Bioanalysis at IgMin Research | Biology Group
Our goal is to strengthen interdisciplinary bonds and advance the frontier of collective knowledge.
について
Bioanalysis is a vital scientific discipline that focuses on the identification, quantification, and study of biological molecules, such as drugs, metabolites, and biomarkers, within complex biological systems. By integrating principles from biology, chemistry, and analytical techniques, bioanalysis provides critical insights into biochemical processes and interactions. This field is indispensable in pharmaceutical development, clinical diagnostics, and understanding disease mechanisms.
The scope of bioanalysis extends from cutting-edge technologies, such as mass spectrometry and chromatography, to advanced bioinformatics tools that analyze complex datasets. Its applications range from pharmacokinetics and toxicology studies to personalized medicine and biomarker discovery. Bioanalysis not only facilitates regulatory compliance in drug development but also accelerates innovation in therapeutic strategies and precision healthcare, making it a cornerstone of modern biological research.
- ✓Mass spectrometry in bioanalysis
- ✓ Liquid chromatography-tandem mass spectrometry (LC-MS/MS)
- ✓ High-performance liquid chromatography (HPLC)
- ✓ Quantitative analysis of biomarkers
- ✓ Immunoassay techniques
- ✓ Bioanalytical method validation
- ✓ Pharmacokinetics and pharmacodynamics studies
- ✓ Toxicokinetics in bioanalysis
- ✓ Biomarker discovery and quantification
- ✓ Metabolomics and metabolic profiling
- ✓ Proteomics in bioanalysis
- ✓ Nanotechnology-based bioanalytical methods
- ✓ Biosensors for bioanalytical applications
- ✓ Cell-based bioassays
- ✓ Biophysical techniques in bioanalysis
- ✓ Analytical challenges in biologics
- ✓ Drug-drug interaction studies
- ✓ Genomics and nucleic acid bioanalysis
- ✓ Real-time bioanalytical monitoring
- ✓ Advances in bioanalytical informatics
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研究論文
- Enhancing Material Property Predictions through Optimized KNN Imputation and Deep Neural Network Modeling
- Efficacy of Alternative Insecticides against Dusky Cotton Bug (Oxycarenus laetus) to Improve Yield Losses in Cotton Crops through Residue-based Bioassay
- Enhancing Missing Values Imputation through Transformer-Based Predictive Modeling
- The Lukala Cement Plant's Life Cycle Analysis: Towards a More Sustainable Production
- Lunar-Derived Propellants for Fueling Mars-Bound Spacecraft in Cis-Lunar Space
- Technical & Economic Feasibility Study of Proposed Pump Storage Power Plants at Kuda Oya, Mul Oya, Gurugal Oya, and Dambagasthalawa
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