In vivo characterization of coronary plaques: Novel findings from comparing greyscale and virtual histology intravascular ultrasound and near-infrared spectroscopy

Jun Pu; Gary S. Mintz; Emmanouil S. Brilakis; Subhash Banerjee; Abdul Rahman R Abdel-Karim; Brijeshwar Maini; Sinan Biro; Jin Bae Lee; Gregg W. Stone; Giora Weisz; Akiko Maehara

doi:10.1093/eurheartj/ehr387

In vivo characterization of coronary plaques: Novel findings from comparing greyscale and virtual histology intravascular ultrasound and near-infrared spectroscopy

Jun Pu, Gary S. Mintz, Emmanouil S. Brilakis, Subhash Banerjee, Abdul Rahman R Abdel-Karim, Brijeshwar Maini, Sinan Biro, Jin Bae Lee, Gregg W. Stone, Giora Weisz, Akiko Maehara

Research output: Contribution to journal › Article › peer-review

132 Scopus citations

Abstract

AimsTo test the hypothesis that near-infrared spectroscopy (NIRS) combined with intravascular ultrasound (IVUS) would provide novel information of human coronary plaque characterization.Methods and resultsGreyscale-IVUS, virtual histology (VH)-IVUS, and NIRS were compared in 131 native lesions (66 vessels) that were interrogated during catheterization by all three modalities. Greyscale-IVUS detected attenuated and echolucent plaques correlated with NIRS-detected lipid-rich areas. Attenuated plaques contained the highest NIRS probability of lipid core, followed by echolucent plaques. By VH-IVUS, 93.5 of attenuated plaques contained confluent necrotic core (NC) and were classified as VH-derived fibroatheromas (FAs). Although 75.0 of echolucent plaques were classified as VH-FAs, VH-NC was seen surrounding an echolucent zone, but not within any echolucent zone; and echolucent zones themselves contained fibrofatty and/or fibrous tissue. All calcified plaques with arc >90° contained >10 VH-NC (range 16.041.2) and were classified as calcified VH-FAs, but only 58.5 contained NIRS-detected lipid core. A positive relationship between VH-derived NC and NIRS-derived lipid core burden index was found in non-calcified plaques, but not in calcified plaques.ConclusionCombining NIRS with IVUS contributes to the understanding of plaque characterization in vivo. Further studies are warranted to determine whether combining NIRS and IVUS will contribute to the assessment of high-risk plaques to predict outcomes in patients with coronary artery disease.

Original language	English (US)
Pages (from-to)	372-383
Number of pages	12
Journal	European heart journal
Volume	33
Issue number	3
DOIs	https://doi.org/10.1093/eurheartj/ehr387
State	Published - Feb 2012

Keywords

Coronary disease
Intravascular imaging
Near-infrared spectroscopy

ASJC Scopus subject areas

Cardiology and Cardiovascular Medicine

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10.1093/eurheartj/ehr387

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Pu, J., Mintz, G. S., Brilakis, E. S., Banerjee, S., Abdel-Karim, A. R. R., Maini, B., Biro, S., Lee, J. B., Stone, G. W., Weisz, G., & Maehara, A. (2012). In vivo characterization of coronary plaques: Novel findings from comparing greyscale and virtual histology intravascular ultrasound and near-infrared spectroscopy. European heart journal, 33(3), 372-383. https://doi.org/10.1093/eurheartj/ehr387

Pu, J, Mintz, GS, Brilakis, ES, Banerjee, S, Abdel-Karim, ARR, Maini, B, Biro, S, Lee, JB, Stone, GW, Weisz, G & Maehara, A 2012, 'In vivo characterization of coronary plaques: Novel findings from comparing greyscale and virtual histology intravascular ultrasound and near-infrared spectroscopy', European heart journal, vol. 33, no. 3, pp. 372-383. https://doi.org/10.1093/eurheartj/ehr387

