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1.
Clark RG Ellison RS Mortleman L Kirk JA Henderson HV 《New Zealand veterinary journal》1999,47(4):125-127
AIM: To obtain information on serum and liver vitamin B12 and urinary methylmalonic acid concentrations as diagnostic tests to predict a weight gain response to supplementation with vitamin B12 in young dairy cattle when grazing pasture of low cobalt content. Methodology. Forty dairy cattle (12 Friesian, 14 Friesian x Jersey and 14 Jersey) were allocated to two equal sized groups, treated and untreated, based on liveweight. At monthly intervals for 14 months, all animals were weighed, their serum and urine sampled, their liver biopsied and the pasture sampled from the paddocks they were grazing and going to graze. Serum and liver were assayed for vitamin B12 concentrations. For the first 5 months of the trial, urine was assayed for methylmalonic acid concentrations. Both washed and unwashed pasture samples were assayed for cobalt concentrations. RESULTS: No weight gain response occurred vitamin B12 supplementation in young growing cattle grazing pasture with a cobalt concentration of 0.04-0.06 mg/kg DM. For 5 months of the trial, liver vitamin B12 concentrations from untreated calves were in the range 75-220 nmol/kg and serum vitamin B12 concentrations were as low as 72 pmol/1. There was no associated growth response to supplementation. CONCLUSION: Further trials involving young cattle grazing pastures with cobalt concentrations less than 0.04 mg/kg DM are required to reliably determine liver and serum vitamin B12 concentrations at which growth responses to vitamin B12 or cobalt supplementation are likely under New Zealand pastoral grazing conditions. 相似文献
2.
Problems in the diagnosis and anticipation of trace element deficiencies in grazing livestock 总被引:2,自引:0,他引:2
N F Suttle 《The Veterinary record》1986,119(7):148-152
Three principles governing the interpretation of biochemical criteria of trace element status are identified; they concern the relationships between the concentration of the marker and the intake of the element, the time on an adequate regimen and disturbances of tissue function. From these principles, the concentrations of liver copper, liver vitamin B12 and ovine serum vitamin B12 are shown to be insensitive indices of deficiency but good indices of surfeit. Plasma copper less than 9 mumol/litre is a good index of marginally deficiency but values may have to fall below 3 mumol/litre before there is risk of dysfunction and loss of production in sheep and cattle. Serum vitamin B12 values below 188 pmol/litre are indicative of functional deficiency in sheep whereas cattle with values between 38 and 76 pmol/litre may be only marginally deficient. Concentrations of methylmalonic acid in the plasma greater than 5 mumol/litre may offer a surer guide to diagnosis of functional vitamin B12 deficiency. Blood selenium or glutathione peroxidase concentrations may be unreliable in diagnosing selenium-responsive conditions because other nutrients determine what is adequate. For all elements the surest diagnosis is an improvement in growth or health in response to a specific supplement. The adoption of preventive measures should be prompted by biochemical evidence of marginal deficiencies in animals (rather than soils or pastures) although economic responses will not necessarily follow. 相似文献
3.
R.G. Clark R.S. Ellison L. Mortleman J.A. Kirks H.V. Henderson 《New Zealand veterinary journal》2013,61(4):125-127
Aim. To obtain information on serum and liver vitamin B12 and urinary methylmalonic acid concentrations as diagnostic tests to predict a weight gain response to supplementation with vitamin B12 in young dairy cattle when grazing pasture of low cobalt content. Methodology. Forty dairy cattle (12 Friesian, 14 Friesian × Jersey and 14 Jersey) were allocated to two equal sized groups, treated and untreated, based on liveweight. At monthly intervals for 14 months, all animals were weighed, their serum and urine sampled, their liver biopsied and the pasture sampled from the paddocks they were grazing and going to graze. Serum and liver were assayed for Vitamin B12 concentrations. For the first 5 months of the trial, urine was assayed for methylmalonic acid concentrations. Both washed and unwashed pasture samples were assayed for cobalt concentrations. Results. No weight gain response occurred to Vitamin B12 supplementation in young growing cattle grazing pasture with a cobalt concentration of 0.04-0.06 mg/kg DM. For 5 months of the trial, liver Vitamin B12 concentrations from untreated calves were in the range 75-220 nmol/kg and serum vitamin B12 concentrations were as low as 72 pmol/1. There was no associated growth response to supplementation. Conclusion. Further trials involving young cattle grazing pastures with cobalt concentrations less than 0.04 mg/kg DM are required to reliably determine liver and serum Vitamin B12 concentrations at which growth responses to Vitamin B12 or cobalt supplementation are likely under New Zealand pastoral grazing conditions. 相似文献
4.
