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:C0013911 (emaciation)
1,059 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Post-weaning multisystemic wasting syndrome (PMWS) is a comparatively new disease of swine, and known to occur in France since 1996. A porcine circovirus type 2 (PCV2) is found in the lesions of affected piglets. Six piglets aged 10-13 weeks were obtained from a French PMWS-affected farm. Two showing characteristic signs of PMWS (palor, weakness and emaciation) remained in poor condition and were finally killed 6 and 9 days after their arrival in the experimental unit. Tissue homogenates from these two piglets were used to reproduce mild PMWS in specific pathogen-free (SPF) piglets. This mild PMWS consisted of pyrexia (up to 41.7 degrees C) and growth retardation (up to 30% of weight reduction compared with controls) commencing 1 week after infection and lasting 3 weeks. In seven additional trials, pyrexia, growth retardation and lesions characteristic of PMWS were consistently produced in SPF and conventional piglets. However, only four of 55 inoculated SPF piglets (7.2%) showed severe wasting disease. One died and the others had to be killed 3 to 4 weeks after inoculation. None of the inoculated animals developed antibodies to any common swine viruses or bacteria, but clear evidence of PCV2 seroconversion was obtained. Our results therefore strongly suggest that PCV2 is the primary aetiological agent of PMWS.
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PMID:An experimental model for post-weaning multisystemic wasting syndrome (PMWS) in growing piglets. 1179 46

The environmental conditions and daily life in the ghettos of Europe during the holocaust are reviewed, and their effect on morbidity in different ghettos is scrutinized in an attempt to construct a typical morbidity profile. The outstanding characteristics were: crowding, shortage of basic necessities (such as food, clothing and medications), harsh environmental and sanitary conditions, inclement weather, poor personal hygiene, chronic undernutrition and malnutrition, physical and mental exhaustion. Morbidity was mainly due to infectious diseases, both endemic and epidemic outbreaks with high mortality, and high infestation rates of lice and other parasites. The dominant feature was "hunger disease" with its protean clinical expressions, endocine pathology, growth and development retardation in children, and amenorrhea and infertility among women of child-bearing age. Polyuria, nocturia and increased frequency of bowel movement were common. The typical presentation of a ghetto dweller was of extreme emaciation (a loss of up to 50% body weight); muscle weakness and skeletal abnormalities; pale, dry skin with excoriations; pedal edema; anxiety and nervousness; often goiter in children. Most of the inhabitants had some, or all, of those signs and symptoms (there were times when more than half the population was sick). This syndrome complex was termed "Ghetto Sickness" or "Ghetto Fatigue" (ghetto schwachkeit).
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PMID:[Morbidity in the ghettos during the Holocaust]. 1201 93

This article addresses results from repeated 1- and 4-wk inhalation exposure studies in Wistar rats with solid aerosol (dust) atmospheres of propineb, a zinc bisdithiocarbamate homopolymer that is used as an agrochemical fungicide. Groups of 10 rats/sex were exposed nose-only to mean concentrations of 3.97, 11.24, and 21.95 mg propineb/m(3) using an exposure regimen of 6 h/day, 5 days/wk for 4 wk. Concentrations were selected based on results from a pilot study in which rats were exposed under identical conditions on 5 consecutive days for 6 h/day to mean concentrations of 10.1, 19.9, 38.1, and 78.7 mg/m(3). Both studies demonstrated that with respect to muscular effects female rats were remarkably more susceptible as compared to males. Female rats exposed to 11.24 mg/m(3) and above displayed characteristic signs of toxicity that included weakness and flaccid paralysis of hindlegs and ensuing immobilization that was considered to be the cause of emaciation and ensuing mortality in some rats. There was an apparent reciprocal relationship of concentration and the manifestation of clinical evidence of muscular dysfunction; that is, the onset in female rats exposed to 11.24, 21.95, 38.1, and 78.7 mg/m(3) was on days 15, 8, 4, and 3, respectively. In contrast, none of the male rats elaborated comparable effects up to 38.1 mg/m(3). Neuromuscular measures included leg grip strength and supplemented the clinical findings, whereas the landing foot splay was only minimally affected. Hematology and clinical pathology endpoints, including those addressing thyroidal function, were unobtrusive up to and including 78.7 mg/m(3). Lung weights were significantly increased in groups exposed to 21.95 mg/m(3) and above, especially in male rats. The microscopic examinations made in the 4-wk study demonstrated an increased incidence of intraalveolar material and enlarged, foamy alveolar macrophages at 3.97 mg/m(3) and above. Especially in female rats an atrophy of thigh muscle fibers, including increased nuclei and focal degeneration, occurred at 11.24 mg/m(3) and above. TTCA (2-thiazolidinethione-4-carboxylic acid) in urine, a metabolite and biomarker of exposure to CS(2), which is a putative breakdown product of propineb, was proportionally higher in the female rats exposed to 11.24 mg/m(3) and above. This biomarker appears to accumulate with time. This finding provides indirect evidence that the etiopathologic cause of neuromuscular changes is related to intermediary levels of CS(2). The data of this investigation suggest that the toxicity of inhaled propineb is characterized by two independent effects, namely, responses occurring at the alveolar level and muscular weakness, especially in female rats. With respect to the latter finding, the no-observed-adverse-effect level (NOAEL) of the 4-wk study is 3.97 mg/m(3). Further study is needed to clarify whether the pulmonary response observed at this exposure level is consistent with an adaptive or an early adverse effect.
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PMID:Inhalation toxicity of propineb. Part I: Results of subacute inhalation exposure studies in rats. 1268 56

