Age-Dependent Signal Intensity Changes in the Structurally Normal Pediatric Brain on Unenhanced T1-Weighted MR Imaging

Flood, Thomas; Bhatt, Prabhavathi; Jensen, Alexandra D; Maloney, John; Stence, Nicholas; Mirsky, David M.

doi:10.3174/ajnr.a6254

Cited by 3 publications

(9 citation statements)

References 29 publications

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“…Third, due to the frequent location of pediatric tumors of the central nervous system in the posterior cranial fossa, in our series we could assess the dentate nucleus in a smaller number of cases than the globus pallidus. However similar effects of GBCAs and age on the T1 SI of these two nuclei are established (1)(2)(3)(4)(5)(6)32) and were partially observed after the switch in the present study.…”

Section: Discussionsupporting

confidence: 85%

“…Of the 57 control patients without prior CE-MRI scans, 45 were excluded due to the above exclusion criteria and 19 were excluded because the MRI showed brain abnormalities. Since age is associated with increasing T1 SI in the pallidus and caudate (31,32), we finally assessed GM nuclei T1 SI in three groups of age-matched patients: nine patients with at least six cumulative administrations of GBCA who switched from Gd-DTPA to Gd-DOTA; 18 patients who had received at least six administrations of GD-DOTA; and nine control patients without prior administrations of GBCA.…”

Section: Methodsmentioning

confidence: 99%

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The switch from Gd-DTPA to Gd-DOTA is not associated with decrease of the T1 signal intensity of the pallidus and dentate in a pediatric population

et al. 2020

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Background The switch from the linear gadolinium-based contrast agent (GBCA) gadopentate dimeglumine (Gd_DTPA) to the macrocyclic GBCA gadobutrol is associated with a decrease of the T1 signal intensity (SI) in brain gray matter nuclei. The effects of the switch to other macrocyclic GBCAs are not yet established. Purpose To explore the effects of switching from Gd-DTPA to the macrocyclic GBCA gadoterate meglumine (Gd-DOTA) in pediatric patients. Material and Methods We measured the pallidus/middle cerebellar peduncle (MCP) SI ratio and the dentate/MCP SI ratio in pre-contrast sagittal T1-weighted spin-echo images in nine patients who had received ≥6 administrations of Gd-DTPA and then of Gd-DOTA, in 18 patients who had received ≥6 administrations of Gd-DOTA alone, and in nine age-matched controls without prior GBCA administrations. Serial assessment was performed in patients who switched from Gd-DTPA to Gd-DOTA. Finally, the rate of change of pallidal/MCP and dentate/MCP SI ratios between the first and last Gd-DOTA administrations was compared. Results The pallidal/MCP and dentate/MCP SI ratios were ( P < 0.05) higher in patients with prior Gd-DTPA and Gd-DOTA administrations compared to the controls. After the switch, the pallidal/MCP SI ratio increased in nine patients and the dentate/MCP ratio in seven patients. The rate of change of pallidal/MCP SI ratio after Gd-DOTA was higher ( P < 0.01) in patients who had previously received Gd-DTPA (mean 2.89 ± 2.6%) than in patients who had received Gd-DOTA alone (mean 0.53 ± 0.89%). Conclusion T1 SI in gray matter nuclei does not decrease after switching from Gd-DTPA to Gd-DOTA. The switch effects from Gd-DTPA to each macrocyclic GBCA should be individually evaluated.

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Section: Discussionsupporting

confidence: 85%

Section: Methodsmentioning

confidence: 99%

The switch from Gd-DTPA to Gd-DOTA is not associated with decrease of the T1 signal intensity of the pallidus and dentate in a pediatric population

et al. 2020

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“…The mean T1w signal intensity was calculated for each GM, WM, and CSF segmentation. The mean CSF value was used to normalise that of GM and WM, as previously done in a pediatric study (Flood et al., 2019).…”

Section: Methodsmentioning

confidence: 99%

“…This is a relevant indicator of early GM and WM maturation because changes in T1w signal intensity can reflect a decrease in water content and an increase in macromolecules in the brain (Barkovich et al, 1988;Shroff et al, 2010). Based on data reported in humans (Barkovich et al, 1988;Flood et al, 2019;Serag et al, 2011;Westlye et al, 2010), we hypothesized higher values in WM than in GM and increasing values in both brain tissues throughout development of mother-reared lambs. We found the highest values of T1 signal intensity in the WM, which were 1.5 times greater than those measured in GM whatever the timepoint of acquisition.…”

Section: Brain Development and Maturation In Mother-reared Lambsmentioning

confidence: 96%

“…Magnetic resonance imaging (MRI) enables longitudinal investigation of various morphometric and microstructural indicators of brain maturation. In particular, T1-weighted (T1w) signal intensity (Flood et al, 2019;Luby et al, 2013) and diffusion tensor imaging (DTI) parameters (Dubois et al, 2006(Dubois et al, , 2014Hüppi & Dubois, 2006) have been used to quantify maturation of the growing brain. Based on studies in humans (Deoni et al, 2013;Luby et al, 2013) and nonhuman primates (Liu et al, 2019), we examined the longitudinal impact of maternal deprivation on these morphometric and microstructural characteristics of the lamb brain.…”

