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341 results on '"McKinley, MJ"'

1. Splanchnic sympathetic nerve denervation improves bacterial clearance and clinical recovery in established ovine Gram-negative bacteremia

Author

Peiris, RM, May, CN, Booth, LC, McAllen, RM, McKinley, MJ, Hood, S, Martelli, D, Bellomo, R, Lankadeva, YR, Peiris, RM, May, CN, Booth, LC, McAllen, RM, McKinley, MJ, Hood, S, Martelli, D, Bellomo, R, and Lankadeva, YR

Abstract

BACKGROUND: The autonomic nervous system can modulate the innate immune responses to bacterial infections via the splanchnic sympathetic nerves. Here, we aimed to determine the effects of bilateral splanchnic sympathetic nerve denervation on blood pressure, plasma cytokines, blood bacterial counts and the clinical state in sheep with established bacteremia. METHODS: Conscious Merino ewes received an intravenous infusion of Escherichia coli for 30 h (1 × 109 colony forming units/mL/h) to induce bacteremia. At 24 h, sheep were randomized to have bilaterally surgically implanted snares pulled to induce splanchnic denervation (N = 10), or not pulled (sham; N = 9). RESULTS: Splanchnic denervation did not affect mean arterial pressure (84 ± 3 vs. 84 ± 4 mmHg, mean ± SEM; PGroup = 0.7) compared with sham treatment at 30-h of bacteremia. Splanchnic denervation increased the plasma levels of the pro-inflammatory cytokine interleukin-6 (9.2 ± 2.5 vs. 3.8 ± 0.3 ng/mL, PGroup = 0.031) at 25-h and reduced blood bacterial counts (2.31 ± 0.45 vs. 3.45 ± 0.11 log10 [CFU/mL + 1], PGroup = 0.027) at 26-h compared with sham treatment. Plasma interleukin-6 and blood bacterial counts returned to sham levels by 30-h. There were no differences in the number of bacteria present within the liver (PGroup = 0.3). However, there was a sustained improvement in clinical status, characterized by reduced respiratory rate (PGroup = 0.024) and increased cumulative water consumption (PGroup = 0.008) in splanchnic denervation compared with sham treatment. CONCLUSION: In experimental Gram-negative bacteremia, interrupting splanchnic sympathetic nerve activity increased plasma interleukin-6, accelerated bacterial clearance, and improved clinical state without inducing hypotension. These findings suggest that splanchnic neural manipulation is a potential target for pharmacological or non-pharmacological interventions.

Published
2023

2. Reflex regulation of systemic inflammation by the autonomic nervous system.

Author

McAllen, RM, McKinley, MJ, Martelli, D, McAllen, RM, McKinley, MJ, and Martelli, D

Abstract

This short review focusses on the inflammatory reflex, which acts in negative feedback manner to moderate the inflammatory consequences of systemic microbial challenge. The historical development of the inflammatory reflex concept is reviewed, along with evidence that the endogenous reflex response to systemic inflammation is mediated by the splanchnic sympathetic nerves rather than by the vagi. We describe the coordinated nature of this reflex anti-inflammatory action: suppression of pro-inflammatory cytokines coupled with enhanced levels of the anti-inflammatory cytokine, interleukin 10. The limited information on the afferent and central pathways of the reflex is noted. We describe that the efferent anti-inflammatory action of the reflex is distributed among the abdominal viscera: several organs, including the spleen, can be removed without disabling the reflex. Understanding of the effector mechanism is incomplete, but it probably involves a very local action of neurally released noradrenaline on beta2 adrenoceptors on the surface of tissue resident macrophages and other innate immune cells. Finally we speculate on the biological and clinical significance of the reflex, citing evidence of its power to influence the resolution of experimental bacteraemia.

Published
2022

4. Sympathetic nerves control bacterial clearance

Author

Lankadeva, YR, May, CN, McKinley, MJ, Neeland, MR, Ma, S, Hocking, DM, Robins-Browne, R, Bedoui, S, Farmer, DGS, Bailey, SR, Martelli, D, McAllen, RM, Lankadeva, YR, May, CN, McKinley, MJ, Neeland, MR, Ma, S, Hocking, DM, Robins-Browne, R, Bedoui, S, Farmer, DGS, Bailey, SR, Martelli, D, and McAllen, RM

Abstract

A neural reflex mediated by the splanchnic sympathetic nerves regulates systemic inflammation in negative feedback fashion, but its consequences for host responses to live infection are unknown. To test this, conscious instrumented sheep were infected intravenously with live E. coli bacteria and followed for 48 h. A month previously, animals had undergone either bilateral splanchnic nerve section or a sham operation. As established for rodents, sheep with cut splanchnic nerves mounted a stronger systemic inflammatory response: higher blood levels of tumor necrosis factor alpha and interleukin-6 but lower levels of the anti-inflammatory cytokine interleukin-10, compared with sham-operated animals. Sequential blood cultures revealed that most sham-operated sheep maintained high circulating levels of live E. coli throughout the 48-h study period, while all sheep without splanchnic nerves rapidly cleared their bacteraemia and recovered clinically. The sympathetic inflammatory reflex evidently has a profound influence on the clearance of systemic bacterial infection.

Published
2020

5. From sensory circumventricular organs to cerebral cortex: Neural pathways controlling thirst and hunger

Author

McKinley, MJ, Denton, DA, Ryan, PJ, Yao, ST, Stefanidis, A, Oldfield, BJ, McKinley, MJ, Denton, DA, Ryan, PJ, Yao, ST, Stefanidis, A, and Oldfield, BJ

Abstract

Much progress has been made during the past 30 years with respect to elucidating the neural and endocrine pathways by which bodily needs for water and energy are brought to conscious awareness through the generation of thirst and hunger. One way that circulating hormones influence thirst and hunger is by acting on neurones within sensory circumventricular organs (CVOs). This is possible because the subfornical organ and organum vasculosum of the lamina terminalis (OVLT), the sensory CVOs in the forebrain, and the area postrema in the hindbrain lack a normal blood-brain barrier such that neurones within them are exposed to blood-borne agents. The neural signals generated by hormonal action in these sensory CVOs are relayed to several sites in the cerebral cortex to stimulate or inhibit thirst or hunger. The subfornical organ and OVLT respond to circulating angiotensin II, relaxin and hypertonicity to drive thirst-related neural pathways, whereas circulating amylin, leptin and possibly glucagon-like peptide-1 act at the area postrema to influence neural pathways inhibiting food intake. As a result of investigations using functional brain imaging techniques, the insula and anterior cingulate cortex, as well as several other cortical sites, have been implicated in the conscious perception of thirst and hunger in humans. Viral tracing techniques show that the anterior cingulate cortex and insula receive neural inputs from thirst-related neurones in the subfornical organ and OVLT, with hunger-related neurones in the area postrema having polysynaptic efferent connections to these cortical regions. For thirst, initially, the median preoptic nucleus and, subsequently, the thalamic paraventricular nucleus and lateral hypothalamus have been identified as likely sites of synaptic links in pathways from the subfornical organ and OVLT to the cortex. The challenge remains to identify the links in the neural pathways that relay signals originating in sensory CVOs to cortical sites

Published
2019

7. Influence of anterior midcingulate cortex on drinking behavior during thirst and following satiation

Author

Saker, P, Farrell, MJ, Egan, GF, McKinley, MJ, Denton, DA, Saker, P, Farrell, MJ, Egan, GF, McKinley, MJ, and Denton, DA

Abstract

In humans, activity in the anterior midcingulate cortex (aMCC) is associated with both subjective thirst and swallowing. This region is therefore likely to play a prominent role in the regulation of drinking in response to dehydration. Using functional MRI, we investigated this possibility during a period of "drinking behavior" represented by a conjunction of preswallow and swallowing events. These events were examined in the context of a thirsty condition and an "oversated" condition, the latter induced by compliant ingestion of excess fluid. Brain regions associated with swallowing showed increased activity for drinking behavior in the thirsty condition relative to the oversated condition. These regions included the cingulate cortex, premotor areas, primary sensorimotor cortices, the parietal operculum, and the supplementary motor area. Psychophysical interaction analyses revealed increased functional connectivity between the same regions and the aMCC during drinking behavior in the thirsty condition. Functional connectivity during drinking behavior was also greater for the thirsty condition relative to the oversated condition between the aMCC and two subcortical regions, the cerebellum and the rostroventral medulla, the latter containing nuclei responsible for the swallowing reflex. Finally, during drinking behavior in the oversated condition, ratings of swallowing effort showed a negative association with functional connectivity between the aMCC and two cortical regions, the sensorimotor cortex and the supramarginal gyrus. The results of this study provide evidence that the aMCC helps facilitate swallowing during a state of thirst and is therefore likely to contribute to the regulation of drinking after dehydration.

