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Related Concept Videos

Clinical Trials01:16

Clinical Trials

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Clinical trials are prospective experimental studies conducted on humans to determine the safety and efficacy of treatments, drugs, diet methods, and medical devices. Using statistics in clinical trials enables researchers to derive reasonable and accurate conclusions from the collected data, allowing them to make wise decisions in uncertain situations. In medical research, statistical methods are crucial for preventing errors and bias.
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Clinical development focuses on how the drug will interact with the human body and encompasses four key phases of clinical trials, each serving a specific purpose in assessing the safety and effectiveness of new drugs. These phases overlap and build upon one another. Phase I involves a small group of healthy volunteers (typically 20-80 individuals) or, in cases where significant toxicity is expected, patients with the targeted disease, such as cancer or AIDS. The volunteers are tested for...
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Biopharmaceutical studies constitute a vital field aiming to enhance drug delivery methods and refine therapeutic approaches, drawing upon diverse interdisciplinary knowledge. In research methodologies, the choice between controlled and non-controlled studies significantly influences the study's reliability and accuracy.
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Applying advanced technologies to improve clinical trials: a systematic mapping study.

Esther Nanzayi Ngayua1, Jianjia He1, Kwabena Agyei-Boahene2

  • 1School of Business, University of Shanghai for Science and Technology, Shanghai, 200093 China.

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Advanced technologies like artificial intelligence (AI) and machine learning (ML) are increasingly used in clinical trials. Research shows growing interest, focusing on recruitment and eligibility, but gaps exist in architecture and metrics.

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Area of Science:

  • Clinical Trials
  • Health Informatics
  • Biotechnology

Background:

  • Clinical trials are crucial for evaluating new therapies, but face challenges with rising costs, extended timelines, and low productivity due to increasing data complexity.
  • Advanced technologies, including artificial intelligence (AI), machine learning (ML), deep learning (DL), and the internet of things (IoT), present opportunities to enhance clinical trial efficiency and productivity.

Purpose of the Study:

  • To systematically map and analyze existing research on the application of advanced technologies in clinical trials.
  • To identify trends, research focus areas, and gaps in the literature concerning AI, ML, DL, and IoT in clinical trial research.

Main Methods:

  • A systematic mapping study was conducted.
  • Literature search was restricted to articles published between 2010 and 2020.
  • A total of 443 relevant articles were identified and analyzed.

Main Results:

  • Research interest in advanced technologies for clinical trials has significantly increased between 2010 and 2020.
  • The primary focus of studies was on recruitment and eligibility aspects of clinical trials.
  • Most research involved validation and evaluation studies, with a notable gap in contributions related to architecture, process, and metrics.

Conclusions:

  • There is a clear upward trend in research applying AI, ML, DL, and IoT to clinical trials.
  • While current research primarily focuses on methods and theories, future work is expected to involve more empirical studies and address identified gaps in architectural and metric contributions.