@article{a60c55da57a147fcbe94a270bf8ae9ec,

title = "In vivo characterization of coronary plaques: Novel findings from comparing greyscale and virtual histology intravascular ultrasound and near-infrared spectroscopy",

abstract = "AimsTo test the hypothesis that near-infrared spectroscopy (NIRS) combined with intravascular ultrasound (IVUS) would provide novel information of human coronary plaque characterization.Methods and resultsGreyscale-IVUS, virtual histology (VH)-IVUS, and NIRS were compared in 131 native lesions (66 vessels) that were interrogated during catheterization by all three modalities. Greyscale-IVUS detected attenuated and echolucent plaques correlated with NIRS-detected lipid-rich areas. Attenuated plaques contained the highest NIRS probability of lipid core, followed by echolucent plaques. By VH-IVUS, 93.5 of attenuated plaques contained confluent necrotic core (NC) and were classified as VH-derived fibroatheromas (FAs). Although 75.0 of echolucent plaques were classified as VH-FAs, VH-NC was seen surrounding an echolucent zone, but not within any echolucent zone; and echolucent zones themselves contained fibrofatty and/or fibrous tissue. All calcified plaques with arc >90° contained >10 VH-NC (range 16.041.2) and were classified as calcified VH-FAs, but only 58.5 contained NIRS-detected lipid core. A positive relationship between VH-derived NC and NIRS-derived lipid core burden index was found in non-calcified plaques, but not in calcified plaques.ConclusionCombining NIRS with IVUS contributes to the understanding of plaque characterization in vivo. Further studies are warranted to determine whether combining NIRS and IVUS will contribute to the assessment of high-risk plaques to predict outcomes in patients with coronary artery disease.",

keywords = "Coronary disease, Intravascular imaging, Near-infrared spectroscopy",

author = "Jun Pu and Mintz, {Gary S.} and Brilakis, {Emmanouil S.} and Subhash Banerjee and Abdel-Karim, {Abdul Rahman R} and Brijeshwar Maini and Sinan Biro and Lee, {Jin Bae} and Stone, {Gregg W.} and Giora Weisz and Akiko Maehara",

note = "Funding Information: Conflict of interest: G.S.M. reports receiving consulting fees from Boston Scientific and Volcano and research/grant support from Boston Scientific, InfraReDx, and Volcano. G.W.S. reports being an advisory board for Boston Scientific and Abbott Vascular, and a consultant for Medtronic, Volcano, and InfraRedx. E.S.B. reports receiving speaker honoraria from St Jude Medical and Terumo, and research support from Abbott Vascular. S.B. reports receiving speaker honoraria from St Jude Medical, Medtronic, and Johnson & Johnson and research support from Boston Scientific and The Medicines Company. B.M. reports being an advisory board for InfraRedx, Abiomed, and Medtronic, and a consultant for Abbott Vascular and St Jude Medical. A.M. reports receiving research grants from Boston Scientific and lecture fee from Volcano. J.P. reports receiving research grants from Boston Scientific China.",

year = "2012",

month = feb,

doi = "10.1093/eurheartj/ehr387",

language = "English (US)",

volume = "33",

pages = "372--383",

journal = "European heart journal",

issn = "0195-668X",

publisher = "Oxford University Press",

number = "3",

}

TY - JOUR

T1 - In vivo characterization of coronary plaques

T2 - Novel findings from comparing greyscale and virtual histology intravascular ultrasound and near-infrared spectroscopy

AU - Pu, Jun

AU - Mintz, Gary S.

AU - Brilakis, Emmanouil S.

AU - Banerjee, Subhash

AU - Abdel-Karim, Abdul Rahman R

AU - Maini, Brijeshwar

AU - Biro, Sinan

AU - Lee, Jin Bae

AU - Stone, Gregg W.