Abstract Lambs grazing cobalt-deficient pastures and injected with hydroxocobalamine gained significantly more weight and excreted significantly less methylmalonic acid in the urine than untreated controls. Lambs with liver vitamin B12 levels in the range 0.1–0.2?g/g excreted less than 25 ?g of methylmalonic acid per ml of urine, whereas lambs with liver vitamin B12 concentrations of less than 0.1 ?g/g excreted greater amounts. Lambs in both groups had serum vitamin B12 concentrations less than 500 pg/ml. No consistent diurnal variation in urinary methylmalonic acid concentrations was found for four lambs studied. There was a decrease in the methylmalonic acid levels of urine after storage for more than 24 hours which could be prevented by acidification of the urine. A mean urinary methylmalonic acid concentration greater than 30 ?g/ml for 10 animals randomly selected from a flock would indicate a cobalt deficiency in the flock as a whole. 相似文献
5.
Reproductive performance and lamb viability in cobalt sufficient and subclinically deficient ewes, and from ewes experiencing repletion from and depletion into cobalt deficiency, were investigated in two experiments. The sheep were fed a cobalt deficient ration and supplementation was by oral dose according to treatment. The treatments had a significant effect (P less than 0.001) on ewe serum vitamin B12 and methylmalonic acid concentrations. There were no significant effects on ewe liveweight, condition score or conception rate. Cobalt deficient ewes produced fewer lambs and had more stillbirths and neonatal mortalities than cobalt sufficient controls. Lambs from deficient ewes were slower to start suckling (P less than 0.05), had reduced concentrations of serum immunoglobulin G and zinc sulphate turbidity levels (P less than 0.05), and had lower serum vitamin B12 and higher methylmalonic acid concentrations (P less than 0.05), than lambs from cobalt sufficient dams. Cobalt supplementation in either the first or second half of pregnancy only did not fully alleviate these adverse effects. 相似文献
6.
In a controlled field study of three years' duration we evaluated the effect of cobalt supplementation on pathological changes in cobalt/vitamin B12-deficient Texel twin lambs grazing the same cobalt-deficient pasture. Semi-quantitative evaluation of the histopathology of liver and brain was done on 44 sets of twins. Pathological changes were related to blood concentrations of vitamin B12, methylmalonic acid, and homocysteine. Lesions were mainly confined to the liver and brain. Acute hepatic changes were characterized by steatosis, hepatocytic degeneration, and single cell necrosis. Chronic changes consisted of bile duct proliferation, the presence of ceroid containing macrophages, and fibrosis in the portal triads. Many non-supplemented lambs showed polymicrocavitation and Alzheimer type II reaction in the brain. Polioencephalomalacia was observed in three non-supplemented lambs but was regarded as a secondary lesion. Our results indicate that the main lesions found in cobalt/vitamin B12-deficient lambs are acute and chronic hepatitis. These lesions were associated with low concentrations of vitamin B12 and high concentrations of methylmalonic acid and homocysteine in the blood. The liver lesions were also associated with polymicrocavitation of the brain, probably as morphological evidence of hepatoencephalopathy. 相似文献
7.
