Rapid, accurate and timely diagnosis of various infectious diseases, eugenics, tumors and genetic diseases in the clinical laboratory, emergency department, fever clinic, ICU, obstetrics and gynecology of medical institutions at all levels, aiding doctors to take action at critical times.
Application | Application Scenarios | Application Features | Model | Sample Throughput | Fluorescence Channel |
Medical In-Vitro Diagnostics | Clinical disease diagnosis | 48 samples can be detected at one time, 3 chambers run independently, instant inspection | MQ8484 | 3 chambers,48 wells | 4 channels |
96 samples can be detected at one time, 6 chambers run independently, instant inspection | MQ6964 | 6 chambers,96 wells | 4 channels | ||
Application of rapid detection in emergency department | Fast, small throughput, cost-effective | FQ1044 | 4 wells | 4 channels | |
MQ1084 | 8 wells | 4 channels | |||
Suitable throughput and low cost. Fast and efficient detection | MQ4164 | 16 wells | 4 channels | ||
Flow line work, instant inspection, high efficiency, high throughput | MQ8484 | 3 chambers,48 wells | 4 channels | ||
MQ6964 | chambers,96 wells | 4 channels | |||
Community medical testing | Low cost, fast detection, user-friendly design, easy to use | MQ4164 | 16 wells | 4 channels | |
Instant inspection, fast, flexible, 3-chamber independent operation | MQ8484 | 3 chambers,48 wells | 4 channels | ||
Disease control and prevention | 6 chambers for independent operation of 96 throughput, especially suitable for multiplex assays at the same time | MQ6964 | 6 chambers,96 wells | 4 channels | |
Third party inspection center | |||||
Mobile detection of major outbreaks | Mobile P2 laboratory fast inspection vehicle, instant inspection | MQ6964 | 6 chambers,96 wells | 4 channels |
In-vitro diagnostics (IVD) play a crucial role in clinical decision-making, as they aid in the diagnosis, treatment, and management of various diseases. One of the most widely used techniques in IVD is quantitative polymerase chain reaction (qPCR), which enables the detection and quantification of specific nucleic acid sequences.
qPCR is a highly sensitive and specific method that has revolutionized the field of IVD. It is a technique that can detect and measure small amounts of nucleic acids in a sample, making it an essential tool for the diagnosis of infectious diseases, genetic disorders, and cancer.
qPCR instruments work by amplifying DNA or RNA sequences in a sample, and then detecting the amount of amplification using fluorescent dyes or probes. This allows the instrument to determine the presence or absence of the target sequence in the sample, as well as its quantity.
In the field of infectious disease diagnostics, qPCR has proven to be a valuable tool for the detection of a wide range of pathogens, including bacteria, viruses, and fungi. It is particularly useful for the diagnosis of respiratory infections, such as COVID-19, as it can detect the virus in nasopharyngeal or oropharyngeal swabs.
qPCR is also used in the diagnosis of genetic disorders, such as cystic fibrosis and sickle cell anemia. In these cases, the technique can be used to identify specific mutations or deletions in the patient's DNA, which can inform treatment decisions.
Additionally, qPCR has found application in the field of cancer diagnostics, where it can be used to detect and quantify specific genetic mutations associated with different types of cancer. This information can help in the development of personalized treatment plans for cancer patients.
In conclusion, qPCR is a powerful tool in the field of IVD, with a wide range of applications in infectious disease diagnosis, genetic disorder testing, and cancer diagnostics. The sensitivity and specificity of qPCR make it a valuable addition to the diagnostic toolbox, enabling clinicians to make accurate and informed decisions regarding patient care.