The invention discloses a method of preparing a trace element solution, which includes the steps of providing at least one EDTA-complex; of providing a sodium selenite solution; and of combining the EDTA-complex(es) and the sodium selenite solution. The invention further discloses at least one EDTA complex prepared by using disodium EDTA or EDTA acid; selenium; and any other suitable mineral.
The present invention relates to trace elements.
It has been found that there is a deficiency of certain trace elements in pastures for livestock in particular areas in South Africa and also in other countries. Various suggestions have been made to provide the required trace elements to such animals. Different chemical compounds and complexes have been investigated for applying the trace elements by way of licks, drenches or injections.
In general the problem with injectable solutions is that there are too low concentrations of the minerals in the solutions. This means that relatively large quantities have to be injected, which in turn cause tissue damage and also abscesses at the site of injection. Furthermore, it is generally the case that different trace elements seldomly are individually sufficient. This means that two or more trace element solutions have to be provided by way of separate injections.
U.S. Pat. No. 4,335,116 (Howard) discloses mineral-containing therapeutic compositions containing EDTA complexes of trace elements. Notably, U.S. Pat. No. 4,335,116 utilises tetra-sodium EDTA, a selenium glycine complex, and metal chlorides for the preparation of the EDTA complexes. Unfortunately, the chloride ions cause contamination and each complex solution is to be made individually. Furthermore, overnight time is required for complexing and heating up afterward to speed up the process requires extra apparatus. If mixtures are required, the individual solutions are to be blocked. If various concentrations as well as compositions are to be made, it can only be done in a cumbersome way, requiring extra apparatus. A further problem may arise when mixtures of high concentration are needed. In certain cases it would be impossible to deliver them, because mixing is always accompanied by dilution.
It is an object of the invention to suggest methods and means for overcoming these problems.
In the specification and claims the expression EDTA refers to ethylene diaminotetraacetic acid (C10,H16O8N2 or (HO2CH2C)2NCH2CH2N-(CH2CO2H)2).
According to the invention, a method of preparing a trace element solution includes the steps
If more than one EDTA-complex is used, these EDTA-complexes may be prepared in a single continuous process.
The EDTA-complex(es) may be prepared by using disodium EDTA or EDTA acid.
The EDTA-complex(es) may be prepared by using at least one selected from the group consisting of metal oxides, metal hydroxides and metal carbonates.
The EDTA-complex(es) may include at least one of the metal compounds selected from the group consisting of copper, manganese, zinc, molybdenum and chromium.
A trace element solution as prepared by a method as set out herein.
Also, according to the invention, a trace element solution includes
The solution may be an injectable solution.
The solution may be a drenchable solution.
Further according to the invention a stock lick includes
Also, according to the invention, a method of providing trace elements to animals, such as livestock includes the steps of preparing a trace element solution set out herein and of providing the solution in a suitable quantity to an animal.
The invention will now be described by way of example of injectable solutions in accordance with the invention.
EDTA is suspended in a quantity of distilled water at 50° C. and is stirred continuously. In small proportions firstly sodium hydroxide (NaOH) and then zinc oxide (ZnO) are added in sequence. The pH of the clear solution obtained is measured and brought to 7, if necessary, by either the addition of NaOH (if acid) or EDTA (if alkaline). More distilled water is added to bring the zinc concentration to a predetermined level, and the solution is subsequently filtered.
If 25.16 g zinc oxide, 90.37 g EDTA and 24.74 g NaOH are used and the total volume is 1 liter, the zinc concentration in the solution will be 20 mg/ml.
The same method as under example 1 is used with the following variation:
Manganese carbonate (MnCO3.xH2O) is used in place of zinc oxide.
If 45.45 g manganese carbonate, 106.39 g EDTA and 29.12 g NaOH are used, and the total volume is 1 liter, the manganese concentration will be 20 mg/ml.
The same method as under Example 1 is followed but with the following variation:
Basic copper carbonate (CuCO3Cu(OH)2.H2O) is used in place of the zinc oxide.
If 18.81 g basic copper carbonate, 45.99 g EDTA and 12.59 g NaOH are used, and the total volume is 1 liter, then the copper concentration in the solution will be 10 mg/ml.
The same method as under Example 1 is followed, but with the following variation:
Chromium tri-chloride hexahydrate (CrCl3.6H2O) is used in the place of zinc oxide.
If 25.62 g chromium tri-chloride hexahydrate, 31.59 g EDTA and 15.38 g sodium hydroxide are used and the total is 1 liter, the chromium concentration in the solution will be 5 mg/ml.
If 12.09 g sodium selenite is used and the total volume is 1 liter, the selenium concentration in the solution will be 5 mg/ml.
The method is a combination of the above methods under Examples 1, 2, 3, 4 and 5 and takes place as follows:
If 25.16 g zinc oxide, 45.45 g manganese carbonate, 18.81 g basic copper carbonate, 25.62 g chromium tri-chloride hexahydrate, 12.09 g sodium selenite, 274.34 g EDTA and 81.83 g NaOH are used, and if the total volume is 1 liter, then the zinc concentration will be 20 mg/ml, the manganese concentration 20 mg/ml, copper concentration 10 mg/ml, the chromium concentration 5 mg/ml and the selenium concentration 5 mg/ml.
Molybdenum tri-oxide (MoO3) is suspended at room temperature in a quantity of water and stirred continuously. In portions in sequence firstly sodium hydroxide (NaOH) and then EDTA are added. The pH of the clear solution obtained is measured and it is brought to 7 if required, by adding either NaOH (if acid) or EDTA (if alkaline). More distilled water is added to bring the molybdenum concentration to a pre-determined value. The pH is changed to 6 by the addition of concentrated HCl. Filtration takes place.
If 60.02 g MoO3, 66.71 g NaOH and 121.84 g EDTA are used and if the volume is 1 liter, then the molybdenum concentration will be 40 mg/ml.
In all of the above examples the order of mixing the chemicals may be changed to some extent without any influence on the products formed.
All of the above products can be obtained as solids by evaporation of the appropriate solutions.
All of the above-mentioned chemicals may be substituted by others, provided the substitute are used in equivalent quantities. The particulars are as follows:
Number | Date | Country | Kind |
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2000/4456 | Aug 2000 | ZA | national |
Number | Name | Date | Kind |
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4335116 | Howard | Jun 1982 | A |
Number | Date | Country |
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826778 | Sep 1982 | ZA |
Number | Date | Country | |
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Parent | 09935550 | Aug 2001 | US |
Child | 12353504 | US |