Gruner TM Sedcole JR Furlong JM Grace ND Williams SD Sinclair G Sykes AR 《New Zealand veterinary journal》2004,52(3):117-128
AIM: To determine concurrent changes in serum methylmalonic acid (MMA) and vitamin B12 concentrations of ewes and their lambs on cobalt-deficient properties, subsequent to cobalt supplementation. METHODS: Three experiments were carried out on two farms. Groups of ewes (n=25-50) were either supplemented with cobalt bullets during late pregnancy, 23-47 days before the mean lambing date, or left unsupplemented. In two experiments, lambs from within each group were supplemented directly by vitamin B12 injection at 3-weekly intervals from birth, and in the third experiment by injection with micro-encapsulated vitamin B12 at tailing and 3 months later. Pasture samples were obtained for analysis of cobalt content at each sampling time. Blood samples were obtained and liveweight recorded from ewes and lambs at approximately monthly intervals. On one farm (two experiments), liver and milk samples were obtained from ewes and liver samples from lambs. RESULTS: Serum vitamin B12 concentrations in unsupplemented ewes fell below 250 pmol/L during early lactation in all experiments and mean concentrations as low as 100 pmol/L were recorded. MMA concentration was maintained below 2 micromol/L in serum from supplemented ewes but increased to mean concentrations ranging from 7 to 14 micromol/L at the nadir of serum vitamin B12 concentration during peak lactation. A significant liveweight response to supplementation was recorded in ewes on one property, and the vitamin B12 concentration in the ewes' milk and in the livers of their lambs more than doubled. No liveweight-gain response to supplementation was observed in lambs on this property. Mean serum MMA concentrations in lambs ranged from <2 in supplemented, to 19.2 micromol/L in unsupplemented lambs, and the latter had concurrent serum vitamin B12 concentrations of >300 pmol/L. Pasture cobalt concentration was lowest at 0.04-0.09 microg/kg dry matter (DM) on the property on which responses in lambs occurred but considerably higher (>0.09 microg/kg DM) on the property on which responses in ewes occurred. On the second property, serum vitamin B12 concentrations in lambs at tailing were extremely low (100 pmol/L), irrespective of supplementation of dams with cobalt. Mean serum MMA concentration was increased to 20 and 42 micromol/L in lambs from supplemented and non-supplemented ewes, respectively. Weight-gain response to direct supplementation of lambs with vitamin B12 occurred during suckling in the latter, but not the former. Lambs from ewes supplemented with vitamin B12 showed a much bigger increase in serum vitamin B12 concentrations a month after supplementation than did lambs from unsupplemented ewes (+1,400 pmol/L vs + 650 pmol/L). CONCLUSIONS: Serum MMA concentration gave a more precise indication of responsiveness to vitamin B12 or cobalt supplementation than serum vitamin B12 concentrations in ewes and lambs. Neither very low serum vitamin B12 nor elevated MMA concentrations were necessarily indicative of responsiveness to supplementation in suckling lambs, but the latter gave an early indication of impending responsiveness. Supplementation of the ewe with a cobalt bullet appeared to protect the growth performance of the lamb for 90 days and influence the subsequent serum vitamin B12 response in the lamb to vitamin B12 supplementation. CLINICAL SIGNIFICANCE: Supplementing ewes with cobalt bullets in late pregnancy can improve the vitamin B12 status of their lambs, and modify their response to vitamin B12 supplementation. 相似文献
8.
The development of cobalt deficiency was studied in 30 Scottish Blackface lambs grazing pasture on a soil containing 0-17 ppm cobalt. By the end of an eight-week period 50 per cent of lambs were subjectively appraised as showing signs of cobalt deficiency. After a further period lasting four weeks, during which three groups of lambs were studied (one group, least affected by cobalt deficiency, acted as control, the second received a single cobalt bullet and the third received oral doses of 200 mg cobalt chloride at the beginning of the period and three weeks later). Mean urinary formiminoglutamic acid (FIGLU) concentrations were inversely related to serum vitamin B12 concentrations and increased from 0-08 to 0-20 mumole per ml in group 1, and decreased to virtually zero within one week of treatment in groups 2 and 3. The use of serum vitamin B12 and urinary FIGLU concentrations in the diagnosis of cobalt deficiency in sheep are discussed. 相似文献
9.
