Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0006625 (cachexia)
 5,650 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Following abdominal radiation, a 16-year-old male developed persistent vomiting, metabolic alkalosis, and cachexia secondary to gastric stasis, atony, and dilatation in the absence of mechanical obstruction. Fluoroscopically and manometrically, antral motility was found to be severely impaired. Antral motor activity was not influenced by metoclopramide, but stimulated by carbachol. During oral maintenance carbachol therapy, gastric emptying of food was restored and sufficient oral nutrition could be resumed. The improvement persisted even after termination of therapy four months later. Systematic investigations on the effects of abdominal radiation on gastrointestinal motility appear to be necessary.
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PMID:Gastroparesis after radiation. Successful treatment with carbachol. 380 38

We reviewed the clinical records of 769 patients with primary systemic amyloidosis who had been examined at Mayo Clinic Jacksonville (Jacksonville, Florida) or Mayo Clinic Rochester (Rochester, Minnesota) during a 12-year period (1978 through 1989). Of these 769 patients, 59 (8%) had biopsy-established gastrointestinal amyloidosis, and 8 (1%) had symptomatic gastric amyloidosis. All eight patients with symptomatic gastric amyloidosis had hematemesis or prolonged nausea and vomiting in association with weight loss. Additional findings were gastroparesis (in three patients), gastric tumor (in one), and gastric outlet obstruction (in one). Macroglossia was present in two patients, and multiple myeloma was diagnosed in three. Six of the eight patients had coexisting small bowel amyloidosis and weight losses of 6.5 to 22.5 kg. Congo red staining identified gastric amyloid in the media of blood vessels in all cases. All cases stained selectively for lambda (seven cases) or kappa (one) light chain. All eight patients died; the median duration of survival after diagnosis was 13.8 months (range, 0.5 to 39.5). Death was due to cardiac failure (three patients), renal failure (two), chronic gastrointestinal obstruction and severe cachexia (two), or hepatic failure (one). Chemotherapy was given to seven patients but was only partially effective for ameliorating symptoms in one.
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PMID:Symptomatic gastric amyloidosis in patients with primary systemic amyloidosis. 833 78

Anorexia is a common problem in advanced cancer, part of the cancer anorexia-cachexia syndrome. Although the etiology is multifactorial, symptoms suggestive of gastroparesis are often present in patients with cancer anorexia. We have successfully used metoclopramide, a prokinetic agent, to stimulate appetite in advanced cancer and relieve other dyspeptic symptoms associated with anorexia.
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PMID:Metoclopramide in anorexia caused by cancer-associated dyspepsia syndrome (CADS). 837 66

Overt diabetic gastroparesis is a rare long-term complication of diabetes, probably resulting from autonomic neuropathy of vagus nerve. It is now clear that neural damage plays a pivotal role in the pathogenesis of the disease. Some studies showed high basal gastrin levels in patients with diabetic gastroparesis, but the clinical meaning of this observation is still unclear. We report the case of a young woman with Insulin Dependent Diabetes Mellitus (IDDM) who was referred to evaluate nausea and vomiting associated to ketoacidosis. Our hypothesis of autonomic neuropathy with gastroparesis was confirmed. We observed a progressive increase in fasting gastrin concentration (20-fold normal values) in the absence of any clinical and laboratory signs of Zollinger-Ellison (ZE) syndrome. The increasing vomiting induced a severe state of cachexia, which required total parenteral nutrition for a long period. All therapeutic approaches were unsuccessful, and the patient rapidly died, suggesting a possible link between the severity of the clinical picture and the gastrin plasma levels.
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PMID:Extreme but asymptomatic hypergastrinemia with gastroparesis in a young woman with insulin dependent diabetes mellitus. 964 55

