Studies on copper and cobalt therapy of cattle in central coastal Queensland

1967 ◽  
Vol 18 (1) ◽  
pp. 169 ◽  
Author(s):  
GI Alexander ◽  
JM Harvey ◽  
JH Lee ◽  
WC Stubbs
Keyword(s):  
Growth Response ◽  
Copper Deficiency ◽  
Copper Metabolism ◽  
Subcutaneous Injections ◽  
Liver Copper ◽  
Copper Status ◽  
Period 2 ◽  
Copper Supplementation ◽  
Copper Therapy ◽  
Effect Of Copper

Four experiments described determined the effect of copper and cobalt therapy on the growth and productivity of cattle on the marine plains of central coastal Queensland. Copper was administered by subcutaneous injections of copper glycinate, and cobalt by dosing per os with heavy cobalt pellets. The growth of weaned cattle was significantly improved by copper, particularly from June to October when limited palatable feed on the high ground forced the animals to forage on the para grass swamps. During the same period, 2-year-old heifers also showed a growth response to copper. Their conception rate increased after 19 months of copper therapy but not after 10.5 months. The growth rate of their calves bas significantly increased by copper supplementation. Liver copper concentrations were always low in untreated cattle. Copper therapy maintained these reserves at higher levels, which varied according to the season and the rate of growth of the animals. Calves born to treated cows had higher initial liver copper reserves than those from untreated cows, but in the absence of copper therapy these reserves declined to low and comparable levels in all calves at weaning. Pasture analyses suggest that the copper deficiency revealed was due to interference with copper metabolism rather than to a low copper status in the diet; this interference did not appear to be due to molybdenum. Weaned cattle appeared to respond to cobalt during 1960 but not subsequently, while the cows and calves showed no response. The vitamin B12 status in liver and serum appeared adequate in both treated and untreated cattle.

scholarly journals Copper metabolism in mottled mouse mutants: copper therapy of brindled (Mobr) mice

1979 ◽  
Vol 180 (3) ◽  
pp. 605-612 ◽  
Author(s):  
J R Mann ◽  
J Camakaris ◽  
D M Danks ◽  
E G Walliczek
Keyword(s):  
Growth Response ◽  
Copper Deficiency ◽  
Lysyl Oxidase ◽  
Sebacic Acid ◽  
Copper Metabolism ◽  
Single Subcutaneous Injection ◽  
Mouse Mutants ◽  
Brindled Mouse ◽  
Copper Therapy ◽  
Early Effects

Copper therapy was applied to brindled mouse mutants, which suffer from lethal hypocupraemia, by using cuprous and cupric solutions. The method of treatment was a single subcutaneous injection of 50 microgram of copper at 7 days of age. Early effects of the dose were: prevention of the tremors and spasms seen in untreated mutants, raising to normal and near-normal of caeruloplasmin oxidase and lysyl oxidase activities and pigmentation of skin and fur. Growth of mutants was retarded up to 23 days of age, but thereafter they rapidly gained weight to be nearly normal by 60 days of age. At 3 days after injection, copper concentrations in previously deficient mutant organs apart from liver were at least as much as those of treated normals, which had remained unchanged. Copper in mutant livers had increased only slightly in comparison with the normal control. A state of copper deficiency recurred in mutant tissues by 25 days after injection. A solution of Cu+, retained as such by an alkyl polyether, and sebacic acid resulted in greater growth rates after 23 days than did three other copper treatments. Cu+ may have resulted in an improved growth response owing to it being more readily metabolized than C12+. Delayed release of copper from the site of injection may have played an important role.

The effect of molybdenum, sulphur and iron on the copper status of store lambs

2000 ◽  
Vol 2000 ◽  
pp. 88-88
Author(s):  
A.M. Mackenzie ◽  
S Evans ◽  
J.N.C. Lynn ◽  
D.V. Illingworth ◽  
R.G. Wilkinson
Keyword(s):  
Copper Deficiency ◽  
Clinical Signs ◽  
Copper Metabolism ◽  
Mineral Deficiency ◽  
Copper Status ◽  
Biochemical Indicator ◽  
Copper Supplementation ◽  
The World ◽  
Plasma Copper ◽  
Accurate Indicator

Clinical copper deficiency is the second most common mineral deficiency in the world, the main cause being high dietary levels of molybdenum, sulphur and iron. Phillippo et al, (1987) reported that clinical signs of deficiency resulted from high dietary Mo and S. However, Fe and S resulted in hypocupraemia but did not induce clinical signs of deficiency. Therefore is was concluded that clinical copper deficiency was due to a direct effect of dietary Mo and S on copper metabolism in ruminants. Mackenzie et al. (1997) reported that plasma copper levels were not an accurate indicator of copper status and unlikely to predict animals requiring copper supplementation. Caeruloplasmin is large copper enzyme and accounts for 88% of plasma copper and Mackenzie et al. (1997) proposed that a caeruloplasmin to plasma copper ratio may provide a more accurate biochemical indicator of copper status. This trial was designed to investigate the effect of dietary Mo, S and Fe on the copper status of the lambs.

