Organic metal chalcogenide-assisted metabolic molecular diagnosis of central precocious puberty.
Dan OuyangChuanzhe WangChao ZhongJuan LinGang XuGuan-E WangZian LinPublished in: Chemical science (2023)
Metabolic analysis in biofluids based on laser desorption/ionization mass spectrometry (LDI-MS), featuring rapidity, simplicity, small sample volume and high throughput, is expected to be a powerful diagnostic tool. Nevertheless, the signals of most metabolic biomarkers obtained by matrix-assisted LDI-MS are too limited to achieve a highly accurate diagnosis due to serious background interference. To address this issue, nanomaterials have been frequently adopted in LDI-MS as substrates. However, the "trial and error" approach still dominates the development of new substrates. Therefore, rational design of novel LDI-MS substrates showing high desorption/ionization efficiency and no background interference is extremely desired. Herein, four few-layered organic metal chalcogenides (OMCs) were precisely designed and for the first time investigated as substrates in LDI-MS, which allowed a favorable internal energy and charge transfer by changing the functional groups of organic ligands and metal nodes. As a result, the optimized OMC-assisted platform satisfyingly enhanced the mass signal by ≈10 000 fold in detecting typical metabolites and successfully detected different saccharides. In addition, a high accuracy diagnosis of central precocious puberty (CPP) with potential biomarkers of 12 metabolites was realized. This work is not only expected to provide a universal detection tool for large-scale clinical diagnosis, but also provides an idea for the design and selection of LDI-MS substrates.
Keyphrases
- mass spectrometry
- ms ms
- multiple sclerosis
- liquid chromatography
- high throughput
- gas chromatography
- high resolution
- capillary electrophoresis
- high performance liquid chromatography
- clinical trial
- study protocol
- randomized controlled trial
- squamous cell carcinoma
- early stage
- lymph node
- water soluble
- highly efficient
- open label
- neoadjuvant chemotherapy
- simultaneous determination
- data analysis