# CT-based visualization of aortic valve morphology: from 3D energy-integrating CT to 4D photon counting CT

**Authors:** Alison M. Pouch, Jessie N. Dong, Harold I. Litt, Brittany J. Cannon, Melanie Freas, Victor Ferrari, Thomas G. Gleason, Matthew A. Jolley, Natalie Yushkevich, Jessica Nunez, Jilei Hao, Zaiyang Guo, Shir Goldfinger, John Kelly, Joseph E. Bavaria, Nimesh D. Desai

PMC · DOI: 10.3389/fcvm.2025.1721746 · Frontiers in Cardiovascular Medicine · 2026-01-12

## TL;DR

This paper explores how advanced CT imaging can better visualize aortic valve structures to improve surgical planning for valve repair.

## Contribution

The study demonstrates the potential of 4D CT and photon counting CT for detailed, dynamic aortic valve segmentation and morphology assessment.

## Key findings

- CT-based segmentation revealed new morphological features of aortic valves not detected by echocardiography.
- 4D CT captured valve dynamics at systole and diastole, showing maximal cusp separation and closure.
- Photon counting CT provided high-resolution images of dysmorphic features like accessory cusps and raphes.

## Abstract

While 4D contrast-enhanced computed tomography (CT) is used to plan cardiovascular interventions such as transcatheter valve replacement, it is not yet routinely used to characterize minimally calcified aortic valves for planning of surgical valve repair. It is widely recognized that aortic valve morphology has implications for the durability of valve repair surgery.

The objective is to demonstrate the potential of CT image segmentation for elucidating aortic valve morphology prior to surgery and to illustrate a potential benefit of 4D CT and photon counting CT (PCCT) for patient-specific modeling of dysmorphic aortic valves.

This observational series includes nine patients who were suspected to have minimally calcified bicuspid aortic valve morphology on transthoracic echocardiography (TTE). Mean age was 53 +/- 13 years and seven patients were male. For the seven patients who underwent aortic root surgery, CT-based segmentation of the aortic valve was compared to echocardiographic interpretation and direct intraoperative visualization of valve morphology. Two patients who have not yet undergone aortic surgery were imaged longitudinally with 4D energy-integrating detector CT (EID-CT) and 4D PCCT, and the morphological interpretation of the aortic valve was compared to previous TTE reports.

In most surgical cases, CT-based segmentation and direct visualization of the valve revealed morphological features not previously confirmed on TTE, particularly related to the cusp fusion pattern. Moreover, 4D CT enabled morphological assessment at both systole and diastole, which captured maximal cusp separation and valve closure. PCCT images were reconstructed with slice thickness as low as 0.2 mm, and revealed detailed dysmorphic features such as a small accessory cusp with fistula and a double raphe in separate patients.

4D CT-based segmentation has the potential to dynamically capture aortic valve features that are relevant to risk stratification and surgical planning at high spatial resolution.

## Full-text entities

- **Diseases:** aortic valve (MESH:D001024), fistula (MESH:D005402), bicuspid aortic valve (MESH:D000082882)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12833349/full.md

## References

21 references — full list in the complete paper: https://tomesphere.com/paper/PMC12833349/full.md

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Source: https://tomesphere.com/paper/PMC12833349