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Erland Stevens

In this course about ADME and PK, students will learn how the PK properties of drug candidate are analyzed to guide decisions by the entire drug discovery team. The three-week course starts with the use of drug concentration-time data points to determine the key pharmacokinetic parameters of a compound. The second week focuses on the types of laboratory and animal studies that assist in the prediction of the human PK properties of a compound. In the final week, students will learn how the PK properties are used with efficacy data to predict the human efficacious dose and assist in drug formulation.

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In this course about ADME and PK, students will learn how the PK properties of drug candidate are analyzed to guide decisions by the entire drug discovery team. The three-week course starts with the use of drug concentration-time data points to determine the key pharmacokinetic parameters of a compound. The second week focuses on the types of laboratory and animal studies that assist in the prediction of the human PK properties of a compound. In the final week, students will learn how the PK properties are used with efficacy data to predict the human efficacious dose and assist in drug formulation.

Students in the course should understand human anatomy and cell structure. Students should also be comfortable with algebraic expressions, including logarithmic and exponential functions. A fundamental understanding of the structure of organic molecules and their functional groups will also be helpful. The course is designed in modules. Each module opens with a short video on a selected topic. The module continues with a short reading or exercise with an assessment activity. Each module will require approximately 1 hour to complete, and the course includes 15 modules. Two approaches to the course are recommended. One, a student might spend an hour per day on the course and complete all 15 modules in approximately three weeks. Two, a student with additional available time may be able to work through the entire course in just a single week or over an extended weekend.

Students signed up for the Audit Track have access to the instructional video materials. Students enrolled through the Verified Track have access to the instructional videos, the readings and activities, the assessments, as well as selected additional videos related to the primary instructional videos.

What you'll learn

  • methods for determining the key PK properties from drug concentration-time data points

  • distinctions between common routes of administration of various drugs

  • laboratory techniques for studying ADME properties of compounds in vitro

  • common in vivo PK studies for early prediction of human PK properties

  • differences in PK properties between small molecule drugs and biologics

  • models for understanding how PK and efficacy together can help determine the dosing regimen of a drug

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Explores ADME and PK, key to understanding drug efficacy and dosage
Taught by Erland Stevens, an expert in the field of ADME/PK
Suitable for those with basic knowledge of anatomy, algebra, and organic chemistry
Provides methods for determining PK properties, essential for drug development
Covers in vitro and in vivo studies for predicting human PK properties
Examines differences in PK properties between small molecule drugs and biologics

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Introduction to Pharmacokinetics: From ADME to PK/PD with these activities:
Review an organic chemistry textbook
Reviewing key topics from organic chemistry will ensure you have the foundational understanding of functional groups and their impact on drug properties
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  • Gather your organic chemistry textbook and notes
  • Review the chapters on functional groups, their properties, and their reactivity
  • Complete practice problems related to functional group identification and reactivity
Watch video tutorials on pharmacokinetics and drug metabolism
Watching video tutorials will reinforce the concepts of drug absorption, distribution, metabolism, and excretion, and provide visual aids for understanding these processes
Browse courses on Pharmacokinetics
Show steps
  • Search for reputable sources of video tutorials on pharmacokinetics and drug metabolism
  • Take notes while watching the tutorials, focusing on key concepts and equations
  • Review your notes and test your understanding by answering practice questions
Participate in a study group to discuss ADME and PK concepts
Engaging in discussions with peers will foster a deeper understanding of ADME and PK concepts and provide diverse perspectives
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  • Find a study group or form one with classmates
  • Meet regularly to discuss course materials, review concepts, and solve problems together
  • Take turns leading discussions and presenting your understanding of different topics
Five other activities
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Solve practice problems on pharmacokinetic parameters
Solving practice problems will solidify your understanding of how to calculate pharmacokinetic parameters and apply them to drug discovery
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  • Gather practice problems from textbooks, online resources, or the course materials
  • Solve the practice problems, showing your work and explaining your reasoning
  • Check your answers against provided solutions or consult with a tutor or instructor if needed
Create a comprehensive study guide by combining notes, assignments, quizzes, and practice questions
Creating a study guide will help you organize and synthesize the course materials, facilitating effective review and preparation for assessments
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  • Gather all your notes, assignments, quizzes, and practice questions
  • Review the materials and identify key concepts, formulas, and examples
  • Organize the materials into a logical and coherent format, using headings, subheadings, and sections
Write a summary of a scientific paper on a specific drug's pharmacokinetic properties
Writing a summary will enhance your ability to synthesize and present complex information on drug pharmacokinetic properties
Browse courses on Pharmacokinetics
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  • Choose a scientific paper on a specific drug's pharmacokinetic properties
  • Read the paper thoroughly and identify the key findings on pharmacokinetics
  • Write a concise summary that includes the drug name, its mechanism of action, key pharmacokinetic parameters, and clinical implications
Tutor a fellow student who is struggling with ADME or PK concepts
Mentoring others will reinforce your understanding of ADME and PK concepts and develop your communication and teaching skills
Browse courses on ADME
Show steps
  • Identify a fellow student who is struggling with ADME or PK concepts
  • Offer your help and schedule regular tutoring sessions
  • Review the course materials together, clarify concepts, and provide practice problems
Volunteer at a local hospital or research lab involved in pharmacokinetics
Volunteering will provide practical experience in the field of pharmacokinetics and expose you to the latest research and applications
Browse courses on Pharmacokinetics
Show steps
  • Research local hospitals or research labs involved in pharmacokinetics
  • Contact the organization and inquire about volunteer opportunities
  • Attend training sessions and familiarize yourself with the research or clinical setting

