CLIA Kit for Erythropoietin (EPO) 
EP; Epoetin; Erythropoetin; Hematopoietin; Hemopoietin
- UOM
- FOB US$ 588.00 US$ 840.00 US$ 3,780.00 US$ 7,140.00 US$ 58,800.00
- Quantity
Overview
Properties
- Product No.SCA028Hu
- Organism SpeciesHomo sapiens (Human) Same name, Different species.
- ApplicationsChemiluminescent immunoassay for Antigen Detection.
Research use only - DownloadInstruction Manual
- CategoryCytokineEndocrinologyHematologyHormone metabolism
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Packages (Simulation)
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Packages (Simulation)
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Results demonstration
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Typical Standard Curve
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ISO9001: 2008, ISO13485: 2003 Registered
Recovery
Matrices listed below were spiked with certain level of recombinant Erythropoietin (EPO) and the recovery rates were calculated by comparing the measured value to the expected amount of Erythropoietin (EPO) in samples.
| Matrix | Recovery range (%) | Average(%) |
| serum(n=5) | 95-105 | 102 |
| EDTA plasma(n=5) | 94-101 | 98 |
| heparin plasma(n=5) | 89-105 | 93 |
Precision
Intra-assay Precision (Precision within an assay): 3 samples with low, middle and high level Erythropoietin (EPO) were tested 20 times on one plate, respectively.
Inter-assay Precision (Precision between assays): 3 samples with low, middle and high level Erythropoietin (EPO) were tested on 3 different plates, 8 replicates in each plate.
CV(%) = SD/meanX100
Intra-Assay: CV<10%
Inter-Assay: CV<12%
Linearity
The linearity of the kit was assayed by testing samples spiked with appropriate concentration of Erythropoietin (EPO) and their serial dilutions. The results were demonstrated by the percentage of calculated concentration to the expected.
| Sample | 1:2 | 1:4 | 1:8 | 1:16 |
| serum(n=5) | 98-105% | 90-97% | 95-102% | 90-105% |
| EDTA plasma(n=5) | 79-95% | 81-95% | 88-97% | 84-102% |
| heparin plasma(n=5) | 98-105% | 93-101% | 92-101% | 78-102% |
Stability
The stability of kit is determined by the loss rate of activity. The loss rate of this kit is less than 5% within the expiration date under appropriate storage condition.
To minimize extra influence on the performance, operation procedures and lab conditions, especially room temperature, air humidity, incubator temperature should be strictly controlled. It is also strongly suggested that the whole assay is performed by the same operator from the beginning to the end.
Reagents and materials provided
| Reagents | Quantity | Reagents | Quantity |
| Pre-coated, ready to use 96-well strip plate | 1 | Plate sealer for 96 wells | 4 |
