Distinct Differences and Beneficial Advantages of
All-in-One Immunoassay
The All-in-One Immunoassay offers distinct differences and several beneficial advantages over traditional immunoassays. Unlike sandwich and competitive immunoassays, the All-in-One Immunoassay provides a simplified testing procedure, significantly reduced testing time, and higher sensitivity, as demonstrated in various studies. Additionally, the All-in-One Immunoassay can detect multiple targets in a single sample, making it more cost-effective and time-efficient for researchers and clinicians.
Table 1. Comparison between All-in-one and conventional immunoassays.
Based on the results presented in Table 1 and Fig. 1, it can be concluded that the All-in-One immunoassays have a broader scope of application compared to conventional immunoassays. The All-in-One immunoassay is not limited to detecting only large antigens that can generate concordant-pair antibodies, but it can also quantify all small antigens that are incapable of producing such antibodies. This feature of the All-in-One immunoassay makes it a cost-effective and convenient option for researchers and clinicians, allowing them to quantify all types of antigens present in a sample.
The All-in-One immunoassay offers the capability to simultaneously or consecutively quantify multiple types of antigens present in a sample. This feature enables small and medium-sized hospitals to accurately and swiftly diagnose and prognose human diseases through independent operation of the All-in-One immunoassay kit without requiring external analysis.
Furthermore, Figs. 2 and 3 demonstrate that the All-in-One immunoassays can provide rapid test results for diagnosing or prognosing human disease. In contrast, conventional immunoassays require the transmission of test results collected from multiple laboratories, which can take several days to diagnose and predict human diseases. This rapid diagnostic capability of the All-in-One immunoassay can significantly reduce the time and cost required for disease diagnosis, making it a valuable tool for healthcare professionals and patients alike.
As depicted in Fig. 4, the All-in-One immunoassay has the potential to be utilized in various health fields, including human, animal, plant, and environmental health. Currently, our team is working on developing several All-in-One immunoassay kits that can be applied to all these fields. For field testing purposes, portable devices and kits are being designed that enable direct monitoring of target antigens, which will be available soon.
Furthermore, lab-based diagnostic devices and kits are also being developed, which will be capable of continuously quantifying target antigens for high-volume testing. These devices and kits are expected to be available in the near future and will greatly enhance the capacity and efficiency of diagnostic testing in various health fields. The versatility and adaptability of the All-in-One immunoassay technology make it a promising solution for a wide range of applications in healthcare and beyond.
Furthermore, lab-based diagnostic devices and kits are also being developed, which will be capable of continuously quantifying target antigens for high-volume testing. These devices and kits are expected to be available in the near future and will greatly enhance the capacity and efficiency of diagnostic testing in various health fields. The versatility and adaptability of the All-in-One immunoassay technology make it a promising solution for a wide range of applications in healthcare and beyond.