Published
2018

8. Bezlotoxumab for Prevention of Recurrent Clostridium difficile Infection

Author

Wilcox, M. H., Gerding, D. N., Poxton, I. R., Kelly, C., Nathan, R., Birch, T., Cornely, O. A., Rahav, G., Bouza, E., Lee, C., Jenkin, G., Jensen, W., Kim, Y. -S., Yoshida, J., Gabryelski, L., Pedley, A., Eves, K., Tipping, R., Guris, D., Kartsonis, N., Playford G, Dorr M. -B., Mcgechie, D, Iredell, J, Allworth, A, Cheng, A, Choi, Nj, Thalhammer, F, Maieron, A, Wenisch, C, Meyer, B, Jacobs, F, Delmee, M, Peetermans, W, Giot, Jb, Munhoz, Al, Kallas, Eg, Ladeira, Jp, Bernstein, Cn, Grimard, D, Mcgeer, A, Poirier, A, Valiquette, L, Miller, M, Oughton, M, Trottier, S, Dolce, P, Smyth, D, Gambra, P, Palma, S, Rojas, L, Northland, R, Arellano, Mc, Perez, J, Barreto, Mf, Gomez, Jm, Ramirez, I, Correa, A, Onate, J, Rohacova, H, Stastnik, M, Zjevikova, A, Blazek, J, Kumpel, P, Petersen, Am, Gluud, Ll, Staugaard, Hm, Tvede, M, Glerup, H, Madsen, Sm, Helms, M, Naumann, R, Karthaus, M, Reinshagen, M, Raz, R, Giladi, M, Chowers, M, Bishara, J, Quirino, T, Castelli, F, Bassetti, M, Rizzardini, G, Vismara, E, Puoti, M, Viale, P, Menichetti, F, Cauda, R, Bonfanti, P, Franzetti, F, Gori, A, Minoli, L, Noriega, Er, Mills, Gd, Ritchie, S, Burns, A, Pithie, A, dos Santos RM, Aldomiro, F, Fernando, Pb, Rola, J, Reis, E, Van Zyl JH, Aboo, N, Richards, G, Hernandez, Mj, de Medrano VA, Prunonosa, Lm, Gonzalez, Jl, Reinoso, Jc, Martinez, Ar, Cisneros, Jd, Banos, Jr, Sheridan, R, Minton, J, Williams, J, Stanley, P, Guleri, A, Llewelyn, M, Todd, N, Barlow, G, Bacon, Ae, Baird, Im, Baxter, R, Zenilman, Jm, Beshay, M, Betts, Rf, Brettholz, Em, Buitrago, Mi, Carlson, Rw, Cook, Pp, Dupont, Hl, Foley, C, Freilich, B, Giron, Ja, Golan, Y, Green, S, Hall, Mc, Johnson, Dj, Jones, Rk, Graham, Dr, Kazimir, M, Keating, M, Brumble, Lm, Kumar, Pn, Liappis, Ap, Libke, R, Mehra, Pk, Overcash, Sj, Mullane, Km, Nguyen, Mh, Patel, Mc, Powers, Ck, Pullman, J, Keegan, J, Nepal, S, English, G, Ricci, Rl, Risi, Gf, Rodriguez, M, Schmitt, Cm, Sims, Md, Kamepalli, R, Tural, A, Vazquez, Ja, Alangaden, Gj, Weavind, Lm, Young, Ma, Chen, St, Liu, E, Nguyen, Hh, Alfonso, Tb, Muse, Dd, Orenstein, R, Yacyshyn, B, Gebhard, Re, Dinges, W, Bolton, M, Rubin, M, Kuemmerle, Jf, Limaye, Ap, Friedenberg, Ka, Hiemenz, Jw, Quadri, A, Martinez, Jv, Barcan, La, Cordova, E, Mykietiuk, A, Losso, M, Fedorak, Rn, Steiner, T, Gerson, M, Weiss, K, Dlouhy, P, Vitous, A, Benes, J, Husa, P, Knizek, P, Anttila, Vj, Broas, M, Camou, F, Postil, D, Launay, O, Corroyer-Simovic, B, Meynard, Jl, Schneider, S, Molina, Jm, Neau, D, Zalcman, G, Boutoille, D, Ostermann, H, Heinz, W, Reuter, S, Oren, I, Schiff, E, Umemoto, T, Masubuchi, T, Mukawa, K, Yasuda, K, Imokawa, S, Fukuda, K, Ohta, H, Harada, N, Fujii, S, Tamaki, S, Yasui, S, Furukawa, K, Takahashi, M, Uraoka, T, Watanabe, M, Ikehara, Y, Kodaira, M, Komatsu, H, Higashi, K, Taguchi, F, Ura, N, Serizawa, Y, Fukuchi, T, Ashikawa, T, Shabana, M, Okubo, M, Matsumoto, M, Kurihara, A, Miyasaka, E, Shimizu, M, Tominaga, H, Kubota, T, Kashiwazaki, M, Masuda, Y, Terasaki, S, Okafuji, H, Mieno, H, Urabe, T, Okamoto, E, Kajimura, M, Yamagishi, Y, Rydzewska, G, Mach, T, Ciechanowski, K, Podlasin, R, Tomasiewicz, K, Janczewska-Kazek, E, Czarnobilski, K, Halota, W, Gryglewska, B, Plesniak, R, Dabrowiecki, P, Lipowski, D, Simanenkov, V, Shcheglova, L, Uspenskiy, Y, Cheganov, A, Han, Ds, Kim, Js, Hong, Sp, Kim, Ti, Jang, Bi, Byeon, Js, Kim, E, Kim, Mj, Lee, J, Pai, H, Cheong, Hj, Lee, S, Loyarte, Ja, Gonzalez, Jc, Santiago, Eb, Lopez, Jr, Baranda, Jm, Viladomiu, As, Calbo, E, Lannergard, A, Falt, J, Gardlund, B, Andersson, Lm, Fraenkel, Cj, Rombo, L, Widmer, A, Chen, Yc, Sheng, Wh, Wang, Fd, Wang, Nc, Lee, Ch, Chen, Yh, Chuang, Yc, Unal, S, Ozaras, R, Esen, S, Ural, O, Ayaz, C, Sakarya, S, Celebi, A, Mistik, R, Bedimo, R, Bressler, A, Mckinley, Mj, Quirk, D, Talansky, Al, Agronin, Me, Akhrass, Fa, Ali, M, Alrabaa, Sf, Assi, Ma, Calfee, Dp, Carson, P, Mariani, Pg, Guerrero, D, Dubberke, Er, Hardi, R, Hazan-Steinberg, S, Itani, Km, Jauregui-Peredo, El, Kasabji, A, Hameed, M, Murillo, A, Odio, Aj, Shah, P, Braun, Ti, Slim, J, Sloan, L, Srinivasan, S, Tan, Mj, Clough, La, Herr, D, Miller, Lg, Dorfmeister, J, Khan, O, and Melik-Abrahamian, F.

Subjects
0301 basic medicine, Male, Adolescent, Adult, Aged, Aged, 80 and over, Anti-Bacterial Agents, Antibodies, Monoclonal, Antibodies, Neutralizing, Clostridium Infections, Double-Blind Method, Drug Therapy, Combination, Female, Humans, Infusions, Intravenous, Intention to Treat Analysis, Kaplan-Meier Estimate, Middle Aged, Secondary Prevention, Young Adult, Clostridium difficile, Clinical Trial, Phase III, Antibiotics, 0302 clinical medicine, Monoclonal, 80 and over, 030212 general & internal medicine, Medicine (all), Neutralizing, education.field_of_study, Research Support, Non-U.S. Gov't, General Medicine, Multicenter Study, Randomized Controlled Trial, Combination, Broadly Neutralizing Antibodies, Intravenous, medicine.medical_specialty, Infusions, medicine.drug_class, 030106 microbiology, Population, Placebo, Antibodies, 03 medical and health sciences, Pharmacotherapy, Drug Therapy, Internal medicine, Journal Article, medicine, education, Intention-to-treat analysis, Clostridioides difficile, business.industry, Interim analysis, Surgery, Bezlotoxumab, business
Abstract

BACKGROUND: Clostridium difficile is the most common cause of infectious diarrhea in hospitalized patients. Recurrences are common after antibiotic therapy. Actoxumab and bezlotoxumab are human monoclonal antibodies against C. difficile toxins A and B, respectively.METHODS: We conducted two double-blind, randomized, placebo-controlled, phase 3 trials, MODIFY I and MODIFY II, involving 2655 adults receiving oral standard-of-care antibiotics for primary or recurrent C. difficile infection. Participants received an infusion of bezlotoxumab (10 mg per kilogram of body weight), actoxumab plus bezlotoxumab (10 mg per kilogram each), or placebo; actoxumab alone (10 mg per kilogram) was given in MODIFY I but discontinued after a planned interim analysis. The primary end point was recurrent infection (new episode after initial clinical cure) within 12 weeks after infusion in the modified intention-to-treat population.RESULTS: In both trials, the rate of recurrent C. difficile infection was significantly lower with bezlotoxumab alone than with placebo (MODIFY I: 17% [67 of 386] vs. 28% [109 of 395]; adjusted difference, -10.1 percentage points; 95% confidence interval [CI], -15.9 to -4.3; PCONCLUSIONS: Among participants receiving antibiotic treatment for primary or recurrent C. difficile infection, bezlotoxumab was associated with a substantially lower rate of recurrent infection than placebo and had a safety profile similar to that of placebo. The addition of actoxumab did not improve efficacy. (Funded by Merck; MODIFY I and MODIFY II ClinicalTrials.gov numbers, NCT01241552 and NCT01513239 .).

