Mohammad Ansari scite author profile

Due to recurrent right ventricular outflow tract (RVOT) dysfunction, patients with complex congenital heart disease of the RVOT traditionally require multiple surgical interventions during their lifetimes. Percutaneous pulmonary valve implantation (PPVI) has been developed as a nonsurgical alternative for the treatment of right ventricular to pulmonary artery stenosis or pulmonary regurgitation. PPVI has been shown to be a safe and effective procedure in patients with dysfunctional surgical RVOT conduits. In this population, PPVI has the potential to improve symptoms, functional capacity, and biventricular hemodynamics. However, limitations to the anatomical substrate and size of the RVOT currently restrict PPVI eligibility to less than one-quarter of patients with RVOT dysfunction. The current review discusses contemporary practices in PPVI, evidence supporting the procedure, and future technologies and developments in the field.

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1-Year Results From the RANGER II SFA Randomized Trial of the Ranger Drug-Coated Balloon

Sachar

Soga

Ansari

et al. 2021

JACC: Cardiovascular Interventions

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A practical guide to cardiovascular 3D printing in clinical practice: Overview and examples

Abudayyeh

Gordon

Ansari

et al. 2017

J Interven Cardiology

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The advent of more advanced 3D image processing, reconstruction, and a variety of three-dimensional (3D) printing technologies using different materials has made rapid and fairly affordable anatomically accurate models much more achievable. These models show great promise in facilitating procedural and surgical planning for complex congenital and structural heart disease. Refinements in 3D printing technology lend itself to advanced applications in the fields of bio-printing, hemodynamic modeling, and implantable devices. As a novel technology with a large variability in software, processing tools and printing techniques, there is not a standardized method by which a clinician can go from an imaging data-set to a complete model. Furthermore, anatomy of interest and how the model is used can determine the most appropriate technology. In this over-view we discuss, from the standpoint of a clinical professional, image acquisition, processing, and segmentation by which a printable file is created. We then review the various printing technologies, advantages and disadvantages when printing the completed model file, and describe clinical scenarios where 3D printing can be utilized to address therapeutic challenges.

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Mohammad Ansari

Percutaneous Pulmonary Valve Implantation

1-Year Results From the RANGER II SFA Randomized Trial of the Ranger Drug-Coated Balloon

A practical guide to cardiovascular 3D printing in clinical practice: Overview and examples

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