Gruner TM Sedcole JR Furlong JM Grace ND Williams SD Sinclair G Hicks JD Sykes AR 《New Zealand veterinary journal》2004,52(3):129-136
AIM: To compare serum analyses of vitamin B12 and methylmalonic acid (MMA) as indices of cobalt/vitamin B12 deficiency in lambs around weaning. METHODS: Lambs on five properties, considered to be cobalt- deficient, were supplemented with either cobalt bullets, or short- or long-acting vitamin B12 preparations. Blood samples, and in some cases liver biopsies, and liveweights were obtained at monthly intervals. Serum samples were assayed for vitamin B12 and MMA and liver for vitamin B12 concentrations. Pasture cobalt concentrations were measured on three of the properties. RESULTS: Pasture cobalt concentrations were generally maintained below 0.07 microg/g dry matter (DM) on the properties sampled. Growth responses to supplementation were observed on only 2/5 properties, despite serum vitamin B12 concentrations being within the currently used 'marginal' reference range (336-499 pmol/L) for at least 3 months on all properties and in the deficient reference range (0-335 pmol/L) for at least 2 months on all farms except one. Serum MMA concentrations in supplemented lambs were <2 micromol/L, except in those animals sampled 1 month after receiving treatment with a short-acting vitamin B12 injection. Serum MMA concentrations in unsupplemented animals on properties on which no growth response to supplementation occurred generally reached peak levels of between 4 and 7 micromol/L at the nadir of serum vitamin B12 concentration. When a growth response was observed, differences in weight gain between supplemented and unsupplemented lambs occurred as mean serum MMA concentrations increased from 9 to 14 micromol/L. On one property where supplementation commenced before weaning, normal growth rates were maintained despite serum vitamin B12 concentrations of 140 pmol/L and serum MMA concentrations in excess of 40 micromol/L serum. CONCLUSIONS: The possibility that current serum vitamin B12 references ranges for diagnosis of cobalt deficiency are set too high and lead to over-diagnosis of responsiveness to cobalt/ vitamin B12 supplementation is discussed. The suggestion is made that serum MMA concentrations in excess of 9-14 micromol/L will provide a more reliable diagnostic test for cobalt deficiency. However, there was sufficient variation between properties in the relationships between cobalt concentrations of pasture and serum vitamin B12 or MMA concentrations to require more rigorous testing of the reliability of using serum MMA concentration for this purpose. The possibility that differences in rumen fermentation and therefore propionate and vitamin B12 production could be involved is discussed. The measurement of serum MMA and vitamin B12 appears to be of little value whilst the lamb is still suckling. CLINICAL SIGNIFICANCE: Serum MMA concentration may offer advantages over serum vitamin B12 concentrations in the diagnosis of a cobalt/vitamin B12 responsiveness in weaned lambs. 相似文献
10.
A MacPherson 《The Veterinary record》1989,125(24):594-596
The rapidity and duration of the response of sheep to graded oral doses of cobalt, given as the sulphate or as a cobalt-supplemented anthelmintic Panacur SC, was assessed by the determination of serum vitamin B12 and methylmalonic acid concentrations. The rapidity of the response to the treatments, which ranged from 1 to 250 mg cobalt, was unaffected by dose rate but the effective duration was dose related. There was some evidence of a cumulative effect from repeat treatments of the anthelmintic at three weekly intervals. It is suggested that the optimum inclusion rate for cobalt in anthelmintics lies within the range 21 to 100 mg/treatment. 相似文献
11.
Plasma concentrations of ascorbic acid, (3-carotene, retinol and a-tocopheral were determined in four groups of racing greyhounds. Plasma biotin was measured in two groups. Mean concentrations were 5-3 mg/litre ascorbic acid, 877|xg/litre retinol, 10-4 mg/litre a-tocopherol and 451 ng/litre biotin. In all dogs (3-carotene was below the level of detection, ie, 20 μg/litre. Differences in plasma vitamin concentrations between groups were found. 相似文献
12.
AIM: To derive reference ranges for serum methylmalonic acid (MMA) for the diagnosis of cobalt/vitamin B12-responsiveness in lambs and critique existing serum vitamin B12 reference ranges. METHODS: Individual animal data from earlier supplementation trials, involving 225 ewes, 106 suckling lambs, 301 lambs during the suckling and post-weaning periods and 414 weaned lambs, for which weight gain to supplementation was observed, were used to derive relationships between serum vitamin B12 and MMA, and liveweight gain. RESULTS: Serum MMA concentrations were rarely elevated above the norm of <2 micromol/L when serum vitamin B12 concentrations were >375 pmol/L, and not elevated into the range where a liveweight response to supplementation occurred (>10 micromol/L) unless serum vitamin B12 concentrations were below 200 pmol/L. Suckling lambs were able to maintain high growth rates despite elevated serum MMA concentrations (>20 micromol/L). CONCLUSIONS: The current reference ranges used in New Zealand for serum vitamin B12 are set conservatively high. Serum MMA concentrations appear to allow better differentiation of a responsive condition than vitamin B12 concentrations. Serum MMA concentrations >13 micromol/L indicate responsiveness to supplementation whilst concentrations <7 micromol/L indicate unresponsiveness. In the range 7-13 micromol/L, variation in response was observed and predictability of response is less certain, but supplementation is advisable. CLINICAL RELEVANCE: The current reference ranges for vitamin B12 responsiveness are conservatively high and lead to over-diagnosis of vitamin B12 deficiency in ill-thriftiness of sheep. 相似文献
13.
