Babak Tavana scite author profile

All pharmaceutical drugs, vaccines, cosmetic products, and many medical breakthroughs must first be approved through clinical research and trials before advancing to standard practice or entering the marketplace. Clinical trials are sets of tests that are required to determine the safety and efficacy of pharmaceutical compounds, drugs, and treatments. There is one pre-phase and four main clinical phase requirements that every drug must pass to obtain final approval. Analytical techniques play a unique role in clinical trials for measuring the concentrations of pharmaceutical compounds in biological matrices and monitoring the conditions of patients (or volunteers) during various clinical phases. This review focuses on recent analytical methods that are employed to determine the concentrations of drugs and medications in biological matrices, including whole blood, plasma, urine, and breast milk. Four primary analytical techniques (extraction, spectroscopy, chromatography, and electrochemical) are discussed, and their advantages and limitations are assessed. Subsequent to a survey of evidence and results, it is clear that microelectromechanical system (MEMS) based electrochemical sensor and biosensor technologies exhibit several notable advantages over other analytical methods, and their future prospects are discussed.

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(Invited) Nanomaterial-Based Electrochemical Sensors for the Detection of Pharmaceutical Compounds

Chen

Qian

Tavana

et al. 2022

Meet. Abstr.

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The surging growth of the pharmaceutical industry is a result of the rapidly increasing human population, which has inevitably led to new biomedical and environmental issues. Aside from the quality control of pharmaceutical production and drug delivery, there is an urgent need for precise, sensitive, portable, and cost-effective technologies to track patient overdosing and to monitor ambient water sources and wastewater for pharmaceutical pollutants. The development of advanced nanomaterial-based electrochemical sensors for the detection of pharmaceutical compounds has garnered immense attention due to their advantages, such as high sensitivity and selectivity, real-time monitoring, and ease of use. Recently, my research team has designed and fabricated a variety of functional nanomaterials and nanocomposites. In this talk, the synthesis of nanoporous gold and the development of graphene-based nanomaterials as well as their promising applications in electrochemical sensing of different pharmaceutical compounds (e.g., acetaminophen, naproxen and isoniazid) are presented. The design rationale and the performance of the proposed electrochemical sensors are highlighted.

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Babak Tavana

A new molecularly imprinted polymer (MIP)-based electrochemical sensor for monitoring 2,4,6-trinitrotoluene (TNT) in natural waters and soil samples

Determination of Drugs in Clinical Trials: Current Status and Outlook

(Invited) Nanomaterial-Based Electrochemical Sensors for the Detection of Pharmaceutical Compounds

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