All fields in Basic Sciences and Humanities & Mathematics, Engineering, Technology & Management
Track - 1: Computer Engineering
Image Processing
Big Data
Satellite Constellations
Internet of Thing
Cloud Computing
Video Processing
Computer Vision
Track - 2: Artificial Intelligence Machine Learning
AI And Sustainability
AI In Education
AI In Healthcare
AI In Metaverse
AI In Robotic System
Industrial AI
Societal Implications of AI
Track - 3: Intelligent Communications and Networks
Image Analysis
Data Analysis
Computer Networks
Wireless Networks
Signal Processing
Next Generation Networks
Edge Computing
Track - 4: Real Time Applications
Industrial Application
Medical Science Application
Peripheral Equipment Application
Telecommunication Applications
Defence Applications
Track - 5: Informatics
Cyber security
Learning and education analysis
System demonstration
Bio informatics
Information and computer science
Cyber resilience
Trends in Intelligence system
Track - 6: Electrical Engineering
Power systems
Energy engineering
Soft computing techniques
Transmission and distribution system
Power electronics
Renewable power conversion techniques
Power quality
Track - 7: Electronics Engineering
Broad band communication
5G communication
Optical communication
Wireless sensor networks
6G communication
Mobile communication
Embedded wireless system space air
Track - 8: Mechanical Science and Technology Advances
Automation
Mechatronics
Systemic dynamics
Aero dynamics
Heat and Mars Transfer
Applied machanics
Machinary and machine design
Intelligent Systems
Control Techniques
Advanced Electronic Materials and Devices
Crystallography and Its Applications
Optical materials, Sensors and Devices
Energy Materials and Devices
Magnetic Materials and Devices
Ceramics and Composite Materials
Biomaterials, Soft Materials and Devices
Nanotechnology and Nanomaterials
Computational Materials Science
Quantum Materials and Devices
Sustainable Materials and Devices
Artificial Intelligence & Machine Learning in Materials Science
Neuroimaging and Biomarkers
Precision Medicine Approaches
Drug Discovery and Development
Digital Health and Wearable Technologies
Neurostimulation and Brain-Computer Interfaces
Big Data Analytics and Artificial Intelligence
Non-Pharmacological Interventions
Regenerative Medicine and Stem Cell Therapy
Ethical Considerations and Patient-Centered Care
Emerging Pharmacological Therapies
Immunotherapy and Vaccination Strategies
Wireless Communication Systems
Signal Processing and Image Processing
Embedded Systems and IoT
Digital Electronics and VLSI Design
Biomedical Signal Processing and Medical Electronics
Cyber-Physical Systems and Robotics
Communication Networks
Healthcare :
• AI in medical diagnostics and imaging
• Predictive analytics for patient care and outcomes
• Telemedicine and remote healthcare solutions
• Drug discovery and personalized medicine advancements
Telecommunications :
• AI-driven network optimization and management
• Customer service automation using AI chatbots
• Cybersecurity solutions powered by AI
• Predictive maintenance for telecom infrastructure
Energy :
• Smart grid optimization and energy management with AI
• Integration of renewable energy sources using AI algorithms
• Energy efficiency enhancements through AI-driven solutions
• Predictive maintenance for energy systems and equipment
Industrial Sectors :
• AI-enabled process optimization in manufacturing
• Supply chain management and logistics optimization using AI
• Predictive maintenance for industrial machinery and equipment
• Quality control and defect detection with AI and machine learning
Potential topics to be addressed in this conference include, but are not limited to the following:
Material Physics
Atomic, Molecular Physics
Particle Physics
Theoretical Physics
Mathematical Sciences
Polymer Chemistry
Materials Chemistry
Engineering and Environmental Geology
Geophysics
Composites
Nanomaterials
Bio-Materials
Surface Modification Technologies
Materials Testing and Evaluation
Materials Science and Engineering
Advanced Manufacturing Technology
Additive Manufacturing
Manufacturing Systems and Equipment
Advanced Design Technology
Manufacturing Engineering
Manufacturing system and simulation
Manufacturing processes and Technology
