Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0013395 (dyspepsia)
4,879 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sensorimotor disorders of the stomach, small intestine and colon have a limited repertoire of clinical manifestations, and there is the potential for more than one mechanism to lead to symptoms. In many recent clinical trial programs of novel agents in neurogastroenterology, the emphasis has been primarily on symptom assessment of broad groups of patients identified by the Rome criteria. Drugs of potential value have fallen by the wayside with this approach. We propose the current paradigm is partly to blame; physiological testing should provide the basis for identifying more homogeneous populations and therapeutic targets within functional bowel disease, and this applies to the upper and lower gut. Here we summarize the evidence that certain biomarkers can, in a limited fashion, be used to predict the success of an experimental medicine in common disorders of gastrointestinal function, including the irritable bowel syndrome and functional dyspepsia. Although the current evidence is limited and is most convincingly demonstrated with examples of transit measurements (for loperamide, alosetron, tegaserod and piboserod), we perceive this paradigm that studies using validated and responsive biomarkers have an important role to play in drug development.
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PMID:Pathophysiology as a basis for understanding symptom complexes and therapeutic targets. 1508 67

Functional gastrointestinal disorders (FGID) are characterized by visceral hypersensitivity that could be specific to a region of the gut or reflect a diffuse pan-intestinal disorder. Sensory thresholds to distension at two visceral sites in patients with different FGIDs were determined. According to Rome II criteria, 30 patients from three groups were studied: patients with (i) functional dyspepsia (FD) or (ii) irritable bowel syndrome (IBS), and (iii) patients with concomitant symptoms of FD and IBS. Pain thresholds to balloon distension were determined in stomach and rectum. In FD patients, gastric intolerance to balloon distension was found in 91% patients; rectal hypersensitivity was documented in 18% patients. In IBS patients, rectal hypersensitivity was seen in 75% patients; while gastric hypersensitivity was never found. In patients with concomitant symptoms of FD + IBS, gastric and rectal intolerance to distension were present respectively in 82 and 91% patients. In the whole group, visceral intolerance to distension was documented at one site in 90% patients and at both sites, i.e. stomach and rectum, in 33% patients. Visceral intolerance to distension can be pan-intestinal in patients with multiple sites of symptoms, but appears organ-specific in patients exhibiting a specific site of symptoms.
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PMID:Intolerance to visceral distension in functional dyspepsia or irritable bowel syndrome: an organ specific defect or a pan intestinal dysregulation? 1519 53

Visceral hypersensitivity is now recognised as a major pathophysiological mechanism in functional gastrointestinal disorders of the upper gastrointestinal tract. In patients with non-cardiac chest pain and functional dyspepsia, a high prevalence of visceral hypersensitivity has been indeed observed. In these patients, luminal physiological stimuli can be perceived as unpleasant or even painful. Although the fine mechanisms underlying such "aberrant perceptions" are yet not fully clarified, it is thought that an altered activation of the gut-wall receptors, an altered conduction of sensory inputs at the level of neural pathways, or an impaired processing of the sensations at the level of brain, may occur along the brain-gut axis. So far, drugs able to reduce hypersensitivity, that target each of the constituents of the stimuli-perception chain, have the therapeutic potential to reduce visceral hypersensitivity and, thus, to improve the symptoms. In this context, the availability of new agonists/antagonists to neurotransmitters offers a new exciting tool for the treatment of functional disorders of the upper gastrointestinal tract.
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PMID:Visceral hypersensitivity in functional disorders of the upper gastrointestinal tract. 1524 74

Capsaicin, the pungent ingredient in red pepper, has been used since ancient times as a spice, despite the burning sensation associated with its intake. More than 50 years ago, Nikolaus Jancso discovered that capsaicin can selectively stimulate nociceptive primary afferent neurons. The ensuing research established that the neuropharmacological properties of capsaicin are due to its activation of the transient receptor potential ion channel of the vanilloid type 1 (TRPV1). Expressed by primary afferent neurons innervating the gut and other organs, TRPV1 is gated not only by vanilloids such as capsaicin, but also by noxious heat, acidosis and intracellular lipid mediators such as anandamide and lipoxygenase products. Importantly, TRPV1 can be sensitized by acidosis and activation of various pro-algesic pathways. Upregulation of TRPV1 in inflammatory bowel disease and the beneficial effect of TRPV1 downregulation in functional dyspepsia and irritable bladder make this polymodal nociceptor an attractive target of novel therapies for chronic abdominal pain.
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PMID:TRPV1 and the gut: from a tasty receptor for a painful vanilloid to a key player in hyperalgesia. 1546 36

Although delayed gastric emptying has been described in several functional gastrointestinal disorders, and appears to be especially common in functional dyspepsia, the relationship of this finding to symptoms and basic pathophysiology is difficult to define. The delineation of the interactions between delayed gastric emptying, on the one hand, and symptom pathogenesis, on the other, has been hampered by several factors. These include the limitations of the methodology itself, the extent of overlap between the various functional disorders and the sensitivity of gastric emptying to factors external to the stomach, be they elsewhere within the gastrointestinal tract, in the central nervous system or in the environment. In many instances, delayed gastric emptying is an epiphenomenon, reflecting the overlap between inadequately defined functional syndromes, shared pathophysiology or the activation of physiological interactions between the various organs of the gut. In others, it may imply a truly diffuse motor disorder. The disappointments attendant on attempts to alleviate symptoms through approaches designed to accelerate gastric emptying should therefore not come as a surprise. Pending the definition of the true significance of delayed gastric emptying in all functional gastrointestinal disorders, caution should be exerted in the interpretation of this finding in a patient with functional symptoms.
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PMID:Review article: gastric emptying in functional gastrointestinal disorders. 1552 56

