James D. Sheehan scite author profile

Nausea is a universal human experience. It evolves slowly over time, and brain mechanisms underlying this evolution are not well understood. Our functional magnetic resonance imaging (fMRI) approach evaluated brain activity contributing to and arising from increasing motion sickness. Subjects rated transitions to increasing nausea, produced by visually induced vection within the fMRI environment. We evaluated parametrically increasing brain activity 1) precipitating increasing nausea and 2) following transition to stronger nausea. All subjects demonstrated visual stimulus-associated activation (P < 0.01) in primary and extrastriate visual cortices. In subjects experiencing motion sickness, increasing phasic activity preceding nausea was found in amygdala, putamen, and dorsal pons/locus ceruleus. Increasing sustained response following increased nausea was found in a broader network including insular, anterior cingulate, orbitofrontal, somatosensory and prefrontal cortices. Moreover, sustained anterior insula activation to strong nausea was correlated with midcingulate activation (r = 0.87), suggesting a closer linkage between these specific regions within the brain circuitry subserving nausea perception. Thus, while phasic activation in fear conditioning and noradrenergic brainstem regions precipitates transition to strong nausea, sustained activation following this transition occurs in a broader interoceptive, limbic, somatosensory, and cognitive network, reflecting the multiple dimensions of this aversive commonly occurring symptom.

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Polypropylene Plastic Waste Conversion to Lubricants over Ru/TiO₂ Catalysts

Kots

et al. 2021

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Plastic recycling and upcycling are required to combat the environmental crisis from landfilling consumer products. Chemocatalytic technologies are the most promising approach to achieve this. Here, we show that ruthenium deposited on titania is an active and selective catalyst in polypropylene breakdown into valuable lubricant-range hydrocarbons with narrow molecular weight distribution and a low methane formation at low temperatures of 250 °C with a modest H 2 pressure. Amorphous polypropylene and everyday bags and bottles were also effectively converted to lubricants with yields up to 80+%. Quantification of critical properties, including pour point, kinematic viscosity, and viscosity index, indicates that the products are promising alternatives to currently used base or synthetic oils. The reaction network involves the sequential conversion of polymer into the oil with a gradual decrease of molecular weight until ∼700−800 g/mol and slow liquid gasification to methane and ethane. NMR, ATR-IR, GCMS, and isotopic labeling experiments expose the complexity of structure and reaction evolution whereby hydrogenolysis involves intermediate dehydrogenation with synchronous loss of polypropylene stereoregularity.

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Brain Circuitry Supporting Multi-Organ Autonomic Outflow in Response to Nausea

et al. 2014

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While autonomic outflow is an important co-factor of nausea physiology, central control of this outflow is poorly understood. We evaluated sympathetic (skin conductance level) and cardiovagal (high-frequency heart rate variability) modulation, collected synchronously with functional MRI (fMRI) data during nauseogenic visual stimulation aimed to induce vection in susceptible individuals. Autonomic data guided analysis of neuroimaging data, using a stimulus-based (analysis windows set by visual stimulation protocol) and percept-based (windows set by subjects' ratings) approach. Increased sympathetic and decreased parasympathetic modulation was associated with robust and anti-correlated brain activity in response to nausea. Specifically, greater autonomic response was associated with reduced fMRI signal in brain regions such as the insula, suggesting an inhibitory relationship with premotor brainstem nuclei. Interestingly, some sympathetic/parasympathetic specificity was noted. Activity in default mode network and visual motion areas was anti-correlated with parasympathetic outflow at peak nausea. In contrast, lateral prefrontal cortical activity was anti-correlated with sympathetic outflow during recovery, soon after cessation of nauseogenic stimulation. These results suggest divergent central autonomic control for sympathetic and parasympathetic response to nausea. Autonomic outflow and the central autonomic network underlying ANS response to nausea may be an important determinant of overall nausea intensity and, ultimately, a potential therapeutic target.

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Products, Pathways, and Kinetics for the Fast Hydrothermal Liquefaction of Soy Protein Isolate

Sheehan

Savage²

2016

ACS Sustainable Chem. Eng.

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We conducted nonisothermal fast hydrothermal liquefaction (HTL) of soy protein isolate (SPI) for batch holding times of 10−300 s and at temperatures up to 500 °C. The SPI solids rapidly formed water-soluble products, some of which subsequently formed biocrude. The highest biocrude yields (38−40 wt %) were obtained within 45−120 s, at which times the reactor temperatures had reached 375−435 °C. The highest recovery of nitrogen in the aqueous-phase products (80% of that present in SPI) occurred prior to formation of high biocrude yields. Ammonia formation was significant when the hydrothermal reaction medium reached supercritical conditions; over 50% of the atomic N appeared as ammonia under such conditions. We deduced the reaction pathways and developed a kinetic model from the experimental data. The reaction network includes two types of aqueous-phase products formed during HTL of protein. The first type arises directly from the SPI and the second arise from biocrude. The model accurately correlated the product yields under the fast HTL experimental conditions studied, and it accurately predicted the yields of product fractions from isothermal HTL of SPI at 300 and 350 °C.