scholarly journals Copper Supplementation, A Challenge in Cattle

Animals ◽  
2020 ◽  
Vol 10 (10) ◽  
pp. 1890
Author(s):  
Marta López-Alonso ◽  
Marta Miranda
Keyword(s):  
Copper Deficiency ◽  
Copper Toxicity ◽  
Copper Metabolism ◽  
Copper Accumulation ◽  
Hepatic Copper ◽  
Copper Status ◽  
Large Numbers ◽  
Copper Supplementation ◽  
Key Points ◽  
Copper Storage

Ensuring adequate copper supplementation in ruminants is a challenging task due to the complexity of copper metabolism in these animals. The three-way interaction between copper, molybdenum and sulphur (Cu-Mo-S) in the rumen makes ruminants, particularly cattle, very susceptible to suffering from secondary copper deficiency. Paradoxically, excessive copper storage in the liver to prevent deficiency becomes a hazard when ruminants are fed copper-supplemented diets even slightly above requirements. While cattle were traditionally thought to be relatively tolerant of copper accumulation, and reports of copper poisoning were until recently somewhat rare, in recent years an increased number of episodes/outbreaks of copper toxicity in cattle, particularly in dairy cattle, have been reported worldwide. The growing number of lethal cases reported seems to indicate that copper intoxication is spreading silently in dairy herds, urging the development of strategies to monitor herd copper status and improve farmers’ awareness of copper toxicity. In fact, monitoring studies carried out on numerous samples collected from culled animals in slaughterhouses and/or diagnostic laboratories have demonstrated that large numbers of animals have hepatic copper concentrations well above adequate levels in many different countries. These trends are undoubtedly due to copper supplementation aimed at preventing copper deficiency, as dietary copper intake from pasture alone is unlikely to cause such high levels of accumulation in liver tissue. The reasons behind the copper overfeeding in cattle are related both to a poor understanding of copper metabolism and the theory of “if adding a little produces a response, then adding a lot will produce a better response”. Contrary to most trace elements, copper in ruminants has narrow margins of safety, which must also be formulated considering the concentrations of copper antagonists in the diet. This review paper aims to provide nutritionists/veterinary practitioners with the key points about copper metabolism in cattle to guarantee an adequate copper supply while preventing excessive hepatic copper loading, which requires à la carte copper supplementation for each herd.

Oxidized copper wire particles for copper therapy in sheep

1982 ◽  
Vol 33 (6) ◽  
pp. 1073 ◽  
Author(s):  
GJ Judson ◽  
TH Brown ◽  
D Gray ◽  
DW Dewey ◽  
JB Edwards ◽  
...  
Keyword(s):  
Copper Oxide ◽  
Copper Wire ◽  
Significant Proportion ◽  
Clinical Signs ◽  
Copper Toxicity ◽  
Liver Copper ◽  
Copper Status ◽  
Copper Supplementation ◽  
Copper Therapy ◽  
Higher Doses

Ninety Merino weaner sheep were assigned to one of six groups on the basis of liveweight and liver copper concentrations. Sheep in four groups each received one oral dose of oxidized copper wire particles, viz. 2.5, 5, 10 or 20 g per animal. Sheep in another group each received a subcutaneous injection of 12 mg copper as diethylamino cupro-oxyquinoline sulfonate and another group of sheep did not receive any copper supplement. Liver copper concentrations responded positively to copper oxide load. The 2.5 g dose of copper oxide wire was more efficacious than the commercial injectable product in raising copper status, but the higher doses of oxide raised liver copper concentrations to values similar to those recorded in cases of copper poisoning. Copper concentrations in blood plasma, muscle and kidney were not altered by the copper load. No clinical signs, nor biochemical or histological evidence of acute copper toxicity, were found. Liver copper values fell in all sheep from 10 weeks after copper therapy until the end of the trial at 50 weeks post-therapy. Over this period of 40 weeks, the rate of mobilization of liver copper was linear and was positively related to the initial concentration of copper in the liver. A significant proportion of the oxidized copper wire dosed to sheep was recovered in the forestomachs and abomasa of selected sheep 4 weeks after dosing. No evidence of abomasal damage due to particles could be established. It is concluded that oral dosing of oxidized copper wire is a safe and effective method of copper supplementation to sheep.