Cellular manufacturing
Lean and Agile Manufacturing
Nano Fabrication and Precision Engineering
Mechatronics
Computer Aided Metrology
Industrial Automation and Process Control
Intelligent Controllers
Industrial Robots and Automation
Vibration Engineering
Applications of FEA
Clean and Sustainable Manufacturing Processes
Functionally Graded Materials
Joining Processes
Advances in Catalysis and Chemical Engineering
Astrochemistry
Analytical Methodologies
Biochemical Engineering
Bioinorganic Chemistry
Bio Catalysis and Biotransformation
Chemical Engineering
Chemical Kinetics
Catalysis for Chemical Synthesis
Chemical Polymer Technology
Catalysis and Pyrolysis
Catalysis and Zeolites
Electrochemistry and Electrochemical Engineering
Electrocatalysis
Environmental and Sustainable Chemical Engineering
Green Chemistry
Homogeneous Catalysis, Molecular Catalysis
Heat Transfer and Mass Transfer
Material Sciences
Medicinal Chemistry
Microbial Technology
Nanocatalysis
Nanochemistry
Nuclear Chemistry
Organocatalysis
Organometallics Chemistry
Petroleum Refining and Petrochemicals
Photocatalysis
Photochemistry, Photobiology and Electrochemistry
Physical Chemistry
Polymer Engineering
Quantum Chemistry
Reaction Engineering
Separation Processes in Chemical Technology
Solid Waste Management
Surface Chemistry: Colloid and Surface Aspects
Thermochemistry
Thermodynamics
Waste Management
Water treatment
Alzheimer Disease & Parkinson Disease
Clinical Neurology
Neuro-Ophthalmology
Neuroradiology and imaging evaluations
Neuro-rehabilitation
Neuroscience & Neuro surgery
Neuro-traumatology
Neuropsychology
Pain Management & Sleep Disorders
Stroke / Cerebro Vascular Diseases
sensory processing
Traumatic brain injury
Neuro Endocrinology
Neuro-degenerative Diseases
Neurobiology
Multiple Sclerosis
Epilepsy & Depression
Migraine
Behavioral neuroscience & Mental health
Cognitive neuroscience
Autism
Brain Cancer
Seizures
Seizures
Topics for ICISCM include, but are not limited, to the following:
• Advanced structural materials
• Advances in civil engineering & Innovation
• Architecture engineering
• Bridge engineering
• Concrete technology
• Construction management
• Earthquake and structural engineering
• Digital Technologies
• Geotechnical Engineering
• Geosciences Engineering
• Environmental Engineering
• Green building materials and technology
• Marine structures
• New technologies, methods and techniques in civil engineering
• Road, bridge, and railway engineering
• Sustainable transportation
• Traffic engineering
• Transport infrastructure
• Transportation Safety
• Civil Engineering Education and Research
• Water resources
Potential topics to be addressed in this conference include, but are not limited to the following
· Artificial intelligence in optimization of production and logistics processes;
· The Internet of Things as a competitive advantage
· Big data in managing operating activities
· Knowledge engineering and expert systems in knowledge management and in supporting business decisions
· Machine learning algorithms
· Machine learning and decision making in engineering
· Intelligent sensors and systems in machine vision and control,robotics
· Artificial neural networks in identification and classification of objects
· Computer (digital) image analysis in production processes
· Business intelligence in decision-making systems
Machine learning architecture or Medical
Machine learning cloud services
Machine Learning and Cybersecurity
Machine Learning and Forensics
Machine Learning and
Machine Learning IoT Services
Machine Learning and Video – Image Processing
Machine Learning for Bio-Medical systems
Mathematical Foundations of AI and Intelligent Computational methods
Deep learning models and applied intelligence
Emerging Devices and Material Technologies
VLSI Circuit and System Design
CAD for VLSI
Testing and Verification
Embedded Systems Design
Emerging Processors for System Design
https://vit.ac.in/vdat2024/submission.html
Track - 1
Decision support systems
Neural networks and applications
Machine Learning
Natural language processing
Automated problem solving
AI and evolutionary algorithms
Intelligent information systems
Distributed AI algorithms and models
Knowledge discovery and acquisition
