Professor David Grundy
School of Biosciences
Emeritus Professor
+44 114 222 4657
Full contact details
School of Biosciences
E06a
Alfred Denny Building
Western Bank
91直播
S10 2TN
- Profile
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Brief career history
- 1999-Present: Personal Chair, School of Biosciences, 91直播
- 2012-2016: Head of Department
- 1998-2004: Germany G盲stprofessor in the Department of Surgery, University of T眉bingen, Germany
- 1996-1999: Reader, Dept. of Biomedical Science, 91直播
- 1990-1996: Senior Lecturer, Dept. of Biomedical Science, 91直播
- 1990: Visiting Scientist, University of Hohenheim, Germany
- 1988: Visiting Scientist, University of Western Australia, Perth
- 1987-1990: Wellcome Trust Senior Lecturer, Department of Biomedical Science, University of 91直播
- 1981: Visiting Scientist, University of Calgary, Canada
- 1980-1987: Lecturer, Department of Physiology, University of 91直播
- 1978-1980: Postdoctoral Research Fellow, Department of Physiology, University of 91直播
- Research interests
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Neurogastroenterology 鈥 The neural control of gut function
My research is focused on the neural control of gut function. The term "neurogastroenterology" has been coined to describe the field of brain-gut interactions. This field has undergone rapid expansion recently for a number of reasons.
Sensory signals from the bladder and bowel: An age old problem
The aim of our research is to understand the function of sensory nerves innervating the bladder and bowel. Sensory signals are pivotal to reflexes that control bladder and bowel function and also mediate sensations associated with urgency and pain. Sensory signaling is up-regulated as a consequence of inflammation and is manifested as hypersensitivity to distension that persists long after inflammation has resolved.
Bladder and bowel disorders such as overactive bladder syndrome and irritable bowel syndrome are often associated with increased sensory signaling and pain.
These disorders have a profound impact on quality of life and are prevalent in the elderly causing constipation, urgency and incontinence but the underlying mechanisms are poorly understood.
Our lab employs neurobiological techniques to study the transduction of sensory signals generated from within the wall of the gastrointestinal tract and bladder.
Our recent studies have identified changes in ion channels and receptors that determine signal transduction and regulate excitability in the peripheral endings.
Mediators released from the epithelial lining of the bladder and bowel play a role in maintaining aberrant signalling. In aged animals there is a differential effect on sensory signalling with augmented signalling in the bladder and a deficit in signalling in the bowel. Current efforts are to identify the molecular basis of aberrant signalling.
While our approach is largely basic science, a strong clinical element is maintained through collaborations aimed at understanding the basis of sensations that arise in both functional and organic GI disorders.
- Publications
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Show: Featured publications All publications
Featured publications
Journal articles
All publications
Books
Journal articles
- . Practical Neurology, 22(1), 82-84.
- . iScience, 23(11).
- . Scientific Reports, 9(1).
- . The Journal of Physiology.
- . American Journal of Physiology-Gastrointestinal and Liver Physiology, 317(3), G275-G284.
- . Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 474(2218).
- . American Journal of Physiology-Renal Physiology, 315(4), F1174-F1185.
- . Scientific Reports, 8(1).
- . Acta Biomaterialia.
- . Scientific Reports, 7.
- . Scientific Reports, 6.
- . Journal of Visualized Experiments(116).
- . Neurogastroenterology & Motility, 28(10), 1465-1479.
- . Journal of Physiology, 594(16), 4549-4564.
- . Adv Exp Med Biol, 891, 71-74.
- . Gastroenterology, 150(6), 1280-1291.
- . American Journal of Physiology-Gastrointestinal and Liver Physiology, 310(6), G376-G386.
- . Experimental Physiology, 100(7), 755-758.
- . The Journal of Physiology, 593(12), 2547-2549.
- . PLOS ONE, 10(6).
- . Autonomic Neuroscience, 191, 16-24.
- Involvement of 5-HT in TRPA1 sensory signaling from the GI tract and influence of ageing. NEUROGASTROENTEROLOGY AND MOTILITY, 26, 27-27.
- . Exp Physiol, 99(10), 1299-1311.
- . Aging Cell, 13(3), 540-550.
- . Neurogastroenterol Motil, 26(7), 980-989.
- . J Physiol, 592(3), 537-549.
- . Autonomic Neuroscience, 177(1), 28-28.
- . Auton Neurosci, 179(1-2), 1-4.
- . BJU Int, 112(7), 1018-1026.
- . Journal of Gastroenterology, 1-13.
- . Neurogastroenterology and Motility.
- Ageing and gastrointestinal sensory function: Altered colonic mechanosensory and chemosensory function in the aged mouse. NEUROGASTROENTEROLOGY AND MOTILITY, 24, 74-74.
- . PLoS ONE, 7(12).
- Assessing the molecular target for hydrogen sulphide in the mouse small intestine and sensory ganglia. NEUROGASTROENTEROLOGY AND MOTILITY, 24, 81-81.
- Altered nutrient sensing in the transient receptor potential vanilloid 1 knockout mouse. NEUROGASTROENTEROLOGY AND MOTILITY, 24, 131-131.
- Reduced sensory neuron activity in the aged mouse. NEUROGASTROENTEROLOGY AND MOTILITY, 24, 146-146.
- Mechanisms underlying motility in the aged gut: A role for altered serotonin signalling processes. NEUROGASTROENTEROLOGY AND MOTILITY, 24, 150-151.
- Mechano-sensory properties of hypertrophic intestine following chronic obstruction. NEUROGASTROENTEROLOGY AND MOTILITY, 24, 128-128.
- TRPA1 activation leads to the murine small mesenteric afferent signaling. NEUROGASTROENTEROLOGY AND MOTILITY, 24, 76-76.
- Mast cell and enterochromaffin cell distribution in the aged human bowel. NEUROGASTROENTEROLOGY AND MOTILITY, 24, 143-143.
- . Neurogastroenterol Motil, 24(10), 956-e465.
- . Gastroenterology, 142(5).
- . European Urology Supplements, 11(1), e374-e374.
- Botulinum neurotoxin A (BoNT/A) attenuates bladder afferent nerve firing and prevents ATP release from the urothelium. EUROPEAN UROLOGY SUPPLEMENTS, 11(1), E374-E374.
- . Medical Hypotheses.
- . Neurogastroenterology and Motility, 24(10), 956-e465.
- . Experimental Physiology.
- Hyperpolarization-activated cyclic nucleotide-gated cation channel subtypes differentially modulate the excitability of murine small intestinal afferents. World Journal of Gastroenterology, 18(6), 522-531.
