Manda L. Vollmers scite author profile

Manda L. Vollmers

3Publications

116Citation Statements Received

182Citation Statements Given

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168

Affiliations

Resonance Research (United States), University of Minnesota, University of Minnesota Medical Center

Publications

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Non-Invasive Measurement of Cerebral Oxygen Metabolism in the Mouse Brain by Ultra-High Field ¹⁷O MR Spectroscopy

Cui

Zhu

Vollmers

et al. 2013

J Cereb Blood Flow Metab

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To assess cerebral energetics in transgenic mouse models of neurologic disease, a robust, efficient, and practical method for quantification of cerebral oxygen consumption is needed. (17)O magnetic resonance spectroscopy (MRS) has been validated to measure cerebral metabolic rate of oxygen (CMRO2) in the rat brain; however, mice present unique challenges because of their small size. We show that CMRO2 measurements with (17)O MRS in the mouse brain are highly reproducible using 16.4 Tesla and a newly designed oxygen delivery system. The method can be utilized to measure mitochondrial function in mice quickly and repeatedly, without oral intubation, and has numerous potential applications to study cerebral energetics.

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In vivo monitoring of recovery from neurodegeneration in conditional transgenic SCA1 mice

Öz

Vollmers

Nelson

et al. 2011

Experimental Neurology

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Reliable and objective markers of neuronal function and pathology that can directly assess the effects of neuroprotective treatments in the brain are urgently needed for clinical trials in neurodegenerative diseases. Here we assessed the sensitivity of high field proton magnetic resonance spectroscopy (1H MRS) to monitor reversal of neurodegeneration by taking advantage of a well characterized conditional mouse model of spinocerebellar ataxia type 1 (SCA1), where the cerebellar pathology and ataxic phenotype are reversible by doxycycline administration. Transgene expression was suppressed by feeding the mice with chow that contains doxycycline from 6 – 12 weeks of age in an early stage group and from 12 – 24 weeks in a mid-stage group. Cerebellar neurochemical profiles of treated and untreated conditional mice were measured at 9.4 tesla (T) before and after treatment and compared to those of wild type (WT) controls, as well as to histology measures (molecular layer thickness in the primary fissure and a global pathological severity score). Concentrations of N-acetylaspartate (NAA) and myo-inositol in the treated mice trended towards normalization to WT levels in both the early and mid-stage groups. The NAA-to-myo-inositol ratio was significantly different between the treated vs. untreated SCA1 mice and demonstrated partial reversal to WT values both at early and mid-stage, consistent with the histological measures. Taurine and total creatine levels were completely normalized in early and mid-stage treatment groups, respectively. The MRS markers were a more sensitive measure of treatment response than the histological measures from the same volume-of-interest in the early stage group. NAA, myo-inositol and taurine levels were significantly correlated with the histology measures in data combined from all groups. These data demonstrate that MRS markers reliably detect rescue from neuronal pathology and imply that the neurochemical levels measured by MRS accurately reflect treatment efficacy. Therefore this study presents an important step in validating MRS biomarkers as potential surrogate markers to evaluate therapeutics in pre-clinical and clinical trials in SCA1.

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Non‐invasive detection of neurochemical changes prior to overt pathology in a mouse model of spinocerebellar ataxia type 1

Emir

Clark

Vollmers

et al. 2013

Journal of Neurochemistry

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Spinocerebellar ataxia type 1 (SCA1) is a hereditary, progressive and fatal movement disorder that primarily affects the cerebellum. Non-invasive imaging markers to detect early disease in SCA1 will facilitate testing and implementation of potential therapies. We have previously demonstrated the sensitivity of neurochemical levels measured by 1H magnetic resonance spectroscopy (MRS) to progressive neurodegeneration using a transgenic mouse model of SCA1. In order to investigate very early neurochemical changes related to neurodegeneration, here we utilized a knock-in mouse model, the Sca1154Q/2Q line, which displays milder cerebellar pathology than the transgenic model. We measured cerebellar neurochemical profiles of Sca1154Q/2Q mice and wild-type littermates using 9.4T MRS at ages 6, 12, 24, and 39 weeks and assessed the cerebellar pathology of a subset of the mice at each time point. The Sca1154Q/2Q mice displayed very mild cerebellar pathology even at 39 weeks, however, were distinguished from wild types by MRS starting at 6 weeks. Taurine and total choline levels were significantly lower at all ages and glutamine and total creatine levels were higher starting at 12 weeks in Sca1154Q/2Q mice than controls, demonstrating the sensitivity of neurochemical levels to neurodegeneration related changes in the absence of overt pathology.

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Manda L. Vollmers

Non-Invasive Measurement of Cerebral Oxygen Metabolism in the Mouse Brain by Ultra-High Field ¹⁷O MR Spectroscopy

In vivo monitoring of recovery from neurodegeneration in conditional transgenic SCA1 mice

Non‐invasive detection of neurochemical changes prior to overt pathology in a mouse model of spinocerebellar ataxia type 1

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Manda L. Vollmers

Non-Invasive Measurement of Cerebral Oxygen Metabolism in the Mouse Brain by Ultra-High Field 17O MR Spectroscopy

In vivo monitoring of recovery from neurodegeneration in conditional transgenic SCA1 mice

Non‐invasive detection of neurochemical changes prior to overt pathology in a mouse model of spinocerebellar ataxia type 1

Contact Info

Product

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Non-Invasive Measurement of Cerebral Oxygen Metabolism in the Mouse Brain by Ultra-High Field ¹⁷O MR Spectroscopy