Intravoxel Incoherent Motion Magnetic Resonance Imaging for Prediction of Induction Chemotherapy Response in Locally Advanced Hypopharyngeal Carcinoma: Comparison With Model‐Free Dynamic Contrast‐Enhanced Magnetic Resonance Imaging

Background Multiparametric intravoxel incoherent motion (IVIM) provides diffusion and perfusion information for the treatment prediction of cancer. However, the superiority of IVIM over dynamic contrast‐enhanced (DCE) magnetic resonance imaging (MRI) in locally advanced hypopharyngeal carcinoma (LAH...

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Published inJournal of magnetic resonance imaging Vol. 54; no. 1; pp. 91 - 100
Main Authors Guo, Baoliang, Ouyang, Fusheng, Ouyang, Lizhu, Huang, Xiyi, Guo, Tiandi, Lin, Shaojia, Liu, Ziwei, Zhang, Rong, Yang, Shao‐min, Chen, Haixiong, Hu, Qiu‐gen
Format Journal Article
LanguageEnglish
Published Hoboken, USA John Wiley & Sons, Inc 01.07.2021
Wiley Subscription Services, Inc
Subjects
Cancer
Chemotherapy
Confidence intervals
Diffusion coefficient
dynamic contrast‐enhanced MR imaging
Field strength
hypopharyngeal carcinoma
induction chemotherapy
intra‐voxel incoherent motion
Magnetic induction
Magnetic resonance imaging
Mathematical models
Medical imaging
Parameters
Perfusion
Population studies
Resonance
Solid tumors
Statistical analysis
Statistical tests
Throat cancer
treatment response
Tumors
dynamic contrast-enhanced MR imaging
hypopharyngeal carcinoma
induction chemotherapy
treatment response
intra-voxel incoherent motion
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Abstract Background Multiparametric intravoxel incoherent motion (IVIM) provides diffusion and perfusion information for the treatment prediction of cancer. However, the superiority of IVIM over dynamic contrast‐enhanced (DCE) magnetic resonance imaging (MRI) in locally advanced hypopharyngeal carcinoma (LAHC) remains unclear. Purpose To compare the diagnostic performance of IVIM and model‐free DCE in assessing induction chemotherapy (IC) response in patients with LAHC. Study Type Prospective. Population Forty‐two patients with LAHC. Field Strength/Sequence 3.0 T MRI, including IVIM (12 b values, 0–800 seconds/mm2) with a single‐shot echo planar imaging sequence and DCE‐MRI with a volumetric interpolated breath‐hold examination sequence. IVIM MRI is a commercially available sequence and software for calculation and analysis from vendor. Assessment The IVIM‐derived parameters (diffusion coefficient [D], pseudodiffusion coefficient [D*], and perfusion fraction [f]) and DCE‐derived model‐free parameters (Wash‐in, time to maximum enhancement [Tmax], maximum enhancement [Emax], area under enhancement curve [AUC] over 60 seconds [AUC60], and whole area under enhancement curve [AUCw]) were measured. At the end of IC, patients with complete or partial response were classified as responders according to the Response Evaluation Criteria in Solid Tumors. Statistical Tests The differences of parameters between responders and nonresponders were assessed using Mann–Whitney U tests. The performance of parameters for predicting IC response was evaluated by the receiver operating characteristic curves. Results Twenty‐three (54.8%) patients were classified as responders. Compared with nonresponders, the perfusion parameters D*, f, f × D*, and AUCw were significantly higher whereas Wash‐in was lower in responders (all P‐values <0.05). The f × D* outperformed other parameters, with an AUC of 0.84 (95% confidence interval [CI]: 0.69–0.93), sensitivity of 79.0% (95% CI: 54.4–93.9), and specificity of 82.6% (95% CI: 61.2–95.0). Data Conclusion The IVIM MRI technique may noninvasively help predict the IC response before treatment in patients with LAHC. Level of Evidence 2 Technical Efficacy Stage 2