- Interdependency of stress relaxation and afferent nerve discharge in rat small intestine. Journal of Biomechanics.
- . Am. J. Physiology, 302(9), 1025-1034.
- . Autonomic Neuroscience, 163(1-2), 61-61.
- . Autonomic Neuroscience, 163(1-2), 47-48.
- . Neurogastroenterology & Motility, 23(9), 813-813.
- . J Immunol, 187(3), 1467-1474.
- . J Physiol, 589(Pt 15), 3867-3882.
- . Curr Opin Urol, 21(4), 268-274.
- . Pain, 152(7), 1443-1444.
- . Neurogastroenterol Motil, 23(6), 567-e209.
- THE BLADDER AFFERENT RESPONSE TO STIMULATION OF PROTEASE ACTIVATED RECEPTORS (PARS). EUR UROL SUPPL, 10(2), 304-305.
- THE EFFECT OF TRPM8 AGONISTS ON BLADDER AFFERENT FIRING. EUR UROL SUPPL, 10(2), 259-259.
- . Inflamm Allergy Drug Targets, 10(2), 109-117.
- Achieving translation in models of visceral pain. Current Opinion in Pharmacology.
- Intestinal Serotonin Release, Sensory Neuron Activation, and Abdominal Pain in Irritable Bowel Syndrome. American Journal of Gastroenterology.
- Chylomicron formation and glucagon-like peptide 1 receptor are involved in activation of the nutritional anti-inflammatory pathway. Journal of Nutritional Biochemistry.
- . Gut, 60(2), 281-282.
- . NEUROGASTROENT MOTIL, 22(11), 1224-+.
- . Crit Care Med, 38(10), 1996-2002.
- P2X7 receptor regulates the inflammatory response in Trichinella spiralis infected mice. PURINERG SIGNAL, 6, 134-135.
- . Toxicol Appl Pharmacol, 245(3), 299-309.
- . AUTON NEUROSCI-BASIC, 153(1-2), 1-2.
- . Eur Urol, 58(1), 31-32.
- . Eur Urol, 58(1), 22-28.
- , 697-702.
- , 1077-1082.
- . NEUROGASTROENT MOTIL, 21(12).
- . AM J PHYSIOL-GASTR L, 297(4), G655-G662.
- . Journal of Pharmacological and Toxicological Methods, 60(2), 230-230.
- . J CELL MOL MED, 13(9B), 3283-3295.
- . GASTROENTEROLOGY, 137(1), 274-284.
- . AUTON NEUROSCI-BASIC, 148(1-2), 63-68.
- . GUT, 58(6), 744-747.
- . NEUROGASTROENT MOTIL, 21(6).
- . Neurogastroenterol Motil, 21(6), 678-681.
- . Journal of Urology, 181(4S), 82-83.
- . NEUROGASTROENT MOTIL, 20(12), 1306-1316.
- . Exp Physiol, 93(11), 1170-1173.
- . J Physiol, 586(18), 4517-4530.
- Serotonergic control of gastrointestinal function. FUND CLIN PHARMACOL, 22, 109-109.
- 5-HT system in the gut: roles in the regulation of visceral sensitivity and motor functions.. Eur Rev Med Pharmacol Sci, 12 Suppl 1, 63-67.
- . ANN SURG, 247(5), 791-802.
- . Gut, 57(1), 41-49.
- . Neurogastroenterol Motil, 20(2), 149-158.
- The ATP-gated P2X(7) receptor is required for the generation of jejunal afferent mechano-hypersensitivity in Trichinefla spiralis infected. NEUROGASTROENT MOTIL, 19, 19-19.
- Ralfinamide, a novel sodium channel blocker, attenuates excitatory mesenteric afferent responses to acute focal intestinal ischemia in vivo. NEUROGASTROENT MOTIL, 19, 29-30.
- Mechanisms of gut sensation and pain. NEUROGASTROENT MOTIL, 19, 1-1.
- Serotonergic mechanisms in the control of gastrointestinal afferent sensitivity. NEUROGASTROENT MOTIL, 19, 6-6.
- . Neurogastroenterology & Motility, 19(9), 769-777.
- . J Physiol, 583(Pt 2), 663-674.
- . Am J Physiol Gastrointest Liver Physiol, 293(2), G422-G428.
- . Neurogastroenterol Motil, 19(7), 607-616.
- . J Physiol, 581(Pt 2), 779-786.
- . AM J PHYSIOL-GASTR L, 292(5), G1213-G1220.
- . Gastroenterology, 132(4), 1375-1387.
- . European Urology Supplements, 6(2), 38-38.
- . European Urology Supplements, 6(2), 38-38.
- Is TRPV1 involved in the mechanosensitivity of bladder sensory nerves?. EUR UROL SUPPL, 6(2), 38-38.
- The role of nicotinic receptors in bladder sensation. EUR UROL SUPPL, 6(2), 38-38.
- Endogenously released ach alters bladder sensation in a mechanism involving both nicotinic and muscarinc receptors. EUR UROL SUPPL, 6(2), 39-39.
- . Curr Opin Gastroenterol, 23(2), 121-126.
- . GASTROENTEROLOGY, 132(1), 26-37.
- . AUTON NEUROSCI-BASIC, 129(1-2), 1-2.
- . The Journal of Physiology, 576(1), 257-267.
- . J Physiol, 575(Pt 1), 1-2.
- . NEUROGASTROENT MOTIL, 18(5), 339-342.
- . Auton Neurosci, 125(1-2), 76-80.
- . Gastroenterology, 130(5), 1391-1411.
- . Curr Opin Gastroenterol, 22(2), 102-110.
- . Physiological Genomics, 24(3), 252-263.
- , 1, 685-725.
- . PHYTOMEDICINE, 13, 100-106.
- . J Pediatr Gastroenterol Nutr, 41 Suppl 1, S7-S9.
- . Am J Physiol Gastrointest Liver Physiol, 289(2), G254-G260.
- . Curr Opin Gastroenterol, 21(2), 176-182.
- . NEUROGASTROENT MOTIL, 17(1), 89-101.
- . Neurogastroenterol Motil, 17(1), 102-111.
- . Neurogastroenterology and Motility, 17(SUPPL. 3), 2-3.
- . Neurogastroenterology and Motility, 17(SUPPL. 3), 4-19.
- . Neurogastroenterology and Motility, 17(SUPPL. 3), 20-40.