Reinforcement learning
Computational Intelligence
Computer Vision and Image Processing
Cognitive and Biologically-Inspired Vision
Soft Computing and Applications
Hybrid Intelligent Systems
Track - 2
Distributed Computing
AI driven Sustainable Cloud/Edge Systems
Pattern Recognition and Analysis
Ubiquitous and High-Performance Computing
Sustainable computing for CPS and IoT
Security, Trust and Privacy
Sustainable Data Centers
Reconfigurable Computing
Big Data for Sustainable Computing
Sustainable Informatics and Optimization
Cognitive Science and Technology
Sustainable Communication and Security
Sustainable High-Performance Systems
Sustainable Industries
Energy-aware Machine Learning
Ob-Gyn Nursing and Midwife
Bio behavioral Nursing & Health Informatics
Hospice Nursing
Clinical Nursing
Oncology Nursing
Psych/Mental Health
Medical Surgical Nursing
Nursing Care Research
Pediatric Nursing Care
Community Nursing
Neonatal Nursing Care
Women Health Nursing Care
Gynecology and Obstetrics Nursing Care
Cardiovascular Nursing Care
Surgical Nursing Care
Dermatology Nursing
Dental Nursing
Genetic Nursing
Nursing Leadership
Veterinary Nursing Care
Pharmaceutics
Pharmacogenetics and Pharmacogenomics
Pharmacodynamics
Oligonucleotide
Ophthalmic Drug Delivery
Vaccine Delivery
Pharmaceutical Analysis
Nanomedicine
Antibody Targeting
Vaccine Drug Delivery Systems
Pharmaceutical Formulation
Drug Targeting and Design
Drug–Receptor Interactions
CNS Drug Delivery
Smart Drug Delivery Systems
Biopharmaceutics
Oral Drug Delivery
Pharmaceutical Nanotechnology
Protein/Peptide Delivery
Pharmaceutical nanotechnology
Autonomous Robots Swarm Robotics Robot Ethics and Safety Robot Motion Planning and Control Robot Learning and Adaptation Human-Robot Interaction Soft Robotics Medical and Surgical Robotics Field Robotics Machine Learning Algorithms and Models Computer Vision and Image Processing Explainable AI and Interpretability AI for Robotics and Autonomous Systems Knowledge Representation and Reasoning AI in Finance and Banking
Sustainable Infrastructure:
Green and eco-friendly construction practices, Ecosystem restoration, Green infrastructure and Biodiversity conservation, Renewable energy projects and integration, Sustainable materials for construction, Energy, Environment and Sustainability
Innovations in Construction Technology
3D printing and modular construction, Use of advanced materials, Robotics and automation in construction, Implementation of IoT in infrastructure
Integration of Technology:
Applying Building Information Modeling (BIM),
Structural Simulations using Finite Element Analysis (FEA) and other computational tools , Real-time structural health monitoring
Applications of AI/ML techniques in infrastructure development
Resilient Infrastructure:
Infrastructure resilience to natural disasters, Adaptive and resilient design of structures, Safety and risk mitigation, Climate change adaptation in infrastructure planning, Robust disaster recovery strategies, Disaster and climate risk resilience, Climate change adaptation and mitigation, Smart Cities and Urban Resilience
Transportation Infrastructure Development:
Economic, social, energy, and environmental issues in transportation, Transportation Safety, Transport and land use development for sustainability, Traffic management and intelligent transportation systems, Public transportation and para-transit, Sustainable freight transportation, Pavement materials, Transportation infrastructure design, construction, and maintenance, Transport infrastructure asset management,
Water and sanitation infrastructure:
Sustainable water resource management, Innovations in wastewater treatment, Access to clean water in urban and rural areas
Clean Environment:
Waste Management, Circular Economy and Resource Recovery, Air Quality and Pollution Control, Emerging Contaminants and Mitigation Strategies
Environmental Impact Assessment (EIA),
Sustainable Geotechnics :
Sustainable Materials for Geotechnical Applications, Soil-structure interaction, Geotechnical issues due to vibrations, Ground improvement techniques, Case studies on failures and their forensic analysis, Deep soil mixing and ground reinforcement
Innovative foundation systems, Rock Mechanics and Rock Engineering.
