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Dialysis concentrate for supplementing copper elements

A technology of concentrates and elements, which is applied in the direction of drug combination, drug delivery, and medical preparations containing active ingredients. The effect of guaranteeing the quality of life

Inactive Publication Date: 2015-03-25
TIANJIN SHENYOUDA MEDICAL EQUIP TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, because the components of the human blood inside the dialyzer membrane and the dialysate outside the membrane are different, the components in the human blood will be partially lost due to the concentration gradient difference

Method used

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  • Dialysis concentrate for supplementing copper elements
  • Dialysis concentrate for supplementing copper elements
  • Dialysis concentrate for supplementing copper elements

Examples

Experimental program
Comparison scheme
Effect test

experiment example 1

[0028] Blood side: 5L of 706 generation plasma, add CuCl 2 2H 2 O 11.49mg (i.e. Cu 2+ The ion concentration is 13.4μmol / L);

[0029] Dialysate side: the formula of the dialysis concentrate is selected from the formula described in Example 1 in Table 3, and after dilution according to A:B:water=1:1.6:32.4, the ion concentration in the dialysate is as shown in Table 4:

[0030] Table 4: After the dialysis concentrate was diluted in Experimental Example 1, the ion concentration and pH value in the dialysate

[0031] ion

Na +

K +

Ca 2+

Mg 2+

Cl -

HCO 3 -

Cu 2+

pH

concentration

138mmol / L

2.0mmol / L

1.5mmol / L

0.5mmol / L

114mmol / L

27.36mmol / L

13.4μmol / L

7.0-8.0

[0032] After the simulated dialysis experiment example 1 was completed, the content of copper element in the 706 generation plasma and dialysate was detected by atomic absorption method, as shown in Table 5.

[0033] Table 5:...

experiment example 2

[0036] Blood side: 5L of 706 generation plasma, add CuCl 2 2H 2 O 11.49mg (i.e. Cu 2+ The ion concentration is 13.4μmol / L);

[0037] Dialysate side: the formula of the dialysis concentrate is selected from the formula described in Example 2 in Table 3, and after dilution according to A:B:water=1:1.6:32.4, the ion concentration of the dialysate is as shown in Table 6:

[0038] Table 6: After the dialysis concentrate was diluted in Experimental Example 2, the ion concentration and pH value in the dialysate

[0039] ion

Na +

K +

Ca 2+

Mg 2+

Cl -

HCO 3 -

Cu 2+

pH

concentration

138mmol / L

2.0mmol / L

1.5mmol / L

0.5mmol / L

114mmol / L

27.36mmol / L

6.7μmol / l

7.0-8.0

[0040] After the simulated dialysis experiment example 2 was completed, the content of copper element in the 706 generation plasma and dialysate was detected by atomic absorption method, as shown in Table 7.

[0041] Table 7: ...

experiment example 3

[0044] Blood side: 5L of 706 generation plasma, add CuCl 2 2H 2 O 11.49mg (i.e. Cu 2+ The ion concentration is 13.4μmol / L);

[0045] Dialysate side: the formula of the dialysis concentrate is selected from the formula described in Example 3 in Table 3, and after dilution according to A:B:water=1:1.6:32.4, the ion concentration of the dialysate is as shown in Table 8:

[0046] Table 8: After the dialysis concentrate was diluted in Experimental Example 3, the ion concentration and pH value in the dialysate

[0047] ion

Na +

K +

Ca 2+

Mg 2+

Cl -

HCO 3 -

Cu 2+

pH

concentration

138mmol / L

2.0mmol / L

1.5mmol / L

0.5mmol / L

114mmol / L

27.36mmol / L

3.3μmol / l

7.0-8.0

[0048] After the simulated dialysis experiment example 3 was completed, the content of copper element in the 706 generation plasma and dialysate was detected by atomic absorption method, as shown in Table 9.

[0049] Table 9: ...

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PUM

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Abstract

The invention provides a dialysis concentrate for supplementing copper elements, and the dialysis concentrate comprises water soluble copper chloride, wherein the water soluble copper chloride comprises CuCl2.2H2O; the water soluble copper chloride comprises CuCl2.2H2O with concentration of 0.2-0.8 g / 10L. According to the invention, copper ions are added in dialyzate to effectively prevent the loss of the copper ions in a human body and control the copper ions within a reasonable concentration range of the human body, in order to reduce the metabolism burden of patients and improve the dialysis comfort to ensure the living quality of the patients.

Description

technical field [0001] The invention belongs to the technical field of dialysis concentrates, in particular to a dialysis concentrate supplemented with copper. Background technique [0002] In the existing technology, the dialysis concentrate is usually composed of A and B components, wherein the A preparation is sodium chloride, potassium chloride, calcium chloride, magnesium chloride, and acid regulators, etc., and the B preparation is bicarbonate Sodium, or add sodium chloride to form. Its form can be dry powder or concentrated solution. When used, the dialysis dry powder needs to be dissolved and diluted into a concentrated solution. The dialysis concentrated solution can be directly connected to a dialysis machine for hemodialysis. [0003] Regardless of the formulations of preparations A and B, and regardless of the dilution ratio of the dialysis machine, the main ion content in the dialysate diluted by the dialysis machine must meet the treatment requirements, that i...

Claims

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Application Information

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IPC IPC(8): A61K33/34A61K9/14A61K9/08A61P7/08A61K33/14A61K33/06A61K33/00
CPCA61K33/34A61K9/0019A61K9/08A61K9/14A61K33/06A61K33/10A61K33/14A61K2300/00
Inventor 李波曹慕真李杰刘娟琴
Owner TIANJIN SHENYOUDA MEDICAL EQUIP TECH
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