Section: Introductionmentioning

confidence: 99%

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Maternal deprivation and milk replacement affect the integrity of gray and white matter in the developing lamb brain

Love

Haslin

Bellardie

et al. 2022

Developmental Neurobiology

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The psychoendocrine evaluation of lamb development has demonstrated that maternal deprivation and milk replacement alters health, behavior, and endocrine profiles. While lambs are able to discriminate familiar and non‐familiar conspecifics (mother or lamb), only lambs reared with their mother develop such clear social discrimination or preference. Lambs reared without mother display no preference for a specific lamb from its own group. Differences in exploratory and emotional behaviors between mother‐reared and mother‐deprived lambs have also been reported. As these behavioural abilities are supported by the brain, we hypothesize that rearing with maternal deprivation and milk replacement leads to altered brain development and maturation. To test this hypothesis, we examined brain morphometric and microstructural variables extracted from in vivo T1‐weighted and diffusion‐weighted magnetic resonance images acquired longitudinally (1 week, 1.5 months, and 4.5 months of age) in mother‐reared and mother‐deprived lambs. From the morphometric variables the caudate nuclei volume was found to be smaller for mother‐deprived than for mother‐reared lambs. T1‐weighted signal intensity and radial diffusivity were higher for mother‐deprived than for mother‐reared lambs in both the white and gray matters. The fractional anisotropy of the white matter was lower for mother‐deprived than for mother‐reared lambs. Based on these morphometric and microstructural characteristics we conclude that maternal deprivation delays and affects lamb brain growth and maturation.

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The Effect of Gadolinium-Based Contrast Agents on Longitudinal Changes of Magnetic Resonance Imaging Signal Intensities and Relaxation Times in the Aging Rat Brain

Green

Jošt²,

Frenzel³

et al. 2022

Invest Radiol

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Objectives The aim of the study was to investigate the possible influence of changes in the brain caused by age on relaxometric and relaxation time–weighted magnetic resonance imaging (MRI) parameters in the deep cerebellar nuclei (DCN) and the globus pallidus (GP) of Gd-exposed and control rats over the course of 1 year. Materials and Methods Twenty-five Wistar-Han rats were equally subdivided into 5 groups and initially received 8 injections on 4 consecutive days per week of either 3.6 mL/kg body weight saline (group I–III) or 1.8 mmol Gd/kg body weight gadobutrol (group IV) or gadodiamide (group V). T1- and T2-weighted scans, as well as relaxation maps, were acquired at 1 week (all groups); 5, 12, 20, and 26 weeks (saline II, gadobutrol, gadodiamide); and at 35, 44, and 52 weeks (saline III, gadobutrol, gadodiamide) after the last administration. Saline I was euthanized after 1 week, saline II after 26 weeks, and the remaining groups after 52 weeks. Signal intensities (SIs) were evaluated for the DCN/pons (P) and the GP/piriform cortex (PC) ratios, and relaxation times for the DCN and the GP. Brain tissue was extracted, and the gadolinium, iron, and manganese contents were quantified with inductively coupled plasma mass spectrometry (ICP-MS) and laser ablation–ICP-MS imaging. Results T1-weighted SI ratios did not show any significant trend with age in any region. The between-group analysis at 52 weeks resulted in a significant difference for the DCN/P and GP/PC region ratio between gadodiamide and its comparators. T1 relaxation times dropped with increasing age in the GP with a 10% to 20% difference between first and last measurement for all groups, and in the DCN <10% with a significant decrease for the gadodiamide group only (DCN: P = 0.0158). Group-related differences were observed at the last measurement time point for T1 values between gadodiamide and saline III in the DCN ( P = 0.0153) and gadodiamide and gadobutrol in the GP ( P = 0.0287). Analysis of the SI ratios of the T2-weighted images revealed a significant increase for the DCN/P and a decrease for the GP/PC with increasing age for all groups and no differences at 52 weeks after the last injection between groups. T2 values of the GP showed a significant linear decrease over time for all groups (saline I–III: P = 0.0101; gadobutrol: P = 0.0001; gadodiamide: P = 0.0142) in the aging rat brain. Quantitative imaging of manganese and iron by laser ablation–ICP-MS showed a linear increase for the saline groups in the GP for both metals (Fe: P < 0.0001; Mn: P = 0.0306) and in the DCN for manganese only ( P = 0.0187), but no differences between groups at 52 weeks. Conclusions Extensive MRI evaluation did not reveal an i...

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Age-Dependent Signal Intensity Changes in the Structurally Normal Pediatric Brain on Unenhanced T1-Weighted MR Imaging

Cited by 3 publications

References 29 publications

The switch from Gd-DTPA to Gd-DOTA is not associated with decrease of the T1 signal intensity of the pallidus and dentate in a pediatric population

The switch from Gd-DTPA to Gd-DOTA is not associated with decrease of the T1 signal intensity of the pallidus and dentate in a pediatric population

Maternal deprivation and milk replacement affect the integrity of gray and white matter in the developing lamb brain

The Effect of Gadolinium-Based Contrast Agents on Longitudinal Changes of Magnetic Resonance Imaging Signal Intensities and Relaxation Times in the Aging Rat Brain

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