AbstractList BACKGROUNDMultiparametric intravoxel incoherent motion (IVIM) provides diffusion and perfusion information for the treatment prediction of cancer. However, the superiority of IVIM over dynamic contrast-enhanced (DCE) magnetic resonance imaging (MRI) in locally advanced hypopharyngeal carcinoma (LAHC) remains unclear. PURPOSETo compare the diagnostic performance of IVIM and model-free DCE in assessing induction chemotherapy (IC) response in patients with LAHC. STUDY TYPEProspective. POPULATIONForty-two patients with LAHC. FIELD STRENGTH/SEQUENCE3.0 T MRI, including IVIM (12 b values, 0-800 seconds/mm2 ) with a single-shot echo planar imaging sequence and DCE-MRI with a volumetric interpolated breath-hold examination sequence. IVIM MRI is a commercially available sequence and software for calculation and analysis from vendor. ASSESSMENTThe IVIM-derived parameters (diffusion coefficient [D], pseudodiffusion coefficient [D*], and perfusion fraction [f]) and DCE-derived model-free parameters (Wash-in, time to maximum enhancement [Tmax], maximum enhancement [Emax], area under enhancement curve [AUC] over 60 seconds [AUC60 ], and whole area under enhancement curve [AUCw ]) were measured. At the end of IC, patients with complete or partial response were classified as responders according to the Response Evaluation Criteria in Solid Tumors. STATISTICAL TESTSThe differences of parameters between responders and nonresponders were assessed using Mann-Whitney U tests. The performance of parameters for predicting IC response was evaluated by the receiver operating characteristic curves. RESULTSTwenty-three (54.8%) patients were classified as responders. Compared with nonresponders, the perfusion parameters D*, f, f × D*, and AUCw were significantly higher whereas Wash-in was lower in responders (all P-values <0.05). The f × D* outperformed other parameters, with an AUC of 0.84 (95% confidence interval [CI]: 0.69-0.93), sensitivity of 79.0% (95% CI: 54.4-93.9), and specificity of 82.6% (95% CI: 61.2-95.0). DATA CONCLUSIONThe IVIM MRI technique may noninvasively help predict the IC response before treatment in patients with LAHC. LEVEL OF EVIDENCE2 TECHNICAL EFFICACY: Stage 2.
Multiparametric intravoxel incoherent motion (IVIM) provides diffusion and perfusion information for the treatment prediction of cancer. However, the superiority of IVIM over dynamic contrast-enhanced (DCE) magnetic resonance imaging (MRI) in locally advanced hypopharyngeal carcinoma (LAHC) remains unclear. To compare the diagnostic performance of IVIM and model-free DCE in assessing induction chemotherapy (IC) response in patients with LAHC. Prospective. Forty-two patients with LAHC. 3.0 T MRI, including IVIM (12 b values, 0-800 seconds/mm ) with a single-shot echo planar imaging sequence and DCE-MRI with a volumetric interpolated breath-hold examination sequence. IVIM MRI is a commercially available sequence and software for calculation and analysis from vendor. The IVIM-derived parameters (diffusion coefficient [D], pseudodiffusion coefficient [D*], and perfusion fraction [f]) and DCE-derived model-free parameters (Wash-in, time to maximum enhancement [Tmax], maximum enhancement [Emax], area under enhancement curve [AUC] over 60 seconds [AUC ], and whole area under enhancement curve [AUC ]) were measured. At the end of IC, patients with complete or partial response were classified as responders according to the Response Evaluation Criteria in Solid Tumors. The differences of parameters between responders and nonresponders were assessed using Mann-Whitney U tests. The performance of parameters for predicting IC response was evaluated by the receiver operating characteristic curves. Twenty-three (54.8%) patients were classified as responders. Compared with nonresponders, the perfusion parameters D*, f, f × D*, and AUC were significantly higher whereas Wash-in was lower in responders (all P-values <0.05). The f × D* outperformed other parameters, with an AUC of 0.84 (95% confidence interval [CI]: 0.69-0.93), sensitivity of 79.0% (95% CI: 54.4-93.9), and specificity of 82.6% (95% CI: 61.2-95.0). The IVIM MRI technique may noninvasively help predict the IC response before treatment in patients with LAHC. 2 TECHNICAL EFFICACY: Stage 2.