Published
2017

9. Neural Substrate Essential for Suppression of Vasopressin Secretion and Excretion of a Water Load

Author

Pennington, GL, McKinley, MJ, Pennington, GL, and McKinley, MJ

Abstract

Suppression of vasopressin secretion to very low levels is essential for the excretion of excess water. To investigate a role for the preoptic brain region in the suppression of vasopressin secretion and the excretion of a water load, lesions were made in the vicinity of the lamina terminalis in ewes (LTX-sheep) and responses to water-loading or reduction of cerebrospinal fluid NaCl by i.c.v. isotonic mannitol solution were investigated. In normal conscious sheep, intraruminal water-loading resulted in the urine flow rate increasing and urine osmolality decreasing within 1 h, such that renal free water clearance (CH 2O ) increased from -1.02 ± 0.16 ml/min (mean ± SEM) to a maximum of +4.99 ± 0.62 ml/min at 2.5 h after water-loading (P < 0.05, n = 6). Plasma vasopressin levels fell from 0.88 ± 0.17 pg/ml to undetectable levels (< 0.4 pg/ml, n = 4). In LTX-sheep (n = 6), CH 2O did not change significantly after water-loading (-1.78 ± 0.13 to -2.03 ± 0.49 ml/min at 2.5 h after water-loading). Plasma vasopressin levels were inappropriately elevated in water-loaded LTX-sheep (n = 3). Intracerebroventricular mannitol (1 ml/h for 2 h) resulted in a water diuresis and increase in CH 2O (-1.16 ± 0.12 to +2.81 ± 0.58 ml/min, P < 0.05) after 2 h in normal sheep, and plasma vasopressin levels fell significantly from to 0.88 ± 0.23 pg/ml to < 0.4 pg/ml (P < 0.05, n = 6). However, in LTX-sheep, there was no change in CH 2O (-1.31 ± 0.14 to -1.35 ± 0.12 ml/min) or the plasma vasopressin concentration (1.47 ± 0.18 to 1.60 ± 0.44 pg/ml, not significant) with i.c.v. mannitol. The results suggest that an inhibitory pathway from the vicinity of the median preoptic nucleus to the supraoptic and hypothalamic paraventricular nuclei plays an important role in the suppression of vasopressin secretion and the excretion of excess water.

Published
2016

10. Involvement of central relaxin-3 signalling in sodium (salt) appetite

Author

Smith, CM, Walker, LL, Chua, BE, McKinley, MJ, Gundlach, AL, Denton, DA, Lawrence, AJ, Smith, CM, Walker, LL, Chua, BE, McKinley, MJ, Gundlach, AL, Denton, DA, and Lawrence, AJ

Abstract

What is the central question of this study? Sodium appetite is controlled by conserved neuronal transmitter-receptor systems. Here, we tested the contribution made by relaxin family peptide 3 receptor (RXFP3), the cognate G-protein-coupled receptor for the neuropeptide relaxin-3. What is the main finding and its importance? Intracerebroventricular infusion of an RXFP3 antagonist reduced in a dose-dependent manner the volume of 0.3 m NaCl consumed by sodium-depleted C57Bl/6J (wild-type) mice. This effect was absent in sodium-depleted Rxfp3 knockout mice, and RXFP3 antagonist infusion did not alter water consumption in wild-type mice subjected to multiple thirst tests, indicating both the pharmacological and the physiological specificity of observed effects. Our findings identify endogenous relaxin-3-RXFP3 signalling as a modulator of sodium appetite. Overconsumption of highly salted foods is common in Western diets and contributes significantly to metabolic disorders such as hypertension, renal dysfunction and diabetes. Sodium appetite, or the desire of terrestrial animals to seek and consume sodium-containing salts, is a behaviour mediated by a set of evolutionarily conserved neuronal systems. In these studies, we tested whether this instinctive behavioural drive is influenced by the G-protein-coupled relaxin family peptide 3 receptor (RXFP3), the cognate receptor for the neuropeptide relaxin-3, because relaxin-3-RXFP3 signalling can modulate arousal, motivation and ingestive behaviours. Intracerebroventricular (i.c.v.) infusion of the selective RXFP3 antagonist, R3(B1-22)R, reduced in a dose-dependent manner the volume of 0.3 m NaCl solution consumed when offered to sodium-depleted C57Bl/6J wild-type mice, relative to vehicle-treated control animals. Notably, i.c.v. R3(B1-22)R infusion did not alter 0.3 m NaCl consumption relative to vehicle in sodium-depleted Rxfp3 knockout mice, confirming the pharmacological specificity of this effect. Furthermore, i.c.v. R3(B1

Published
2015

11. Identification of CNS neurons with polysynaptic connections to both the sympathetic and parasympathetic innervation of the submandibular gland

Author

Hettigoda, NS, Fong, AY, Badoer, E, McKinley, MJ, Oldfield, BJ, Allen, AM, Hettigoda, NS, Fong, AY, Badoer, E, McKinley, MJ, Oldfield, BJ, and Allen, AM

Abstract

Coordinated modulation of sympathetic and parasympathetic nervous activity is required for physiological regulation of tissue function. Anatomically, whilst the peripheral sympathetic and parasympathetic pathways are separate, the distribution of premotor neurons in higher brain regions often overlaps. This co-distribution would enable coordinated regulation and might suggest individual premotor neurons could project to both sympathetic and parasympathetic outflows. To investigate this one submandibular gland was sympathectomized. One of two isogenic strains of the pseudorabies virus, expressing different fluorophores, was injected into the cut sympathetic nerve and the other into the submandibular gland. Independent labeling of the peripheral sympathetic and parasympathetic pathways was observed. Dual-labeled neurons were observed in many CNS regions known to be involved in regulating salivary function. We propose these observations highlight a common pattern of organization of the CNS, providing the anatomical framework for the fine control of organ function required for homeostatic regulation and the coordination of organ responses to enable complex behaviors.

Published
2015

12. Intracarotid hypertonic sodium chloride differentially modulates sympathetic nerve activity to the heart and kidney

Author

Frithiof, R, Xing, T, McKinley, MJ, May, CN, Ramchandra, R, Frithiof, R, Xing, T, McKinley, MJ, May, CN, and Ramchandra, R

Abstract

Hypertonic NaCl infused into the carotid arteries increases mean arterial pressure (MAP) and changes sympathetic nerve activity (SNA) via cerebral mechanisms. We hypothesized that elevated sodium levels in the blood supply to the brain would induce differential responses in renal and cardiac SNA via sensors located outside the blood-brain barrier. To investigate this hypothesis, we measured renal and cardiac SNA simultaneously in conscious sheep during intracarotid infusions of NaCl (1.2 M), sorbitol (2.4 M), or urea (2.4 M) at 1 ml/min for 4 min into each carotid. Intracarotid NaCl significantly increased MAP (91 ± 2 to 97 ± 3 mmHg, P < 0.05) without changing heart rate (HR). Intracarotid NaCl was associated with no change in cardiac SNA (11 ± 5.0%), but a significant inhibition of renal SNA (-32.5 ± 6.4%, P < 0.05). Neither intracarotid sorbitol nor urea changed MAP, HR, central venous pressure, cardiac SNA, and renal SNA. The changes in MAP and renal SNA were completely abolished by microinjection of the GABA agonist muscimol (5 mM, 500 nl each side) into the paraventricular nucleus of the hypothalamus (PVN). Infusion of intracarotid NaCl for 20 min stimulated a larger increase in water intake (1,100 ± 75 ml) than intracarotid sorbitol (683 ± 125 ml) or intracarotid urea (0 ml). These results demonstrate that acute increases in blood sodium levels cause a decrease in renal SNA, but no change in cardiac SNA in conscious sheep. These effects are mediated by cerebral sensors located outside the blood-brain barrier that are more responsive to changes in sodium concentration than osmolality. The renal sympathoinhibitory effects of sodium are mediated via a pathway that synapses in the PVN.

