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Калягина Нина Анатольевна
Этот курс посвящен изучению строения биологических тканей, а также основам их взаимодействия с лазерным излучением и моделированию. Целью курса является обучение распознаванию микроскопических изображений тканей различных органов с возможностью перенесения на модель. В курсе раскрываются возможности современного математического (компьютерного) моделирования на примере взаимодействия лазерного излучения с биологическими тканями. В результате освоения курса, обучающиеся смогут самостоятельно проделывать сложные шаги моделирования от начала и до его воплощения. А именно: различать гистологические изображения различных тканей,...
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Этот курс посвящен изучению строения биологических тканей, а также основам их взаимодействия с лазерным излучением и моделированию. Целью курса является обучение распознаванию микроскопических изображений тканей различных органов с возможностью перенесения на модель. В курсе раскрываются возможности современного математического (компьютерного) моделирования на примере взаимодействия лазерного излучения с биологическими тканями. В результате освоения курса, обучающиеся смогут самостоятельно проделывать сложные шаги моделирования от начала и до его воплощения. А именно: различать гистологические изображения различных тканей, понимать, как лазерный свет распространяется в конкретных биологических средах, а также самостоятельно производить физическое и математическое моделирование различных сред.
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Know what's good
, what to watch for
, and possible dealbreakers
Introduces advanced concepts and techniques, which is highly relevant for doctoral or medical students
Teaches concepts and techniques that are core to a variety of science, technology, engineering, and math disciplines
Develops skills, knowledge, and tools that are highly relevant to industry professionals
Covers unique perspectives and ideas that may add color to other topics and subjects
Taught by instructors who are recognized for their work in the field
Involves hands-on labs and interactive materials

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Reviews summary

Advanced biomedical physics

This course provides the fundamentals of interaction between laser beams and biological tissues. The focus is on the ability to recognize microscopic images of tissues from various organs and transfer them to a model for mathematical simulation. By the end of this course, students will be able to perform complex modeling from start to finish, including distinguishing histological images of various tissues, understanding how laser light propagates in biological environments, and independently producing physical and mathematical modeling of various environments.

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 Строение биологических тканей для моделирования в биомедицинской физике with these activities:
Review basic computer programming skills
Ensure you have a solid foundation in basic computer programming skills, which are essential for the computational aspects of this course.
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  • Review your previous programming notes or take an online refresher course.
  • Practice writing simple programs to reinforce your understanding.
Review key concepts of biology and physics
Brush up on the foundational knowledge in biology and physics to strengthen your understanding of the interactions between laser radiation and biological tissues.
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  • Read through your old biology and physics textbooks or notes.
  • Take practice quizzes or solve problems related to these concepts.
Participate in study groups or discussions with classmates
Engage with your peers to discuss course concepts, share insights, and learn from different perspectives, fostering a collaborative learning environment.
Show steps
  • Form or join study groups with classmates.
  • Meet regularly to discuss course materials, solve problems, and clarify concepts.
Three other activities
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Show all six activities
Solve practice problems on modeling laser-tissue interactions
Engage in practice problems and simulations to reinforce your understanding of the mathematical and computational aspects of laser-tissue interactions, enhancing your analytical skills.
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  • Find practice problems or online simulations related to laser-tissue interactions.
  • Attempt to solve the problems or run the simulations on your own.
  • Compare your results with provided solutions or consult with the instructor for feedback.
Volunteer at a research lab or hospital department related to laser-tissue interactions
Gain practical experience and insights into the real-world applications of laser-tissue interactions by volunteering in a relevant setting.
Browse courses on Tissue Engineering
Show steps
  • Identify research labs or hospital departments that work with laser-tissue interactions.
  • Contact the organizations and inquire about volunteer opportunities.
  • Attend volunteer training and orientation programs.
  • Assist with research projects or clinical procedures involving laser-tissue interactions.
Create a presentation on a specific application of laser-tissue interactions
Develop a comprehensive presentation on a specific application of laser-tissue interactions, showcasing your understanding and ability to communicate complex concepts effectively.
Browse courses on Tissue Engineering
Show steps
  • Choose a specific application of laser-tissue interactions to focus on.
  • Research and gather information on the topic.
  • Create a presentation outline and visual aids.
  • Practice your presentation and get feedback from peers or the instructor.