- . Neurogastroenterology and Motility, 16(6), 759-764.
- . J Physiol, 560(Pt 3), 867-881.
- . NEUROGASTROENT MOTIL, 16(5), 507-509.
- . Neurogastroenterol Motil, 16 Suppl 2, 29-37.
- Neuroanatomy of extrinsic afferents supplying the gastrointestinal tract. NEUROGASTROENT MOTIL, 16, 28-33.
- . Gut, 53 Suppl 2, ii5-ii8.
- . J Physiol, 552(Pt 2), 589-601.
- . J COMP NEUROL, 465(1), 121-135.
- . NEUROSCI LETT, 345(3), 187-191.
- . Gastroenterology, 124(4), A266-A266.
- . GASTROENTEROLOGY, 124(1), 129-139.
- . AM J PHYSIOL-GASTR L, 283(3), G612-G617.
- . Am J Physiol Gastrointest Liver Physiol, 283(3), G656-G665.
- . Gut, 51 Suppl 1, i2-i5.
- Towards a reduction of rectal pain?. NEUROGASTROENT MOTIL, 14(3), 217-219.
- Effects of duodenal fat, protein or mixed-nutrient infusions on epigastric sensations during sustained gastric distension in healthy humans. NEUROGASTROENT MOTIL, 14(2), 205-213.
- . Am J Physiol Gastrointest Liver Physiol, 282(4), G624-G633.
- . Neurogastroenterology and Motility, 14(1), 1-1.
- Vagal afferent responses to fatty acids of different chain length in the rat. AM J PHYSIOL-GASTR L, 281(4), G907-G915.
- . Gastroenterology, 121(2), 358-369.
- . Neurogastroenterology and Motility, 13(3), 177-178.
- Vagal afferent responses to fatty acids of different chain length in the anaesthetised rat. J PHYSIOL-LONDON, 533, 60P-61P.
- Modulation of gastric motor activity by a centrally acting stimulus, circular vection, in humans. AM J PHYSIOL-GASTR L, 280(5), G850-G857.
- . Am J Physiol Gastrointest Liver Physiol, 280(5), G787-G794.
- . Gastroenterology, 120(5), A710-A710.
- . Gastroenterology, 120(5), A535-A535.
- . Gastroenterology, 120(5), A6-A6.
- . Gastroenterology, 120(5), A57-A57.
- . Gastroenterology, 120(5), A71-A71.
- . Gastroenterology, 120(5), A676-A676.
- Vagal afferent responses to fatty acids of different chain length. GASTROENTEROLOGY, 120(5), A676-A676.
- Stimulus-response characteristics of vagal and non-vagal mesenteric afferents from the rat jejunum.. GASTROENTEROLOGY, 120(5), A710-A710.
- Multiple mechanisms contribute to the inhibitory action of somatostatin on intestinal peristalsis in the mouse. GASTROENTEROLOGY, 120(5), A180-A180.
- Intestinal motor and mesenteric afferent sequelae of ischemia/reperfusion injury in the rat.. GASTROENTEROLOGY, 120(5), A224-A224.
- Cosensitivity of primary afferents to histamine and 5-HT supplying the rat jejunum.. GASTROENTEROLOGY, 120(5), A535-A535.
- 5-HT3 receptor immunoreactivity in human and rat intestines. GASTROENTEROLOGY, 120(5), A170-A170.
- Effects of IL-1 beta on prostaglandin EP receptor mediated stimulation of jejunal motility and afferent discharge in the rat.. GASTROENTEROLOGY, 120(5), A178-A178.
- Nicotinic activation of vagal afferent fibres supplying the rat jejunum: "Cross-talk" between the enteric and extrinsic innervation?. GASTROENTEROLOGY, 120(5), A178-A178.
- Systemic bacterial lipopolysaccharide elicits acute sensitisation of intestinal afferent nerves to chemical and mechanical stimuli in the rat. GASTROENTEROLOGY, 120(5), A71-A71.
- Afferent/endothelial interactions may 'sense' flow in the mesenteric vasculature.. GASTROENTEROLOGY, 120(5), A84-A84.
- 5-HT4 receptor agonists stimulate small intestinal transit but do not have direct visceral antinociceptive effects in the rat.. GASTROENTEROLOGY, 120(5), A6-A6.
- Characterization of the populations of mesenteric afferent nerves inhibited by octreotide in anesthetized rats.. GASTROENTEROLOGY, 120(5), A57-A57.
- Modulation of gastric distension-induced sensations by small intestinal receptors. AM J PHYSIOL-GASTR L, 280(1), G51-G57.
- Descending influences from the infralimbic cortex on vago-vagal reflex control of gastric motor activity in the rat. AUTON NEUROSCI-BASIC, 86(1-2), 78-83.
- . GASTROENTEROLOGY, 119(6), 1580-1589.
- . Gut, 47 Suppl 4, iv44-iv45.
- . Neurogastroenterol Motil, 12(6), 517-522.
- . Gastroenterology, 119(5), 1267-1275.
- Mediators of neuronal activation in the rat brainstem following intestinal anaphylaxis. NEUROSCI LETT, 289(1), 45-48.
- The effect of fentanyl, DNQX and MK-801 on dorsal horn neurones responsive to colorectal distension in the anaesthetized rat. NEUROGASTROENT MOTIL, 12(3), 239-247.
- Relationship between increasing duodenal lipid doses, gastric perception, and plasma hormone levels in humans. AM J PHYSIOL-REG I, 278(5), R1217-R1223.
- Sensitivity of mesenteric afferents to vascular perfusion in rat ileum in vitro.. GASTROENTEROLOGY, 118(4), A380-A380.
- Differential effect of alosetron on mesenteric afferent responses to luminal and systemic antigen in ovalbumin-sensitized rats.. GASTROENTEROLOGY, 118(4), A381-A381.
- Effect of alosetron on mechanosensitivity of mesenteric afferent nerve fibres supplying the rat jejunum.. GASTROENTEROLOGY, 118(4), A174-A174.
- Characterization of somatostatin receptor mediated inhibition of small intestinal peristalsis in the rat and mouse.. GASTROENTEROLOGY, 118(4), A303-A303.
- Somatostatin SST2 receptor agonists inhibit bra-dykinin-sensitive jejunal afferents in the rat.. GASTROENTEROLOGY, 118(4), A380-A380.
- A proteinase-activated receptor subtype 2 (PAR-2) agonist stimulates mesenteric afferent nerve discharge.. GASTROENTEROLOGY, 118(4), A173-A173.