AU - Weisz, Giora

AU - Maehara, Akiko

N1 - Funding Information: Conflict of interest: G.S.M. reports receiving consulting fees from Boston Scientific and Volcano and research/grant support from Boston Scientific, InfraReDx, and Volcano. G.W.S. reports being an advisory board for Boston Scientific and Abbott Vascular, and a consultant for Medtronic, Volcano, and InfraRedx. E.S.B. reports receiving speaker honoraria from St Jude Medical and Terumo, and research support from Abbott Vascular. S.B. reports receiving speaker honoraria from St Jude Medical, Medtronic, and Johnson & Johnson and research support from Boston Scientific and The Medicines Company. B.M. reports being an advisory board for InfraRedx, Abiomed, and Medtronic, and a consultant for Abbott Vascular and St Jude Medical. A.M. reports receiving research grants from Boston Scientific and lecture fee from Volcano. J.P. reports receiving research grants from Boston Scientific China.

PY - 2012/2

Y1 - 2012/2

N2 - AimsTo test the hypothesis that near-infrared spectroscopy (NIRS) combined with intravascular ultrasound (IVUS) would provide novel information of human coronary plaque characterization.Methods and resultsGreyscale-IVUS, virtual histology (VH)-IVUS, and NIRS were compared in 131 native lesions (66 vessels) that were interrogated during catheterization by all three modalities. Greyscale-IVUS detected attenuated and echolucent plaques correlated with NIRS-detected lipid-rich areas. Attenuated plaques contained the highest NIRS probability of lipid core, followed by echolucent plaques. By VH-IVUS, 93.5 of attenuated plaques contained confluent necrotic core (NC) and were classified as VH-derived fibroatheromas (FAs). Although 75.0 of echolucent plaques were classified as VH-FAs, VH-NC was seen surrounding an echolucent zone, but not within any echolucent zone; and echolucent zones themselves contained fibrofatty and/or fibrous tissue. All calcified plaques with arc >90° contained >10 VH-NC (range 16.041.2) and were classified as calcified VH-FAs, but only 58.5 contained NIRS-detected lipid core. A positive relationship between VH-derived NC and NIRS-derived lipid core burden index was found in non-calcified plaques, but not in calcified plaques.ConclusionCombining NIRS with IVUS contributes to the understanding of plaque characterization in vivo. Further studies are warranted to determine whether combining NIRS and IVUS will contribute to the assessment of high-risk plaques to predict outcomes in patients with coronary artery disease.

AB - AimsTo test the hypothesis that near-infrared spectroscopy (NIRS) combined with intravascular ultrasound (IVUS) would provide novel information of human coronary plaque characterization.Methods and resultsGreyscale-IVUS, virtual histology (VH)-IVUS, and NIRS were compared in 131 native lesions (66 vessels) that were interrogated during catheterization by all three modalities. Greyscale-IVUS detected attenuated and echolucent plaques correlated with NIRS-detected lipid-rich areas. Attenuated plaques contained the highest NIRS probability of lipid core, followed by echolucent plaques. By VH-IVUS, 93.5 of attenuated plaques contained confluent necrotic core (NC) and were classified as VH-derived fibroatheromas (FAs). Although 75.0 of echolucent plaques were classified as VH-FAs, VH-NC was seen surrounding an echolucent zone, but not within any echolucent zone; and echolucent zones themselves contained fibrofatty and/or fibrous tissue. All calcified plaques with arc >90° contained >10 VH-NC (range 16.041.2) and were classified as calcified VH-FAs, but only 58.5 contained NIRS-detected lipid core. A positive relationship between VH-derived NC and NIRS-derived lipid core burden index was found in non-calcified plaques, but not in calcified plaques.ConclusionCombining NIRS with IVUS contributes to the understanding of plaque characterization in vivo. Further studies are warranted to determine whether combining NIRS and IVUS will contribute to the assessment of high-risk plaques to predict outcomes in patients with coronary artery disease.

KW - Coronary disease

KW - Intravascular imaging

KW - Near-infrared spectroscopy

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U2 - 10.1093/eurheartj/ehr387

DO - 10.1093/eurheartj/ehr387

M3 - Article

C2 - 22019821

AN - SCOPUS:84863013655

SN - 0195-668X

VL - 33

SP - 372

EP - 383

JO - European heart journal

JF - European heart journal

IS - 3

ER -

In vivo characterization of coronary plaques: Novel findings from comparing greyscale and virtual histology intravascular ultrasound and near-infrared spectroscopy

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