Ultreon™ 1.0 Software

Experience the Power of Automation

Re-imagine PCI with Ultreon™ 1.0 Software

Streamlined and intuitive, Ultreon™ 1.0 Software gives better insights to optimize patient outcomes through automation and an improved workflow.1-4

  • Ultreon™ Software allows interventional cardiologists to see inside the heart during percurtenous coronary intervention (PCI) and act on the obtained insights.

  • Ultreon™ Software guides physicians through PCI step-by-step following MLD MAX workflow and provides insights on morphology, vessel sizing, stent placement and post-stent optimization for more accurate decision-making.1

  • Ultreon™ Software is powered by artificial intelligence (AI) that enables automatic quantification of calcification and vessel sizing.1

Re-imagine PCI with Ultreon™ 1.0 Software

Streamlined and intuitive, Ultreon™ 1.0 Software gives better insights to optimize patient outcomes through automation and an improved workflow.1-4

  • Ultreon™ Software allows interventional cardiologists to see inside the heart during percurtenous coronary intervention (PCI) and act on the obtained insights.

  • Ultreon™ Software guides physicians through PCI step-by-step following MLD MAX workflow and provides insights on morphology, vessel sizing, stent placement and post-stent optimization for more accurate decision-making.1

  • Ultreon™ Software is powered by artificial intelligence (AI) that enables automatic quantification of calcification and vessel sizing.1

"It was worth the wait. I can see you have developed something that is really user-friendly, which was the main intent." — Pr. Souteyrand

Ultreon™ Software: The Next-Generation Imaging and Physiology Platform

See Simply & Act Decisively During PCI with Ultreon™ Software

See Simply

The Ultreon™ Software with an intuitive interface offers physicians a user-friendly on-screen information and step-by-step guidance following MLD MAX workflow to aid with decision-making;5 to determine a proper treatment technique pre-PCI and to ensure optimal stent expansion results post-PCI.
 

Ultreon™ 1.0 Software intuitive workflow interface - 1
Ultreon™ 1.0 Software intuitive workflow interface - 2
Morphology
Morphology screen displaying angle and max thickness of calcification

Ultreon™ 1.0 Software uses artificial intelligence (AI) to automatically detect degree and thickness of calcification.1

  • Auto-detects and highlights calcification arc and max thickness6
  • Displays calcification angle and max thickness values throughout the pullback in real-time6
  • Highlights calcification overlays on the vessel with the co-registration view6
Sizing
Sizing screen displaying External Elastic Lamina (EEL) and Lumen diameter for proximal, current and distal frames

Ultreon™ 1.0 Software uses artificial intelligence (AI) to automatically detect external elastic lamina (EEL) and lumen to help identify landing zones for accurate stent placement.1,7

  • Provides vessel diameter measurements6
  • Facilitates measuring lesion length and identification of optimal user-adjusted stent landing zones on a single screen6
  • Autodetects and provides measurement of lumen and detectable external elastic lamina (EEL) for quick visualization6
  • Facilitates stent length selection through co-registration6

Act Decisively

Deployment

Ultreon™ Software provides side-by-side viewing of live and co-registered angio to help physicians guide precise stent deployment.6

  • Helps to ensure complete lesion coverage and avoid stent edges in high-risk morphology8
Ultreon™ 1.0 Software interface for stent deployment
Review

Ultreon™ Software helps to ensure optimal stent expansion and apposition with instantaneous display of expansion and apposition results.6

Ultreon™ 1.0 Software interface for review assessment

References

* Compared to AptiVue™ Imaging Software

  1. Data on file at Abbott.
  2. Zhang J, et al. Intravascular ultrasound versus angiography-guided drug-eluting stent implantation: the ULTIMATE trial. J Am Coll Cardiol. 2018;72(24):3126-3137. doi: 10.1016/j.jacc.2018.09.013.
  3. Hong M, et al. IVUS-XPL 5 Year Outcomes, TCT 2019.
  4. Jones et al. JACC Cardiovascular Interventions, 2018, vol 11 (14). “Angiography Alone Versus Angiography Plus Optical Coherence Tomography to Guide Percutaneous Coronary Intervention – Outcomes From the Pan-London PCI Cohort”.
  5. Bezerra H, et al. Analysis of changes in decision-making process during optical coherence tomography-guided percutaneous coronary interventions: Insights from the LightLab Intiative. EuroPCR 2020.
  6. Ultreon™ 1.0 Software IFU. Refer to Instructions For Use (IFU) for additional information.
  7. Prati, F. et al. The CLI-OPCI II Study. JACC: Cardiovascular Imaging, 2015: Vol 8, No. 11:1297-305.
  8. Kubo T, et al. Application of optical coherence tomography in percutaneous coronary intervention. Circ J. 2012;76(9):2076-2083. doi: 10.1253/circj.cj-12-0828.

MAT-2208462 V1.0.