Published
2014

13. Reflex control of rat tail sympathetic nerve activity by abdominal temperature.

Author

Shafton, AD, Kitchener, P, McKinley, MJ, McAllen, RM, Shafton, AD, Kitchener, P, McKinley, MJ, and McAllen, RM

Abstract

The thermoregulatory reflex effects of warming and cooling in the abdomen were investigated in 4 urethane-anesthetized Sprague-Dawley rats. Animals were shaved and surrounded by a water-perfused silastic jacket. Skin temperature under the jacket was recorded by thermocouples at 3 sites and brain temperature was monitored by a thermocouple inserted lateral to the hypothalamus. A heat exchanger made from an array of silicon tubes in parallel loops was placed through a ventral incision into the abdomen; it rested against the intestinal serosa and the temperature of this interface was monitored by a thermocouple. Few- or multi-unit postganglionic activity was recorded from sympathetic nerves supplying tail vessels (tail SNA). Intra-abdominal temperature was briefly lowered or raised between 35-41 °C by perfusing the heat exchanger with cold or warm water. Warming the abdomen inhibited tail SNA while cooling it excited tail SNA in all 4 animals. We also confirmed that cooling the trunk skin activated tail SNA. Multivariate analysis of tail SNA with respect to abdominal, brain and trunk skin temperatures revealed that all had highly significant independent inhibitory actions on tail SNA, but in these experiments abdominal temperature had the weakest and brain temperature the strongest effect. We conclude that abdominal temperature has a significant thermoregulatory action in the rat, but its influence on cutaneous vasomotor control appears to be weaker than that of skin or brain temperatures.

Published
2014

14. The role of the paraventricular nucleus of the hypothalamus in the regulation of cardiac and renal sympathetic nerve activity in conscious normal and heart failure sheep

Author

Ramchandra, R, Hood, SG, Frithiof, R, McKinley, MJ, May, CN, Ramchandra, R, Hood, SG, Frithiof, R, McKinley, MJ, and May, CN

Abstract

The paraventricular nucleus of the hypothalamus (PVN) plays a major role in central cardiovascular and volume control, and has been implicated in controlling sympathetic nerve activity (SNA) during volume expansion and in heart failure (HF). The objectives were to determine the role of the PVN on cardiac and renal SNA (CSNA and RSNA) in conscious normal sheep and sheep with pacing-induced heart failure. In normovolaemic sheep in the normal state and in HF, bilateral microinjection of the GABA agonist muscimol (2 mm, 500 nl), had no effects on resting mean arterial pressure (MAP), heart rate (HR), CSNA or RSNA. In addition, neither chemical inhibition of the PVN using the inhibitory amino acid glycine (0.5 m, 500 nl), nor electrolytic lesion of the PVN reduced the elevated level of CSNA in HF. Dysinhibition of the PVN with bilateral microinjection of bicuculline (1 mm, 500 nl) in normal sheep increased MAP, HR and CSNA, but decreased RSNA, whereas in HF bicuculline had no effects on MAP, HR or CSNA, but inhibited RSNA. During volume expansion in normal sheep, muscimol reversed the inhibition of RSNA, but not of CSNA. In summary, removal of endogenous GABAergic inhibition to the PVN indicated that CSNA is normally under inhibitory control. Although this inhibition was absent in HF, the responses to pharmacological inhibition, or lesion of the PVN, indicates that it does not drive the increased CSNA in HF. These findings indicate the PVN has a greater influence on RSNA than CSNA in the resting state in normal and HF sheep, and during volume expansion in normal sheep.

Published
2013

15. BRAIN REGIONS INFLUENCED BY THE LATERAL PARABRACHIAL NUCLEUS IN ANGIOTENSIN II-INDUCED WATER INTAKE

Author

Davern, PJ, McKinley, MJ, Davern, PJ, and McKinley, MJ

Abstract

This study examined which brain regions are influenced by an inhibitory lateral parabrachial nucleus (LPBN) mechanism that affects water intake. Controls and rats with bilateral LPBN lesions were administered angiotensin II (AngII) (0.5mg/kg subcutaneous - SC), drinking responses measured, and brains processed for Fos-immunohistochemistry. A separate group of LPBN-lesioned and non-lesioned animals were denied water for 90 min prior to perfusion to remove any confounding factor of water intake. LPBN-lesioned rats drank a cumulative volume of 9 mL compared with <4 mL by controls (p<0.01). Compared with sham-lesioned animals, Fos expression was attenuated in overdrinking LPBN-lesioned rats in the median preoptic nucleus (MnPO), paraventricular nucleus of the hypothalamus (PVN), supraoptic nucleus (SON) (p<0.001), bed nucleus of the stria terminalis and central nucleus of the amygdala (p<0.01). In LPBN-lesioned rats that did not drink, greater numbers of activated neurons were detected in the PVN (p<0.001), SON (p<0.01), MnPO, nucleus of the solitary tract (NTS) and area postrema (p<0.05) in response to SC AngII, compared with non-lesioned rats. These data suggest that the direct effects of LPBN lesions caused an increase in AngII-induced water intake and in rats that did not drink an increase in Fos expression, while indirect secondary effects of LPBN lesions caused a reduction in Fos expression possibly related to excessive ingestion of water. An inhibitory mechanism, likely related to arterial baroreceptor stimulation, relayed by neurons located in the LPBN influences the responses of the MnPO, PVN and SON to increases in peripheral AngII.

Published
2013

16. Neural regulation of inflammation: no neural connection from the vagus to splenic sympathetic neurons

Author

Bratton, BO, Martelli, D, McKinley, MJ, Trevaks, D, Anderson, CR, McAllen, RM, Bratton, BO, Martelli, D, McKinley, MJ, Trevaks, D, Anderson, CR, and McAllen, RM

Abstract

The 'inflammatory reflex' acts through efferent neural connections from the central nervous system to lymphoid organs, particularly the spleen, that suppress the production of inflammatory cytokines. Stimulation of the efferent vagus has been shown to suppress inflammation in a manner dependent on the spleen and splenic nerves. The vagus does not innervate the spleen, so a synaptic connection from vagal preganglionic neurons to splenic sympathetic postganglionic neurons was suggested. We tested this idea in rats. In a preparatory operation, the anterograde tracer DiI was injected bilaterally into the dorsal motor nucleus of vagus and the retrograde tracer Fast Blue was injected into the spleen. On histological analysis 7-9 weeks later, 883 neurons were retrogradely labelled from the spleen with Fast Blue as follows: 89% in the suprarenal ganglia (65% left, 24% right); 11% in the left coeliac ganglion; but none in the right coeliac or either of the superior mesenteric ganglia. Vagal terminals anterogradely labelled with DiI were common in the coeliac but sparse in the suprarenal ganglia, and confocal analysis revealed no putative synaptic connection with any Fast Blue-labelled cell in either ganglion. Electrophysiological experiments in anaesthetized rats revealed no effect of vagal efferent stimulation on splenic nerve activity or on that of 15 single splenic-projecting neurons recorded in the suprarenal ganglion. Together, these findings indicate that vagal efferent neurons in the rat neither synapse with splenic sympathetic neurons nor drive their ongoing activity.

Published
2012

18. COLLABORATIVE PROSPECTIVE-STUDY OF THE FRAGILE-X SYNDROME - ONE-YEAR PROGRESS REPORT

Author

Sherman, Sl, Barbi, G, Brondumnielsen, K, Brown, Wt, Carpenter, Nj, Chudley, Ae, Ferraz, Op, Ferreira, P, Gustavson, Kh, Halliday, J, Hockey, A, Howardpeebles, Pn, Jenkins, E, Kennerknecht, I, Kahkonen, M, Ladaique, P, Leisti, J, Maddalena, A, Mazurczak, T, Mattei, Jf, Mattina, Teresa, Mckinley, Mj, Murphy, P, Pellissier, Mc, Purvissmith, S, Robinson, H, Scapagnini, U, Schaap, T, Shapiro, Lr, Smits, Apt, Steinbach, P, Turner, G, Uchida, Ia, Vanoost, Ba, Voelckel, Ma, Weaver, Dd, Webb, T., and University of Groningen

Subjects
PARENTAL ORIGIN, FRAGILE-X SYNDROME, MALES, RECURRENCE RISKS, X-LINKED MENTAL RETARDATION, ISOLATED CASE
Abstract

A prospective study of the fragile X syndrome [fra(X)] was initiated one year ago to refine the estimates of recurrence risks based on the phenotype of the mother and the family history of the syndrome. The basic unit of data consists of the description of the conceptus of women known to carry the fra(X) gene or of mothers of an isolated case. To date, information on 261 women and their conceptuses was ascertained primarily through prenatal diagnosis; these data are summarized here. Although tests of significance were limited due to small sample sizes in subgroups, the following trends were observed: 1) the penetrance of fra(X) site expression was 80% in both male and female conceptuses suggesting that fra(X) site expression is equally penetrant early in development; 2) the sex ratio at the time of prenatal diagnosis did not differ from one, indicating that selection against fra(X) fetuses, if any, does not differ among sexes; 3) the recurrence risk among offspring of borderline/mildly retarded mothers was higher than that among offspring of intellectually normal mothers; 4) the recurrence risk in offspring did not differ based on the mother's fra(X) site expression; and 5) the recurrence risk in offspring of mothers with isolated cases was slightly less (34%) than that of obligate carrier mothers (41%) although this was not significant. The potential use of these prospective data on the fra(X) syndrome is emphasized.