5G Wireless Communications
Wireless Sensor Networks
Graphics and Image Processing
Signal And Image Processing
DSP Architectures
Microelectronics, Circuits and Systems
Low Power VLSI Circuits
Remote Sensing
Electromagnetics
Antenna, Smart Antennas
Microwave Engineering And Microwave Circuits
Embedded Systems
Biomedical Image Processing
Machine Learning
Millimeter Waves
Internet Of Things
Computer Vision and Pattern Recognition
Big Data
Quantum Computing
Green IT and IT for rural Engineering
Mobile Computing and Applications
Artificial Intelligence
Optimization Algorithms
Information Technologies
Biomedical Signal Processing
Broadband Mobile Communications
MIMO Systems
Deep Learning for Communication Systems
Soft Computing
Data Mining
Intelligent Autonomous Systems
Human Computer Interface
Information Security
Bioinformatics
Wireless Networks and Information Security
Network Security
Next-generation Networking Technologies
Computer Vision and Architecture
Mobile Security
Nano Computing
Intelligent Computing in Sensors
Intelligent and Computer Vision Instruments
Measurement in Robotics
Computational Neuro Science
Industrial Automation
Analysis And Design Of Control Systems
Power System Modeling And Analysis
High Voltage Direct Current(HVDC)
Power Electronics and Drives
Electric Vehicle Technology
Smart Grid
Renewable Energy Systems
Power System Protection
Power Electronics and Drive Control Techniques
RFID and Cognitive Radio
Ad-Hoc Networks
Real Time Operating Systems
Track — 1 | Experiential Intelligence in User-Centric Networking
AI-driven user-centric networking
Personalized content delivery using AI
Context-aware networking and ambient intelligence
Human-centric AI interfaces for networking
AI-driven augmented and virtual reality
Emotional intelligence in human-AI collaboration
Adaptive user experience through deep learning
Track — 2 | Cognitive Networks for Autonomous Connectivity
Reinforcement learning for self-optimizing networks
Explainable AI in autonomous decision-making
Swarm intelligence in network resource allocation
Federated learning for edge intelligence
Self-healing and self-configuring network architectures
Quantum-inspired algorithms for network optimization
Bio-inspired networking models and Neuro-inspired computing
Track — 3 | Next-Generation Communication Technologies
B5G and AI synergy for enhanced connectivity
AI applications in software-defined networking
Virtualization and AI in communication networks
Blockchain and AI for secure communication
Quantum computing and communication
AI driven network security analytics
Cognitive radio networks
AI-driven network slicing
Collaborative intelligence in communication systems
1. Materials Science and Engineering
2. Minerals, Metals and Materials in Industry
3. Materials Physics
4. Materials Chemistry
5. Surface Science and Engineering
6. Biomaterials and Medical Devices
7. Nanomaterials and Nanotechnology
8. Batteries and Solid Electrolyte Materials
9. Structural Materials and Metallurgy
10. Advanced Materials and Nanotechnology
11. Biomaterials and Healthcare
12. Energy Materials
13. Composite Materials
14. Functional Materials
15. Crystallography
16. Materials Synthesis And Processing
17. Polymers
18. Ceramic Materials
19. Nanostructured Materials
20. Emerging smart material
yes
Acl Reconstruction, Arthroplasty, Arthroscopic surgery, Arthroscopy, Join Infections, Fractures, Hip Arthroplasty, Hip Arthroscopy, Hip Replacement, Joint Replacement, Knee Arthroplasty, Knee Arthroscopy, Knee Replacement, Musculoskeletal Disorders, Orthopaedic trauma, Sports medicine, Orthopedic Surgery, Orthopedics, Orthopedics Conference, Orthopedics conferences, Orthropedic Surgery, Pediatric Orthopedics, rotator cuff surgery, shoulder replacement, spinal surgery, Orthopaedics
PCOS and Fertility
PCOS and Women Health
PCOS: Nutrition Strategy and Diet
Immunological Approaches of fertility
Reproductive and Metabolic Disorders
Gynecological Endocrine Disorders in PCOS
Complications during Pregnancy
Bariatric Surgery in PCOS
PCOS and Stem Cell Treatment
Epidemiology and Pathophysiology
Advanced Research in the treatment of PCOS System
Surgery
Endoscopic Surgery
Surgical Techniques
Thoracic Surgery
Orthopedic Surgery
Eye Surgery
Minimally Invasive Surgery
Surgical Pathology
Clinical Surgery
Cardiac Surgery
Otolaryngology - Head and Neck Surgery
General anesthesia
Pain control
Anti-inflammatory drugs
Surgical anesthesia
Critical Care
Endocrine Surgery
Anesthesiology
Postoperative Care
Analgesics
https://europe.nursingconference.com/poster-competition.php
Biometrics, Forensics, Content Protection
Medical Image Analysis
3D Image/ Video Processing
Image Enhancement /Super Resolution / Restoration
Image/ Video Processing for Autonomous Vehicles
Activity Detection/ Recognition
Segmentation and Shape Representation
Human Computer Interaction
Computational Imaging
Visual Sensor Hardware
Document Image Analysis
Motion and Tracking
Image/ Video Scene Understanding
Image/ Video Retrieval
Image/ Video Security
Vision based Human GAIT Analysis
Document and Synthetic Visual Processing
Remote Sensing, Hyperspectral Image Processing
Datasets and Evaluation
Compressed Image/ Video Analytics
Face, Iris, Emotion, Sign Language and Gesture Recognition
The conference will accept paper related to Materials, Modeling, and Analysis for Sustainable and Resilient Infrastructural systems. Following are the broad thematic areas of the conference:
Sustainable construction materials,
Sustainable construction practices and management,
Resilient infrastructure,
Structural Health Monitoring,
Climate Change and Sustainability,
Geo mechanics and modeling,
Sustainable Geotechnique,
Traffic modeling, Sustainable pavement material and design,
Intelligent Transportation systems,
Sustainable water and waste water treatment,
Disaster Management, and
Geo spatial applications.