Eighty-four calves with diarrhoea were treated with fluids and 13 apparently healthy calves of similar ages were sampled as controls. Their total blood carbon dioxide (TCO2) was measured with a Harleco apparatus and 31 of the calves were treated with oral fluids and 53 with parenteral fluids. The oral fluid contained 118 mmol/litre Na+, 25 mmol/litre K+, 110 mmol/litre glucose, 108 mmol/litre bicarbonate (HCO3- as citrate), 43 mmol/litre Cl-, 4 mmol/litre Ca++, 4 mmol/litre Mg++ and 20 mmol/litre glycine, and the parenteral fluid contained 144 mmol/litre Na+, 4 mmol/litre K+, 35 mmol/litre HCO3- and 113 mmol/litre Cl-. Both treatments resulted in significant improvements in acid-base status as demonstrated by an increase in TCO2, and the treatment was successful in 27 of the 31 calves receiving oral fluids and in 45 of the 53 calves receiving parenteral fluids. Thirty-seven of the calves treated parenterally were very severely acidotic (TCO2 <8 mmol/litre) initially and they received an additional 400 mmol HCO3- added to the first 5 litres of infusion. Treatment was successful in 33 of these calves. The decision to administer additional bicarbonate was made on the basis of their acid-base status as measured with a Harleco apparatus. The strong ion difference (Na++K+-Cl-) (SID) of the calves was calculated retrospectively. There was a significant correlation between the SID and TCO2 of the calves treated with oral fluids but not among the control calves or the calves treated parenterally. Furthermore, measurements of the change in SID during therapy gave little indication of the change in acid-base status as measured by the Harleco apparatus, with the SID decreasing (suggesting a worsening of acid-base status) in 16 calves in which the TCO2 increased (suggesting an improvement in acid-base status). There was a significant correlation between the change in SID and the change in TCO2 during treatment in the calves receiving oral fluids but not in the calves treated parenterally. 相似文献
14.
Serum vitamin B12 and methylmalonic acid (MMA) concentrations were used to monitor the development of cobalt (Co) deficiency and repletion from the deficient state in housed pregnant hill sheep. Serum MMA concentrations were less variable and provided a more accurate diagnosis of Co deficiency than serum vitamin B12. This was particularly the case for subclinical disease. However, unlike serum MMA, concentrations of the vitamin in serum could be used prognostically. The most precise diagnosis was provided by serum vitamin B12 and MMA data used in conjunction, but where one technique is to be used, serum MMA determinations are preferred. 相似文献
15.
McCoy MA Hutchinson T Davison G Fitzpatrick DA Rice DA Kennedy DG 《The Veterinary record》2001,148(9):268-273
Severe hypomagnesaemia and tetany were induced in 10 lactating cows by feeding them semi-synthetic low magnesium diets and the animals were used to study the stability of postmortem markers of hypomagnesaemic tetany. There were significant relationships between the concentrations of magnesium in either cerebrospinal fluid (CSF) or plasma and either aqueous or vitreous humour. The onset of hypomagnesamic tetany was also associated with low magnesium concentrations in plasma, CSF and aqueous and vitreous humour. Magnesium concentrations less than 0.25 mmol/litre in fresh aqueous humour may be indicative of severe hypomagnesaemia and possible tetany in lactating cows, but the concentration of magnesium in aqueous humour was unstable postmortem. The concentration of magnesium in vitreous humour was relatively stable and a concentration of less than 0.55 mmol/litre could be used as a diagnostic marker of tetany in cattle for up to at least 48 hours postmortem, at ambient temperatures typical of Northern Ireland. 相似文献
16.