Published
1992

31. Adjunctive Use of Wide-Area Transepithelial Sampling-3D in Patients With Symptomatic Gastroesophageal Reflux Increases Detection of Barrett's Esophagus and Dysplasia.

Author

Shaheen NJ, Odze RD, Singer ME, Salyers WJ, Srinivasan S, Kaul V, Trindade AJ, Aravapalli A, Herman RD, Smith MS, and McKinley MJ

Subjects
Humans, Male, Female, Middle Aged, Prospective Studies, Aged, Biopsy, Esophagoscopy, Metaplasia pathology, Esophagus pathology, Registries, Adult, Esophageal Neoplasms pathology, Esophageal Neoplasms diagnosis, Precancerous Conditions pathology, Precancerous Conditions diagnosis, Barrett Esophagus pathology, Barrett Esophagus diagnosis, Gastroesophageal Reflux diagnosis, Gastroesophageal Reflux complications
Abstract

Introduction: Patients with gastroesophageal reflux (GERD) symptoms undergoing screening upper endoscopy for Barrett's esophagus (BE) frequently demonstrate columnar-lined epithelium, with forceps biopsies (FBs) failing to yield intestinal metaplasia (IM). Repeat endoscopy is then often necessary to confirm a BE diagnosis. The aim of this study was to assess the yield of IM leading to a diagnosis of BE by the addition of wide-area transepithelial sampling (WATS-3D) to FB in the screening of patients with GERD., Methods: We performed a prospective registry study of patients with GERD undergoing screening upper endoscopy. Patients had both WATS-3D and FB. Patients were classified by their Z line appearance: regular, irregular (<1 cm columnar-lined epithelium), possible short-segment BE (1 to <3 cm), and possible long-segment BE (≥3 cm). Demographics, IM yield, and dysplasia yield were calculated. Adjunctive yield was defined as cases identified by WATS-3D not detected by FB, divided by cases detected by FB. Clinicians were asked if WATS-3D results affected patient management., Results: Of 23,933 patients, 6,829 (28.5%) met endoscopic criteria for BE. Of these, 2,878 (42.1%) had IM identified by either FB or WATS-3D. Among patients fulfilling endoscopic criteria for BE, the adjunctive yield of WATS-3D was 76.5% and absolute yield was 18.1%. One thousand three hundred seventeen patients (19.3%) who fulfilled endoscopic BE criteria had IM detected solely by WATS-3D. Of 240 patients with dysplasia, 107 (44.6%) were found solely by WATS-3D. Among patients with positive WATS-3D but negative FB, the care plan changed in 90.7%., Discussion: The addition of WATS-3D to FB in patients with GERD being screened for BE resulted in confirmation of BE in an additional one-fifth of patients. Furthermore, dysplasia diagnoses approximately doubled., (Copyright © 2024 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of The American College of Gastroenterology.)

Published
2024
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32. Splanchnic sympathetic nerve denervation improves bacterial clearance and clinical recovery in established ovine Gram-negative bacteremia.

Author

Peiris RM, May CN, Booth LC, McAllen RM, McKinley MJ, Hood S, Martelli D, Bellomo R, and Lankadeva YR

Abstract

Background: The autonomic nervous system can modulate the innate immune responses to bacterial infections via the splanchnic sympathetic nerves. Here, we aimed to determine the effects of bilateral splanchnic sympathetic nerve denervation on blood pressure, plasma cytokines, blood bacterial counts and the clinical state in sheep with established bacteremia., Methods: Conscious Merino ewes received an intravenous infusion of Escherichia coli for 30 h (1 × 10 9 colony forming units/mL/h) to induce bacteremia. At 24 h, sheep were randomized to have bilaterally surgically implanted snares pulled to induce splanchnic denervation (N = 10), or not pulled (sham; N = 9)., Results: Splanchnic denervation did not affect mean arterial pressure (84 ± 3 vs. 84 ± 4 mmHg, mean ± SEM; P Group  = 0.7) compared with sham treatment at 30-h of bacteremia. Splanchnic denervation increased the plasma levels of the pro-inflammatory cytokine interleukin-6 (9.2 ± 2.5 vs. 3.8 ± 0.3 ng/mL, P Group  = 0.031) at 25-h and reduced blood bacterial counts (2.31 ± 0.45 vs. 3.45 ± 0.11 log10 [CFU/mL + 1], P Group  = 0.027) at 26-h compared with sham treatment. Plasma interleukin-6 and blood bacterial counts returned to sham levels by 30-h. There were no differences in the number of bacteria present within the liver (P Group  = 0.3). However, there was a sustained improvement in clinical status, characterized by reduced respiratory rate (P Group  = 0.024) and increased cumulative water consumption (P Group  = 0.008) in splanchnic denervation compared with sham treatment., Conclusion: In experimental Gram-negative bacteremia, interrupting splanchnic sympathetic nerve activity increased plasma interleukin-6, accelerated bacterial clearance, and improved clinical state without inducing hypotension. These findings suggest that splanchnic neural manipulation is a potential target for pharmacological or non-pharmacological interventions., (© 2023. European Society of Intensive Care Medicine and Springer Nature Switzerland AG.)

Published
2023
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33. Acute Inhibition of Inflammation Mediated by Sympathetic Nerves: The Inflammatory Reflex.

Author

Occhinegro A, McAllen RM, McKinley MJ, and Martelli D

Subjects
Humans, Sympathetic Nervous System, Inflammation, Reflex physiology, Cytokines, Anti-Inflammatory Agents pharmacology, Interleukin-10, Splanchnic Nerves metabolism
Abstract

In this review, we will try to convince the readers that the immune system is controlled by an endogenous neural reflex, termed inflammatory reflex, that inhibits the acute immune response during the course of a systemic immune challenge. We will analyse here the contribution of different sympathetic nerves as possible efferent arms of the inflammatory reflex. We will discuss the evidence that demonstrates that neither the splenic sympathetic nerves nor the hepatic sympathetic nerves are necessary for the endogenous neural reflex inhibition of inflammation. We will discuss the contribution of the adrenal glands to the reflex control of inflammation, noting that the neurally mediated release of catecholamines in the systemic circulation is responsible for the enhancement of the anti-inflammatory cytokine interleukin 10 (IL-10) but not of the inhibition of the pro-inflammatory cytokine tumour necrosis factor α (TNF). We will conclude by reviewing the evidence that demonstrates that the splanchnic anti-inflammatory pathway, composed by preganglionic and postganglionic sympathetic splanchnic fibres with different target organs, including the spleen and the adrenal glands, is the efferent arm of the inflammatory reflex. During the course of a systemic immune challenge, the splanchnic anti-inflammatory pathway is endogenously activated to inhibit the TNF and enhance the IL-10 response, independently, presumably acting on separate populations of leukocytes., (© 2023 The Author(s). Published by S. Karger AG, Basel.)

Published
2023
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34. Divergent splanchnic sympathetic efferent nerve pathways regulate interleukin-10 and tumour necrosis factor-α responses to endotoxaemia.

Author

McKinley MJ, Martelli D, Trevizan-Baú P, and McAllen RM

Subjects
Animals, Cytokines, Epinephrine blood, Lipopolysaccharides pharmacology, Pentolinium Tartrate pharmacology, Propanolamines, Rats, Reflex physiology, Splanchnic Nerves physiology, Sympathetic Nervous System physiology, Vagus Nerve physiology, Endotoxemia, Interleukin-10 metabolism, Tumor Necrosis Factor-alpha metabolism
Abstract