Career center

Learners who complete Introduction to Pharmacokinetics: From ADME to PK/PD will develop knowledge and skills that may be useful to these careers:
Pharmacokineticist
Pharmacokineticists study the movement of drugs within the body. By examining drug concentration-time data, they can determine the key pharmacokinetic parameters of a compound. This information is essential for understanding how a drug will behave in the body and for designing effective dosing regimens. The course "Introduction to Pharmacokinetics: From ADME to PK/PD" provides a strong foundation in the principles of pharmacokinetics and will be of great value to aspiring pharmacokineticists.
Toxicologist
Toxicologists study the effects of chemicals on living organisms. They use a variety of techniques to assess the toxicity of chemicals, including animal studies, in vitro studies, and computer modeling. The course "Introduction to Pharmacokinetics: From ADME to PK/PD" provides a foundation in the principles of pharmacokinetics, which is essential for understanding how chemicals are absorbed, distributed, metabolized, and excreted in the body. This knowledge is critical for toxicologists who need to assess the potential risks of chemicals to human health.
Clinical Pharmacologist
Clinical pharmacologists study the effects of drugs in humans. They design and conduct clinical trials to evaluate the safety and efficacy of new drugs. The course "Introduction to Pharmacokinetics: From ADME to PK/PD" provides a strong foundation in the principles of pharmacokinetics, which is essential for understanding how drugs behave in the body. This knowledge is critical for clinical pharmacologists who need to design and interpret clinical trials.
Regulatory Affairs Specialist
Regulatory affairs specialists ensure that drugs and medical devices are safe and effective. They work with regulatory agencies to review and approve new products. The course "Introduction to Pharmacokinetics: From ADME to PK/PD" provides a foundation in the principles of pharmacokinetics, which is essential for understanding how drugs behave in the body. This knowledge is critical for regulatory affairs specialists who need to review and approve new drugs.
Drug Safety Scientist
Drug safety scientists monitor the safety of drugs after they have been approved for use. They investigate adverse events and work to identify and mitigate any risks to patients. The course "Introduction to Pharmacokinetics: From ADME to PK/PD" provides a foundation in the principles of pharmacokinetics, which is essential for understanding how drugs behave in the body. This knowledge is critical for drug safety scientists who need to investigate adverse events and identify risks to patients.
Pharmaceutical Scientist
Pharmaceutical scientists develop and manufacture drugs. They work in a variety of roles, including research and development, manufacturing, and quality control. The course "Introduction to Pharmacokinetics: From ADME to PK/PD" provides a foundation in the principles of pharmacokinetics, which is essential for understanding how drugs behave in the body. This knowledge is critical for pharmaceutical scientists who need to develop and manufacture safe and effective drugs.
Biopharma Scientist
Biopharma scientists develop and manufacture biological products, such as vaccines and antibodies. They work in a variety of roles, including research and development, manufacturing, and quality control. The course "Introduction to Pharmacokinetics: From ADME to PK/PD" provides a foundation in the principles of pharmacokinetics, which is essential for understanding how biological products behave in the body. This knowledge is critical for biopharma scientists who need to develop and manufacture safe and effective biological products.
Quantitative Pharmacologist
Quantitative pharmacologists use mathematical and statistical models to study the effects of drugs. They develop models to predict how drugs will behave in the body and to optimize dosing regimens. The course "Introduction to Pharmacokinetics: From ADME to PK/PD" provides a strong foundation in the principles of pharmacokinetics, which is essential for developing and using mathematical and statistical models to study the effects of drugs.
Systems Pharmacologist
Systems pharmacologists study the interactions between drugs and the body's systems. They use a variety of techniques, including mathematical and statistical models, to understand how drugs affect the body and how the body affects drugs. The course "Introduction to Pharmacokinetics: From ADME to PK/PD" provides a foundation in the principles of pharmacokinetics, which is essential for understanding the interactions between drugs and the body's systems.