Chapman PS Mooney CT Ede J Evans H O'Connor J Pfeiffer DU Neiger R 《The Veterinary record》2003,153(25):771-775
Serum concentrations of 17-hydroxyprogesterone and cortisol were measured before and after the administration of exogenous adrenocorticotrophic hormone (ACTH) to three groups of dogs: 27 healthy dogs (group 1), 19 dogs with non-adrenal illness (group 2) and 46 dogs with hyperadrenocorticism (group 3). The median (range) post-ACTH concentrations of 17-hydroxyprogesterone were 5.0 (22.2 to 16.8), 6.9 (2.0 to 36.2) and 14.4 (1.7 to 71) nmol/litre in groups 1, 2 and 3, respectively. There were no significant differences in the basal or post-ACTH concentrations of cortisol or 17-hydroxyprogesterone between groups 1 and 2. The post-ACTH concentrations of 17-hydroxyprogesterone in group 3 were significantly (P<0.001) greater than those in groups 1 and 2 combined. The area under the receiver operating curve (ROC) for the post-ACTH concentration of cortisol (0.94) was significantly greater than that for the post-ACTH concentration of 17-hydroxyprogesterone (0.76). Using a two-graph ROC analysis, a cut-off of 8.5 nmol/litre was found to maximise both the sensitivity and specificity of the post-ACTH concentration of 17-hydroxyprogesterone for the diagnosis of hyperadrenocorticism at 71 per cent. With a cut-off of 4.5 nmol/litre the sensitivity increased to 90 per cent but the specificity decreased to 40 per cent; with a cut-off of 16.7 nmol/litre the specificity increased to 90 per cent but the sensitivity decreased to 47 per cent. 相似文献
17.
OBJECTIVE: To validate an automated chemiluminescent immunoassay for measuring serum cobalamin concentration in cats, to establish and validate gas chromatography-mass spectrometry techniques for use in quantification of methylmalonic acid, homocysteine, cysteine, cystathionine, and methionine in sera from cats, and to investigate serum concentrations of methylmalonic acid, methionine, homocysteine, cystathionine, and cysteine as indicators of biochemical abnormalities accompanying severe cobalamin (vitamin B12) deficiency in cats. SAMPLE POPULATION: Serum samples of 40 cats with severe cobalamin deficiency (serum cobalamin concentration < 100 ng/L) and 24 control cats with serum cobalamin concentration within the reference range. PROCEDURE: Serum concentrations of cobalamin were measured, using a commercial automated chemiluminescent immunoassay. Serum concentrations of methylmalonic acid, methionine, homocysteine, cystathionine, and cysteine were measured, using gas chromatography-mass spectrometry, selected ion monitoring, stable-isotope dilution assays. RESULTS: Cats with cobalamin deficiency had significant increases in mean serum concentrations bf methylmalonic acid (9,607 nmol/L), compared with healthy cats (448 nmol/L). Affected cats also had substantial disturbances in amino acid metabolism, compared with healthy cats, with significantly increased serum concentrations of methionine (133.8 vs 101.1 micromol/L) and significantly decreased serum concentrations of cystathionine (449.6 vs 573.2 nmol/L) and cysteine (142.3 vs 163.9 micromol/L). There was not a significant difference in serum concentrations of homocysteine between the 2 groups. CONCLUSIONS AND CLINICAL RELEVANCE: Cats with gastrointestinal tract disease may have abnormalities in amino acid metabolism consistent with cobalamin deficiency. Parenteral administration of cobalamin may be necessary to correct these biochemical abnormalities. 相似文献
18.
Berghoff N Suchodolski JS Steiner JM 《Veterinary journal (London, England : 1997)》2012,191(3):306-311
The aim of this study was to evaluate the association between serum methylmalonic acid (MMA), a proposed marker of cellular cobalamin deficiency, and serum cobalamin concentrations in dogs. Serum samples from 555 dogs were grouped according to their serum cobalamin concentrations (<150 ng/L to 1000 ng/L). Additionally, serum samples were collected from 43 healthy dogs to calculate a reference interval for canine serum MMA. MMA was measured using a GC/MS method. Groups were compared using a Kruskal-Wallis test with Dunn's post test. Proportions of dogs above the upper limit of the reference interval were calculated and a χ2-test for trend was performed to evaluate the association between serum cobalamin and MMA concentrations. The reference interval for serum MMA was calculated to be 414.7-1192.5 nmol/L. Dogs with serum cobalamin concentrations <251 ng/L had significantly higher MMA concentrations (P<0.05) and the χ2-test for trend showed a trend for increasing serum MMA concentrations with decreasing serum cobalamin concentrations (P<0.0001). Additionally, a number of dogs with normal serum cobalamin concentrations had increased serum MMA concentrations, suggesting that some of these dogs may have cobalamin deficiency on a cellular level. Further studies are warranted to determine if these dogs should receive cobalamin supplementation. 相似文献
19.