Previous repeated inhalation exposure studies revealed two independent organotropic effects of inhaled propineb dust: One was restricted to the lung, the other to muscle weakness of hindlimbs. These effects were believed to be causally related to the principle decomposition products of this type of dithiocarbamate in the biological milieu and related to zinc and carbon disulfide. Two mechanistic 1-wk inhalation studies were performed, each focusing on one of these findings. The 7 x 6-h/day repeated-exposure inhalation study analyzed whether the nature of the response occurring at the alveolar level is "adaptive" or "early adverse" and whether soluble zinc is the causative agent. Groups of 18 female rats were exposed nose-only to mean concentrations of 0, 1.1, 5.5, and 25.8 mg propineb/m(3) and 6.9 mg ZnO/m(3). On postexposure days 1, 3, and 15 the time course of responses was analyzed by bronchoalveolar lavage (BAL), including quantification of Zn and metallothionein (MT) in BAL cells. Clinical evidence of muscular weakness was investigated separately in 20 female Wistar rats exposed to 70 mg propineb/m(3) on 5 consecutive days (6 h/day), followed by a 2-wk postexposure period. Clinical signs, body weights, and feed and water consumption were recorded as frequently as technically feasible. Fifty percent of rats received an oral cysteine supplementation to verify/refute the hypothesis that the incapacitation observed in previous studies is the cause of emaciation and associated impairment of CS(2) detoxification. The findings of the first study are consistent with this hypothesis, namely, that soluble Zn triggers a series of pulmonary events that is consistent with the homeostasis of this essential metal. It is concluded, accordingly, that the adjusted maximal workplace level for ZnO is also valid for propineb to preclude Zn-mediated responses to occur in the lung. With respect to muscular effects, this mechanistic study demonstrates further that the increased detoxification capacity afforded by oral supplementation of cysteine mitigates markedly the toxic potency of propineb. Procedural variables specific to the inhalation bioassay appear to be decisive for the elicitation of muscular effects. The major variable is considered to be the large drop in body weights associated with each exposure session and the concomitantly decreased uptake of essential nutritional factors (e.g., cysteine) involved in the detoxification of this compound. Accordingly, the muscular deficits elicited by high concentrations of propineb are viewed to be secondary effects in an animal species likely to be more susceptible to this type of change than humans (Pauluhn & Rosenbruch, 2003).
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PMID:Inhalation toxicity of propineb. Part II: Results of mechanistic studies in rats. 1268 57