The efferent branches of the splanchnic sympathetic nerves that enhance interleukin-10 (IL-10) and suppress tumour necrosis factor-α (TNF) levels in the reflex response to systemic immune challenge were investigated in anaesthetized, ventilated rats. Plasma levels of TNF and IL-10 were measured 90 min after intravenous lipopolysaccharide (LPS, 60 µg/kg). Splanchnic nerve section, ganglionic blockade with pentolinium tartrate or β 2 adrenoreceptor antagonism with ICI 118551 all blocked IL-10 responses. Restoring plasma adrenaline after splanchnic denervation rescued IL-10 responses. TNF responses were disinhibited by splanchnic denervation or pentolinium treatment, but not by ICI 118551. Splanchnic nerve branches were cut individually or in combination in vagotomized rats, ruling out any vagal influence on results. Distal splanchnic denervation, sparing the adrenal nerves, disinhibited TNF but did not reduce IL-10 responses. Selective adrenal denervation depressed IL-10 but did not disinhibit TNF responses. Selective denervation of either spleen or liver did not affect IL-10 or TNF responses, but combined splenic and adrenal denervation did so. Finally, combined section of the cervical and lumbar sympathetic nerves did not affect cytokine responses to LPS. Together, these results show that the endogenous anti-inflammatory reflex is mediated by sympathetic efferent fibres that run in the splanchnic, but not other sympathetic nerves, nor the vagus. Within the splanchnic nerves, divergent pathways control these two cytokine responses: neurally driven adrenaline, acting via β 2 adrenoreceptors, regulates IL-10, while TNF is restrained by sympathetic nerves to abdominal organs including the spleen, where non-β 2 adrenoreceptor mechanisms are dominant. KEY POINTS: An endogenous neural reflex, mediated by the splanchnic, but not other sympathetic nerves, moderates the cytokine response to systemic inflammatory challenge. This reflex suppresses the pro-inflammatory cytokine tumour necrosis factor-α (TNF), while enhancing levels of the anti-inflammatory cytokine interleukin-10 (IL-10). The reflex enhancement of IL-10 depends on the splanchnic nerve supply to the adrenal gland and on β 2 adrenoreceptors, consistent with mediation by circulating adrenaline. After splanchnic nerve section it can be rescued by restoring circulating adrenaline. The reflex suppression of TNF depends on splanchnic nerve branches that innervate abdominal tissues including, but not restricted to, spleen: it is not blocked by adrenal denervation or β 2 adrenoreceptor antagonism. Distinct sympathetic efferent pathways are thus responsible for pro- and anti-inflammatory cytokine components of the reflex regulating inflammation., (© 2022 The Authors. The Journal of Physiology © 2022 The Physiological Society.)

Published
2022
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35. Artificial intelligence-enhanced volumetric laser endomicroscopy improves dysplasia detection in Barrett's esophagus in a randomized cross-over study.

Author

Kahn A, McKinley MJ, Stewart M, Wang KK, Iyer PG, Leggett CL, and Trindade AJ

Subjects
Artificial Intelligence, Cross-Over Studies, Humans, Hyperplasia, Lasers, Prospective Studies, Barrett Esophagus diagnostic imaging
Abstract

Volumetric laser endomicroscopy (VLE) is an advanced endoscopic imaging tool that can improve dysplasia detection in Barrett's esophagus (BE). However, VLE scans generate 1200 cross-sectional images that can make interpretation difficult. The impact of a new VLE artificial intelligence algorithm called Intelligent Real-time Image Segmentation (IRIS) is not well-characterized. This is a randomized prospective cross-over study of BE patients undergoing endoscopy who were randomized to IRIS-enhanced or unenhanced VLE first followed by the other (IRIS-VLE vs. VLE-IRIS, respectively) at expert BE centers. The primary outcome was image interpretation time, which served as a surrogate measure for ease of interpretation. The secondary outcome was diagnostic yield of dysplasia for each imaging modality. 133 patients were enrolled. 67 patients were randomized to VLE-IRIS and 66 to IRIS-VLE. Total interpretation time did not differ significantly between groups (7.8 min VLE-IRIS vs. 7 min IRIS-VLE, P = 0.1), however unenhanced VLE interpretation time was significantly shorter in the IRIS-VLE group (2.4 min vs. 3.8 min, P < 0.01). When IRIS was used first, 100% of dysplastic areas were identified, compared with 76.9% when VLE was the first interpretation modality (P = 0.06). IRIS-enhanced VLE reduced the time of subsequent unenhanced VLE interpretation, suggesting heightened efficiency and improved dysplasia detection. It was also able to identify all endoscopically non-visible dysplastic areas., (© 2022. The Author(s).)

Published
2022
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36. Use of a Novel Portable Non-powered Suction Device in Patients With Oropharyngeal Dysphagia During a Choking Emergency.

Author

McKinley MJ, Deede J, and Markowitz B

Abstract

Choking remains a leading cause of accidental death and morbidity worldwide. Currently, there is no device to assist in the resuscitation of a choking victim when standard maneuvers fail. A novel portable non-powered suction device (LifeVac; LifeVac LLC, Nesconset, NY) has been developed and may have potential use in patients with oropharyngeal dysphagia who are at increased risk of choking. The device is FDA registered and distributed worldwide. This case series provides a summary of self-reported data regarding the use of the suction device in adult patients with oropharyngeal dysphagia during real-world choking emergencies recorded between January 2014 and July 2020. Over a 6-year monitoring period the device has been reported to be successful in the resuscitation of 38 out of 39 patients with oropharyngeal dysphagia during choking emergencies. Although the obstruction was removed with the device from the 39 th patient, resuscitation was not successful and he succumbed to his injuries. This portable, non-powered suction device may be useful in resuscitating patients with oropharyngeal dysphagia who are choking. The reported cases describe successful use of the device in real-world settings with minimal risk. Resuscitating patients with oropharyngeal dysphagia using this device may be a viable option when abdominal thrusts or back blows fail to resolve a choking emergency., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 McKinley, Deede and Markowitz.)

Published
2022
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37. Reflex regulation of systemic inflammation by the autonomic nervous system.

Author

McAllen RM, McKinley MJ, and Martelli D

Subjects
Cytokines, Humans, Inflammation, Sympathetic Nervous System, Vagus Nerve, Reflex, Splanchnic Nerves
Abstract

This short review focusses on the inflammatory reflex, which acts in negative feedback manner to moderate the inflammatory consequences of systemic microbial challenge. The historical development of the inflammatory reflex concept is reviewed, along with evidence that the endogenous reflex response to systemic inflammation is mediated by the splanchnic sympathetic nerves rather than by the vagi. We describe the coordinated nature of this reflex anti-inflammatory action: suppression of pro-inflammatory cytokines coupled with enhanced levels of the anti-inflammatory cytokine, interleukin 10. The limited information on the afferent and central pathways of the reflex is noted. We describe that the efferent anti-inflammatory action of the reflex is distributed among the abdominal viscera: several organs, including the spleen, can be removed without disabling the reflex. Understanding of the effector mechanism is incomplete, but it probably involves a very local action of neurally released noradrenaline on beta 2 adrenoceptors on the surface of tissue resident macrophages and other innate immune cells. Finally we speculate on the biological and clinical significance of the reflex, citing evidence of its power to influence the resolution of experimental bacteraemia., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published
2022
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38. The endogenous inflammatory reflex inhibits the inflammatory response to different immune challenges in mice.

Author

Occhinegro A, Wong CY, Chua BY, Jackson DC, McKinley MJ, McAllen RM, and Martelli D

Subjects
Animals, Cytokines, Mice, Rats, Reflex, Tumor Necrosis Factor-alpha, Lipopolysaccharides, Splanchnic Nerves
Abstract

The splanchnic anti-inflammatory pathway, the efferent arm of the endogenous inflammatory reflex, has been shown to suppress the acute inflammatory response of rats to systemic lipopolysaccharide (LPS). Here we show for the first time that this applies also to mice, and that the reflex may be engaged by a range of inflammatory stimuli. Experiments were performed on mice under deep anaesthesia. Half the animals were subjected to bilateral section of the splanchnic sympathetic nerves, to disconnect the splanchnic anti-inflammatory pathway, while the remainder underwent a sham operation. Mice were then challenged intravenously with one of three inflammatory stimuli: the toll-like receptor (TLR)-4 agonist, LPS (60 µg/kg), the TLR-3 agonist Polyinosinic:polycytidylic acid (Poly I:C, 1 mg/kg) or the TLR-2 and -6 agonist dipalmitoyl-S-glyceryl cysteine (Pam2cys, 34 µg/kg). Ninety minutes later, blood was sampled by cardiac puncture for serum cytokine analysis. The splanchnic anti-inflammatory reflex action was assessed by comparing cytokine levels between animals with cut versus those with intact splanchnic nerves. A consistent pattern emerged: Tumor necrosis factor (TNF) levels in response to all three challenges were raised by prior splanchnic nerve section, while levels of the anti-inflammatory cytokine interleukin 10 (IL-10) were reduced. The raised TNF:IL-10 ratio after splanchnic nerve section indicates an enhanced inflammatory state when the reflex is disabled. These findings show for the first time that the inflammatory reflex drives a coordinated anti-inflammatory action also in mice, and demonstrate that its anti-inflammatory action is engaged, in similar fashion, by inflammatory stimuli mimicking a range of bacterial and viral infections., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published
2021
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39. Longitudinal and Circumferential Distributions of Dysplasia and Early Neoplasia in Barrett's Esophagus: A Pooled Analysis of Three Prospective Studies.