Background Multiparametric intravoxel incoherent motion (IVIM) provides diffusion and perfusion information for the treatment prediction of cancer. However, the superiority of IVIM over dynamic contrast‐enhanced (DCE) magnetic resonance imaging (MRI) in locally advanced hypopharyngeal carcinoma (LAHC) remains unclear. Purpose To compare the diagnostic performance of IVIM and model‐free DCE in assessing induction chemotherapy (IC) response in patients with LAHC. Study Type Prospective. Population Forty‐two patients with LAHC. Field Strength/Sequence 3.0 T MRI, including IVIM (12 b values, 0–800 seconds/mm2) with a single‐shot echo planar imaging sequence and DCE‐MRI with a volumetric interpolated breath‐hold examination sequence. IVIM MRI is a commercially available sequence and software for calculation and analysis from vendor. Assessment The IVIM‐derived parameters (diffusion coefficient [D], pseudodiffusion coefficient [D*], and perfusion fraction [f]) and DCE‐derived model‐free parameters (Wash‐in, time to maximum enhancement [Tmax], maximum enhancement [Emax], area under enhancement curve [AUC] over 60 seconds [AUC60], and whole area under enhancement curve [AUCw]) were measured. At the end of IC, patients with complete or partial response were classified as responders according to the Response Evaluation Criteria in Solid Tumors. Statistical Tests The differences of parameters between responders and nonresponders were assessed using Mann–Whitney U tests. The performance of parameters for predicting IC response was evaluated by the receiver operating characteristic curves. Results Twenty‐three (54.8%) patients were classified as responders. Compared with nonresponders, the perfusion parameters D*, f, f × D*, and AUCw were significantly higher whereas Wash‐in was lower in responders (all P‐values <0.05). The f × D* outperformed other parameters, with an AUC of 0.84 (95% confidence interval [CI]: 0.69–0.93), sensitivity of 79.0% (95% CI: 54.4–93.9), and specificity of 82.6% (95% CI: 61.2–95.0). Data Conclusion The IVIM MRI technique may noninvasively help predict the IC response before treatment in patients with LAHC. Level of Evidence 2 Technical Efficacy Stage 2
BackgroundMultiparametric intravoxel incoherent motion (IVIM) provides diffusion and perfusion information for the treatment prediction of cancer. However, the superiority of IVIM over dynamic contrast‐enhanced (DCE) magnetic resonance imaging (MRI) in locally advanced hypopharyngeal carcinoma (LAHC) remains unclear.PurposeTo compare the diagnostic performance of IVIM and model‐free DCE in assessing induction chemotherapy (IC) response in patients with LAHC.Study TypeProspective.PopulationForty‐two patients with LAHC.Field Strength/Sequence3.0 T MRI, including IVIM (12 b values, 0–800 seconds/mm2) with a single‐shot echo planar imaging sequence and DCE‐MRI with a volumetric interpolated breath‐hold examination sequence. IVIM MRI is a commercially available sequence and software for calculation and analysis from vendor.AssessmentThe IVIM‐derived parameters (diffusion coefficient [D], pseudodiffusion coefficient [D*], and perfusion fraction [f]) and DCE‐derived model‐free parameters (Wash‐in, time to maximum enhancement [Tmax], maximum enhancement [Emax], area under enhancement curve [AUC] over 60 seconds [AUC60], and whole area under enhancement curve [AUCw]) were measured. At the end of IC, patients with complete or partial response were classified as responders according to the Response Evaluation Criteria in Solid Tumors.Statistical TestsThe differences of parameters between responders and nonresponders were assessed using Mann–Whitney U tests. The performance of parameters for predicting IC response was evaluated by the receiver operating characteristic curves.ResultsTwenty‐three (54.8%) patients were classified as responders. Compared with nonresponders, the perfusion parameters D*, f, f × D*, and AUCw were significantly higher whereas Wash‐in was lower in responders (all P‐values <0.05). The f × D* outperformed other parameters, with an AUC of 0.84 (95% confidence interval [CI]: 0.69–0.93), sensitivity of 79.0% (95% CI: 54.4–93.9), and specificity of 82.6% (95% CI: 61.2–95.0).Data ConclusionThe IVIM MRI technique may noninvasively help predict the IC response before treatment in patients with LAHC.Level of Evidence2Technical EfficacyStage 2