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Reductive catalytic fractionation of agricultural residue and energy crop lignin and application of lignin oil in antimicrobials

et al. 2020

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Products and Kinetics for Isothermal Hydrothermal Liquefaction of Soy Protein Concentrate

Luo

Sheehan

Dai

et al. 2016

ACS Sustainable Chem. Eng.

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Soy protein concentrate was hydrothermally treated at isothermal temperatures of 200, 250, 300, and 350 °C for times up to 60 min to produce a crude bio-oil. Additional product fractions included water-soluble products, gases, and residual solids. We report herein the conversion of protein and gravimetric yields of the different product fractions. The biocrude yield generally increased with both time and temperature as did the yield of gaseous products. The highest biocrude yield was 34%, produced from liquefaction at 350 °C for 60 min. Chemical and physical characterization of the biocrude revealed how its composition and boiling point range changed with reaction time. Finally, we report a reaction network and the parameters for a phenomenological kinetics model that captures the influence of time and temperature on the yields of gas, solid, biocrude, and aqueous-phase products from isothermal hydrothermal liquefaction (HTL) of soy protein concentrate. The reaction network comprised a sole primary path, which converted soy protein concentrate to aqueous-phase products. Secondary reactions of these water-soluble compounds produced biocrude and gases. There was no direct path to biocrude formation from the biomass feedstock.

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Altered brain morphometry in carpal tunnel syndrome is associated with median nerve pathology

Maeda

Kettner

Sheehan

et al. 2013

NeuroImage: Clinical

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Objective Carpal tunnel syndrome (CTS) is a common median nerve entrapment neuropathy characterized by pain, paresthesias, diminished peripheral nerve conduction velocity (NCV) and maladaptive functional brain neuroplasticity. We evaluated structural reorganization in brain gray (GM) and white (WM) matter and whether such plasticity is linked to altered median nerve function in CTS. Methods We performed NCV testing, T1-weighted structural MRI, and diffusion tensor imaging (DTI) in 28 CTS and 28 age-matched healthy controls (HC). Voxel-based morphometry (VBM) contrasted regional GM volume for CTS versus HC. Significant clusters were correlated with clinical metrics and served as seeds to define associated WM tracts using DTI data and probabilistic tractography. Within these WM tracts, fractional anisotropy (FA), axial (AD) and radial (RD) diffusivity were evaluated for group differences and correlations with clinical metrics. Results For CTS subjects, GM volume was significantly reduced in contralesional S1 (hand-area), pulvinar and frontal pole. GM volume in contralesional S1 correlated with median NCV. NCV was also correlated with RD and was negatively correlated with FA within U-fiber cortico-cortical association tracts identified from the contralesional S1 VBM seed. Conclusions Our study identified clear morphometric changes in the CTS brain. This central morphometric change is likely secondary to peripheral nerve pathology and altered somatosensory afference. Enhanced axonal coherence and myelination within cortico-cortical tracts connecting primary somatosensory and motor areas may accompany peripheral nerve deafferentation. As structural plasticity was correlated with NCV and not symptomatology, the former may be a better determinant of appropriate clinical intervention for CTS, including surgery.

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Modeling the effects of microalga biochemical content on the kinetics and biocrude yields from hydrothermal liquefaction

Sheehan

Savage

2017

Bioresource Technology

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James D. Sheehan

The Brain Circuitry Underlying the Temporal Evolution of Nausea in Humans

Polypropylene Plastic Waste Conversion to Lubricants over Ru/TiO₂ Catalysts

Brain Circuitry Supporting Multi-Organ Autonomic Outflow in Response to Nausea

Products, Pathways, and Kinetics for the Fast Hydrothermal Liquefaction of Soy Protein Isolate

Reductive catalytic fractionation of agricultural residue and energy crop lignin and application of lignin oil in antimicrobials

Products and Kinetics for Isothermal Hydrothermal Liquefaction of Soy Protein Concentrate

Altered brain morphometry in carpal tunnel syndrome is associated with median nerve pathology

Modeling the effects of microalga biochemical content on the kinetics and biocrude yields from hydrothermal liquefaction

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James D. Sheehan

The Brain Circuitry Underlying the Temporal Evolution of Nausea in Humans

Polypropylene Plastic Waste Conversion to Lubricants over Ru/TiO2 Catalysts

Brain Circuitry Supporting Multi-Organ Autonomic Outflow in Response to Nausea

Products, Pathways, and Kinetics for the Fast Hydrothermal Liquefaction of Soy Protein Isolate

Reductive catalytic fractionation of agricultural residue and energy crop lignin and application of lignin oil in antimicrobials

Products and Kinetics for Isothermal Hydrothermal Liquefaction of Soy Protein Concentrate

Altered brain morphometry in carpal tunnel syndrome is associated with median nerve pathology

Modeling the effects of microalga biochemical content on the kinetics and biocrude yields from hydrothermal liquefaction

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Product

Resources

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Polypropylene Plastic Waste Conversion to Lubricants over Ru/TiO₂ Catalysts