Automated Chemiluminescence Immunoassay Analyzer Features
◆ Innovative design: Incubation, washing and detection all-in-one.
◆ Fast: first result in 15 mins.
◆ Good repeatability: Batch CV≤8%.
Automatic Chemiluminescence Immunoassay Analyzer Specifications
Sample Type | Human serum and plasma samples |
Throughput | Test speed up to 120 tests / hour |
Assay cup | Disposable assay cup |
Sample position | 30 |
Reagent position | 10 |
Reagent refrigeration | 24h refrigeration, reagent disk temperature: 2 °C ~8 °C |
Temperature stability of reaction disk | 37 ℃± 0.3 ℃, and the temperature fluctuation should not exceed 0.2℃ |
Repeatability within batch | CV ≤ 8% |
Carry-over | ≤10-5 |
Linear correlation | r ≥ 0.99, the concentration range is not less than 2 orders of magnitude |
Dimensions (mm) L×W×H | 433×679×638 |
Net weight (kg) | 62 |
Clia Immunoassay Analyzer Test Items
Tumor Markers |
Name | Abbr. |
Carcinoembryonic Antigen Quantitative Diagnostic Kit (CLIA) | CEA |
Neuron-specific Enolase Quantitative Diagnostic Kit (CLIA) | NSE |
Carbohydrate Antigen 19-9 Quantitative Diagnostic Kit (CLIA) | CA19-9 |
Carbohydrate Antigen 15-3 Quantitative Diagnostic Kit (CLIA) | CA15-3 |
Carbohydrate Antigen 50 Quantitative Diagnostic Kit (CLIA) | CA50 |
Cytokeratin 19-fragments Quantitative Diagnostic Kit (CLIA) | CYFRA21-1 |
Cancer Antigen 125 Diagnostic Kit (CLIA) | CA125 |
Fertility |
Name | Abbr. |
Estradiol Quantitative Diagnostic Kit (CLIA) | E2 |
Luteinizing Hormone Quantitative Diagnostic Kit (CLIA) | LH |
Follicle Stimulating Hormone Quantitative Diagnostic Kit (CLIA) | FSH |
Prolactin Quantitative Diagnostic Kit (CLIA) | PRL |
Testosterone Quantitative Diagnostic Kit (CLIA) | TES |
Total β Human Chorionic Gonadotrophin Quantitative Diagnostic Kit (CLIA) | Tβ-hCG |
Progesterone Quantitative Diagnostic Kit (CLIA) | PROG |
Placental Growth Factor Diagnostic Kit (CLIA) | PLGF |
Soluble Fms-like Tyrosine Kinase-1 Diagnostic Kit (CLIA) | sFlt-1 |
Pernatal Screening |
Name | Abbr. |
Alpha-Fetoprotein Quantitative Diagnostic Kit (CLIA) | AFP |
Alpha-fetoprotein Quantitative Diagnostic Kit (CLIA) | Ps-AFP |
Pregnancy Associated Plasma Protein A Diagnostic Kit (CLIA) | PAPPA |
Free β Human Chorionic Gonadotrophin Diagnostic Kit (CLIA) | freeβ-HCG |
Free Estriol Diagnostic Kit (CLIA) | FE3 |
Infectious Disease |
Name | Abbr. |
2019 Novel Coronavirus (2019-nCoV) Antigen Qualitative Diagnostic Kit (CLIA) | 2019-nCoV |
2019-nCoV Neutralizing Antibody Detection Kit (CLIA) | 2019-nCoV Nab |
Anemia |
Name | Abbr. |
Ferritin Quantitative Diagnostic Kit (CLIA) | Fer |
Kidney Function |
Name | Abbr. |
Neutrophil Gelatinase-Associated Lipocalinn Quantitative Diagnostic Kit (CLIA) | NGAL |
Thyroid |
Name | Abbr. |
Total Thyroxine (TT4) Quantitative Diagnostic Kit (CLIA) | TT4 |
Free Thyroxine (FT4) Quantitative Diagnostic Kit (CLIA) | FT4 |
Total Triiodothyronine (TT3) Quantitative Diagnostic Kit (CLIA) | TT3 |
Thyroid Stimulating Hormone Quantitative Diagnostic Kit (CLIA) | TSH |
Free Triiodothyronine (FT3) Quantitative Diagnostic Kit (CLIA) | FT3 |
Thyroglobulin Quantitative Diagnostic Kit (CLIA) | TG |
Autoimmune |
Name | Abbr. |
Anti-thyroglobulin Antibody Quantitative Diagnostic Kit (CLIA) | Anti-TG |
Anti-thyroid Peroxidase Antibody Quantitative Diagnostic Kit (CLIA) | Anti-TPO |
Cardiac |
Name | Abbr. |
D-Dimer Quantitative Diagnostic Kit (CLIA) | D-Dimer |
Cardiac Fatty Acid Binding Protein Quantitative Diagnostic Kit (CLIA) | H-FABP |
N-terminal Atrial Natriuretic Peptide Quantitative Diagnostic Kit (CLIA) | NT-proBNP |
Cardiac Troponin T Quantitative Diagnostic Kit (CLIA) | cTnT |
Cardiac Troponin I Quantitative Diagnostic Kit (CLIA) | cTnI |
Myoglobin Quantitative Diagnostic Kit (CLIA) | MYO |
Creatine Kinase Isoenzyme (CK-MB) Quantitative Diagnostic Kit (CLIA) | CK-MB |
Chemiluminescence Immunoassay Analyzer Principle
Based on various antigen-antibody immunoreaction modes, the full automatic hemiluminescence immunoassay analyzer takes paramagnetic particles as the carrier, and makes use of the direct chemiluminescence method of acridinium ester. It produces unstable intermediates in excited state under the action of free energy released in chemical reaction. When the intermediates get back to the ground state from the excited state, the photons with the same energy level are released. At this point, it measures such photons and thus conducts the quantitative analysis. The luminescent intensity of the reaction is proportional to the concentration in the sample within the detection range.