Our ultimate goal is to design a multi-center randomized trial to test the hypothesis that targeted testing for transthyretin cardiac amyloid (ATTR) will improve survival and health status among aortic stenosis patients who undergo transcatheter aortic valve replacement (TAVR). The hypothesis of this pilot study is to evaluate if invasive cardiac hemodynamics obtained after TAVR, by using the AortoVentricular index (AVi), can be used as a novel test to help identify participants with ATTR. Aim 1. To determine if an abnormal AVi value can identify ATTR among aortic stenosis patients undergoing TAVR. Aim 2. To determine if s' from echocardiography plus AVi can enhance the prediction of ATTR among aortic stenosis patients undergoing TAVR. Aim 3. To design a pilot trial to improve patient outcomes after TAVR by targeted testing for ATTR.
Aim 1. To determine if an abnormal AVi value can identify ATTR among aortic stenosis patients undergoing TAVR. Patients undergoing TAVR for symptomatic severe aortic stenosis, with pre-TAVR echocardiography and post-implantation invasive hemodynamic assessment are eligible for study participation. The AVi will be recorded from post-implantation invasive hemodynamic assessment. Participants will undergo bone scintigraphy (99mTc-pyrophosphate Planar/SPECT imaging) within 28 days after TAVR. Participants with abnormal bone scintigraphy require evaluation for a monoclonal protein with blood/urine laboratory testing, and possible tissue biopsy/Hematology consultation to exclude light-chain amyloidosis. Participants who are ATTR positive will receive comprehensive heart failure management and possible genetic testing to evaluate for mutated ATTR. The prevalence of ATTR will be reported among participants with AVi \<0.5 versus ≥0.5 mm Hg/beats per minute. Test performance of AVi to predict ATTR will be reported. Aim 2. To determine if s' obtained from echocardiography tissue Doppler imaging plus AVi can enhance the prediction of ATTR among aortic stenosis patients undergoing TAVR. The s' will be recorded from pre-TAVR tissue Doppler imaging of the mitral annulus. The prevalence of ATTR will be reported among participants with both s' ≤6 cm/second and AVi \<0.5 mm Hg/beats per minute versus s' \>6 cm/second and AVi \<0.5 mm Hg/beats per minute. Aim 3. To design a pilot trial to improve patient outcomes after TAVR by targeted testing for ATTR. The change in Kansas City Cardiomyopathy Questionnaire-12 from baseline to 12-months and survival with reasonable quality of life at 12-months will be reported among participants who are ATTR positive vs. ATTR negative.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
SCREENING
Masking
NONE
99mTc-labeled pyrophosphate
Prevalence ATTR with AVi <0.5
Prevalence of ATTR among participants with AVi \<0.5 mm Hg/beats per minute
Time frame: Within 28 days after TAVR when bone scan completed
Prevalence ATTR with AVi ≥0.5
Prevalence of ATTR among participants with AVi ≥0.5 mm Hg/beats per minute
Time frame: Within 28 days after TAVR when bone scan completed
Sensitivity AVi
Sensitivity of AVi \<0.5 mm Hg/beats per minute
Time frame: Within 28 days after TAVR when bone scan completed
Specificity AVi
Specificity of AVi ≥0.5 mm Hg/beats per minute
Time frame: Within 28 days after TAVR when bone scan completed
Positive predictive value AVi
Positive predictive value of AVi \<0.5 at predicting ATTR
Time frame: Within 28 days after TAVR when bone scan completed
Negative predictive value AVi
Negative predictive value of AVi ≥0.5 at ruling out ATTR
Time frame: Within 28 days after TAVR when bone scan completed
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