[The heterogeneity of blood flow on magnetic resonance imaging: a biomarker for grading cerebral astrocytomas]

A J Revert Ventura; R Sanz Requena; L Martí-Bonmatí; Y Pallardó; J Jornet; C Gaspar

doi:10.1016/j.rx.2012.01.011

[The heterogeneity of blood flow on magnetic resonance imaging: a biomarker for grading cerebral astrocytomas]

Radiologia. 2014 Jul-Aug;56(4):328-38. doi: 10.1016/j.rx.2012.01.011. Epub 2012 Jun 26.

[Article in Spanish]

Authors

A J Revert Ventura¹, R Sanz Requena², L Martí-Bonmatí³, Y Pallardó⁴, J Jornet⁵, C Gaspar⁶

Affiliations

¹ Servicio de Radiología, Hospital de Manises, Manises, Valencia, España. Electronic address: ajrevert@telefonica.net.
² Servicio de Radiología, Hospital Quirón Valencia, Valencia, España.
³ Servicio de Radiología, Hospital Quirón Valencia, Valencia, España; Servicio de Radiología, Hospital Universitario y Politécnico La Fe, Valencia, España.
⁴ Servicio de Radiología, Hospital de Manises, Manises, Valencia, España.
⁵ Servicio de Radiología, Hospital de la Ribera, Alzira, Valencia, España.
⁶ Servicio de Oncología, Hospital de la Ribera, Alzira, Valencia, España.

PMID: 22738943
DOI: 10.1016/j.rx.2012.01.011

Abstract

Objectives: To study whether the histograms of quantitative parameters of perfusion in MRI obtained from tumor volume and peritumor volume make it possible to grade astrocytomas in vivo.

Material and methods: We included 61 patients with histological diagnoses of grade II, III, or IV astrocytomas who underwent T2*-weighted perfusion MRI after intravenous contrast agent injection. We manually selected the tumor volume and peritumor volume and quantified the following perfusion parameters on a voxel-by-voxel basis: blood volume (BV), blood flow (BF), mean transit time (TTM), transfer constant (K(trans)), washout coefficient, interstitial volume, and vascular volume. For each volume, we obtained the corresponding histogram with its mean, standard deviation, and kurtosis (using the standard deviation and kurtosis as measures of heterogeneity) and we compared the differences in each parameter between different grades of tumor. We also calculated the mean and standard deviation of the highest 10% of values. Finally, we performed a multiparametric discriminant analysis to improve the classification.

Results: For tumor volume, we found statistically significant differences among the three grades of tumor for the means and standard deviations of BV, BF, and K(trans), both for the entire distribution and for the highest 10% of values. For the peritumor volume, we found no significant differences for any parameters. The discriminant analysis improved the classification slightly.

Conclusions: The quantification of the volume parameters of the entire region of the tumor with BV, BF, and K(trans) is useful for grading astrocytomas. The heterogeneity represented by the standard deviation of BF is the most reliable diagnostic parameter for distinguishing between low grade and high grade lesions.

Keywords: Astrocitomas; Astrocytoma; Brain; Brain tumors; Cerebro; Curtosis; Kurtosis; Magnetic Resonance; Perfusion; Perfusión; Resonancia magnética; Tumores cerebrales.

Publication types

English Abstract

MeSH terms

Adult
Aged
Astrocytoma / blood supply
Astrocytoma / pathology*
Astrocytoma / physiopathology*
Brain Neoplasms / blood supply
Brain Neoplasms / pathology*
Brain Neoplasms / physiopathology*
Cerebrovascular Circulation / physiology*
Feasibility Studies
Female
Humans
Magnetic Resonance Imaging*
Male
Middle Aged
Neoplasm Grading
Retrospective Studies