| Standard | 2 | Standard Diluent | 1×20mL |
| Detection Reagent A | 1×120µL | Assay Diluent A | 1×12mL |
| Detection Reagent B | 1×120µL | Assay Diluent B | 1×12mL |
| Substrate A | 1×10mL | Substrate B | 1×2mL |
| Wash Buffer (30 × concentrate) | 1×20mL | Instruction manual | 1 |
Assay procedure summary
1. Prepare all reagents, samples and standards;
2. Add 100µL standard or sample to each well. Incubate 1 hours at 37°C;
3. Aspirate and add 100µL prepared Detection Reagent A. Incubate 1 hour at 37°C;
4. Aspirate and wash 3 times;
5. Add 100µL prepared Detection Reagent B. Incubate 30 minutes at 37°C;
6. Aspirate and wash 5 times;
7. Add 100µL Substrate Solution. Incubate 10 minutes at 37°C;
8. Read RLU value immediately.
Test principle
The microplate provided in this kit has been pre-coated with an antibody specific to Erythropoietin (EPO). Standards or samples are then added to the appropriate microplate wells with a biotin-conjugated antibody specific to Erythropoietin (EPO). Next, Avidin conjugated to Horseradish Peroxidase (HRP) is added to each microplate well and incubated. Then the mixture of substrate A and B is added to generate glow light emission kinetics. Upon plate development, the intensity of the emitted light is proportional to the Erythropoietin (EPO) level in the sample or standard.;
Giveaways
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Quality Control of Kit
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CLIA Kit Customized Service
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Streptavidin-Agarose Beads
Citations
- Prenatal Glucocorticoid Overexposure Causes Permanent Increases in Renal Erythropoietin Expression and Red Blood Cell Mass in the Rat OffspringEndo: source
- Inhibitory effect of polysaccharides isolated from Angelica sinensis on hepcidin expressionPubMed: 21333724
- CD98 Positive Eosinophils Contribute to T Helper 1 Pattern InflammationPlosOne: Source
- Alterations of Circulating Endothelial Cell and Endothelial Progenitor Cell Counts around the OvulationPubMed: 22948762
- Long-term and stable correction of uremic anemia by intramuscular injection of plasmids containing hypoxia-regulated system of erythropoietin expressionPubMed: PMC3509184
- Reevaluation of erythropoietin production by the nephronPubmed:24832733
- Carbohydrate and glutamine supplementation modulates the Th1/Th2 balance after exercise performed at a simulated altitude of 4500 m.Pubmed:2528040
- Decreased plasma soluble erythropoietin receptor in high-altitude excessive erythrocytosis and Chronic Mountain SicknessPubmed:25324511
- Plasma hepcidin in early-stage breast cancer patients: no relationship with interleukin-6, erythropoietin and erythroferronePubMed: 26496240
- KIAA0101 is associated with human renal cell carcinoma proliferation and migration induced by erythropoietinpubmed:26575329
- Expression of Iron-Related Proteins Differentiate Non-Cancerous and Cancerous Breast Tumors.pubmed:28216608
- Occult gastrointestinal bleeding is a common finding in dogs with chronic kidney diseasepubmed:28186645
- An Intranasal Formulation of Erythropoietin (Neuro-EPO) Prevents Memory Deficits and Amyloid Toxicity in the APPSwe Transgenic Mouse Model of Alzheimer's …articles:journal-of-alzheimers-disease
- Acidic Polysaccharide from Angelica sinensis Reverses Anemia of Chronic Disease Involving the Suppression of Inflammatory Hepcidin and NF-κB Activationpubmed:29147463
- Functional and phenotypic evaluation of eosinophils from patients with the acute form of paracoccidioidomycosispubmed:28489854
- Effects of erythropoietin on astrocytes and brain endothelial cells in primary culture during anoxia depend on simultaneous signaling by other cytokines and on duration of anoxia S0197018617304783
- Relation between anaemia and bone marrow features and serum erythropoietin in dogs with chronic kidney disease10.1590/s0100-736x2017000600011
- Study of acute hypoxia markers in healthy subjects: Utility in post-crash investigation10.1016/j.mjafi.2017.04.003
- Effects of erythropoietin on astrocytes and brain endothelial cells in primary culture during anoxia depend on simultaneous signaling by other cytokines and on …Pubmed:29180303
- Increased NGAL level associated with iron store in chronic kidney disease with anemiaPubmed:29909502
- Signal Mechanism of the Protective Effect of Combined Preconditioning by Amtizole and Moderate HypoxiaPubmed:29308565
- Expression of Hif-1α, Nf-κb, and Vegf Genes in the Liver and Blood Serum Levels of HIF-1α, Erythropoietin, VEGF, TGF-β, 8-Isoprostane, and Corticosterone in Wistar Rats with High and Low Resistance to Hypoxia. Corticosterone in …Pubmed: 30353332
- High-altitude hypoxia decreases plasma erythropoietin soluble receptor (sEpoR) concentration in humans
- Dietary gelatin enhances non-heme iron absorption possibly via regulation of systemic iron homeostasis in rats
- PHYSIOLOGICAL ADAPTATIONS TO HEAT ACCLIMATION; REPERCUSSIONS ON CYCLING PERFORMANCE
- Effects of carbohydrate and glutamine supplementation on cytokine production by monocytes after exercise in hypoxia: a crossover, randomized and double-blind …Pubmed: 31743809
- Disordered serum erythroferrone and hepcidin levels as indicators of the spontaneous abortion occurrence during early pregnancy in humansPubmed: 32866306
- Increased FGF-23 levels are linked to ineffective erythropoiesis and impaired bone mineralization in myelodysplastic syndromesPubmed: 32759495
- EPAS1 regulates proliferation of erythroblasts in chronic mountain sicknessPubmed: 32470757
- miR663 Prevents Epo Inhibition Caused by TNF-Alpha in Normoxia and Hypoxia34367277
- Loading of erythropoietin on biphasic calcium phosphate bioceramics promotes osteogenesis and angiogenesis by regulating EphB4/EphrinB2 moleculesPubmed:35072831
- Effect of arsenate on erythropoietin production and autophagy induction in HepG2 cells