 4D CT angiography (4DCT) in practice. Most cases
of valve thrombosis were diagnosed at a median of 6 months
post-procedure, with patients presenting with Heart-Failure
like symptoms i.e.; progressive dyspnea with exertion, low left
ventricular ejection fractions, orthopnea, paroxysmal nocturnal
dyspnea, and patients demonstrating an increased requirement of
diuretics [3-6] Figure 1. Other likely predictors of valve thrombosis
include paroxysmal atrial fibrillation, sub-therapeutic INR in
patient who were anticoagulated with vitamin K antagonists,
increased body mass index and lack of anti-coagulation [1,7]. Valve
thrombosis may be associated with smaller valves <23 mm or valve
in valve procedures [3,4].
Echocardiographic findings of significant increase in
transvalvular gradient [5] in addition to leaflet thickening and
abnormal cusp mobility serves as independent predictors of valve
thrombosis. 4DCT, with its superior spatial resolution, is superior
to echocardiography in analyzing surgical aortic valve replacement
(SAVR)/Trans-catheter Aortic Valve Replacement (TAVR) leaflets’
morphology and excursion [3-6,7,8,9] (Figure 2A&2B).
There has been a colossal change in the T2DM treatment
options in the last decade with several new classes of drugs
emerging including dipeptidyl peptidase-4 inhibitors, glucagon-like
peptide 1 agonists and sodium glucose cotransporter-2 inhibitors
(SGLT-2i). Further to United States Food & Drug Administration (US
FDA) recommendations, all the new drugs now need to go through
cardiovascular (CV) safety studies and prove non-inferiority.
Surprisingly, SGLT-2i not only demonstrated CV safety but in
fact were shown to reduce heart failure admissions and improve
major adverse cardiac event (MACE) outcomes in patients with
established cardiovascular disease. This mini-review is focussed
on summarising the cardiovascular benefits of this exciting class of
new drugs.
The latest generation CT scanners with their superior temporal
and spatial resolution are now being increasingly utilized to further
analyze valve replacements in an accurate manner. They are also able to identify degenerative disease of the bioprosthetic valve
replacements by picking up leaflet calcification as well. 4DCT
was thus is considered not only superior in terms of its imaging
capabilities but it’s also considered a sensitive marker for early
calcification suggestive of bioprosthesic stenosis in the making and
hence has a lower threshold for identifying such cases [3,4,7,10-
13]. In our clinical practice we treat symptomatic patients with
Warfarin when indicated and follow up and monitor them with
echocardiography and 4DCT. Patients who receive prompt anticoagulation
and monitoring are often resolved of further symptoms
and see better outcomes.
Conclusion
4DCT with its advanced temporal and spatial imaging capability
is an imaging modality that has helped shape clinical practice in
patients with bioprosthetic valve thrombosis and is effective in
clinical decision making for anti-coagulation therapy [3,4,7,10-
13]. An increased awareness of symptoms and echocardiographic
parameters is necessary when managing such patients. We look
forward to more studies in the future that will put light on this topic
[14-18].
Acknowledgement
None.Conflict of Interest
No conflict of interest.
To read more about this article....Open access Journal of Cardiovascular Research
Please follow the URL to access more information about this article
To know more about our Journals....Iris Publishers
To know about Open Access Publishers
This is the wonderful information regarding hearts and it's function in Cardiovascular Research. Every medical student will have to be read this information. I always use herbal and ayurvedic medicine or heart tablet for heart disease.
ReplyDelete