VH IVUS
Philips


VH IVUS imaging:

Real-time lesion assessment in the cath lab

VH IVUS imaging provides a colorized tissue map of plaque composition with automated lumen and vessel measurements.* VH IVUS technology uses advanced, proprietary spectral analysis techniques to classify plaque into 4 tissue types with 93-97% accuracy.1

Complete lesion assessment

VH IVUS provides a colorized tissue map of plaque composition for complete lesion assessment. Based on more than 15 years of research and 350 scientific publications, including the landmark PROSPECT trial, VH IVUS can assist you with lesion risk assessment, identification of necrotic core for optimizing stent placement, and monitoring of transplant patients for cardiac allograft vasculopathy.
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VH IVUS features

Colorized tissue map

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For complete lesion assessment, VH IVUS provides a colorized tissue map of 4 tissue types:
  • Necrotic core
  • Dense calcium
  • Fibrous
  • Fibro-fatty

Necrotic core/dense calcium only mode

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For a simplified view, VH IVUS features an alternate option to display only necrotic core and dense calcium.

Automatic border contours

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VH IVUS provides automatic border contours for full segment analysis.

Clinical applications for VH IVUS2

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Lesion risk and assessment of disease severity2

VH IVUS may help assess lesion risk:

  • VH IVUS may help change the risk profile of non-culprit, angiographically intermediate lesions.
  • VH IVUS may improve the accuracy of IVUS-based assessments of lesion significance and help guide strategies for therapy and follow-up.

Longitudinal stent placement

Landing stent edges in necrotic core increases the risk of stent thrombosis.3 With VH IVUS, the location of necrotic core can be identified and stent placement optimized.

Grayscale IVUS vs VH IVUS


In acute myocardial infarction patients, the plaque ruptures that cause clinical events are often located proximal to the angiographic narrowing, with geographic miss resulting 60% of the time.4,5 Grayscale IVUS can identify the rupture site, and in addition VH IVUS can show how far the associated necrotic core extends.
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Transplant patient monitoring

 

VH IVUS findings of inflammatory plaque support early diagnosis of cardiac allograft vasculopathy.Results may help guide optimization of the patient’s immunotherapy regimen and follow-up strategy.

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Culprit of the culprit animation

Culprit of the Culprit Animation

Related technologies

  • ChromaFlo imaging

    ChromaFlo imaging

    ChromaFlo imaging highlights blood flow red at the touch of a button for easy assessment of stent apposition, lumen size, and more.

  • Intravascular Ultrasound (IVUS)

    Intravascular Ultrasound (IVUS)

    Intravascular ultrasound (IVUS) is a catheter-based imaging technology that allows physicians to acquire visualization of diseased vessels inside the artery.

  1. Nair A, Margolis M, Kuban B, Vince D. Automated Coronary Plaque Characterisation with Intravascular Ultrasound Backscatter: Ex Vivo Validation. EuroIntervention. 2007; 3: 
  2. Stone et al. A prospective natural history study of altherosclerosis . N Engl J Med 2011;364:226-35
  3. König A, Margolis MP, Virmani, R, Holmes D, Klauss V. Technology insight: in vivo coronary plaque classification by intravascular ultrasonography radiofrequency analysis. Nat Clin Pract Cardiovasc Med. 2008;5(4):219‐229.
  4. As presented by Dariusz Dudek, Snowmass 2009.
  5. Legutko J, Jakala J, Mintz GS, et al. Radiofrequencyaintravascular ultrasound assessment of lesion coverage after angiography‐guided emergent percutaneous coronary intervention in patients with non‐ST elevation myocardial infarction. Am J Cardiol. 2013;112(12):1854-1859.
  6. Raichlin et al. Inflammatory burden of cardiac allograft coronary atherosclerotic plaque is associated with early recurrent cellular rejection and predicts a higher risk of vasculopathy progression. J Am Coll Cardiol. 2009;53:1279-1286.

 

*Safety and effectiveness of VH IVUS for use in the characterization of vascular lesions and tissue types has not been established