A genetic mouse model with a disrupted XPG allele was generated by insertion of neo cassette sequences into exon 3 of the XPG gene by using embryonic stem (ES) cell techniques. The xpg-deficient mice showed distinct developmental characteristics. Their body was marked smaller than that in wild-type littermates since the postnatal day 6, and this postnatal growth failure became more severe with developmental proceeding. Their life span was very short, all of the mutants died by postnatal day 23 after showing great weakness and emaciation. In addition, the mutant homozygous mice also showed some progressive neurological signs, like the lower level of activity and a progressive ataxia. Further examination indicated there was developmental retardation of the brain in the mutant mice. Their brain weight, and thickness of cerebral cortex and cerebellar cortex were significant different from the controls. These characteristics, like small size brain, brain developmental retardation and progressive neurological dysfunctions in the homozygotes were similar to the typical clinical phenotype of the XPG patients and Cockayne syndrome, we believe that the xpgdeficient mice will be an animal model for studying the function of the XP-G protein in nucleotide-excision repair and mechanisms related to the clinic symptoms of XP-G and Cockayne syndrome in humans.
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PMID:A genetic mouse model carrying the nonfunctional xeroderma pigmentosum group G gene. 1289 72

The occurrence of hereditary premature senescence in a family of pure bred Belgian hares belonging to a rabbit-breeding colony organized for the investigation of constitutional problems, has been described. Representatives of 20 generations of the complex have been studied. The condition was a degeneration of variable degrees of severity and two principal forms were recognized, the acute and the chronic, the chronic being the more frequent. The chronic form has now been described in terms of the principal local or external manifestations; that is, degeneration of the coat and skin, lesions of the eyes and feet, and reproductive abnormalities, and of the general deterioration which in severe cases pursued a progressive course characterized by muscle wasting, fat reduction, emaciation, weakness, and death. The acute form will be described in the next paper (2).
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PMID:Hereditary premature sensescence of the rabbit. I. Chronic form; general features. 1373 54

Cage layer fatigue was first noticed after laying hens began to be housed in cages in the mid-20th century. Hens producing eggs at a high rate were most susceptible to the disease. Early research revealed that cage layer fatigue was associated with osteoporosis and bone brittleness. Severe osteoporosis leads to spontaneous bone fractures commonly in the costochondral junctions of the ribs, the keel, and the thoracic vertebrae. Vertebral fracture may damage the spinal cord and cause paralysis. Osteoporosis appears to be inevitable in highly productive caged laying hens. The condition can be made worse by metabolic deficiency of calcium, phosphorus, or vitamin D. Hens in housing systems that promote physical activity tend to have less osteoporosis and rarely manifest cage layer fatigue. Genetic selection may produce laying hens that are less prone to bone weakness. The welfare implications of osteoporosis stem from pain, debility, and mortality associated with bone fracture. The chicken has well-developed neural and psychological systems specialized to respond to pain associated with trauma and inflammation. Although studies on the chicken have not focused on pain due to bone fracture, physiological and behavioral similarities to other species allow inference that a hen experiences both acute and chronic pain from bone fracture. There is little information on osteoporosis in commercial caged layer flocks, however, evidence suggests that it may be widespread and severe. If true, most caged laying hens suffer osteoporosis-related bone fracture during the first laying cycle. Osteoporosis also makes bone breakage a serious problem during catching and transport of hens prior to slaughter. Estimates of mortality due to osteoporosis in commercial caged layer flocks are few, but range up to a third of total mortality. Many of these deaths would be lingering and attended by emaciation and possibly pain. Osteoporosis-related bone breakage during processing has reduced the marketability of spent caged laying hens, contributing to the need to develop humane on-farm killing methods to support alternative means of spent hen disposition. Overall, the evidence indicates that cage layer osteoporosis is a serious animal welfare problem. A determined effort must be made to make the laying hen no longer susceptible to the harmful effects of excessive bone loss.
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PMID:Welfare implications of avian osteoporosis. 1497 68

