Paris, France
A warm welcome to the 2nd International Conference on Biomedical Engineering & Bioinformatics,takes place during February 27-28, 2025, in the vibrant city of Paris, France! Biomedical Engineering 2025 is your chance to dive into a hub of innovation, share groundbreaking ideas, and discuss the latest trends in Biomedical Engineering and Bioinformatics. Connect with world-renowned specialists and speakers as they unveil new advancements and drive the future of these fields. It's a golden opportunity for students and researchers to shine by showcasing their work and gaining recognition among the industry's finest. Don't miss out—join us at Biomedical Engineering 2025 to be at the forefront of innovation!
Best Regards,
Anna Quincy
Biomedical Engineering 2025
Session1: Artificial Intelligence in Healthcare
Artificial Intelligence (AI) is reshaping healthcare by leveraging machine learning algorithms and advanced analytics to enhance diagnostic accuracy, personalize treatment plans, and streamline operations. AI technologies, such as natural language processing, can analyze vast amounts of medical data, including electronic health records and medical literature, to provide actionable insights. Predictive analytics can identify patients at risk of developing certain conditions, allowing for early intervention. AI-powered robotic systems assist in precision surgeries, while virtual assistants and chatbots support patient engagement and follow-up care. The integration of AI aims to improve overall efficiency, reduce human error, and elevate the quality of patient care.
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Session2: CRISPR and Gene Editing
CRISPR-Cas9 is a revolutionary gene-editing technology that allows scientists to make precise modifications to DNA. By utilizing a guide RNA to direct the Cas9 enzyme to a specific location in the genome, researchers can edit genes with high accuracy. This technology has significant implications for treating genetic disorders, such as cystic fibrosis and muscular dystrophy, by correcting harmful mutations. Beyond medicine, CRISPR is also used in agriculture to develop crops with improved traits, such as disease resistance. However, ethical considerations, such as potential off-target effects and implications for germline editing, continue to be a major focus of discussion and regulation.
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Session3: Wearable Medical Devices
Wearable medical devices, such as smartwatches, fitness trackers, and biosensors, offer continuous monitoring of health metrics including heart rate, blood pressure, and glucose levels. These devices provide real-time data that can be crucial for managing chronic conditions like diabetes and hypertension. They also support preventive healthcare by tracking physical activity, sleep patterns, and overall wellness. Integration with mobile health apps allows users and healthcare providers to analyze trends and make informed decisions. Advances in sensor technology and wireless connectivity are making wearables more accurate and user-friendly, contributing to their growing popularity in both personal health management and remote patient monitoring.
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Session4: Precision Medicine
Precision medicine is an approach to medical treatment that considers individual variability in genes, environment, and lifestyle. Unlike traditional medicine, which often applies a one-size-fits-all approach, precision medicine tailors treatments based on a patient's genetic profile and other personal factors. This strategy enhances the effectiveness of treatments and minimizes adverse effects by targeting specific disease mechanisms. Advances in genomics, proteomics, and bioinformatics have enabled the identification of biomarkers and genetic mutations associated with various diseases. Personalized treatment plans, including targeted therapies and customized drug regimens, aim to improve patient outcomes and transform how diseases are managed.
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Session5: Bioinformatics and Big Data
Bioinformatics combines biology, computer science, and statistics to analyze complex biological data. With the advent of big data, bioinformatics tools are essential for managing and interpreting vast amounts of genomic, proteomic, and metabolomic data. These tools help in identifying genetic variations associated with diseases, discovering new drug targets, and understanding biological processes at a molecular level. High-throughput sequencing technologies generate large datasets that require advanced computational methods to analyze. By integrating big data analytics, bioinformatics accelerates research and development in personalized medicine, drug discovery, and genomics, ultimately driving advancements in healthcare and biology.
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Session6: Tissue Engineering and Regenerative Medicine
Tissue engineering and regenerative medicine focus on creating biological tissues and organs to repair or replace damaged or diseased ones. This field combines cells, biomaterials, and growth factors to develop functional tissue constructs. Innovations include developing artificial skin for burn victims, bioengineered heart valves, and lab-grown organs for transplantation. Advances in stem cell technology and biomaterials are enhancing the development and functionality of engineered tissues. The goal is to create tissues and organs that integrate seamlessly with the body, providing solutions for organ shortages and improving the treatment of injuries and degenerative diseases.
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Session7: Biomedical Imaging Techniques
Biomedical imaging encompasses various technologies used to visualize internal structures of the body for diagnostic and research purposes. Techniques such as Magnetic Resonance Imaging (MRI), Computed Tomography (CT), and Positron Emission Tomography (PET) provide detailed images of tissues and organs. Recent advancements have led to improved resolution and faster imaging times, enhancing diagnostic accuracy. Functional imaging techniques, like functional MRI (fMRI), assess brain activity and provide insights into neurological conditions. These imaging advancements are crucial for early disease detection, treatment planning, and monitoring the progression of diseases, contributing significantly to clinical practice and research.
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Session8: Nanotechnology in Medicine
Nanotechnology involves manipulating materials at the nanoscale to create novel medical applications. In medicine, nanoparticles are used for targeted drug delivery, diagnostics, and therapeutic interventions. By designing nanoparticles that can specifically target diseased cells or tissues, treatments can be delivered more precisely, reducing side effects and increasing efficacy. Nanotechnology also plays a role in imaging and diagnostic assays, enhancing sensitivity and accuracy. Research in nanomedicine is leading to innovations such as nanoscale drug carriers, imaging agents, and therapeutic devices, which hold promise for advancing treatments in oncology, cardiovascular diseases, and other areas.