• Advances in Coronary Artery Disease Management
• Innovations in Myocardial Infarction Treatment
• Heart Failure: Diagnosis and Therapeutic Strategies
• Novel Approaches to Arrhythmia Management
• Updates in Valvular Heart Disease Interventions
• Hypertension: Emerging Therapies and Guidelines
• Cutting-edge Research in Cardiomyopathies
• Pediatric Cardiology: Pediatric Heart Diseases and Interventions
• Interventional Cardiology: Latest Techniques and Outcomes
• Ications Cardiovascular Imaging: Advances in Technology and Appl
• Prevention and Management of Atrial Fibrillation
1. Gynecology and Obstetrics
2. Reproductive Endocrinology and Infertility
3. Gynecologic Oncology
4. Pediatric and Adolescent Gynecology
5. Urogynecology and Pelvic Floor Disorders
6. Contraception and Family Planning
7. Menopause and Hormone Therapy
8. Minimally Invasive Surgery
9. Cosmetic Gynecology
10. Maternal-Fetal Medicine
11. Prenatal Care and Screening
12. Labor and Delivery
13. Midwifery
14. Postpartum Care
15. Perinatal and Neonatal Care
16. Obstetric Emergencies
17. Ethics and Patient Care in Gynecology and Obstetrics
18. Innovations and Future Directions
19. Research and Case Studies in Gynecology and Obstetrics
• Neonatology
• Pediatric Otolaryngology
• Perinatology
• Pediatric Dermatology
• Pediatric Dentistry
• Pediatric Pulmonology and Heart Disease
• Pediatric Nutrition
• Pediatric Wound Care
• Pediatric Healthcare
• Pediatric Endocrinology
• Pediatric Nephrology
• Pediatric Orthopedics
• Child Psychology and Mental Health
• Pediatric Surgery and Nursing care
• Pediatric Oncology
• Pediatric Infectious Disease
• Pediatric Emergency Medicine and Critical Care
• Clinical case study of Pediatric and Healthcare
• Pediatric Pharmacology
• Healthcare and Midwifery
• Pediatric Anesthesia
• Neonatology
• Pediatric Otolaryngology
• Pediatric Dermatology
• Pediatric Dentistry
• Pediatric Pulmonology and Heart Disease
• Pediatric Nutrition
• Pediatric Gastroenterology
• Pediatric Nephrology
• Pediatric Endocrinology
• Pediatric Orthopedics
• Pediatric Surgery
• Pediatric Oncology
• Pediatric Infectious Disease
• Child Psychology and Mental Health
• Pediatric Pharmacology
• Pediatric Healthcare and Nursing
• Pediatric Emergency Medicine and Critical Care
• Healthcare and Midwifery
• Pediatric Woundcare
• Perinatology
• Pediatric Anesthesia
• Preventive Medicine and Community Health
• Clinical case study of Pediatric and Healthcare
Popular states.
Microsoft 365 Life Hacks > Organization > How to use AI to plot out your ideal bike path
Bicycling is one of the most popular forms of exercise, and it’s a great way to get outdoors and improve your cardiovascular health. The key to getting the most out of your bike ride is finding the ideal bike path: one that’s safe, smooth, and relatively protected from traffic and urban obstacles. If you’re looking for a safe path close to home, or looking for a scenic experience while on vacation, you can use AI to plan ahead so you can ride like a local when you reach your destination.
With the popularity of cycling as a hobby, many bike paths have been integrated into the urban landscape as an easy, efficient, and environmentally friendly way to get around cities. In suburban and less-developed areas, many former railroads have been transformed into rail trails that are made for casual riders and those training for races alike. In between these places are bike paths around parks, which offer a natural oasis in large cities like New York and Chicago.
