The impact of T1 versus EPI spatial normalization templates for fMRI data analyses

During healthy brain aging, different brain regions show anatomical or functional declines at different rates, and some regions may show compensatory increases in functional activity. However, few studies have explored interregional influences of brain activity during the aging process. We proposed a causality analysis framework combining high dimensionality independent component analysis (ICA), Granger causality, and least absolute shrinkage and selection operator regression on longitudinal brain metabolic activity data measured by Fludeoxyglucose positron emission tomography (FDG-PET). We analyzed FDG-PET images from healthy old subjects, who were scanned for at least five sessions with an averaged intersession interval of 1 year. The longitudinal data were concatenated across subjects to form a time series, and the first-order autoregressive model was used to measure interregional causality among the independent sources of metabolic activity identified using ICA. Several independent sources with reduced metabolic activity in aging, including the anterior temporal lobe and orbital frontal cortex, demonstrated causal influences over many widespread brain regions. On the other hand, the influenced regions were more distributed, and had smaller age-related declines or even relatively increased metabolic activity. The current data demonstrated interregional spreads of aging on metabolic activity at the scale of a year, and have identified key brain regions in the aging process that have strong influences over other regions. K E Y W O R D Saging, anterior temporal lobe, Granger causality, LASSO regression, metabolic connectivity, orbitofrontal cortex Data used in preparation of this article were obtained from the Alzheimer's Disease Neuroimaging Initiative (ADNI) database (adni.loni.usc.edu). As such, the investigators within the ADNI contributed to the design and implementation of ADNI and/or provided data but did not participate in analysis or writing of this report. A complete listing of ADNI investigators can be found at

Section: Pet Data Preprocessingmentioning

confidence: 99%

Section: Pet Data Preprocessingmentioning

confidence: 99%

Interregional causal influences of brain metabolic activity reveal the spread of aging effects during normal aging

Wölfer

Amend

et al. 2019

“…Arguably, a disadvantage of this approach is that spatial distortions in rsfMRI data may prevent consistent registration with the structural data unless corrected for. Calhoun and colleagues examined the unimodal and multimodal approaches in four datasets and registering functional data to a population template led to superior registration quality, lower inter-subject variance and higher statistical significance when compared to the multimodal approach (Calhoun, et al, 2017). This problem is likely to be encountered in ENIGMA studies that aggregate data collected over the past 20 years.…”

Section: Discussionmentioning

confidence: 99%

“…The ENIGMA-rsfMRI pipeline is uni-modal and is based on a populationbased brain template. Prior works on rsfMRI analysis are generally multimodal and use functional and structural data (Calhoun et al, 2017). In such approaches, a spatial transformation of the functional data to the structural image for each subject is followed by nonlinear registration of the structural data to an anatomic template.…”

Section: Relationship To Other Analysis Approachesmentioning

confidence: 99%

Comparison of heritability estimates on resting state fMRI connectivity phenotypes using the ENIGMA analysis pipeline

Adhikari

Jahanshad²,

Shukla

et al. 2018

We measured and compared heritability estimates for measures of functional brain connectivity extracted using the Enhancing Neuroimaging Genetics through Meta-Analysis (ENIGMA) rsfMRI analysis pipeline in two cohorts: the genetics of brain structure (GOBS) cohort and the HCP (the Human Connectome Project) cohort. These two cohorts were assessed using conventional (GOBS) and advanced (HCP) rsfMRI protocols, offering a test case for harmonization of rsfMRI phenotypes, and to determine measures that show consistent heritability for in-depth genome-wide analysis. The GOBS cohort consisted of 334 Mexican-American individuals (124M/210F, average age = 47.9 ± 13.2 years) from 29 extended pedigrees (average family size = 9 people; range 5-32). The GOBS rsfMRI data was collected using a 7.5-min acquisition sequence (spatial resolution = 1.72 × 1.72 × 3 mm ). The HCP cohort consisted of 518 twins and family members (240M/278F; average age = 28.7 ± 3.7 years). rsfMRI data was collected using 28.8-min sequence (spatial resolution = 2 × 2 × 2 mm ). We used the single-modality ENIGMA rsfMRI preprocessing pipeline to estimate heritability values for measures from eight major functional networks, using (1) seed-based connectivity and (2) dual regression approaches. We observed significant heritability (h = 0.2-0.4, p < .05) for functional connections from seven networks across both cohorts, with a significant positive correlation between heritability estimates across two cohorts. The similarity in heritability estimates for resting state connectivity measurements suggests that the additive genetic contribution to functional connectivity is robustly detectable across populations and imaging acquisition parameters. The overarching genetic influence, and means to consistently detect it, provides an opportunity to define a common genetic search space for future gene discovery studies.

“…Each rs‐fMRI image was registered to the SRI24 atlas (Rohlfing, Zahr, Sullivan, & Pfefferbaum, ). While some recent studies suggest to directly register the mean BOLD image to the atlas (Adhikara, Jahanshad, Shukla, ; Calhoun et al, ; Dohmatob et al, ), the processing here complied with the baseline publication of NCANDA (Müller‐Oehring et al, ), which first aligned the mean BOLD image to the subject‐specific T1‐weighted MRI and then nonrigidly registered T1‐weighted MRI to the SRI atlas. Visual inspection insured that the quality of the registration between the mean BOLD image and the atlas space was high.…”

Section: Methodsmentioning

confidence: 99%

Longitudinally consistent estimates of intrinsic functional networks

Zhao

Kwon

Müller‐Oehring

et al. 2019

Increasing numbers of neuroimaging studies are acquiring data to examine changes in brain architecture by investigating intrinsic functional networks (IFN) from longitudinal resting‐state functional MRI (rs‐fMRI). At the subject level, these IFNs are determined by cross‐sectional procedures, which neglect intra‐subject dependencies and result in suboptimal estimates of the networks. Here, a novel longitudinal approach simultaneously extracts subject‐specific IFNs across multiple visits by explicitly modeling functional brain development as an essential context for seeking change. On data generated by an innovative simulation based on real rs‐fMRI, the method was more accurate in estimating subject‐specific IFNs than cross‐sectional approaches. Furthermore, only group‐analysis based on longitudinally consistent estimates identified significant developmental effects within IFNs of 246 adolescents from the National Consortium on Alcohol and NeuroDevelopment in Adolescence (NCANDA) study. The findings were confirmed by the cross‐sectional estimates when the corresponding group analysis was confined to the developmental effects. Those effects also converged with current concepts of neurodevelopment.