The cachexia-anorexia syndrome occurs in chronic pathophysiologic processes including cancer, infection with human immunodeficiency virus, bacterial and parasitic diseases, inflammatory bowel disease, liver disease, obstructive pulmonary disease, cardiovascular disease, and rheumatoid arthritis. Cachexia makes an organism susceptible to secondary pathologies and can result in death. Cachexia-anorexia may result from pain, depression or anxiety, hypogeusia and hyposmia, taste and food aversions, chronic nausea, vomiting, early satiety, malfunction of the gastrointestinal system (delayed digestion, malabsorption, gastric stasis and associated delayed emptying, and/or atrophic changes of the mucosa), metabolic shifts, cytokine action, production of substances by tumor cells, and/or iatrogenic causes such as chemotherapy and radiotherapy. The cachexia-anorexia syndrome also involves metabolic and immune changes (mediated by either the pathophysiologic process, i.e., tumor, or host-derived chemical factors, e.g., peptides, neurotransmitters, cytokines, and lipid-mobilizing factors) and is associated with hypertriacylglycerolemia, lipolysis, and acceleration of protein turnover. These changes result in the loss of fat mass and body protein. Increased resting energy expenditure in weight-losing cachectic patients can occur despite the reduced dietary intake, indicating a systemic dysregulation of host metabolism. During cachexia, the organism is maintained in a constant negative energy balance. This can rarely be explained by the actual energy and substrate demands by tumors in patients with cancer. Overall, the cachectic profile is significantly different than that observed during starvation. Cachexia may result not only from anorexia and a decreased caloric intake but also from malabsorption and losses from the body (ulcers, hemorrhage, effusions). In any case, the major deficit of a cachectic organism is a negative energy balance. Cytokines are proposed to participate in the development and/or progression of cachexia-anorexia; interleukin-1, interleukin-6 (and its subfamily members such as ciliary neurotrophic factor and leukemia inhibitory factor), interferon-gamma, tumor necrosis factor-alpha, and brain-derived neurotrophic factor have been associated with various cachectic conditions. Controversy has focused on the requirement of increased cytokine concentrations in the circulation or other body fluids (e.g., cerebrospinal fluid) to demonstrate cytokine involvement in cachexia-anorexia. Cytokines, however, also act in paracrine, autocrine, and intracrine manners, activities that cannot be detected in the circulation. In fact, paracrine interactions represent a predominant cytokine mode of action within organs, including the brain. Data show that cytokines may be involved in cachectic-anorectic processes by being produced and by acting locally in specific brain regions. Brain synthesis of cytokines has been shown in peripheral models of cancer, peripheral inflammation, and during peripheral cytokine administration; these data support a role for brain cytokines as mediators of neurologic and neuropsychiatric manifestations of disease and in the brain-to-peripheral communication (e.g., through the autonomic nervous system). Brain mechanisms that merit significant attention in the cachexia-anorexia syndrome are those that result from interactions among cytokines, peptides/neuropeptides, and neurotransmitters. These interactions could result in additive, synergistic, or antagonistic activities and can involve modifications of transducing molecules and intracellular mediators. Thus, the data show that the cachexia-anorexia syndrome is multifactorial, and understanding the interactions between peripheral and brain mechanisms is pivotal to characterizing the underlying integrative pathophysiology of this disorder.
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PMID:Central nervous system mechanisms contributing to the cachexia-anorexia syndrome. 1105 8

The key points of this article are anorexia and cachexia are: A major cause of cancer deaths. Several drugs are available to treat anorexia and cachexia. Dyspnea in cancer usually is caused by several factors. Treatment consists of reversing underlying causes, empiric bronchodilators, cortico-steroids--and in the terminally ill patients-opioids, benzodiazepines,and chlorpromazine. Delirium is associated with advanced cancer. Empiric treatment with neuroleptics while evaluating for reversible causes is a reasonable approach to management. Nausea and vomiting are caused by extra-abdominal factors (drugs,electrolyte abnormalities, central nervous system metastases) or intra-abdominal factors (gastroparesis, ileus, gastric outlet obstruction, bowel obstruction). The pattern of nausea and vomiting differs depending upon whether the cause is extra- or intra-abdominal. Reversible causes should be sought and empiric metoclopramide or haloperidol should be initiated. Fatigue may be caused by anemia, depression, endocrine abnormalities,or electrolyte disturbances that should be treated before using empiric methylphenidate. Constipation should be treated with laxatives and stool softeners. Both should start with the first opioid dose.
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PMID:Common symptoms in advanced cancer. 1583 69

Gastroparesis is a disorder of the stomach caused by delayed gastric emptying in the absence of mechanical obstruction. Symptoms of gastroparesis include nausea, vomiting, early satiety, bloating, and abdominal discomfort. Gastroparesis has been described as a complication of several malignancies, including gastric, pancreatic, gallbladder, esophageal, and lung cancers, as well as leiomyosarcoma. The prevalence of malignant gastroparesis (MG) is unknown, and this entity is widely underrecognized and undertreated. Diabetes mellitus is the most common identifiable cause of benign gastroparesis, ie, gastroparesis occurring in the absence of an underlying malignant pathology. In the setting of malignancy, gastroparesis may result from the cancer itself or may be a complication of its treatment with such modalities as surgery, radiation therapy, or chemotherapy. Coexisting conditions, including diabetes, hypothyroidism, and neurologic diseases, may further exacerbate MG. The pathogenesis of MG is not clearly understood at present. However, mechanisms suggested in the literature include postvagotomy syndrome, malignant infiltration of the autonomic nervous system, and paraneoplastic dysmotility with autoantibody-mediated destruction of the enteric nervous system (the interstitial cells of Cajal, also called the intrinsic pacemaker of the gastrointestinal tract, or the myenteric plexus). Appropriate treatment of MG may help to avoid serious consequences, such as cancer cachexia, intolerance of oral anticancer agents, dehydration, and hospitalization. In this article, we will describe our institutional experience with MG and will provide a concise review of the literature. Guidelines for management will be suggested.
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PMID:Malignant gastroparesis: pathogenesis and management of an underrecognized disorder. 1794 45