- . Gut, 46(4), 474-480.
- . Neurogastroenterol Motil, 12(2), 105-111.
- . Neurogastroenterology and Motility, 12(1), 1-1.
- . J Auton Nerv Syst, 78(2-3), 99-108.
- . Neurosci Lett, 278(3), 137-140.
- Effects of somatostatin on the activity of rat mesenteric afferent nerves in vivo. BRIT J PHARMACOL, 129, U51-U51.
- . J Physiol, 521 Pt 2, 517-527.
- . J Physiol, 520 Pt 2, 551-563.
- . J Auton Nerv Syst, 76(2-3), 93-98.
- . Neurogastroenterology & Motility, 11(2), i-ii.
- Effect of ischemia reperfusion (I/R) on intestinal motility and ion transport: The involvement of histamine. GASTROENTEROLOGY, 116(4), A1071-A1071.
- Cholecystokinin (CCK) activates autonomic nerves supplying the rat jejunum in vivo.. GASTROENTEROLOGY, 116(4), A966-A966.
- Role of histamine in the response of jejunal afferents to localized ischemia in the anaesthetized rat. GASTROENTEROLOGY, 116(4), A1012-A1012.
- Excitatory effects of ATP on P2X receptors on intestinal afferent nerve endings. GASTROENTEROLOGY, 116(4), A1017-A1017.
- Comparative studies on the effects of duodenal protein, fat or carbohydrate infusions on gastric tone, gastrointestinal sensations and plasma cholecystokinin (CKK) levels in humans. GASTROENTEROLOGY, 116(4), A550-A550.
- Mast cell involvement in mesenteric afferent sensitivity of adenosine: 2B or not 2B?. GASTROENTEROLOGY, 116(4), A593-A593.
- alpha,beta-methylene-ATP evokes excitation of mesenteric afferent nerves. BRIT J PHARMACOL, 126, U49-U49.
- . J Physiol, 515 ( Pt 1), 277-285.
- Mesenteric afferent sensitivity to cholecystokinin and 5-hydroxytryptamine.. Dtsch Tierarztl Wochenschr, 105(12), 466-468.
- . Br J Pharmacol, 125(6), 1352-1360.
- . Neurosci Lett, 255(2), 63-66.
- . Neurosci Lett, 254(3), 145-148.
- Histamine sensitivity of mesenteric afferent nerves in the rat jejunum. AM J PHYSIOL-GASTR L, 38(4), G675-G680.
- . J Physiol, 509 ( Pt 3), 717-727.
- Novel aspects on histamine sensitivity of intestinal afferent nerve fibers in rat jejunum.. GASTROENTEROLOGY, 114(4), A781-A781.
- Somatostatin analogue octreotide inhibits retching to cisplatin in anaesthetised ferrets.. GASTROENTEROLOGY, 114(4), A1147-A1147.
- Differential effects of naproxen on ischemia and reperfusion-induced excitation of jejunal afferents in the anaesthetised rat.. GASTROENTEROLOGY, 114(4), A772-A773.
- Characterization of the receptor mediating the excitatory action of adenosine on mesenteric afferents in the anaesthetised rat.. GASTROENTEROLOGY, 114(4), A778-A778.
- Duodenal lipid causes a dose-dependent change in gastric perception and symptoms but not in gastric tone during distension of the stomach.. GASTROENTEROLOGY, 114(4), A752-A752.
- Interleukin-1 beta sensitizes intestinal afferent nerve fibers to other inflammatory mediators in the anesthetized rat.. GASTROENTEROLOGY, 114(4), A762-A762.
- Sensitization of rat jejunum to 5-hydroxytryptamine after mesenteric ischaemia/reperfusion.. GASTROENTEROLOGY, 114(4), A409-A409.
- Visceral afferent sensitisation to bradykinin in rat jejunal in vitro: Putative role for cyclic AMP. GASTROENTEROLOGY, 114(4), A728-A728.
- The sodium channel blocker 4030W92 inhibits deoxycholic acid-induced sensitisation of dorsal horn neurone responses to visceral and cutaneous mechanical stimulation in the anaesthetised rat. BRIT J PHARMACOL, 123, U127-U127.
- Action of GR79236 on mesenteric afferent discharge in the anaesthetised rat. BRIT J PHARMACOL, 123, U33-U33.
- The sodium channel blocker 4030W92 inhibits spinal c-Fos expression in response to somatic and visceral noxious stimulation in the rat. BRIT J PHARMACOL, 123, U126-U126.
- Presence of putative neurotransmitters in the myenteric plexus of the gastrointestinal tract and in the musculature of the urinary bladder of the ferret. NEUROGASTROENT MOTIL, 10(1), 35-47.
- . J Physiol, 506 ( Pt 2), 551-561.
- Effects of nifedipine and omega-conotoxin GVIA on 5-hydroxytryptamine-mediated increases in mesenteric afferent discharge in the anaesthetized rat.. J PHYSIOL-LONDON, 504P, P148-P149.
- The effect of erythromycin on jejunal motility and ion transport in the anaesthetized rat.. J PHYSIOL-LONDON, 504P, P146-P147.
- Inflammatory mediators and the electrophysiology of afferent neurones. GUT, 41, A42-A42.
- Characterisation of the receptor mediating the excitatory action of adenosine on mesenteric afferents. BRIT J PHARMACOL, 122, P24-P24.
- The effect of deoxycholic acid on dorsal horn responses to colorectal distension and cutaneous mechanical stimulation, and the effect of MK-801, in the anaesthetised rat. BRIT J PHARMACOL, 122, P30-P30.
- Effects of duodenal nutrients on sensory and motor responses of the human stomach to distension. AM J PHYSIOL-GASTR L, 36(3), G721-G726.
- . Am J Physiol, 273(3 Pt 1), G721-G726.
- Prolonged intestinal afferent nerve discharge in response to cholecystokinin-58 compared to cholecystokinin-8 in rats. NEUROSCI LETT, 230(2), 89-92.
- Alosetron inhibits the colorectal distension-evoked depressor response and spinal c-Fos expression in the anaesthetised rat.. GASTROENTEROLOGY, 112(4), A822-A822.
- Activation of adenosine receptors increases rat mesenteric afferent nerve discharge. BRIT J PHARMACOL, 120, P18-P18.
- The role of prostaglandins in the bradykinin-induced activation of serosal afferents of the rat jejunum in vitro. BRIT J PHARMACOL, 120, P78-P78.
- Effect of histamine on intestinal afferent nerve discharge in the anaesthetized rat. J PHYSIOL-LONDON, 499P, P102-P103.
