Peter Fitzgerald scite author profile

Tools for noninvasively modulating neural signaling in peripheral organs will advance the study of nerves and their effect on homeostasis and disease. Herein, we demonstrate a noninvasive method to modulate specific signaling pathways within organs using ultrasound (U/S). U/S is first applied to spleen to modulate the cholinergic anti-inflammatory pathway (CAP), and US stimulation is shown to reduce cytokine response to endotoxin to the same levels as implant-based vagus nerve stimulation (VNS). Next, hepatic U/S stimulation is shown to modulate pathways that regulate blood glucose and is as effective as VNS in suppressing the hyperglycemic effect of endotoxin exposure. This response to hepatic U/S is only found when targeting specific sub-organ locations known to contain glucose sensory neurons, and both molecular (i.e. neurotransmitter concentration and cFOS expression) and neuroimaging results indicate US induced signaling to metabolism-related hypothalamic sub-nuclei. These data demonstrate that U/S stimulation within organs provides a new method for site-selective neuromodulation to regulate specific physiological functions.

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Parents' management of children's pain following ‘minor’ surgery

Finley¹,

McGrath²,

Forward³

et al. 1996

256

178

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The aim of the investigation was to evaluate the prevalence, severity, and parents' management of children's pain following short-stay and day surgery. The subjects were 189 parents of children (2-12 years of age) who had undergone short-stay or day surgery. Parents completed a 3-day diary of their child's pain and the methods used to alleviate it. There were clear differences in pain reported according to type of surgery. Some surgery, such as insertion of myringotomy tubes, appeared to cause little pain. Other procedures, including tonsillectomy, circumcision, and strabismus repair, resulted in about one-half the children experiencing clinically significant pain (> or = 30 mm on a 100 mm VAS). Sixty-eight percent of the parents reported they had been instructed to use acetaminophen for pain 'if necessary', 13% had been told to use acetaminophen regularly, and 8% recalled no instructions. Of the parents who rated their child's pain as significant, 13% administered no pain medication and 47% gave 1-3 doses on day 2. On day 3, 17% gave no medication and 45% gave 1-3 doses. Some types of 'minor' surgery result in significant pain postoperatively. Even when parents recognise that their children are in pain, most give inadequate doses of medication to control the pain.

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Opportunities for new CT contrast agents to maximize the diagnostic potential of emerging spectral CT technologies

Yeh

Fitzgerald

Edic

et al. 2017

Advanced Drug Delivery Reviews

165

144

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The introduction of spectral CT imaging in the form of fast clinical dual-energy CT enabled contrast material to be differentiated from other radiodense materials, improved lesion detection in contrast-enhanced scans, and changed the way that existing iodine and barium contrast materials are used in clinical practice. More profoundly, spectral CT can differentiate between individual contrast materials that have different reporter elements such that high-resolution CT imaging of multiple contrast agents can be obtained in a single pass of the CT scanner. These spectral CT capabilities would be even more impactful with the development of contrast materials designed to complement the existing clinical iodine- and barium-based agents. New biocompatible high-atomic number contrast materials with different biodistribution and X-ray attenuation properties than existing agents will expand the diagnostic power of spectral CT imaging without penalties in radiation dose or scan time.

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Preventing the Progression of Intestinal Failure–Associated Liver Disease in Infants Using a Composite Lipid Emulsion: A Pilot Randomized Controlled Trial of SMOFlipid

Diamond

Grant

Pencharz

et al. 2016

J Parenter Enteral Nutr

126

116

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Synthesis, characterization, and computed tomography imaging of a tantalum oxide nanoparticle imaging agent

et al. 2010

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Water-soluble ≤6 nm tantalum oxide nanoparticles have been synthesized and characterized in solution using HPLC-ICP, DLS, and multinuclear NMR. Nanoparticle formulation permitted intravenous injection, in vivo imaging, and subsequent renal clearance. A clinical CT scanner provided excellent resolution following agent injection, and distribution to the arterial system was visualized. In vitro CT imaging studies indicated that at equal molar concentration of tantalum and iodine, tantalum produced greater image contrast than iodine across the diagnostic X-ray spectrum with contrast benefit increasing with peak X-ray energy.

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