Author

Raphael KL, Inamdar S, McKinley MJ, Martinez N, Cavaliere K, Kahn A, Leggett CL, Iyer P, Wang KK, and Trindade AJ

Subjects
Barrett Esophagus diagnostic imaging, Biopsy, Data Interpretation, Statistical, Esophageal Neoplasms diagnostic imaging, Esophagoscopy, Female, Humans, Male, Microscopy, Confocal, Barrett Esophagus pathology, Esophageal Neoplasms pathology
Abstract

Introduction: Studies have shown that dysplasia in Barrett's esophagus (BE) has a predilection for the right hemisphere. There is limited information on the longitudinal distribution. The aim was to determine both the longitudinal and circumferential distributions of dysplasia and early neoplasia from 3 prospective studies., Methods: This is a pooled analysis from 3 prospective studies of patients with treatment-naive BE. Both circumferential and longitudinal locations (for BE segments greater than 1 cm) of dysplastic and early neoplastic lesions were recorded., Results: A total of 177 dysplastic and early neoplastic lesions from 91 patients were included in the pooled analysis; of which 59.3% (n = 105) were seen on high-definition white light endoscopy, 29.4% (n = 52) on advanced imaging, and 11.2% (n = 20) with random biopsies. The average Prague score was C3M5. Of 157 lesions within BE segments greater than 1 cm, 49 (34.8%) lesions were in the proximal half, whereas 92 lesions (65.2%) were in the distal half (P < 0.001). The right hemisphere of the esophagus contained 55% (86/157) of the total lesions compared with 45% (71/157) for the left hemisphere (P = 0.02). This was because of the presence of high-grade dysplasia being concentrated in the right hemisphere compared with the left hemisphere (60% vs 40%, P = 0.002)., Discussion: In this pooled analysis of prospective studies, both low-grade dysplasia and high-grade dysplasia are more frequently found in the distal half of the Barrett's segment. This study confirms that the right hemisphere is a hot spot for high-grade dysplasia. Careful attention to these locations is important during surveillance endoscopy., (Copyright © 2021 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of The American College of Gastroenterology.)

Published
2021
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40. Hyperdipsia in sheep bearing lesions in the medial septal nucleus.

Author

Smardencas A, Denton DA, and McKinley MJ

Subjects
Angiotensin II blood, Animals, Female, Osmolar Concentration, Sheep, Domestic, Drinking, Drinking Behavior, Septal Nuclei physiology
Abstract

Previous experiments in rodents showed that ablation of the septal brain region caused hyperdipsia. We investigated which part of the septal region needs ablation to produce hyperdipsia in sheep, and whether increased drinking was a primary hyperdipsia. Following ablation of the medial septal region (n = 5), but not parts of the lateral septal region (n = 4), daily water intake increased from ~2.5-5 L/day up to 10 L/day for up to 3 months post-lesion. In hyperdipsic sheep, plasma osmolality increased on the first day post-lesion and body weight fell, suggesting that initial hyperdipsia was secondary to fluid loss. However hyperosmolality was not sustained long-term and plasma hypo-osmolality persisted from 0.5 to 3 months post-lesion. Acute dipsogenic responses to intravenous hypertonic saline, intravenous or intracerebroventricular angiotensin II, water deprivation for 2 days, or feeding over 5 h were not potentiated by medial septal lesions, showing that the rapid pre-systemic inhibitory influences that cause satiation of thirst upon the act of drinking were intact. However, hyperdipsic sheep continued to ingest water when hyponatremic (plasma [Na] was 127-132 mmol/l) and plasma osmolality was 262-268 mosmol/kg due to retention of ingested fluid resulting from intravenous infusion of vasopressin administered to maintain a basal blood level of antidiuretic hormone. The results show that septal lesion-induced hyperdipsia is not due to disruption of acute pre-systemic influences associated with drinking water that initiates rapid satiation of thirst. Rather, inhibitory influences of hyponatremia, hypo-osmolality or hypervolemia on drinking appear to be disrupted by medial septal lesions., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2021
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42. The median preoptic nucleus: A major regulator of fluid, temperature, sleep, and cardiovascular homeostasis.

Author

McKinley MJ, Pennington GL, and Ryan PJ

Subjects
GABAergic Neurons, Homeostasis, Humans, Temperature, Preoptic Area, Sleep
Abstract

Located in the midline lamina terminalis of the anterior wall of the third ventricle, the median preoptic nucleus is a thin elongated nucleus stretching around the rostral border of the anterior commissure. Its neuronal elements, composed of various types of excitatory glutamatergic and inhibitory GABAergic neurons, receive afferent neural signals from (1) neighboring subfornical organ and organum vasculosum of the lamina terminalis related to plasma osmolality and hormone concentrations, e.g., angiotensin II; (2) from peripheral sensors such as arterial baroreceptors and cutaneous thermosensors. Different sets of these MnPO glutamatergic and GABAergic neurons relay output signals to hypothalamic, midbrain, and medullary regions that drive homeostatic effector responses. Included in the effector responses are (1) thirst, antidiuretic hormone secretion and renal sodium excretion that subserve osmoregulation and body fluid homeostasis; (2) vasoconstriction or dilatation of skin blood vessels, and shivering and brown adipose tissue thermogenesis for core temperature homeostasis; (3) inhibition of hypothalamic and midbrain nuclei that stimulate wakefulness and arousal, thereby promoting both REM and non-REM sleep; and (4) activation of sympathetic pathways that drive vasoconstriction and heart rate to maintain arterial pressure and the perfusion of vital organs. The small size of MnPO belies its massive homeostatic significance., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published
2021
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43. Sympathetic nerves control bacterial clearance.

Author

Lankadeva YR, May CN, McKinley MJ, Neeland MR, Ma S, Hocking DM, Robins-Browne R, Bedoui S, Farmer DGS, Bailey SR, Martelli D, and McAllen RM

Subjects
Animals, Arterial Pressure, Bacteremia blood, Bacteremia microbiology, Bacterial Load, Catecholamines blood, Cytokines blood, Escherichia coli Infections blood, Escherichia coli Infections microbiology, Escherichia coli Infections physiopathology, Female, Reflex physiology, Sheep, Splanchnic Nerves surgery, Bacteremia physiopathology, Splanchnic Nerves physiology, Sympathetic Nervous System microbiology, Sympathetic Nervous System physiology
Abstract

A neural reflex mediated by the splanchnic sympathetic nerves regulates systemic inflammation in negative feedback fashion, but its consequences for host responses to live infection are unknown. To test this, conscious instrumented sheep were infected intravenously with live E. coli bacteria and followed for 48 h. A month previously, animals had undergone either bilateral splanchnic nerve section or a sham operation. As established for rodents, sheep with cut splanchnic nerves mounted a stronger systemic inflammatory response: higher blood levels of tumor necrosis factor alpha and interleukin-6 but lower levels of the anti-inflammatory cytokine interleukin-10, compared with sham-operated animals. Sequential blood cultures revealed that most sham-operated sheep maintained high circulating levels of live E. coli throughout the 48-h study period, while all sheep without splanchnic nerves rapidly cleared their bacteraemia and recovered clinically. The sympathetic inflammatory reflex evidently has a profound influence on the clearance of systemic bacterial infection.

Published
2020
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44. Successful treatment of refractory Barrett's neoplasia with hybrid argon plasma coagulation: a case series.

Author

Trindade AJ, Wee D, Wander P, Stewart M, Lee C, Benias PC, and McKinley MJ

Subjects
Argon Plasma Coagulation, Esophagoscopy, Humans, Barrett Esophagus surgery, Esophageal Neoplasms surgery, Neoplasms
Abstract

Competing Interests: Dr. Benias is a consultant for Medtronic.Dr. Trindade is a consultant for Olympus America and Pentax America, and has received research support from Ninepoint Medical.

Published
2020
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45. Regional brain responses associated with using imagination to evoke and satiate thirst.

Author

Saker P, Carey S, Grohmann M, Farrell MJ, Ryan PJ, Egan GF, McKinley MJ, and Denton DA

Subjects
Adult, Aged, Aged, 80 and over, Brain diagnostic imaging, Female, Humans, Imagination, Magnetic Resonance Imaging, Male, Middle Aged, Water metabolism, Brain physiology, Thirst
Abstract

In response to dehydration, humans experience thirst. This subjective state is fundamental to survival as it motivates drinking, which subsequently corrects the fluid deficit. To elicit thirst, previous studies have manipulated blood chemistry to produce a physiological thirst stimulus. In the present study, we investigated whether a physiological stimulus is indeed required for thirst to be experienced. Functional MRI (fMRI) was used to scan fully hydrated participants while they imagined a state of intense thirst and while they imagined drinking to satiate thirst. Subjective ratings of thirst were significantly higher for imagining thirst compared with imagining drinking or baseline, revealing a successful dissociation of thirst from underlying physiology. The imagine thirst condition activated brain regions similar to those reported in previous studies of physiologically evoked thirst, including the anterior midcingulate cortex (aMCC), anterior insula, precentral gyrus, inferior frontal gyrus, middle frontal gyrus, and operculum, indicating a similar neural network underlies both imagined thirst and physiologically evoked thirst. Analogous brain regions were also activated during imagined drinking, suggesting the neural representation of thirst contains a drinking-related component. Finally, the aMCC showed an increase in functional connectivity with the insula during imagined thirst relative to imagined drinking, implying functional connectivity between these two regions is needed before thirst can be experienced. As a result of these findings, this study provides important insight into how the neural representation of subjective thirst is generated and how it subsequently motivates drinking behavior., Competing Interests: The authors declare no competing interest.