Functional gastrointestinal disorders like functional dyspepsia and irritable bowel syndrome are characterized by more or less specific symptoms and the absence of structural lesions to explain symptoms. Other studies suggest that abnormalities of specific gut function are linked to manifestation of symptoms. These abnormalities include disturbances of motility such as postprandial fundic relaxation, gastric emptying and disturbed visceral sensory function. The underlying pathophysiology is not fully understood. However, various studies point towards hereditary (or molecular) factors modified by environmental factors. Considering this broad spectrum of factors it is conceivable that treatments targeting a single mechanism are most likely to improve symptoms only in patients with a disturbance linked to this mechanism. Thus overall efficacy in the whole patient population is limited. Indeed, superiority of chemically defined treatments targeting a single receptor yield a benefit over placebo of between 10 and 15%. In recent years well-controlled studies have demonstrated superiority of specific herbal preparations. This in particular held true for combinations of various plant extracts or herbal extracts with a number of different active ingredients. However, efficacy of herbal treatment for functional GI disorders cannot be taken for granted and these drugs need to be rigorously tested for efficacy and safety. In this context, same standards apply as for conventional chemically defined medications.
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PMID:[Evidence-based medicine and phytotherapy for functional dyspepsia and irritable bowel syndrome: a systematic analysis of evidence for the herbal preparation Iberogast]. 1563 72

Functional dyspepsia is far more common than dyspepsia due to organic disease, both in the community and general practice. Proposed aetiopathogenic factors include gastric acid, Helicobacter pylori infection, delayed emptying, hypersensitivity or impaired accommodation of the stomach, dysfunction of the duodenum or brain-gut axis, psychosocial morbidity and post-infective mucosal damage. More effective therapy will depend on the development of drugs targeted at these putative pathophysiological mechanisms. On current evidence tricyclic antidepressants appear to be more effective than either acid suppressants or H. pylori eradication.
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PMID:Functional dyspepsia pathogenesis and therapeutic options--implications for management. 1589 98

About 20% of people in the UK have functional gastrointestinal disorders such as irritable bowel syndrome and functional dyspepsia. These conditions account for about 4% of GP consultations and 50% of gastroenterologists' workload. Forsome, the symptoms affect quality of life and ability to work. Drug treatment aimed at relieving symptoms is often ineffective. Other options include psychological treatments such as cognitive behavioural therapy, brief psychotherapy and gut-directed hypnotherapy. Here we discuss whether hypnotherapy has a role in the treatment of patients with irritable bowel syndrome or functional dyspepsia.
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PMID:Hypnotherapy for functional gastrointestinal disorders. 1596 57

Functional gastrointestinal disorders are characterised by central and peripheral physiological changes, associated with psychological factors. Successful drug development has been hindered by lack of adequate characterisation of the nature of symptoms and their physiological and psychological correlates. Animal models of chronic stress are lacking. High levels of drug safety are now demanded for treating non-life threatening conditions. Once close to market, patient pressure groups, health care providers and insurers, government, and the internet can all influence a drug's success. Serotonin-modifying drugs have been the main recent focus of development, with mixed results. Cisapride has been withdrawn because of concerns related to QT prolongation and cardiac arrhythmias. The 5-HT3 antagonists have been developed on the questionable assumption that they modify visceral sensation in patients. Problems have arisen with alosetron being associated with ischaemic colitis and a high incidence of constipation. The 5-HT4 agonists have their major effect on inducing peristalsis, and may modify gut secretion and sensory function. Tegaserod and prucalopride show promise in patients with constipation and related symptoms. 5-HT1 agonists may play a role in treating functional dyspepsia, partly by improving impaired gastric accommodation to a meal. Antidepressants, often found to be clinically beneficial in these disorders, also affect serotonin metabolism. Past successes, such as loperamide or the somatostatin analogue octreotide, involved targeting end organ receptors influencing motor function or secretion. Modifying sensory function is much more challenging. Future research with novel compounds need to keep these recent lessons in mind.
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PMID:Pharmacological treatment of irritable bowel syndrome--from concept to sales. 1614 96

Ginger (rhizome of Zingiber officinale) has been widely used for centuries in gastrointestinal disorders, particularly dyspepsia, but its precise mode of action has yet to be elucidated. This study was undertaken to study the prokinetic action of ginger and its possible mechanism of action. Prokinetic activity of ginger extract (Zo.Cr) was confirmed in an in vivo test when it enhanced the intestinal travel of charcoal meal in mice. This propulsive effect of the extract, similar to that of carbachol, was blocked in atropine-pretreated mice, a standard cholinergic antagonist. Likewise, Zo.Cr showed an atropine-sensitive dose-dependent spasmogenic effect in vitro as well as in isolated rat and mouse stomach fundus tissues. In atropinized tissue, it showed spasmolytic activity as shown by the inhibition of 5-HT- and K+-induced contractions. A spasmolytic effect was also observed in other gut preparations either as noncompetitive inhibition of agonist dose-response curves, inhibition of high K+(80 mM)-induced contractions, or displacement of Ca2+ dose-response curves to the right, indicating a calcium antagonist effect. Phytochemical analysis revealed the presence of saponins, flavonoids, and alkaloids in the crude extract. These data indicate that Zo.Cr contains a cholinergic, spasmogenic component evident in stomach fundus preparations which provides a sound mechanistic insight for the prokinetic action of ginger. In addition, the presence of a spasmolytic constituent(s) of the calcium antagonist type may explain its use in hyperactive states of gut like colic and diarrhea.
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PMID:Pharmacological basis for the medicinal use of ginger in gastrointestinal disorders. 1618 93


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