- Activation of intestinal afferents by endogenous CCK in the proximal jejunum of the anaesthetized rat. J PHYSIOL-LONDON, 499P, P102-P102.
- Effects of duodenal nutrients on sensory and motor responses of the human stomach to distension. American Journal of Physiology, 273(3 PART 1).
- . J Physiol, 497 ( Pt 2), 473-481.
- Activation of intestinal afferents by Compound 48/80 in the anaesthetized rat: A possible non-mast cell-mediated effect. J PHYSIOL-LONDON, 495P, P99-P100.
- Enteric reflex control of adaptive relaxation in the ferret stomach in vitro. J PHYSIOL-LONDON, 495P, P104-P104.
- . Neurogastroenterol Motil, 8(2), 153-155.
- Mast cell modulation of intestinal afferents.. GASTROENTEROLOGY, 110(4), A659-A659.
- . Journal of the Autonomic Nervous System, 58(3), 183-184.
- . Physiol Behav, 58(6), 1159-1165.
- [Vagovagal regulation of the gastrointestinal tract: from signal conduction to performance response].. Fiziol Zh Im I M Sechenova, 81(11), 104-111.
- CISPLATIN STIMULATES 5-HYDROXYTRYPTAMINE-SENSITIVE MESENTERIC AFFERENTS IN THE JEJUNUM OF THE URETHANE-ANESTHETIZED RAT. J PHYSIOL-LONDON, 487P, P35-P36.
- THE EFFECTS OF INTRADUODENAL CARBOHYDRATE ON GASTRIC MOTOR AND SENSORY RESPONSES TO GASTRIC DISTENSION. GASTROENTEROLOGY, 108(4), A597-A597.
- EFFECTS OF ISOCALORIC DUODENAL CARBOHYDRATE AND LIPID ON GASTRIC MOTOR AND SENSORY RESPONSES TO GASTRIC DISTENSION. GASTROENTEROLOGY, 108(4), A597-A597.
- MORPHINE STIMULATES INTESTINAL AFFERENT DISCHARGE VIA MU-OPIOID AND DELTA-OPIOID, BUT NOT KAPPA-OPIOID RECEPTORS. GASTROENTEROLOGY, 108(4), A594-A594.
- INHIBITION OF GASTRIC MECHANORECEPTOR DISCHARGE BY CHOLECYSTOKININ IN THE RAT. AM J PHYSIOL-GASTR L, 31(2), G355-G360.
- . Am J Physiol, 268(2 Pt 1), G355-G360.
- Gastric emptying and the symptoms of vection-induced nausea.. Eur J Gastroenterol Hepatol, 7(2), 103-108.
- Vagovagal regulation of the gastrointestinal tract: from signal conduction to performance response. Fiziologicheskii zhurnal imeni I.M. Sechenova / Rossiiskaia akademiia nauk, 81(11), 104-111.
- . Dig Dis Sci, 39(12 Suppl), 44S-47S.
- . Ir J Med Sci, 163(12), 562-564.
- MESENTERIC AFFERENT RESPONSES TO 5-HYDROXYTRYPTAMINE (5-HT) AND CHOLECYSTOKININ (CCK) IN THE ANESTHETIZED RAT. J PHYSIOL-LONDON, 477P, P71-P72.
- A HIGH-FAT MEAL INCREASES THE SUSCEPTIBILITY TO MOTION SICKNESS IN HEALTHY-SUBJECTS. GASTROENTEROLOGY, 106(4), A1025-A1025.
- LITTLE BRAIN - BIG BRAIN III - SUMMARY REPORT. NEUROGASTROENT MOTIL, 6(1), 1-4.
- . Pathophysiology, 1(4), 275.
- THE CHANGING FACE OF GASTROINTESTINAL MOTILITY. J GASTROINTEST MOTIL, 5(4), 231-232.
- . J Auton Nerv Syst, 45(1), 41-50.
- . J Auton Nerv Syst, 45(1), 51-59.
- . Am J Physiol, 265(3 Pt 1), G432-G439.
- . J Auton Nerv Syst, 43(3), 241-246.
- . Am J Physiol, 264(5 Pt 1), G824-G827.
- MESENTERIC AFFERENT RESPONSES TO 5-HYDROXYTRYPTAMINE (5-HT) RECEPTOR AGONISTS. GASTROENTEROLOGY, 104(4), A1042-A1042.
- . J Smooth Muscle Res, 29(2), 37-46.
- CONTRIBUTION OF VAGAL CHOLINERGIC MECHANISMS TO GASTRIC TONE AND MOTILITY IN THE ANESTHETIZED FERRET. J PHYSIOL-LONDON, 467, P196-P196.
- ELECTROPHYSIOLOGICAL IDENTIFICATION OF VAGALLY INNERVATED ENTERIC NEURONS IN GUINEA-PIG STOMACH. AM J PHYSIOL, 263(5), G709-G718.
- . Gut, 33(11), 1473-1476.
- . J Auton Nerv Syst, 40(1), 57-62.
- ROLE OF NITRIC-OXIDE AND VASOACTIVE INTESTINAL POLYPEPTIDE IN VAGALLY MEDIATED RELAXATION OF THE GASTRIC CORPUS IN THE ANESTHETIZED FERRET. J PHYSIOL-LONDON, 452, P337-P337.
- GASTRIC-EMPTYING IN AND SYMPTOMS OF ILLUSORY SELF MOTION. GUT, 33(2), S55-S55.
- . Clin Phys Physiol Meas, 13 Suppl A, 181-184.
- . J Auton Nerv Syst, 36(2), 129-137.
- Trans-thoracic fluid shifts and endocrine responses to 6 degrees head-down tilt.. Aviat Space Environ Med, 62(10), 923-929.
- . J Auton Nerv Syst, 36(1), 25-31.
- 5-HYDROXYTRYPTAMINE (5-HT3) RECEPTOR-MEDIATED EFFECTS ON VAGAL MUCOSAL AFFERENT-FIBERS FROM THE UPPER GASTROINTESTINAL-TRACT OF THE ANESTHETIZED FERRET. J PHYSIOL-LONDON, 435, P64-P64.
- Monitoring body fluid distribution in microgravity using impedance imaging (APT). Proceedings of the Annual Conference on Engineering in Medicine and Biology, 13(pt 5), 1947-1948.
- Regulation of gastric corpus tone by the vagus nerve in the ferret. Journal of Gastrointestinal Motility, 3(1), 32-38.