R. M. Batt L. McLean H. C. Rutgers E. J. Hall 《The Journal of small animal practice》1991,32(5):221-224
Determinations of serum folate and cobalamin concentrations in dogs have proved of considerable value for the identification and characterisation of chronic small intestinal disorders, but the microbiological assays used are time-consuming and technically demanding. Dual isotope radio-assays are more convenient and have been developed for the determination of folate and cobalamin in human beings. This study has evaluated such an assay for the determination of serum folate and cobalamin concentrations in dogs by direct comparison with microbiological assays used previously. Assays were performed on samples from 77 dogs, including controls and animals with confirmed or suspected chronic small intestinal disease. Regression analysis demonstrated a significant relationship between the two assays for serum folate concentrations (R=0–85; P=0–0001) and a definite trend for radioassay to give lower results than bioassay. There was also a significant relationship between bioassay and radioassay data for serum cobalamin (R=0–91; P=0–0001) with comparable absolute values for these two assays. Radioassay of serum samples from 31 clinically healthy dogs gave control ranges of 3–7 to 8-8 4mUg/litre for folate and 205 to 490 ng/litre for cobalamin. These ranges were similar to those calculated by comparison with the established ranges for bioassay using regression analysis, which predicted ranges of 4-4 to 8-4 μg/litre and 217 to 398 ng/litre for radioassay of serum folate and cobalamin, respectively. These data indicate that a dual isotope radioassay of serum folate and cobalamin may be used for dogs, and emphasise the need for laboratories to validate and establish their own control ranges for different assays. 相似文献
20.
An enzymatic 'reaction rate' micro-method for the rapid routine estimation of D-B-hydroxybutyrate (D-B- HOB ) in ruminant plasma, using an I.L. Multistat III centrifugal analyzer, is described. Reaction conditions were optimized to give a linear response for plasma D-B- HOB concentrations between 100 and 2500 mumoles per litre, at 30 degrees C and pH 9.0. For the standardized method the within-run and between-run coefficients of variation for deproteinised ovine plasma were consistently less than 3.5%. There was good agreement between plasma concentrations obtained by the present method and both original U.V. end-point technique (r = 0. 927b = 0.950) and a colorimetric end-point procedure (r = 0.937. b = 0.879). Untreated ovine and bovine plasma consistently exhibited high 'blank' activity and this was directly correlated with plasma lactate dehydrogenase (LDH) activity in both species (r = 0.971; p less than 0.001 and r = 0.949; p less than 0.001 respectively). The distribution of LDH activity in man was similar to sheep but, contrastingly , non-specific interference was extremely low in human plasma and unrelated to LDH. Horse, chicken and rat had negligible 'blank' activity and comparatively low LDH levels. In both cattle and sheep non-specific interference was abolished by perchloric acid precipitation. In the sheep subtraction of 'blank' activity gave D-B- HOB concentrations for untreated plasma comparable to those in deproteinised samples. However, in the bovine, D-B- HOB levels remained significantly (t = 6.44; p less than 0.001) higher even after 'blank' correction. In contrast to man and other non-ruminants, perchloric acid precipitation is essential in ruminants to avoid false overestimation of plasma D-B- HOB levels. Plasma with EDTA as anticoagulant and serum gave concentrations of D-B- HOB approximately 60% lower, than samples containing heparin or oxalate/fluoride. However, heparin was associated with much higher (up to 50%) non-specific NAD reduction than oxalate/fluoride. High levels of acetoacetate (400-1000 mumoles per litre) reduced the recovery of D-B- HOB from ovine plasma by less than 10%. This effect was negated by the inclusion of hydrazine hydrate in the reaction mixture. Perchlorate ion concentrations above 25 mumoles per litre per test dramatically inhibited the assay in ovine plasma, and therefore precipitation conditions must be carefully controlled. Plasma with oxalate/fluoride as anticoagulant showed the greatest stability in storage; 24 hours at room temperature, one week at +4 degrees C and at least one month at -20 degrees C. 相似文献