Depending on where you’re riding, you may not always have access to the following elements. However, prioritizing them is key to an enjoyable ride:
Additionally, depending on the physical challenge that you’re looking for, a scenic bike path may have gentle elevation changes, sweeping views of nature, city skylines, or stretches where you can ride fast.
Elevate your writing and collaborate with others - anywhere, anytime
You may already be familiar with asking AI how to plan a trip —and its ability to compile information from thousands of websites. Here are ways you can use AI to plan your next bike ride:
AI has the ability to transform our relationship to fitness , such as using AI to plan realistic goals . Similarly, AI can be handy in helping us generate a bicycle path with an emphasis on safety, visibility, and above all, fun. Learn more about the helpfulness of generative AI here .
It’s the Office you know, plus the tools to help you work better together, so you can get more done—anytime, anywhere.
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Many readers are probably wondering why their Tampa Bay Times on Sunday didn’t have news of an assassination attempt against former President Donald Trump. It’s a fair question.
For the past three years, we’ve printed our Wednesday and Sunday newspapers in Lakeland. Most readers have grown accustomed to the reality that evening sports scores and late-breaking news won’t arrive in the printed version of the paper. Still, it can be jarring when absent. Glaringly so, when the news is momentous.
The front page for Sunday’s paper is normally the last page we send on a Saturday. The July 14 edition was no different. We approved the last page and transmitted it to the Lakeland plant at 4:49 p.m. — an hour and 25 minutes before the shooting in Pennsylvania.
As soon as we became aware of the circumstances at the Trump campaign rally in Butler, Pennsylvania, a team of newsroom staffers reassembled to publish the news on tampabay.com . We sent a mobile push alert and a special newsletter to all subscribers and posted the stories on social media. A staff-written story that included responses to the shooting from around Florida and beyond generated about 225,000 page views in a mere matter of hours.
A separate team tackled the front page for print.
It would be the first time we called to “stop the presses” for a news event since we moved our printing operations to Lakeland in 2021.
But there would be challenges.
By the time the Associated Press moved its first alert at 6:45 p.m., the presses in Lakeland were already running. Details were still sketchy. At that point, authorities had not confirmed that a shooting occurred. The first alerts from the wires described what had happened as “an apparent shooting.”
We went about remaking the front page to catch as many of the printed papers as possible. Even when the presses stop, time marches on. We pushed to get the news out as soon as possible to resume the press run.
Instead of remaking multiple pages, which would have taken considerably longer, we removed the centerpiece photograph on a story about heat exposure at summer camps and prepared to substitute a photo from the Associated Press in Pennsylvania. By then, most of the printed newspapers were already off the presses, set to be sorted and prepared for delivery trucks for the drive back to Tampa Bay.
At 7:32 p.m. we sent a front page with a photo and caption of former President Trump, blood streaking across his face, his fist pumped in the air, surrounded by Secret Service agents.
Our front-page remake caught about 12,000 copies of the paper, a fraction of the total print circulation. Given the timing of the news, we were able to provide only limited information in the caption while referring readers to tampabay.com for more coverage. I commend the newsroom for doing what we could under the circumstances. But in hindsight, you always wonder if we could have done more. Some readers who didn’t get the final edition in print accused us of deliberate bias for ignoring a huge news story. Some who did get the remade front page still felt we underplayed such consequential news. It’s a legitimate criticism without the context of early print deadlines and a ticking clock.
The newsroom got a fuller story of the shooting onto page 3A for the e-Newspaper. That version included Trump’s statement about being shot. In the meantime, we kept updating the website through the evening and early Sunday morning.
We lean on our three distinct products — the printed newspaper, the e-Newspaper replica version and our 24/7 website — to bring you the news. Each product has strengths and weaknesses. Together, they fill gaps the others can’t.
In print, the Times provides analysis, depth and enterprise reporting, expertly curated, designed and packaged in a news magazine format. The e-Newspaper offers that same curated approach, with some additional content, in a digital format. And tampabay.com serves as our main vehicle to share breaking news. Together, these three products work to provide the most complete picture of the news.
The Tampa Bay Times e-Newspaper is a digital replica of the printed paper seven days a week that is available to read on desktop, mobile, and our app for subscribers only. To enjoy the e-Newspaper every day, please subscribe.
