Marianne Abdallah Sabet

Background One of the most prevalent malignancies among males is prostate carcinoma (PCa). For the diagnosis
of PCa, multiparametric magnetic resonance imaging (mpMRI) constitutes by far the most accurate imaging technique.
The PI-RADS v2.1 indications for dynamic contrast enhanced (DCE) sequence include identifying PI-RADS score
3 lesions, as clinically significant prostate carcinoma, aiding evaluation of examinations having poor quality of T2
as well as diffusion weighted imaging (DWI), and helping readers having relatively reduced expertise. Most articles
don’t provide outcomes pertaining to these indications, which weakens their conclusions. All MRI scans, even those
with low quality T2 or DWI, were included in our study. Additionally, special emphasis on assessing peripheral zone
lesions was made. Our objective was to assess the diagnostic accuracy of the various mpMRI pulse sequences, including
the T2 sequence, diffusion and apparent diffusion coefficient (ADC) sequences, both T2 and diffusion sequences
(biparametric (bp) MRI), DCE sequence, and the entire examination (mpMRI), in the diagnosis of PCa in the peripheral
as well as the transitional zone using PI-RADS version 2.1 scoring system, once when malignant lesions are considered
as those having PI-RADS scores 4 and 5 and once when PI-RADS categories 3, 4 and 5 were regarded as malignant.
Results In the assessment of peripheral zone lesions, when PI-RADS categories 3, 4, and 5 were considered malignant,
both bpMRI and mpMRI showed similar sensitivity (94.29%) and diagnostic accuracy (77.78%) while when considering
scores 4 and 5 malignant, mpMRI demonstrated increased diagnostic accuracy and sensitivity but lower
specificity (sensitivity was 82.86%/60%, specificity was 80%/100%, and diagnostic accuracy was 82.22%/68.89%
for mpMRI/bpMRI test comparaison). Both bpMRI and mpMRI had similar sensitivity (95.83%) and diagnostic accuracy
(71.05%) when PI-RADS categories 3, 4, and 5 were regarded as malignant; however, mpMRI demonstrated better
diagnostic accuracy and sensitivity considering scores 4 and 5 malignant (sensitivity was 77.08% for mpMRI compared
to 60.42% for bpMRI and diagnostic accuracy was 82.89% for mpMRI compared to 75% for bpMRI).
Conclusions Both bpMRI and mpMRI demonstrated similar diagnostic accuracy when PI-RADS categories 3, 4, and 5
were taken into account as malignant while mpMRI had higher diagnostic accuracy considering categories 4 and 5
malignant.
Keywords Prostate carcinoma, Multiparametric MRI, Biparametric MRI, Contrast media

Background: Multiple sclerosis (MS) is a common chronic inflammatory demyelinating disorder more common in
young adults. MS is characterized mainly with white matter (WM) affection; however, considerable gray matter (GM)
involvement is also noted in many patients. MRI is used for diagnosis and follow up of the disease using different pulse
sequences; FLAIR imaging provides the highest sensitivity in the detection of supratentorial, juxtacortical, and the
periventricular lesions but is less sensitive in the posterior fossa. A double inversion recovery (DIR) pulse sequence was
recently introduced to improve the visibility of GM lesions and especially cortical lesions. The aim of this study is to
assess the role of DIR sequence in the detection of brain lesions in patients with MS compared to FLAIR sequence.
Results: DIR showed a significantly higher number of MS lesions in infratentorial region (2.9 ± 0.4 compared to 2.25 ±
0.3 in FLAIR) with a statistically significant difference (p = 0.002) and also in supratentorial periventricular regions (11.84
± 8.07 in DIR and 11.31 ± 8.07 in FLAIR, p < 0.001). DIR imaging also demonstrated significantly more intracortical
lesions (7.12 ± 1.2 compared to 1.4 ± 0.9 in FLAIR imaging) with a statistically significant difference
(p < 0.001). On the other hand, corpus callosum lesions were significantly higher on FLAIR (0.84 ± 0.1) with respect to
DIR imaging (0.68 ± 0.1) with a statistically significant difference in between (p = 0.025).
Conclusion: DIR is a powerful conventional MRI sequence for visualization of brain lesions in patients with MS and is
superior to FLAIR sequence in detecting lesions in different locations, namely cortical, periventricular, and infratentorial
regions; hence, DIR can be added to the MRI protocol of MS patients or even can replace FLAIR which would be of a
good diagnostic value with only 80 s added to the scan time.
Keywords: Multiple sclerosis, MRI, FLAIR, DIR, Cortical lesions, White matter