Disseminated visceral coccidiosis (DVC) caused by Eimeria spp. was recognized as a disease entity in captive sandhill cranes (Grus canadensis) and whooping cranes (Grus americana) in the late 1970s. While most avian species of Eimeria inhabit the intestinal tract of its host, the crane eimerians, Eimeria reichenowi and Eimeria gruis, invade and multiply systemically and complete their development in both digestive and respiratory tracts. In DVC, cranes, especially chicks, may succumb to acute infections resulting in hepatitis, bronchopneumonia, myocarditis, splenitis, and enteritis. Cranes may also develop chronic, subclinical infections characterized by granulomatous nodules in various organs and tissues. This paper reviews the pathology and pathogenicity of natural and experimental DVC in sandhill and whooping cranes. Naturally infected birds appeared clinically normal, but progressive weakness, emaciation, greenish diarrhea, and recumbency before death were observed in birds administered doses > or = 10 x 10(3) sporulated oocysts per os. At necropsy, naturally infected birds had nodules in the mucosa of the oral cavity and the esophagus, and in thoracic and abdominal viscera. Experimentally infected birds necropsied less than 7 days after infection (a.i.) had no gross lesions. Birds examined later had hepatosplenomegaly, liver mottling, lung congestion and consolidation with frothy fluid in airways, and turgid intestinal tracts with hyperemic mucosa. From 28 days a.i., grossly visible granulomatous nodules were seen in the esophagus, heart, liver, cloaca, and eyelids. By light microscopy, the basic host response was a granulomatous inflammation with non-suppurative vasculitis affecting many organs and tissues. With time, multifocal aggregates of mononuclear cells, many laden with asexual coccidial stages, increased in size and number. Widespread merogony resulted in morbidity and death, particularly in birds administered 20 x 10(3) sporulated oocysts. Ultrastructural examination revealed developing asexual coccidian stages in the cytoplasm of large lymphocytes or monocytes within a parasitophorous vacuole, often indenting the nucleus. Oocysts and gametocytes were found in the intestines by 12 days a.i., and in the esophagus, trachea, bronchi, and lung by 14 days a.i., indicating that crane eimerians can complete their life cycle at these sites. Thus, DVC in cranes could be a useful animal model for the study of eimerian extra-intestinal stages and the evaluation of potential systemic anticoccidial drugs.
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PMID:Pathology and pathogenesis of disseminated visceral coccidiosis in cranes. 1522 53

A five-year-old female dog was presented with a four-week history of inappetence, weight loss, and skin and gait abnormalities. Physical examination revealed weakness, depression, incoordination of the posterior limbs, emaciation, skin and hair coat alterations, peripheral lymphadenopathy, pale mucous membranes and fever. Laboratory analysis of samples revealed abnormalities which included anaemia, neutrophilic leucocytosis, thrombocytopenia, low serum glucose and albumin concentrations, and increased serum alkaline phosphatase activity. The diagnosis was confirmed microscopically, by demonstrating the presence of Hepatozoon canis gametocytes within neutrophils in Giemsa-stained peripheral blood smears. Treatment consisting of toltrazuril and a trimethoprim-sulfamethoxazole combination was effective in relieving the clinical signs and clearing the blood of H. canis gametocytes. To the authors' knowledge, this is the first detailed clinical description of H. canis infection in a dog in Turkey.
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PMID:Clinical Hepatozoon canis infection in a dog in Turkey. 1560 Feb 73

Senna occidentalis (So) is a weed that grows in pastures along fences and in fields cultivated with cereals such as corn and soybean, and many reports have been showing intoxication with this plant in different animal species. It is also used in many medicinal purposes. The objective of the present study was to better evaluate the toxic effects of prolonged administration of So seeds to rats. Forty male Wistar rats were divided into four groups of 10 animals each, three of them respectively fed rations containing 1%, 2% and 4% So seeds, and the last one (control) fed commercial ration for a period of 2 weeks. Fourteen rats were also used in a pair-feeding (PF) experiment. The rats of the experimental groups showed lethargy, weakness, recumbency, depression and emaciation. Two rats of the 4% group and two of the PF group died during the experiment. Histopathological study showed fiber degenerations in the skeletal (Tibial, pectoral and diaphragm) and cardiac muscles. In the liver parenchyma, was observed vacuolar degeneration and, in the kidney, mild nefrosis in the proximal convoluted tubules. All of these alterations occurred in a dose-dependent fashion. Moderate to severe degeneration and spongiosis in the central nervous system, especially in cerebellum. Electron microscopy revealed mitochondrial lesions in all analyzed tissues.
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PMID:Sub-acute intoxication by Senna occidentalis seeds in rats. 1572 Nov 95


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