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Researchers from the Singapore-MIT Alliance for Research and Technology (SMART), MIT’s research enterprise in Singapore, have developed a novel way to produce clinical doses of viable autologous chimeric antigen receptor (CAR) T-cells in a ultra-small automated closed-system microfluidic chip, roughly the size of a pack of cards.
This is the first time that a microbioreactor is used to produce autologous cell therapy products. Specifically, the new method was successfully used to manufacture and expand CAR-T cells that are as effective as cells produced using existing systems in a smaller footprint and less space, and using fewer seeding cell numbers and cell manufacturing reagents. This could lead to more efficient and affordable methods of scaling-out autologous cell therapy manufacturing, and could even potentially enable point-of-care manufacturing of CAR T-cells outside of a laboratory setting — such as in hospitals and wards.
CAR T-cell therapy manufacturing requires the isolation, activation, genetic modification, and expansion of a patient’s own T-cells to kill tumor cells upon reinfusion into the patient. Despite how cell therapies have revolutionized cancer immunotherapy, with some of the first patients who received autologous cell therapies in remission for more than 10 years, the manufacturing process for CAR-T cells has remained inconsistent, costly, and time-consuming. It can be prone to contamination, subject to human error, and requires seeding cell numbers that are impractical for smaller-scale CAR T-cell production. These challenges create bottlenecks that restrict both the availability and affordability of these therapies despite their effectiveness.
In a paper titled “ A high-density microbioreactor process designed for automated point-of-care manufacturing of CAR T cells ” published in the journal Nature Biomedical Engineering , SMART researchers detailed their breakthrough: Human primary T-cells can be activated, transduced, and expanded to high densities in a 2-mililiter automated closed-system microfluidic chip to produce over 60 million CAR T-cells from donors with lymphoma, and over 200 million CAR T-cells from healthy donors. The CAR T-cells produced using the microbioreactor are as effective as those produced using conventional methods, but in a smaller footprint and less space, and with fewer resources. This translates to lower cost of goods manufactured (COGM), and potentially to lower costs for patients.
The groundbreaking research was led by members of the Critical Analytics for Manufacturing Personalized-Medicine (CAMP) interdisciplinary research group at SMART. Collaborators include researchers from the Duke-NUS Medical School; the Institute of Molecular and Cell Biology at the Agency for Science, Technology and Research; KK Women’s and Children’s Hospital; and Singapore General Hospital.
“This advancement in cell therapy manufacturing could ultimately offer a point-of-care platform that could substantially increase the number of CAR T-cell production slots, reducing the wait times and cost of goods of these living medicines — making cell therapy more accessible to the masses. The use of scaled-down bioreactors could also aid process optimization studies, including for different cell therapy products,” says Michael Birnbaum, co-lead principal investigator at SMART CAMP, associate professor of biological engineering at MIT, and a co-senior author of the paper.
With high T-cell expansion rates, similar total T-cell numbers could be attained with a shorter culture period in the microbioreactor (seven to eight days) compared to gas-permeable culture plates (12 days), potentially shortening production times by 30-40 percent. The CAR T-cells from both the microfluidic bioreactor and gas-permeable culture plates only showed subtle differences in cell quality. The cells were equally functional in killing leukemia cells when tested in mice.
“This new method suggests that a dramatic miniaturization of current-generation autologous cell therapy production is feasible, with the potential of significantly alleviating manufacturing limitations of CAR T-cell therapy. Such a miniaturization would lay the foundation for point-of-care manufacturing of CAR T-cells and decrease the “good manufacturing practice” (GMP) footprint required for producing cell therapies — which is one of the primary drivers of COGM,” says Wei-Xiang Sin, research scientist at SMART CAMP and first author of the paper.
Notably, the microbioreactor used in the research is a perfusion-based, automated, closed system with the smallest footprint per dose, smallest culture volume and seeding cell number, as well as the highest cell density and level of process control attainable. These microbioreactors — previously only used for microbial and mammalian cell cultures — were originally developed at MIT and have been advanced to commercial production by Millipore Sigma.
The small starting cell numbers required, compared to existing larger automated manufacturing platforms, means that smaller amounts of isolation beads, activation reagents, and lentiviral vectors are required per production run. In addition, smaller volumes of medium are required (at least tenfold lower than larger automated culture systems) owing to the extremely small culture volume (2 milliliters; approximately 100-fold lower than larger automated culture systems) — which contributes to significant reductions in reagent cost. This could benefit patients, especially pediatric patients who have low or insufficient T-cell numbers to produce therapeutic doses of CAR T-cells.