Career center

Learners who complete Строение биологических тканей для моделирования в биомедицинской физике will develop knowledge and skills that may be useful to these careers:
Research Scientist
Research Scientists conduct scientific research in a variety of fields, including medicine, biology, and physics. They may work in academia, industry, or government. This course may be helpful for a Research Scientist as it provides a foundation in the interaction of laser light with biological tissues. This knowledge can be applied to a variety of research projects in the field of biomedicine.
Medical Laboratory Scientist
Medical Laboratory Scientists perform laboratory tests on blood, urine, and other body fluids. They work in a variety of settings, including hospitals, clinics, and research institutions. This course may be helpful for a Medical Laboratory Scientist as it provides a foundation in the interaction of laser light with biological tissues. This knowledge can be applied to the development and interpretation of laboratory tests.
Radiation Therapist
Radiation Therapists deliver radiation therapy to patients with cancer. They work under the supervision of a radiation oncologist. This course may be helpful for a Radiation Therapist as it provides a foundation in the interaction of laser light with biological tissues. This knowledge can be applied to the planning and delivery of radiation therapy treatments.
Medical Physicist
Medical Physicists use their knowledge of physics to solve problems in medicine. They work in a variety of settings, including hospitals, clinics, and research institutions. This course may be helpful for a Medical Physicist as it provides a foundation in the interaction of laser light with biological tissues. This knowledge can be applied to medical imaging, radiation therapy, and other medical applications.
Medical Device Sales Representative
Medical Device Sales Representatives sell medical devices to hospitals, clinics, and other healthcare providers. They work for a variety of medical device companies. This course may be helpful for a Medical Device Sales Representative as it provides a foundation in the interaction of laser light with biological tissues. This knowledge can be applied to selling laser-based medical devices.
Science Writer
Science Writers communicate complex scientific information to a general audience. They work for a variety of media outlets, including newspapers, magazines, and websites. This course may be helpful for a Science Writer as it provides a foundation in the interaction of laser light with biological tissues. This knowledge can be applied to writing articles about medical research and technology.
Patent Attorney
Patent Attorneys help inventors obtain patents for their inventions. They work for a variety of clients, including individuals, businesses, and universities. This course may be helpful for a Patent Attorney as it provides a foundation in the interaction of laser light with biological tissues. This knowledge can be applied to drafting and prosecuting patent applications for laser-based medical devices.
Regulatory Affairs Specialist
Regulatory Affairs Specialists ensure that medical devices comply with government regulations. They work for a variety of companies, including medical device manufacturers, importers, and distributors. This course may be helpful for a Regulatory Affairs Specialist as it provides a foundation in the interaction of laser light with biological tissues. This knowledge can be applied to ensuring that laser-based medical devices comply with government regulations.
Healthcare Consultant
Healthcare Consultants provide advice to healthcare organizations on a variety of topics, including strategy, operations, and finance. They work for a variety of clients, including hospitals, clinics, and insurance companies. This course may be helpful for a Healthcare Consultant as it provides a foundation in the interaction of laser light with biological tissues. This knowledge can be applied to advising healthcare organizations on the use of lasers in medical treatments.
Clinical Research Associate
Clinical Research Associates manage clinical trials for new drugs and medical devices. They work for a variety of organizations, including pharmaceutical companies, biotechnology companies, and contract research organizations. This course may be helpful for a Clinical Research Associate as it provides a foundation in the interaction of laser light with biological tissues. This knowledge can be applied to managing clinical trials for laser-based medical devices.
Science Policy Analyst
Science Policy Analysts develop and analyze policies related to science and technology. They work for a variety of organizations, including government agencies, non-profit organizations, and think tanks. This course may be helpful for a Science Policy Analyst as it provides a foundation in the interaction of laser light with biological tissues. This knowledge can be applied to developing policies related to the use of lasers in medical treatments.
Science Educator
Science Educators teach science to students of all ages. They work in a variety of settings, including schools, museums, and science centers. This course may be helpful for a Science Educator as it provides a foundation in the interaction of laser light with biological tissues. This knowledge can be applied to teaching students about the human body and its response to light.
Quality Assurance Manager
Quality Assurance Managers ensure that medical devices meet quality standards. They work for a variety of companies, including medical device manufacturers, importers, and distributors. This course may be helpful for a Quality Assurance Manager as it provides a foundation in the interaction of laser light with biological tissues. This knowledge can be applied to developing and implementing quality assurance procedures for laser-based medical devices.
Technical Writer
Technical Writers create technical documentation, such as user manuals, white papers, and training materials. They work for a variety of industries, including healthcare, technology, and manufacturing. This course may be helpful for a Technical Writer as it provides a foundation in the interaction of laser light with biological tissues. This knowledge can be applied to writing technical documentation for laser-based medical devices.
Biomedical Engineer
Biomedical Engineers design and build devices and equipment used in the medical field. It combines engineering principles with medical science, and is a growing industry. This course may be helpful for a Biomedical Engineer as it provides a foundation in understanding the interaction of laser light with biological tissues. This knowledge can be applied to the development of new medical devices and treatments.

Reading list

We've selected ten 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 Строение биологических тканей для моделирования в биомедицинской физике.
Provides a detailed overview of tissue optics, focusing on light scattering methods and instruments used for medical diagnosis. It covers the theoretical principles, experimental techniques, and clinical applications of tissue optics, providing valuable insights into the interaction of light with biological tissues.
Provides a comprehensive overview of optical microscopy techniques used in cell and tissue biology. It covers the principles of light microscopy, fluorescence microscopy, and confocal microscopy, and discusses their applications in studying cell structure and function.
This classic textbook provides a comprehensive overview of molecular biology, covering the structure and function of cells, genes, and proteins. It valuable resource for understanding the molecular basis of biological processes, including those related to tissue structure and function.
This textbook provides an introduction to the principles of tissue engineering and covers topics such as cell biology, biomaterials, and tissue engineering.
Provides a comprehensive overview of biomedical signal and image processing techniques. It covers the principles of signal acquisition, preprocessing, and analysis, and discusses their applications in biomedical research and clinical practice.
This introductory textbook provides an overview of the principles and applications of biophotonics. It covers the different modalities of biophotonics, such as fluorescence microscopy, Raman spectroscopy, and optical coherence tomography.
This textbook and atlas provides a comprehensive overview of histology, the study of the microscopic structure of tissues. It covers the different types of tissues, their structure and function, and the histopathology of disease.
Provides an introduction to the field of biomaterials and covers topics such as biocompatibility, biodegradability, and tissue engineering.

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