- DISCHARGE IN MESENTERIC NERVES FROM THE ILEUM IN RESPONSE TO LUMINAL SHORT CHAIN FATTY-ACIDS IN THE ANESTHETIZED RAT. J PHYSIOL-LONDON, 438, P348-P348.
- VAGAL INFLUENCES ON GASTRIC-ACID SECRETION IN RESPONSE TO GASTRIC DISTENSION IN THE ANESTHETIZED FERRET. J PHYSIOL-LONDON, 438, P354-P354.
- . Acta Astronaut, 23, 321-325.
- . J Auton Nerv Syst, 31(3), 191-201.
- . Exp Physiol, 75(6), 801-809.
- ROLE OF THE VASOACTIVE INTESTINAL POLYPEPTIDE (VIP) IN THE POSTOPERATIVE SUPPRESSION OF GASTRIC-MOTILITY. GUT, 31(10), A1185-A1185.
- . Gastroenterology, 99(4), 1008-1015.
- . Exp Physiol, 75(5), 701-708.
- B-AFFERENTS - THE BASIS FOR AUTONOMIC REFLEXES. BEHAV BRAIN SCI, 13(2), 304-304.
- DISCHARGE IN MESENTERIC NERVES FROM THE ILEUM IN RESPONSE TO LUMINAL STIMULI IN THE ANESTHETIZED RAT. J PHYSIOL-LONDON, 424, P14-P14.
- REFLEX CHANGES IN GASTROINTESTINAL MOTILITY FOLLOWING CLOSE SYSTEMIC ADMINISTRATION OF CHOLECYSTOKININ-OCTAPEPTIDE IN ANESTHETIZED FERRETS. J PHYSIOL-LONDON, 422, P62-P62.
- REFLEX CORPO-ANTRAL COUPLING IN THE CONSCIOUS DOG. J PHYSIOL-LONDON, 422, P61-P61.
- . Q J Exp Physiol, 74(6), 857-865.
- Food for thought--nutritional problems in space.. J Br Interplanet Soc, 42(7), 374-377.
- Space: a testbed for basic biomedical sciences.. J Br Interplanet Soc, 42(7), 349-351.
- Physiological problems for man in space.. J Br Interplanet Soc, 42(7), 357-359.
- Calcium metabolism and the osteopenia of space flight.. J Br Interplanet Soc, 42(7), 371-373.
- . J Auton Nerv Syst, 27(1), 39-45.
- . Q J Exp Physiol, 73(6), 1001-1004.
- CONTROL OF GASTRIC PERISTALSIS. GUT, 29(10), A1477-A1477.
- . J Auton Nerv Syst, 22(3), 175-180.
- SPLANCHNO-VAGAL CONVERGENCE ON TO GASTROINTESTINALLY MODULATED VAGAL EFFERENT UNITS IN THE FERRET. J PHYSIOL-LONDON, 396, P35-P35.
- . Bailli猫re's Clinical Gastroenterology, 2(1), ix-ix.
- . Gut, 29(3), 302-305.
- VAGAL CONTROL OF GASTROINTESTINAL FUNCTION. BAILLIERE CLIN GASTR, 2(1), 23-43.
- GASTROINTESTINAL NEUROPHYSIOLOGY - FOREWORD. BAILLIERE CLIN GASTR, 2(1), U1-U1.
- . J Physiol, 394, 381-392.
- EFFECT OF MEAL TEMPERATURE ON GASTRIC-EMPTYING OF LIQUIDS IN MAN. GUT, 28(10), A1407-A1408.
- THE EFFECTS OF MECHANICAL AND CHEMICAL STIMULI IN THE FERRET STOMACH ON VAGAL EFFERENT UNITARY DISCHARGE. J PHYSIOL-LONDON, 390, P170-P170.
- RESPONSES OF VAGAL EFFERENT NEURONS TO INTESTINAL ACIDITY AND OSMOLALITY AS COMPARED TO ANTRAL STIMULI - DIFFERENT MECHANISMS. DIGEST DIS SCI, 32(8), 903-903.
- PRE-PYLORIC MECHANISMS CONTROLLING GASTRIC-MOTILITY IN THE CONSCIOUS DOG. DIGEST DIS SCI, 32(8), 905-905.
- MOTOR RESPONSE OF THE CANINE JEJUNUM TO VARIABLE PERIODS OF GASTRIC DISTENSION. J PHYSIOL-LONDON, 386, P60-P60.
- INVOLVEMENT OF GASTROINTESTINAL MECHANORECEPTORS AND INTESTINAL CHEMORECEPTORS IN VAGAL REFLEXES - AN ELECTROPHYSIOLOGICAL STUDY. J AUTONOM NERV SYST, 18(3), 225-234.
- VAGAL AFFERENT DISCHARGE FROM GASTRIC MECHANORECEPTORS DURING CONTRACTION AND RELAXATION OF THE FERRET CORPUS. J AUTONOM NERV SYST, 18(1), 19-24.
- A PERMISSIVE ROLE FOR THE VAGUS NERVES IN THE GENESIS OF ANTRO-ANTRAL REFLEXES IN THE ANESTHETIZED FERRET. J PHYSIOL-LONDON, 381, 377-384.
- DISCHARGE CHARACTERISTICS OF GASTRIC MECHANORECEPTORS DURING CONTRACTION AND RELAXATION OF THE FERRET CORPUS. J PHYSIOL-LONDON, 378, P19-P19.
- COMPUTER-ASSISTED TEACHING OF PHYSIOLOGY AT SHEFFIELD-UNIVERSITY USING THE ACORN ECONET SYSTEM. J PHYSIOL-LONDON, 378, P6-P6.
- RESPONSES OF VAGAL EFFERENT UNITS MODULATED BY GASTROINTESTINAL STIMULI TO CENTRAL VAGAL-STIMULATION IN THE FERRET. J PHYSIOL-LONDON, 378, P17-P17.
- EVIDENCE FOR A NONCHOLINERGIC EXCITATORY INNERVATION IN THE CONTROL OF COLONIC MOTILITY. ARCH INT PHARMACOD T, 280(2), 164-175.
- THE EFFECT OF INTRALUMINAL TRYPTOPHAN AND PHENYLALANINE ON SMALL INTESTINAL MOTILITY IN THE CONSCIOUS DOG. J PHYSIOL-LONDON, 367(OCT), 353-362.
- THE EFFECT OF SURGICAL ANESTHESIA ON GASTRIC-MOTILITY IN THE FERRET. J PHYSIOL-LONDON, 367(OCT), P56-P56.