A breakthrough using "reverse pharmacology" identified and characterized acyl ghrelin from the stomach as the endogenous cognate ligand for the growth hormone (GH) secretagogue receptor (GHS-R) 1a. The unique post-translational modification of O-n-octanoylation at serine 3 is the first in peptide discovery history and is essential for GH-releasing ability. Des-acyl ghrelin, lacking O-n-octanoylation at serine 3, is also produced in the stomach and remains the major molecular form secreted into the circulation. The third ghrelin gene product, obestatin, a novel 23-amino acid peptide identified from rat stomach, was found by comparative genomic analysis. Three ghrelin gene products actively participate in modulating appetite, adipogenesis, gut motility, glucose metabolism, cell proliferation, immune, sleep, memory, anxiety, cognition, and stress. Knockdown or knockout of acyl ghrelin and/or GHS-R1a, and overexpression of des-acyl ghrelin show benefits in the therapy of obesity and metabolic syndrome. By contrast, agonism of acyl ghrelin and/or GHS-R1a could combat human anorexia-cachexia, including anorexia nervosa, chronic heart failure, chronic obstructive pulmonary disease, liver cirrhosis, chronic kidney disease, burn, and postsurgery recovery, as well as restore gut dysmotility, such as diabetic or neurogenic gastroparesis, and postoperative ileus. The ghrelin acyl-modifying enzyme, ghrelin O-Acyltransferase (GOAT), which attaches octanoate to serine-3 of ghrelin, has been identified and characterized also from the stomach. To date, ghrelin is the only protein to be octanylated, and inhibition of GOAT may have effects only on the stomach and is unlikely to affect the synthesis of other proteins. GOAT may provide a critical molecular target in developing novel therapeutics for obesity and type 2 diabetes.
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PMID:Ghrelin gene products and the regulation of food intake and gut motility. 2003 70

Ghrelin is a peptide hormone produced mainly by the stomach and has widespread physiological functions including increase in appetite. The stimulation of the ghrelin system represents a potential therapeutic approach in various disorders characterized by deficient ghrelin signaling or by low appetite. This stimulation may be achieved via pharmacological targeting of the ghrelin receptor with synthetic ghrelin or ghrelin mimetics or via increased endogenous ghrelin production. Recently, it was demonstrated that gastric electrical stimulation (GES) with Enterra parameters results in increased ghrelin production in rats. Furthermore, recent data revealed putative role of ghrelin-reactive immunoglobulins in the modulation of the ghrelin signaling which can be also stimulated by GES. Here, we review the links between GES and ghrelin in existing GES experimental and clinical applications for treatment of gastroparesis, functional dyspepsia or obesity and discuss if GES can be proposed as a non-pharmacological approach to improve ghrelin secretion in several pathological conditions characterized by low appetite, such as anorexia nervosa or anorexia-cachexia syndrome.
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PMID:Ghrelin, appetite and gastric electrical stimulation. 2167 67

Ghrelin as a human natural hormone is involved in fundamental regulatory processes of eating and energy balance. Ghrelin signals the nutrient availability from the gastrointestinal tract to the central nervous system, up-regulates food intake and lowers energy expenditure mainly through hypothalamic mediators acting both centrally and peripherally including the gastrointestinal tract (motility, epithelium), promotes both neuro-endocrine and inflammatory signals to increase skeletal muscle growth and decrease protein breakdown, and increases lipolysis while body fat utilization is reduced. Ghrelin does more to exert its probably sentinel role around "human energy": it influences through mainly extra-hypothalamic actions the hedonic and incentive value of food, mood and anxiety, sleep-wake regulation, learning and memory, and neurogenesis. Recently numerous ghrelin gene-derived peptides were discovered, demonstrating the complexity within the ghrelin/ghrelin receptor axis. For clinical applications, not only the natural ghrelin and its slice variants, but also several modified or artificial molecules acting at ghrelin-associated receptors were and are developed. Current clinical applications are limited to clinical studies, focusing mainly on cachexia in chronic heart failure, COPD, cancer, endstage- renal-disease or cystic fibrosis, but also on frailty in elderly, gastrointestinal motility (e.g., gastroparesis, functional dyspepsia, postoperative ileus), after curative gastrectomy, anorexia nervosa, growth hormone deficient patients, alcohol craving, sleep-wake regulation (e.g. major depression), or sympathetic nervous activity in obesity. The results of completed, preliminary studies support the clinical potential of ghrelin, ghrelin gene-derived peptides, and artificial analogues, suggesting that larger clinical trials are demanded to move ghrelin towards an available and reimbursed pharmaceutical intervention.
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PMID:Clinical application of ghrelin. 2263 60


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