Published
2020
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46. Volumetric laser endomicroscopy features of dysplasia at the gastric cardia in Barrett's oesophagus: results from an observational cohort study.

Author

Trindade AJ, Raphael KL, Inamdar S, Stewart M, Berkowitz J, Vegesna A, McKinley MJ, Benias PC, Kahn A, Leggett CL, Lee C, Sejpal DV, and Rishi A

Abstract

Objective: Volumetric laser endomicroscopy (VLE) is an advanced imaging modality used in Barrett's oesophagus (BE) to help identify dysplasia in the oesophagus. VLE criteria exist for oesophageal dysplasia but not for dysplasia in the gastric cardia. The aim of this study was to determine if there are in vivo VLE features that can predict gastric cardia dysplasia in BE., Design: This was a single-centre observational cohort study from August 2016 to August 2018. Patients were included if they had BE, were undergoing a VLE exam as standard of care, and had a suspicious target laser marked at the gastric cardia. The following VLE features were correlated to histology to determine if an association existed between histology subtype and VLE feature: wide crypts, irregular surface, one large isolated gland, multiple glands, and complex glands., Results: A total of 110 in vivo gastric cardia targets in 77 patients with BE were analysed. The following abnormalities were identified: 61 wide crypts, 34 isolated glands, 16 irregular surfaces, 15 multiple glands, and 11 complex glands. Complex glands were the only VLE feature that correlated to any histology subtype. They were present in 71% of targets with high-grade dysplasia (HGD), T1a cancer or T1b cancer and had a sensitivity, specificity, and accuracy of 71%, 99%, and 85%, respectively. Of the 10 patients with complex glands on VLE and HGD/cancer on histology, 4 had a normal-appearing mucosa (40%) on endoscopy., Conclusion: Identification of complex glands on VLE may aid in detection of HGD or early cancer in the gastric cardia in BE. This is particularly important, as dysplasia at the gastric cardia can be difficult to see endoscopically., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2019. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.)

Published
2019
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47. Endoscopic Surveillance of Barrett's Esophagus Using Volumetric Laser Endomicroscopy With Artificial Intelligence Image Enhancement.

Author

Trindade AJ, McKinley MJ, Fan C, Leggett CL, Kahn A, and Pleskow DK

Subjects
Barrett Esophagus pathology, Disease Progression, Esophageal Mucosa diagnostic imaging, Esophageal Mucosa pathology, Esophageal Neoplasms prevention & control, Humans, Artificial Intelligence, Barrett Esophagus diagnostic imaging, Esophagoscopy methods, Image Enhancement methods, Watchful Waiting methods
Published
2019
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48. From sensory circumventricular organs to cerebral cortex: Neural pathways controlling thirst and hunger.

Author

McKinley MJ, Denton DA, Ryan PJ, Yao ST, Stefanidis A, and Oldfield BJ

Subjects
Animals, Humans, Neural Pathways physiology, Cerebral Cortex physiology, Circumventricular Organs physiology, Hunger physiology, Neurons physiology, Thirst physiology
Abstract

Much progress has been made during the past 30 years with respect to elucidating the neural and endocrine pathways by which bodily needs for water and energy are brought to conscious awareness through the generation of thirst and hunger. One way that circulating hormones influence thirst and hunger is by acting on neurones within sensory circumventricular organs (CVOs). This is possible because the subfornical organ and organum vasculosum of the lamina terminalis (OVLT), the sensory CVOs in the forebrain, and the area postrema in the hindbrain lack a normal blood-brain barrier such that neurones within them are exposed to blood-borne agents. The neural signals generated by hormonal action in these sensory CVOs are relayed to several sites in the cerebral cortex to stimulate or inhibit thirst or hunger. The subfornical organ and OVLT respond to circulating angiotensin II, relaxin and hypertonicity to drive thirst-related neural pathways, whereas circulating amylin, leptin and possibly glucagon-like peptide-1 act at the area postrema to influence neural pathways inhibiting food intake. As a result of investigations using functional brain imaging techniques, the insula and anterior cingulate cortex, as well as several other cortical sites, have been implicated in the conscious perception of thirst and hunger in humans. Viral tracing techniques show that the anterior cingulate cortex and insula receive neural inputs from thirst-related neurones in the subfornical organ and OVLT, with hunger-related neurones in the area postrema having polysynaptic efferent connections to these cortical regions. For thirst, initially, the median preoptic nucleus and, subsequently, the thalamic paraventricular nucleus and lateral hypothalamus have been identified as likely sites of synaptic links in pathways from the subfornical organ and OVLT to the cortex. The challenge remains to identify the links in the neural pathways that relay signals originating in sensory CVOs to cortical sites subserving either thirst or hunger., (© 2019 British Society for Neuroendocrinology.)

Published
2019
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49. Anti-inflammatory reflex action of splanchnic sympathetic nerves is distributed across abdominal organs.

Author

Martelli D, Farmer DGS, McKinley MJ, Yao ST, and McAllen RM

Subjects
Adrenal Glands physiopathology, Animals, Arterial Pressure, Catecholamines metabolism, Inflammation chemically induced, Lipopolysaccharides, Male, Rats, Rats, Sprague-Dawley, Reflex, Spleen physiopathology, Tumor Necrosis Factor-alpha metabolism, Abdomen physiopathology, Inflammation physiopathology, Splanchnic Nerves physiopathology, Sympathetic Nervous System physiopathology
Abstract

The splanchnic anti-inflammatory pathway has been proposed as the efferent arm of the inflammatory reflex. Although much evidence points to the spleen as the principal target organ where sympathetic nerves inhibit immune function, a systematic study to locate the target organ(s) of the splanchnic anti-inflammatory pathway has not yet been made. In anesthetized rats made endotoxemic with lipopolysaccharide (LPS, 60 µg/kg iv), plasma levels of tumor necrosis factor-α (TNF-α) were measured in animals with cut (SplancX) or sham-cut (Sham) splanchnic nerves. We confirm here that disengagement of the splanchnic anti-inflammatory pathway in SplancX rats (17.01 ± 0.95 ng/ml, mean ± SE) strongly enhances LPS-induced plasma TNF-α levels compared with Sham rats (3.76 ± 0.95 ng/ml). In paired experiments, the responses of SplancX and Sham animals were compared after the single or combined removal of organs innervated by the splanchnic nerves. Removal of target organ(s) where the splanchnic nerves inhibit systemic inflammation should abolish any difference in LPS-induced plasma TNF-α levels between Sham and SplancX rats. Any secondary effects of extirpating organs should apply to both groups. Surprisingly, removal of the spleen and/or the adrenal glands did not prevent the reflex splanchnic anti-inflammatory action nor did the following removals: spleen + adrenals + intestine; spleen + intestine + stomach and pancreas; or spleen + intestine + stomach and pancreas + liver. Only when spleen, adrenals, intestine, stomach, pancreas, and liver were all removed did the difference between SplancX and Sham animals disappear. We conclude that the reflex anti-inflammatory action of the splanchnic nerves is distributed widely across abdominal organs.

Published
2019
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50. Mutational load may predict risk of progression in patients with Barrett's oesophagus and indefinite for dysplasia: a pilot study.

Author

Trindade AJ, McKinley MJ, Alshelleh M, Levi G, Stewart M, Quinn KJ, and Thomas RM

Abstract

Background and Aims: Mutational load (ML) has been shown to help risk-stratify those that may progress from non-dysplastic Barrett's oesophagus (BE) to dysplastic disease. Management of patients with BE and indefinite for dysplasia (BE-IND) is challenging and risk stratification tools are lacking. The aim of this pilot study is to evaluate the utility of ML for risk stratification in patients with BE-IND., Methods: This is a single-centre, retrospective pilot study evaluating ML quantification in patients with BE-IND. Histology at follow-up endoscopy at least 1 year after the baseline endoscopy was used to determine if a patient progressed to low or high dysplasia. The ML levels were then compared among patients who progressed to dysplasia versus those who did not., Results: Thirty-five patients who met the inclusion criteria were identified, and seven met the exclusion criteria. Twenty-eight patients were analysed, of whom eight progressed to low-grade dysplasia (6) and high-grade dysplasia (2). Seven of these eight patients had some level of genomic instability detected in their IND biopsy (ML ≥0.5). Ten of the 20 (50%) who did not progress had no ML level. At an ML cut-off above 1.5, the risk of progression to high-grade dysplasia was 33% vs 0% (p=0.005), with a sensitivity of 100% and a specificity of 85%., Conclusion: These results indicate that ML may be able to risk-stratify progression to high-grade dysplasia in BE-IND. Larger studies are needed to confirm these findings., Competing Interests: Competing interests: None declared.

Published
2019
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