Protective role of silver nanoparticles in influenza infection

2021 ◽  
Vol 21 (3) ◽  
pp. 81-84
Author(s):  
Mohammad Al Farroukh ◽  
Ekaterina A. Skomorokhova ◽  
Daria N. Magazenkova ◽  
Irina V. Kiseleva
Keyword(s):  
Silver Nanoparticles ◽  
Influenza Virus ◽  
Influenza Infection ◽  
Active Agent ◽  
Copper Metabolism ◽  
Protective Role ◽  
Treatment Regimens ◽  
Copper Status ◽  
Influenza Virus Replication ◽  
Effect Of Copper

BACKGROUND: The present study assesses copper metabolism of the host organism as a target of antiviral strategy, basing on the virocell concept. This concept suggests that the targets for suppressing viral reproduction can be found in the hosts metabolism. AIM: Evaluation of the effect of copper status indicators on influenza infection in mice. MATERIALS AND METHODS: Silver nanoparticles (AgNPs) were used as a specific active agent because they reduce the level of holo-ceruloplasmin, the main extracellular cuproenzyme. The mouse model of influenza virus A infection was used with two doses: 1 LD50 and 10 LD50. The following treatment regimens were used: mice were pretreated four days before infection and then every day during infection development until the end of the experiment (day 14). RESULTS: The mice treated with AgNPs demonstrated significantly lower mortality, the protection index reached 6070% at the end of the experiment, and mean lifespan was prolonged. In addition, the treatment of the animals with AgNPs resulted in normalization of the weight dynamics. Despite the amelioration of the infection, AgNPs treatment did not influence influenza virus replication. CONCLUSIONS: This study provides support for the view that silver nanoparticles could be used as protection against influenza.

Effect of copper deficiency in wheat on the infection of roots by Gaeumannomyces graminis var. tritici

1984 ◽  
Vol 35 (6) ◽  
pp. 735 ◽  
Author(s):  
MJ Wood ◽  
AD Robson
Keyword(s):  
Plant Growth ◽  
Copper Deficiency ◽  
Gaeumannomyces Graminis ◽  
Fresh Weight ◽  
Nodal Roots ◽  
Copper Status ◽  
Seminal Roots ◽  
Effect Of Copper ◽  
Gaeumannomyces Graminis Var Tritici ◽  
Take All

Wheat was grown in a soil at five levels of copper (ranging from levels deficient, to those luxurious, for plant growth), in the presence or absence of introduced take-all inoculum (oat kernels colonized by Gaeumannomyces graminis var. tritica). The incidence and severity of take-all were related to the copper supply and hence the copper status of the wheat. Plants grown without applied copper were more severely infected by take-all than were those grown with an adequate or luxurious supply of copper. The number of lesions per gram fresh weight of roots was reduced from 6.5 to 2.4 by increasing the copper supply from that severely deficient, to that adequate for plant growth. In seminal roots, increasing the copper supply from levels severely deficient to those adequate or luxurious for plant growth, decreased the length of proximal lesions (those closest to the seed). By contrast, in nodal roots, a similar increase in copper supply had no effect on the length of proximal lesions, but increased the length of uninfected root between the crown and proximal lesions. In both seminal and nodal roots, copper supply did not affect the intensity of lesions.

Copper responsive infertility in British cattle: the use of a blood caeruloplasmin to copper ratio in determining a requirement for copper supplementation

2001 ◽  
Vol 26 (2) ◽  
pp. 429-432 ◽  
Author(s):  
N. R. Kendall ◽  
D. V. Illingworth ◽  
S. B. Telfer
Keyword(s):  
Copper Deficiency ◽  
Reference Ranges ◽  
Copper Status ◽  
Veterinary Surgeons ◽  
Copper Supplementation ◽  
Plasma Copper ◽  
Veterinary Laboratory Agency ◽  
Ruminant Animals ◽  
The University ◽  
Female Cattle

AbstractSigns of clinical copper deficiency in ruminant animals include infertility. Blood copper concentrations alone are not an adequate indicator of copper status, as they take no account of the thiomolybdate challenge to the animal. The use of the ratio of caeruloplasmin activity to plasma copper concentration should provide a better indicator of molybdenum induced copper problems. The objectives of this study were to obtain veterinary feedback on the University of Leeds Trace Element Laboratory's (ULTEL) assessment of copper status and responses to any recommended supplementation. Blood samples from 713 female cattle from 114 herds were assessed for copper status, including plasma copper concentrations, serum caeruloplasmin activities and the ratio between the caeruloplasmin and plasma copper (CP/PlCu ratio). On the basis of only plasma copper analysis 95.0 % of the cattle were classified as being of normal copper status using Veterinary Laboratory Agency reference ranges. However, when the CP/PlCu ratio was also considered only 35.6 % of the cattle would be classed as having normal copper status. Appropriate copper supplementation would be required by 30.7 % of the cattle and a further 27.8 % could also benefit from additional copper. Veterinary responses to a questionnaire (80 % returned) indicated that infertility was a major problem in their clients’ herds. Where copper supplementation was recommended and administered an increase infertility was observed. In herds showing poor or lack ofoestrous behaviour/ later embryo loss (signs of clinical copper deficiency), 91.7 % reported that these signs were reduced by copper supplementation. The relevance of the CP/PlCu ratio as a diagnostic aid in the identification of copper responsive infertility has been supported by the responses of the veterinary surgeons.

