Browsing by Author "Thomas, Ross"
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- ItemChronic electrical stimulation with a peripheral suprachoroidal retinal implant: a preclinical safety study of neuroprotective stimulation.(Frontiers, 2024-06-20) Abbott, Carla J; Allen, Penelope J; Williams, Chris E; Williams, Richard A; Epp, Stephanie B; Burns, Owen; Thomas, Ross; Harrison, Mark; Thien, Patrick C; Saunders, Alexia; McGowan, Ceara; Sloan, Caitlin; Luu, Chi D; Nayagam, David A XExtraocular electrical stimulation is known to provide neuroprotection for retinal cells in retinal and optic nerve diseases. Currently, the treatment approach requires patients to set up extraocular electrodes and stimulate potentially weekly due to the lack of an implantable stimulation device. Hence, a minimally-invasive implant was developed to provide chronic electrical stimulation to the retina, potentially improving patient compliance for long-term use. The aim of the present study was to determine the surgical and stimulation safety of this novel device designed for neuroprotective stimulation.
- ItemTransmural impedance detects graded changes of inflammation in experimental colitis(The Royal Society Publishing, 2020-02) Payne, Sophie; Alexandrovics, Jack; Thomas, Ross; Shepherd, Robert; Furness, John; Fallon, JamesUlcerative colitis is a chronic disease in which the mucosa of the colon or rectum becomes inflamed. An objective biomarker of inflammation will provide quantitative measures to support qualitative assessment during an endoscopic examination. Previous studies show that transmural electrical impedance is a quantifiable biomarker of inflammation. Here, we hypothesize that impedance detects spatially restricted areas of inflammation, thereby allowing the distinction between regions that differ in their severity of inflammation. A platinum ball electrode was placed into minimally inflamed (i.e. normal) or 2,4,6-trinitrobenzene sulphonic acid (TNBS)-inflamed colonic regions of rats and impedance measurements obtained by passing current between the intraluminal and subcutaneous return electrode. Histology of the colon was correlated with impedance measurements. The impedance of minimally inflamed (normal) tissue was 1.5–1.9 kΩ. Following TNBS injection, impedance significantly decreased within the inflammatory penumbra ( p < 0.05), and decreased more in the inflammatory epicentre ( p = 0.02). Histological damage correlated with impedance values ( p < 0.05). Thus, impedance values of 1.5–1.9, 1.3–1.4 and 0.9–1.1 kΩ corresponded to minimally inflamed, mildly inflamed and moderately inflamed tissue, respectively. In conclusion, transmural impedance is an objective, spatially localized biomarker of mucosal integrity, and distinguishes between severities of intestinal inflammation.
- ItemVagus nerve stimulation to treat inflammatory bowel disease: a chronic, preclinical safety study in sheep(Future Medicine, 2019-02) Payne, Sophie; Burns, Owen; Stebbing, Martin; Thomas, Ross; de Silva, Angel; Sedo, Alicia; Weissenborn, Frank; Hyakumura, Tomoko; Huynh, Mario; May, Clive; Williams, Richard; Furness, John; Fallon, James; Shepherd, RobertAim: Electrical stimulation of the left cervical vagus nerve is a feasible therapy for inflammatory bowel disease (IBD). However, due to the location of the electrode placement, stimulation is often associated with side effects. Methods: We developed a cuff electrode array, designed to be implanted onto the vagus nerve of the lower thorax or abdomen, below branches to vital organs, to minimize off-target effects to stimulation. Results: Following chronic implantation and electrical stimulation, electrodes remained functional and neural thresholds stable, while there were minimal off-target affects to stimulation. No nerve damage or corrosion of stimulated electrodes was observed. Conclusion: This novel electrode array, located on the vagus nerve below branches to vital organs, is a safe approach for the treatment of inflammatory bowel disease.