2022.1031
NTNU Ranked 3rd in Taiwan in QS World University Rankings: Sustainability 2023
On October 26, Quacquarelli Symonds announced the QS World University Rankings: Sustainability 2023, the first rankings focused on social and environmental sustainability performance in higher education institutions. NTNU is ranked 3rd in Taiwan and around 50th globally in Sustainable Institutions and 100th in education influence. President Wu Cheng Chih says that the resources of the university are given by the community and we should contribute ourselves to the community. In addition to pursuing the sustainable development of school affairs, National Taiwan Normal University also combines the power of the community, government and NGOs to jointly promote global sustainable development. The fruitful results have been recognized by the international community.2022.1028
Congratulations to NTNU Professors being World's Top 2% Scientists
The latest World's Top 2% Scientists list was announced on October 10. 14 faculty members from National Taiwan Normal University (NTNU) were listed on the Lifetime Scientific Impact list and 24 faculty members were listed on the Annual Scientific Impact list, the research results are widely recognized internationally.2022.1027
NTNU celebrates its centennial anniversary
2022 marks the centennial anniversary of National Taiwan Normal University (NTNU) and the university has held a series of celebration activities with the themes of Cohesion, Culture, Commitment, and Legacy.2022.1020
Quick home test for Parkinson's medication adjustment: Detection of L-DOPA in blood using enzyme colorimetry
Parkinson's disease is a neurological disorder that primarily affects motor performance. L-DOPA is the precursor of dopamine (DA) synthesis in the body and is widely used in the treatment of Parkinson's disease. However, because of the side effects associated with these drugs, clinical adjustments to the medication are often required. Therefore, measuring the concentration of L-DOPA in patients is an issue of interest for many researchers. Several methods have been developed to detect the concentration of L-DOPA, such as electrochemical assay and liquid chromatography, but there are still some limitations. In this study, a simple enzymatic colorimetric method was developed to selectively identify and oxidize L-DOPA by oxidative enzymes, resulting in a yellow product that can be identified by the naked eye; the concentration of L-DOPA can be inferred from the color intensity. Therefore, it can be used as a quick and easy estimation of the L-DOPA concentration in the test body, which is expected to be used as an indicator and reference for drug formulation.2022.1016