COPPER DEFICIENCY COMPLICATING SEVERE CHRONIC INTESTINAL MALABSORPTION

PEDIATRICS ◽  
1966 ◽  
Vol 38 (4) ◽  
pp. 596-604
Author(s):  
Angel Cordano ◽  
George G. Graham
Keyword(s):  
Enzyme Activity ◽  
Growth Response ◽  
Copper Deficiency ◽  
Dramatic Improvement ◽  
Lactase Deficiency ◽  
Intestinal Malabsorption ◽  
Pathological Fractures ◽  
Severe Diarrhea ◽  
Copper Therapy ◽  
Intestinal Enzyme

A case of chronic, severe diarrhea and maldigestion beginning in early infancy and possibly due to primary lactase deficiency is presented. By the age of 19 months, this had resulted in marked copper deficiency with anemia, neutropenia, osteoporosis, pathological fractures and probably aggravation of intestinal enzyme activity deficiency. At 6 4/12 years of age copper therapy produced a dramatic improvement in all manifestations, including the maldigestion, and there was a striking growth response.

scholarly journals Copper metabolism in mottled mouse mutants. The effect of copper therapy on lysyl oxidase activity in brindled (Mobr) mice

1982 ◽  
Vol 202 (2) ◽  
pp. 369-371 ◽  
Author(s):  
P M Royce ◽  
J Camakaris ◽  
J R Mann ◽  
D M Danks
Keyword(s):  
Acid Solution ◽  
Subcutaneous Injection ◽  
Oxidase Activity ◽  
Lysyl Oxidase ◽  
Sebacic Acid ◽  
Copper Metabolism ◽  
Single Subcutaneous Injection ◽  
Mouse Mutants ◽  
Copper Therapy ◽  
Effect Of Copper

Lysyl oxidase activity in extracts of skin from 1-day-old Mobr/Y mice was found to be between 50 and 60% of that in corresponding extracts from littermate +/Y mice of the same age. It was increased to 84-150% of that in the latter by prior treatment of the Mobr/Y mice at 7 days of age with a single subcutaneous injection of 50 micrograms of copper, retained as Cu+ in an alkyl polyether/sebacic acid solution. This suggests that in this form the copper is able to by-pass the block in copper metabolism and is deliverable to copper-requiring processes.

Iron-induced copper deficiency in calves: dose-response relationships and interactions with molybdenum and sulphur

1987 ◽  
Vol 45 (3) ◽  
pp. 403-414 ◽  
Author(s):  
I. Bremner ◽  
W. R. Humphries ◽  
M. Phillippo ◽  
M. J. Walker ◽  
P. C. Morrice
Keyword(s):  
Copper Deficiency ◽  
Clinical Signs ◽  
Live Weight ◽  
Copper Metabolism ◽  
Barley Straw ◽  
Liver Copper ◽  
Plasma Copper ◽  
Milk Substitute ◽  
Potent Antagonist ◽  
Rate Of Decline

ABSTRACTThe effects of dietary supplements of iron, molybdenum and sulphur on copper metabolism in calves were examined. In one experiment, 27 castrated male pre-ruminant Friesian calves were given a milk-substitute ration containing 0·9, 4·5 or 9 mmol iron per kg dry matter for 8 weeks. The iron supplements had no effect on liver copper retention. When 24 of these calves were then given a diet based on barley grains and barley straw containing 0, 4·5, 9 or 13·5 mmols iron per kg for up to 24 weeks, liver and plasma copper concentrations were greatly reduced in all iron-supplemented animals but no clinical signs of copper deficiency developed. Reduction in the dietary sulphur concentration from 88 o t 47 mmol/kg after 12 weeks did not prevent the iron-induced reduction in liver copper concentrations n i animals given 9 or 13·5 mmol iron per kg. Plasma copper concentrations increased in all iron-treated calves given the low-sulphur diets, except in animals given 13·5 mmol iron per kg. The results indicate that iron is a potent antagonist of copper metabolism in weaned calves and that its effects are probably independent of dietary sulphur supply.In a second experiment 20 Hereford × Friesian female calves were given diets with supplements of 2·7 mmol iron and 20 μmol molybdenum per kg, separately and together, for 41 weeks. Both supplements reduced liver and plasma copper concentrations but only in the molybdenum-treated animals were live-weight gains reduced. The rate of decline in liver and plasma copper concentrations tended to be greatest in animals given both supplements, indicating that additive action of these antagonists is possible.

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