- VAGAL EFFERENT RESPONSES TO MECHANICAL AND CHEMICAL-STIMULATION IN THE UPPER GASTROINTESTINAL-TRACT. DIGEST DIS SCI, 30(8), 760-760.
- JEJUNAL MOTOR RESPONSE TO GASTRIC DISTENSION IN THE DOG. DIGEST DIS SCI, 30(8), 762-762.
- PERMISSIVE ROLE FOR THE VAGUS NERVES IN THE GENESIS OF ANTRO-ANTRAL REFLEXES IN THE ANESTHETIZED FERRET. GUT, 26(10), 1108-1109.
- VAGO-VAGAL REFLEXES TO THE COLON OF THE ANESTHETIZED FERRET. J PHYSIOL-LONDON, 352(JUL), 395-402.
- EFFECT OF INTRALUMINAL TRYPTOPHAN AND PHENYLALANINE ON SMALL INTESTINAL MIGRATING MOTOR COMPLEX (MMC) IN THE CONSCIOUS DOG. GUT, 25(11), 1324-1325.
- VAGO-VAGAL REFLEXES TO THE COLON OF THE ANESTHETIZED FERRET. J PHYSIOL-LONDON, 346(JAN), P36-P36.
- THE EFFECT OF INTRALUMINAL AMINO-ACIDS ON SMALL INTESTINAL MOTILITY IN THE CONSCIOUS DOG. J PHYSIOL-LONDON, 354(SEP), P40-P40.
- VAGAL CONTROL OF COLONIC MOTILITY IN THE ANESTHETIZED FERRET - EVIDENCE FOR A NON-CHOLINERGIC EXCITATORY INNERVATION. J PHYSIOL-LONDON, 348(MAR), 35-42.
- THE PHYSIOLOGY OF INTESTINAL MOTILITY AND SECRETION. BRIT J ANAESTH, 56(1), 3-18.
- THE RESPONSE OF THE PANCREAS OF THE ANESTHETIZED CAT TO SECRETIN BEFORE, DURING AND AFTER VAGAL BLOCKADE. J PHYSIOL-LONDON, 342(SEP), P49-P49.
- VAGAL AND SPLANCHNIC INFLUENCES ON SMALL INTESTINAL MOTILITY IN THE ANESTHETIZED FERRET. GASTROEN CLIN BIOL, 7(8-9), 720-720.
- VAGAL INFLUENCES ON THE JEJUNAL MINUTE RHYTHM IN THE ANESTHETIZED FERRET. J PHYSIOL-LONDON, 345(DEC), 65-74.
- THE RESPONSE OF THE PANCREAS OF THE ANESTHETIZED CAT TO SECRETIN BEFORE, DURING AND AFTER REVERSIBLE VAGAL BLOCKADE. J PHYSIOL-LONDON, 342(SEP), 517-526.
- COMPUTER-AIDED ANALYSIS OF GASTROINTESTINAL MOTILITY. J PHYSIOL-LONDON, 342(SEP), P4-P4.
- VAGAL INFLUENCES ON SMALL INTESTINAL MOTILITY IN THE ANESTHETIZED FERRET. J PHYSIOL-LONDON, 328(JUL), P51-P52.
- EFFECT OF STIMULATION OF THE VAGUS NERVE IN BURSTS ON GASTRIC-ACID SECRETION AND MOTILITY IN THE ANESTHETIZED FERRET. J PHYSIOL-LONDON, 333(DEC), 451-461.
- NON-ATROPINIC ANTICHOLINERGIC ACTION OF QUINIDINE ON THE FERRET STOMACH. J AUTON PHARMACOL, 2(1), 21-24.
- VAGAL INFLUENCES ON LARGE INTESTINAL MOTILITY IN THE ANESTHETIZED FERRET. J PHYSIOL-LONDON, 329(AUG), P40-P41.
- CARDIOVASCULAR CHANGES ELICITED BY VAGAL GASTRIC AFFERENTS IN THE RAT. Q J EXP PHYSIOL CMS, 66(3), 307-310.
- THE EFFECT OF STIMULUS CHARACTERISTICS ON THE REBOUND CONTRACTION IN THE GASTRIC CORPUS. J PHYSIOL-LONDON, 313(APR), P24-P25.
- MODULATION OF VAGAL EFFERENT FIBER DISCHARGE BY MECHANORECEPTORS IN THE STOMACH, DUODENUM AND COLON OF THE FERRET. J PHYSIOL-LONDON, 319(OCT), 43-52.
- VAGAL AFFERENT DISCHARGE FROM MECHANORECEPTORS IN DIFFERENT REGIONS OF THE FERRET STOMACH. J PHYSIOL-LONDON, 298(JAN), 513-524.
- REBOUND CONTRACTION IN THE STOMACH OF THE ANESTHETIZED FERRET. J PHYSIOL-LONDON, 302(MAY), P9-P10.
- THE ROLE OF THE VAGUS AND SPLANCHNIC NERVES IN THE REGULATION OF INTRA-GASTRIC PRESSURE IN THE FERRET. J PHYSIOL-LONDON, 307(OCT), 401-411.
- REFLEX EXCITATION OF ANTRAL MOTILITY INDUCED BY GASTRIC DISTENSION IN THE FERRET. J PHYSIOL-LONDON, 298(JAN), 79-84.
- NEURAL ACTIVITY IN THE ABDOMINAL VAGI. GUT, 20(5), A446-A447.
- VAGAL AFFERENT DISCHARGE FROM TENSION RECEPTORS IN THE FERRET STOMACH. J PHYSIOL-LONDON, 291(JUN), P33-P33.
- . The Journal of Physiology, 284(1), 69-82.
- Distribution of gastrointestinal mechanoreceptors mediating excitation or inhibition of vagal efferent activity in the rat [proceedings]. Journal of Physiology, 280.
- Modulation of single vagal efferent fibre activity and heart rate by gastric distension in the rat [proceedings]. Journal of Physiology, 269(1).
- Inhibition of single vagal efferent fibres by gastric distension in the rat [proceedings].. Journal of Physiology, 263(1).
- . The Journal of Neuroscience.
- . Gut, 57(5), 716-716.
- . Neurogastroenterology & Motility, 5(4), 231-232.
- . Neurogastroenterology & Motility, 4(2), 77-78.
- . Neurogastroenterology & Motility, 3(1), 32-38.
- . Neurogastroenterology & Motility, 1(1), 1-1.