Moving forward, SMART CAMP is working on further engineering sampling and/or analytical systems around the microbioreactor so that CAR-T production can be performed with reduced labor and out of a laboratory setting, potentially facilitating the decentralized bedside manufacturing of CAR T-cells. SMART CAMP is also looking to further optimize the process parameters and culture conditions to improve cell yield and quality for future clinical use.
The research was conducted by SMART and supported by the National Research Foundation Singapore under its Campus for Research Excellence and Technological Enterprise (CREATE) program.
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In this blog post, we provide you with a step-by-step guide to craft a well-rounded presentation with 20 technology topics for presentation to captivate your audience and showcase your expertise.
April 14, 2024 We bring you the latest Paper Presentation Topics for Computer Science Engineering. Click on the topic name to read in detail. These topics give an idea of what topic to choose and what information needs to be included as part of a technical paper. Technical papers have been written in a standard format.
The latest technical seminar topics are based on tech trends that students and professionals should select for presentation and add to their skillset.
Are you looking for impactful presentation topics that can hook any audience? Check out this blog for 350+ interesting topics and more!
So, get ready to explore 150+ presentation ideas that will help you make an impact instantly. How to Choose the Best Presentation Topic: Step-by-Step Process Picking the right presentation topic is like winning half the battle before you even begin. After selecting your topic, you'll focus on content creation and presentation design.
This article includes 1000 examples of presentation topics, ideas, and themes that students and other people can use for free in 2024.
Below is the list of information technology presentation topics. This updated list of IT-related presentation topics covers general, latest and best trends. Students & researchers can use these IT topics for PowerPoint (PPT) presentations, Webinars, Seminars, Conferences, Oral Speeches, Oral presentations, Individual or Group presentations.
Looking for Latest Technical Paper Presentation Topics? Look no further! We at Management Hub, have a curated list of presentation topics. Explore the collection of 100+ technical paper presentation topics which includes almost every topics including the current trends.
In this article, we will explore the hot presentation trends for 2023 and how you can use them effectively in your next presentation.
Discover the latest and hottest paper presentation topics for CSE students. Learn how to create engaging and impressive CSE PPTs with Presentory.
Presentations are a way to research and learn from a topic. Good topic, content, and delivery are essential to communicate ideas better. In this article, we will discuss paper presentation topics for engineering students. In addition to making a PPT presentation, we'll learn about an AI tool for this purpose.
This Article List Outs Latest Paper Presentation Topics (PPTs) for ECE and EEE Engineering Students to Select a Best PPT Topic in Engineering.
Part 1: Current Affairs Topics for Presentation 2023 Are you ready to explore current affairs topics? Here are 10 examples that can help in choosing the best presentation topic.
Below is the list of the latest topics for presentations. These newly updated trending topics can be used for paper presentation, poster presentation, seminars, webinars, conferences, classroom presentations etc. Hope these recent PPT topics will help engineering, management and commerce students.
Looking for technical paper presentation topics for Electronics Engineering? Visit this page to get some unique ECE technical topics.
A strong presentation is so much more than information pasted onto a series of slides with fancy backgrounds. Whether you're pitching an idea, reporting market research, or sharing something ...
Face, Iris, Emotion, Sign Language and Gesture Recognition. 19 Dec 2024. Indian Institute of Information Technology Design and Manufacturing IIITDM Kancheepuram. Chennai. The conference will accept paper related to Materials, Modeling, and Analysis for Sustainable and Resilient Infrastructural systems.
To make your information and findings more accessible, you might need to transform an academic or white paper into a slideshow presentation. Whether you're a student presenting your research, a professional conveying a proposal, or someone simply looking to share ideas, turning a paper into a presentation is much easier than it seems.
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Times editor explains efforts to reach readers when big news occurs after the print paper deadline.
Researchers devised a way to miniaturize cell production for cancer treatment. The method for producing CAR-T cells, developed at the Singapore-MIT Alliance for Research and Technology, uses fewer resources and a smaller footprint than existing automated manufacturing platforms and could lead to more affordable methods of cell therapy manufacturing.
Oral Presentation: you will present in person at the conference venue for about 20 minutes. Poster Presentation : During the collective poster session, you will stand next to your poster and share the important points of your paper.
Navigating unsolicited ideas, advice, or suggestions at work is a common scenario. Consider the colleague who jumps in with a barrage of "Have you considered…?" or "What about ...