J. P. Phillips scite author profile

As the size of functional and structural MRI datasets expands, it becomes increasingly important to establish a baseline from which diagnostic relevance may be determined, a processing strategy that efficiently prepares data for analysis, and a statistical approach that identifies important effects in a manner that is both robust and reproducible. In this paper, we introduce a multivariate analytic approach that optimizes sensitivity and reduces unnecessary testing. We demonstrate the utility of this mega-analytic approach by identifying the effects of age and gender on the resting-state networks (RSNs) of 603 healthy adolescents and adults (mean age: 23.4 years, range: 12–71 years). Data were collected on the same scanner, preprocessed using an automated analysis pipeline based in SPM, and studied using group independent component analysis. RSNs were identified and evaluated in terms of three primary outcome measures: time course spectral power, spatial map intensity, and functional network connectivity. Results revealed robust effects of age on all three outcome measures, largely indicating decreases in network coherence and connectivity with increasing age. Gender effects were of smaller magnitude but suggested stronger intra-network connectivity in females and more inter-network connectivity in males, particularly with regard to sensorimotor networks. These findings, along with the analysis approach and statistical framework described here, provide a useful baseline for future investigations of brain networks in health and disease.

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Extension of Drosophila lifespan by overexpression of human SOD1 in motorneurons

Parkes

Elia²,

et al. 1998

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Reactive oxygen (RO) has been identified as an important effector in ageing and lifespan determination. The specific cell types, however, in which oxidative damage acts to limit lifespan of the whole organism have not been explicitly identified. The association between mutations in the gene encoding the oxygen radical metabolizing enzyme CuZn superoxide dismutase (SOD1) and loss of motorneurons in the brain and spinal cord that occurs in the life-shortening paralytic disease, Familial Amyotrophic Lateral Sclerosis (FALS; ref. 4), suggests that chronic and unrepaired oxidative damage occurring specifically in motor neurons could be a critical causative factor in ageing. To test this hypothesis, we generated transgenic Drosophila which express human SOD1 specifically in adult motorneurons. We show that overexpression of a single gene, SOD1, in a single cell type, the motorneuron, extends normal lifespan by up to 40% and rescues the lifespan of a short-lived Sod null mutant. Elevated resistance to oxidative stress suggests that the lifespan extension observed in these flies is due to enhanced RO metabolism. These results show that SOD activity in motorneurons is an important factor in ageing and lifespan determination in Drosophila.

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A prospective diffusion tensor imaging study in mild traumatic brain injury

Mayer

Mannell²,

Gasparovic³

et al. 2010

Neurology

407

306

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Objectives: Only a handful of studies have investigated the nature, functional significance, and course of white matter abnormalities associated with mild traumatic brain injury (mTBI) during the semi-acute stage of injury. The present study used diffusion tensor imaging (DTI) to investigate white matter integrity and compared the accuracy of traditional anatomic scans, neuropsychological testing, and DTI for objectively classifying mTBI patients from controls. Methods:Twenty-two patients with semi-acute mTBI (mean ϭ 12 days postinjury), 21 matched healthy controls, and a larger sample (n ϭ 32) of healthy controls were studied with an extensive imaging and clinical battery. A subset of participants was examined longitudinally 3-5 months after their initial visit.Results: mTBI patients did not differ from controls on clinical imaging scans or neuropsychological performance, although effect sizes were consistent with literature values. In contrast, mTBI patients demonstrated significantly greater fractional anisotropy as a result of reduced radial diffusivity in the corpus callosum and several left hemisphere tracts. DTI measures were more accurate than traditional clinical measures in classifying patients from controls. Longitudinal data provided preliminary evidence of partial normalization of DTI values in several white matter tracts.Conclusions: Current findings of white matter abnormalities suggest that cytotoxic edema may be present during the semi-acute phase of mild traumatic brain injury (mTBI). Initial mechanical damage to axons disrupts ionic homeostasis and the ratio of intracellular and extracellular water, primarily affecting diffusion perpendicular to axons. Diffusion tensor imaging measurement may have utility for objectively classifying mTBI, and may serve as a potential biomarker of recovery. Neurology® 2010;74:643-650 GLOSSARY ADC ϭ apparent diffusion coefficient; CC ϭ corpus callosum; CCI ϭ cortical impact injury model; CR ϭ corona radiata; DTI ϭ diffusion tensor imaging; EC ϭ external capsule; FA ϭ fractional anisotropy; FPI ϭ fluid percussion injury model; HC ϭ healthy controls; IC ϭ internal capsule; JHU ϭ Johns Hopkins University; MANCOVA ϭ multivariate analysis of covariance; mTBI ϭ mild traumatic brain injury; RD ϭ radial diffusivity; ROI ϭ region of interest; SCR ϭ superior corona radiata; SLF ϭ superior longitudinal fasciculus; UF ϭ uncinate fasciculus.Complex cognitive processes such as attention, executive functions, and memory depend on intact white matter tracts among frontal, parietal, and medial temporal lobes, 1 which are likely disrupted following mild traumatic brain injury (mTBI). Histologic evidence of white matter changes have been observed in both human autopsy 2,3 and animal 4 studies of mTBI. Although traditional neuroimaging sequences (i.e., T1-and T2-weighted imaging) are typically insensitive to these putative white matter changes, diffusion tensor imaging (DTI) is capable of measuring white matter pathology with histologic correlates in animal models of injury...

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Null mutation of copper/zinc superoxide dismutase in Drosophila confers hypersensitivity to paraquat and reduced longevity.

Phillips

Campbell

Michaud

et al. 1989

Proc. Natl. Acad. Sci. U.S.A.

358

238

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The role of copper/zinc-containing superoxide dismutase (cSOD; superoxide:superoxide oxidoreductase, EC 1.15.1.1) in metabolic defense against 02 toxicity in Drosophila is examined through the properties of a mutant strain carrying a cSOD-null mutation, cSOD1'08. Homozygotes are viable as larvae, which indicates that cSOD is not essential for cell viability per se. cSOD"'0 confers recessive sensitivity to the superoxide anion (O )-generator paraquat and to the transition metal compound CuS04, which indicates that the cSOD-nufl condition in fact leads to impaired°2 metabolism.The primary biological consequences of the reduced°2 dismutation capacity of cSOD"IY Drosophila are realized in the adult as infertility and reduction in life-span. We conclude that the infertility and reduced life-span of cSODR"'O adults arise as a consequence of the reduced capacity of embryos, larvae, and pupae to adequately protect developing preimaginal cells from 02-jnitiated cytotoxic damage.

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J. P. Phillips

A Baseline for the Multivariate Comparison of Resting-State Networks

Extension of Drosophila lifespan by overexpression of human SOD1 in motorneurons

A prospective diffusion tensor imaging study in mild traumatic brain injury

Null mutation of copper/zinc superoxide dismutase in Drosophila confers hypersensitivity to paraquat and reduced longevity.

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