Chapters
- , Visceral Pain (pp. 153-160). Springer International Publishing
- , Encyclopedia of Gastroenterology (pp. 701-710). Elsevier
- In Greenwood-Van Meerveld B (Ed.), Gastrointestinal Pharmacology. Handbook of Experimental Pharmacology Springer
- , Physiology of the Gastrointestinal Tract (pp. 685-725). Elsevier
- Vagal afferents innervating the gastrointestinal tract, Advances in Vagal Afferent Neurobiology (pp. 315-350).
- , Encyclopedia of Gastroenterology (pp. 339-345). Elsevier
- Motor control of the stomach, Innervation of the Gastrointestinal Tract (pp. 57-102).
- John Wiley & Sons, Inc.
Conference proceedings papers
- Differential effects of oxidative stress on mouse jejunal and colonic mechanosensitive afferent.. NEUROGASTROENTEROLOGY AND MOTILITY, Vol. 32
- Differential effects of oxidative stress on mouse jejunal and colonic mechanosensitive afferent. NEUROGASTROENTEROLOGY AND MOTILITY, Vol. 31
- Identification of modulators of intestinal nerve activity from Staphylococcus aureus. NEUROGASTROENTEROLOGY AND MOTILITY, Vol. 30
- Effect of soluble mediators from Staphylococcus aureus on intestinal epithelial function and sensory signaling. NEUROGASTROENTEROLOGY AND MOTILITY, Vol. 29 (pp 128-128)
- ROLE OF 5-HYDROXYTRYPTAMINE IN URINARY BLADDER AFFERENT SIGNALLING. NEUROUROLOGY AND URODYNAMICS, Vol. 35 (pp S66-S67)
- MODULATION OF UROTHELIAL FUNCTION AND AFFERENT SENSITIVITY BY NEUROKININ A.. NEUROUROLOGY AND URODYNAMICS, Vol. 32(6) (pp 637-639)
- EFFECT OF OXIDATIVE STRESS ON UROTHELIAL-AFFERENT SIGNALLING IN THE MOUSE: POSSIBLE ROLE IN AGED BLADDER DYSFUNCTION. NEUROUROLOGY AND URODYNAMICS, Vol. 32(6) (pp 535-537)
- DEVELOPMENT OF A NEW MODEL FOR STUDYING UROTHELIAL-AFFERENT CROSS-TALK. NEUROUROLOGY AND URODYNAMICS, Vol. 32(6) (pp 537-538)
- PRIMARY MOUSE UROTHELIAL CELL RESPONSE TO ATP IS MEDIATED BY P2X BUT NOT TRPV1 RECEPTORS. NEUROUROLOGY AND URODYNAMICS, Vol. 31(6) (pp 1021-1022)
- THE EFFECT OF TRPM8 AGONISTS ON BLADDER AFFERENT FIRING. NEUROUROLOGY AND URODYNAMICS, Vol. 31(6) (pp 955-955)
- AGED RELATED CHANGES IN PURINERGIC SIGNALLING, AFFERENT FIRING AND RECEPTOR EXPRESSION IN THE MOUSE BLADDER.. NEUROUROLOGY AND URODYNAMICS, Vol. 31(6) (pp 955-956)
- SENSORY NERVE RESPONSES TO ATP ARE REGULATED BY TRPV1 RECEPTORS.. NEUROUROLOGY AND URODYNAMICS, Vol. 31(6) (pp 794-796)
- The Effect of Human Supernatants From IBS Patients on Neuronal Excitability and Sodium Channel Trafficking. GASTROENTEROLOGY, Vol. 142(5) (pp S702-S703)
- THE ROLE OF THE UROTHELIUM IN POTASSIUM SENSITIVITY TESTING IN THE CLINIC.. NEUROUROLOGY AND URODYNAMICS, Vol. 30(6) (pp 1065-1066)
- Mast cells are early responders driving mesenteric afferent signaling during intestinal ischemia. NEUROGASTROENTEROLOGY AND MOTILITY, Vol. 22 (pp 31-+)
- Mechano-sensory properties in Goto-Kakizaki rat intestine: a genetic model for type 2 diabetes. NEUROGASTROENTEROLOGY AND MOTILITY, Vol. 22 (pp 56-56)
- Mechano-sensory properties of hypertrophic intestine following chronic obstruction. NEUROGASTROENTEROLOGY AND MOTILITY, Vol. 22 (pp 56-56)
- Investigating the effect of lipid-containing nutrient on jejunal afferent mechanosensitivity. NEUROGASTROENTEROLOGY AND MOTILITY, Vol. 22 (pp 9-9)
- . European Urology Supplements, Vol. 9(2) (pp 72-72)
- Sensory transmission in the gastrointestinal tract. NEUROGASTROENTEROLOGY AND MOTILITY, Vol. 19 (pp 1-19)
- The effects of bile acids on intestinal ion secretion in the trichinella spiralis infected mouse model of irritable bowel syndrome. GUT, Vol. 54 (pp A78-A79)
- Enteric sensory innervation. Functional Disorders of the Gastrointestinal Tract, Vol. 3 (pp 35-41)
- . Gastroenterology, Vol. 124(4) (pp A667-A667)
- Expression of orexin-1 receptors by rat vagal afferent neurones. JOURNAL OF PHYSIOLOGY-LONDON, Vol. 543 (pp 54P-55P)
- Compliance of the stomach wall during receptive relaxation is dependent upon interstitial cells of Cajal. Journal of Investigative Medicine, Vol. 47(2)
- . Neurogastroenterology & Motility, Vol. 10(5) (pp 377-385)
- THE INTERFACE BETWEEN THE ENTERIC AND CENTRAL NERVOUS SYSTEM. INNERVATION OF THE GUT (pp 157-166)
Preprints
- Grants
-
- Marie Curie (EUFP7)
- Teaching activities
-
Undergraduate
- Level 3 Practical and Dissertation Modules
- Professional activities and memberships
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- Chairman of the Management Board of Neurogastroenterology and Motility
- Member of the Varenna group, an international educational organisation providing teaching material for gastroenterology
- Executive Board Member & Senior Ethics Editor of the Journal of Physiology
- Fellow of the American Association of Gastroenterology
- Member of the Editorial Boards for Gut, Journal of Physiology
- Autonomic Neuroscience
- Canadian Journal of Physiology and Pharmacology
Invited seminars
- ANGMA (Adelaide 2015)
- British Pharmacological Society (London 2014)
- Nuffield Council (91直播 2014)
- Australasian Neuroscience Society (Adelaide 2014)