Background Multiparametric intravoxel incoherent motion (IVIM) provides diffusion and perfusion information for the treatment prediction of cancer. However, the superiority of IVIM over dynamic contrast‐enhanced (DCE) magnetic resonance imaging ( MRI) in locally advanced hypopharyngeal carcinoma (LAHC) remains unclear. Purpose To compare the diagnostic performance of IVIM and model‐free DCE in assessing induction chemotherapy (IC) response in patients with LAHC. Study Type Prospective. Population Forty‐two patients with LAHC. Field Strength/Sequence 3.0 T MRI, including IVIM (12 b values, 0–800 seconds/mm 2 ) with a single‐shot echo planar imaging sequence and DCE‐MRI with a volumetric interpolated breath‐hold examination sequence. IVIM MRI is a commercially available sequence and software for calculation and analysis from vendor. Assessment The IVIM‐derived parameters (diffusion coefficient [ D ], pseudodiffusion coefficient [ D *], and perfusion fraction [ f ]) and DCE‐derived model‐free parameters (Wash‐in, time to maximum enhancement [Tmax], maximum enhancement [Emax], area under enhancement curve [AUC] over 60 seconds [AUC 60 ], and whole area under enhancement curve [AUC w ]) were measured. At the end of IC, patients with complete or partial response were classified as responders according to the Response Evaluation Criteria in Solid Tumors. Statistical Tests The differences of parameters between responders and nonresponders were assessed using Mann–Whitney U tests. The performance of parameters for predicting IC response was evaluated by the receiver operating characteristic curves. Results Twenty‐three (54.8%) patients were classified as responders. Compared with nonresponders, the perfusion parameters D *, f , f  ×  D *, and AUC w were significantly higher whereas Wash‐in was lower in responders (all P ‐values <0.05). The f  ×  D * outperformed other parameters, with an AUC of 0.84 (95% confidence interval [CI]: 0.69–0.93), sensitivity of 79.0% (95% CI: 54.4–93.9), and specificity of 82.6% (95% CI: 61.2–95.0). Data Conclusion The IVIM MRI technique may noninvasively help predict the IC response before treatment in patients with LAHC. Level of Evidence 2 Technical Efficacy Stage 2
Author Chen, Haixiong
Lin, Shaojia
Ouyang, Fusheng
Ouyang, Lizhu
Guo, Baoliang
Huang, Xiyi
Hu, Qiu‐gen
Liu, Ziwei
Zhang, Rong
Yang, Shao‐min
Guo, Tiandi
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Keywords dynamic contrast-enhanced MR imaging
hypopharyngeal carcinoma
induction chemotherapy
treatment response
intra-voxel incoherent motion
Language English
License 2021 International Society for Magnetic Resonance in Medicine.
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Notes Baoliang Guo, Fusheng Ouyang, Lizhu Ouyang, and Xiyi Huang contributed equally as first authors.
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Snippet Background Multiparametric intravoxel incoherent motion (IVIM) provides diffusion and perfusion information for the treatment prediction of cancer. However,...
Multiparametric intravoxel incoherent motion (IVIM) provides diffusion and perfusion information for the treatment prediction of cancer. However, the...
BackgroundMultiparametric intravoxel incoherent motion (IVIM) provides diffusion and perfusion information for the treatment prediction of cancer. However, the...
BACKGROUNDMultiparametric intravoxel incoherent motion (IVIM) provides diffusion and perfusion information for the treatment prediction of cancer. However, the...
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StartPage 91
SubjectTerms Cancer
Chemotherapy
Confidence intervals
Diffusion coefficient
dynamic contrast‐enhanced MR imaging
Field strength
hypopharyngeal carcinoma
induction chemotherapy
intra‐voxel incoherent motion
Magnetic induction
Magnetic resonance imaging
Mathematical models
Medical imaging
Parameters
Perfusion
Population studies
Resonance
Solid tumors
Statistical analysis
Statistical tests
Throat cancer
treatment response
Tumors
Title Intravoxel Incoherent Motion Magnetic Resonance Imaging for Prediction of Induction Chemotherapy Response in Locally Advanced Hypopharyngeal Carcinoma: Comparison With Model‐Free Dynamic Contrast‐Enhanced Magnetic Resonance Imaging
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fjmri.27537
https://www.ncbi.nlm.nih.gov/pubmed/33576125
https://www.proquest.com/docview/2539816163
https://search.proquest.com/docview/2489253414
Volume 54
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