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Session9:Telemedicine and Remote Healthcare
Telemedicine utilizes digital communication technologies to provide healthcare services remotely, expanding access to medical care, especially in remote or underserved areas. It includes virtual consultations, remote monitoring of patients, and mobile health applications. Telemedicine improves accessibility by allowing patients to consult with healthcare providers from their homes, reducing travel time and costs. Remote monitoring tools track vital signs and chronic conditions, c enabling timely interventions and continuous care. The rise of telemedicine has been accelerated by advancements in communication technology and increased demand for convenient healthcare solutions, reshaping how medical services are delivered and managed.
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Session10: Biomechanics and Rehabilitation Engineering
Biomechanics studies the mechanical aspects of biological systems, including the forces and movements involved in human motion. Rehabilitation engineering applies this knowledge to develop technologies that aid in recovery and improve quality of life for individuals with disabilities. Innovations in this field include advanced prosthetics, orthotics, and assistive devices that enhance mobility and function. Rehabilitation engineering also focuses on creating customized solutions for physical therapy and rehabilitation, such as robotic exoskeletons and adaptive equipment. These technologies aim to support individuals in regaining independence and improving their physical capabilities, contributing to enhanced outcomes in rehabilitation and assistive care.
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The biomedical engineering market is experiencing robust growth, driven by significant advancements in tissue engineering, bioprinting, and AI technologies. Innovations in 3D bioprinting and stem cell technology are particularly propelling the tissue engineering segment, which is projected to grow at a compound annual growth rate (CAGR) of 15.3%, reaching an estimated $8.9 billion by 2028​​. AI tools, such as BeatProfiler, are enhancing the speed and accuracy of diagnosing heart diseases, further fueling market expansion​.
North America remains a significant market player due to extensive R&D activities and high healthcare expenditure, with substantial contributions from genomic and proteomic platforms​ .The region's growth is also bolstered by the prevalence of chronic diseases and the adoption of personalized medicine applications​​. Meanwhile, the Asia-Pacific region is poised for rapid expansion, driven by improving healthcare infrastructure, favorable government initiatives, and strategic collaborations. Key players are increasingly investing in this region, exemplified by Moderna's geographic expansion and biopharmaceutical collaborations such as those between Kiniksa Pharmaceuticals and Huadong Medicine​
Overall, the biomedical engineering market is set for significant growth, underpinned by technological advancements and strategic regional expansions.
Biomedical Engineering and Bioinformatics Conference Committee is intended to honor prestigious awards for talented Young researchers, scientists, Young Investigators, Post-Graduate students, Post-doctoral fellows, Trainees, and Junior faculty in recognition of their outstanding contribution towards the conference theme. The Young Scientist Awards make every effort to provide a strong professional development opportunity for early career academicians by meeting experts to exchange and share their experiences on all aspects of Biomedical Engineering
Young Research’s Awards at Biomedical Engineering-2025 for the Nomination:
Young Researcher Forum - Outstanding Masters/Ph.D./Post Doctorate thesis work Presentation, only 25 presentations are acceptable at the Food Science 2025
Young Research Forum. Guidelines:
All submissions must be in English
The topic must fit into the scientific sessions of the conference
Each individual participant is allowed to submit a maximum 2 papers
An abstract must be submitted online as per the given abstract template
Abstracts must be written in Times New Roman and the font size will be 12
An abstract must contain a title, name, affiliation, country, speaker biography, recent photograph, image, and reference
Conditions of Acceptance: To receive the award, the awardee must submit the presentation for which the award is given, for publication on the website, along with the author's permission. Failure to submit the PPT and permission within the designated timeframe will result in forfeiture of the award.
Award Announcements: Official announcement of the recipients will occur after the completion of this Biomedical Engineering-2025.
Abstract Submission Start Date:August 15, 2024
Abstract Submission Last Date: February 14, 2025
Early Bird Registration Date: September 14, 2024
Important Links:
Abstract Submission
Registration
Scientific Program
Conference Venue Details
Mode of Participation:
Online Participation in Oral / e-poster Presentation.
Physical Participation in Oral / Poster / Video Presentation.
Exhibitions, Symposiums, and Workshops are welcome.
Presentation Requirements: Presenting authors are responsible for registration, travel, and hotel costs.
Note: Those with accepted abstracts will receive an acceptance mail allowing them to register for the conference.
Abstracts will be compiled and conference books will be made available to participants at the conference.
Any presenter who is unable to attend should arrange for another qualified individual to present the paper/poster in question. If such a change is necessary, please notify our conference team.
Submission Options: Oral paper presentations will have 30-minute time slots and be clustered by theme into sessions. The keynote session will have a 45-minute time slot, the workshop/ special session will have a 60-minute time slot and the symposium will have a 60-minute time slot followed by a 5-minute Q&A session.
Graduate & Masters students are eligible to submit their abstracts under the poster and e-poster presentation category.
Ph.D. students are eligible to submit their abstract under special YRF (young researcher’s forum), poster, and e-poster presentation categories.
NOTE: The YRF category includes short oral presentations, especially for Ph.D. students
Extended abstract: Submissions should utilize the Abstract Template. Papers submitted in this category may represent original empirical research, theoretical development, reviews, or critiques.
Contact Details:
Anna Quincy
Conference Manager | Biomedical Engineering 2025
Email: contact@meetingsint.com
WhatsApp Number: +44-1931440010
Paris, France - Feb 27, 2025
Paris, France - Feb 27, 2025
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