Toxicology Research Scientist
Toxicology research scientists study the effects of chemicals on human health. They conduct experiments to assess the toxicity of chemicals and develop methods to protect people from exposure to harmful chemicals. The course "Introduction to Pharmacokinetics: From ADME to PK/PD" provides a foundation in the principles of pharmacokinetics, which is essential for understanding how chemicals are absorbed, distributed, metabolized, and excreted in the body. This knowledge is critical for toxicology research scientists who need to assess the toxicity of chemicals.
Pharmacometrics Scientist
Pharmacometrics scientists use mathematical and statistical models to study the effects of drugs. They develop models to predict how drugs will behave in the body and to optimize dosing regimens. The course "Introduction to Pharmacokinetics: From ADME to PK/PD" provides a foundation in the principles of pharmacokinetics, which is essential for developing and using mathematical and statistical models to study the effects of drugs.
Medical Writer
Medical writers write about medical topics for a variety of audiences, including patients, healthcare providers, and pharmaceutical companies. The course "Introduction to Pharmacokinetics: From ADME to PK/PD" provides a foundation in the principles of pharmacokinetics, which is essential for understanding the development and marketing of new drugs. This knowledge is critical for medical writers who need to write about pharmacokinetics and other drug-related topics.
Pharmaceutical Industry Analyst
Pharmaceutical industry analysts follow the pharmaceutical industry and provide insights into the latest trends. They write reports and make presentations to clients, including investors, pharmaceutical companies, and healthcare providers. The course "Introduction to Pharmacokinetics: From ADME to PK/PD" provides a foundation in the principles of pharmacokinetics, which is essential for understanding the development and marketing of new drugs. This knowledge is critical for pharmaceutical industry analysts who need to provide insights into the latest trends in the pharmaceutical industry.
Science Writer
Science writers write about science for a variety of audiences, including the general public, students, and scientists. The course "Introduction to Pharmacokinetics: From ADME to PK/PD" provides a foundation in the principles of pharmacokinetics, which is essential for understanding the development and marketing of new drugs. This knowledge is critical for science writers who need to write about pharmacokinetics and other drug-related topics.
Patent Attorney
Patent attorneys help clients obtain and protect patents. They work with inventors to develop and file patent applications and represent clients in patent infringement lawsuits. The course "Introduction to Pharmacokinetics: From ADME to PK/PD" provides a foundation in the principles of pharmacokinetics, which is essential for understanding the development and marketing of new drugs. This knowledge is critical for patent attorneys who need to work with clients in the pharmaceutical industry.

Reading list

We've selected five books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Introduction to Pharmacokinetics: From ADME to PK/PD.
Provides a comprehensive overview of the field of pharmacokinetics, with a focus on its role in drug development. It covers topics such as drug absorption, distribution, metabolism, and excretion, as well as the use of pharmacokinetic models to predict drug behavior in humans.
While not directly focused on pharmacokinetics, this book offers a solid foundation in medicinal chemistry, providing background knowledge for understanding drug properties and their effects on pharmacokinetic behavior.
Intended for medical students and professionals, this book offers a concise review of pharmacology, including sections on pharmacokinetics, drug metabolism, and drug interactions.
Covers all areas of clinical pharmacokinetics in detail, and provides abundant case studies and examples from the pharmaceutical industry.
Provides an advanced treatment of the field of pharmacokinetics and pharmacodynamics, with a focus on the use of systems analysis to understand drug behavior in humans.

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