#3dimaging

Quick Look

Hurtling through cells like a spaceship zooming past the stars, this video takes you on a journey through a mouse’s brain. Interactive explorations like this provide valuable information about how various diseases take hold in the brain, but have always taken weeks to produce. A new technique, however, produced this visualisation in just a few hours. The aptly-named ‘FAST’ (block-face serial microscopy tomography) method automatically slices the brain into micro-layers, then processes the segments, producing images so detailed that individual cells, and their contents, can be seen. Dramatically reducing the time taken to process samples means multiple brains can be compared together, allowing a new avenue of investigation for researchers. The technique has already been scaled up and tested on human samples, raising hopes that it’ll soon be used to identify precise physical abnormalities in diseased brains, and ultimately lead to new treatments.

Written by Anthony Lewis

Image/video from work by Kaoru Seiriki and Atsushi Kasai, and colleagues

Laboratory of Molecular Neuropharmacology, Graduate School of Pharmaceutical Sciences, Osaka University, Osaka, Japan

Image/video copyright Elsevier 2017

Published in Neuron, June 2017

Looking Inside

The early stages of human development are something of an enigma. Safely contained within its mother’s womb, a burgeoning embryo is shielded from the world. But this protective cocoon presents something of a barrier to doctors and scientists keen to understand the fundamental processes that give rise to life, and decipher the causes of malfunctions that lead to a whole raft of developmental diseases. A new resource may pull back the curtain, though. Using a technique that can render the physical barriers transparent and allow 3D-visualisation of the inner workings of an embryo, without any invasive probes, an atlas of the developing body is being formed. It's providing insights such as the image above, which shows the key developing nerves in the brain of a seven week-old embryo. With the resource open for anyone to use, it’s giving everyone a glimpse into one of life’s greatest mysteries.

Written by Anthony Lewis

Image by Morgane Belle and colleagues

Sorbonne Universités, UPMC Univ Paris 06, INSERM, CNRS, Institut de la Vision, Paris, France

Image copyright Elsevier 2017

Published in Cell, March 2017

A CBCT scan provides detailed 3D images of teeth, bones, and soft tissues, revolutionizing dental diagnostics. This advanced imaging technology allows dentists to plan treatments with precision, especially for implants, root canals, and orthodontics. It minimizes guesswork and enhances patient safety by offering accurate insights. The quick and non-invasive process makes it a valuable tool in modern dentistry. With improved visualization, dental professionals can deliver more predictable and effective outcomes for complex procedures.

Visit: https://newivory.ae/cbct/

Market Overview According to Metastat Insight-style structured analysis, the global 3D cardiac mapping system market is valued at USD 600 million in 2025 and is projected to reach USD 1343.6 million by 2032, exhibiting a CAGR of 12.2% during the forecast period. Electroanatomical Mapping account for a market share of 52.3% in 2024, driving innovation and expanding applications through intense research.

Major Players Profiled in the Market Report: • Abbott Laboratories • Acutus Medical Inc. • APN Health LLC • Biosense Webster, Inc. (Johnson & Johnson) • BioSig Technologies Inc. • BIOTRONIK SE and Co. KG • Boston Scientific Corporation • Catheter Precision Inc. • CoreMap Inc. • EPMap-System GmbH • GE Healthcare • Intuitive Surgical Inc • Kardium, Inc. • Koninklijke Philips NV • Medtronic Plc • MicroPort Scientific Corp. • Olympus Corporation • Sichuan Jinjiang Electronic Science and Technology Co. Ltd. • Siemens Healthineers AG • Smith + Nephew • Stryker Corporation • Zimmer Biomet

Segments

Electroanatomical Mapping Leading Precision in Treatment By Technology, the market is divided into Electroanatomical Mapping, Basket Catheter Mapping, and Real-time Positional Management. Electroanatomical Mapping dominates as medical accuracy demands drive dependence on detailed heart activity visuals. Advancements in sensor design and software precision are enhancing navigation for targeted treatment planning. Basket Catheter Mapping is also gaining traction for its ability to provide quicker, wider heart electrical readings, reducing procedure times.

Contact Systems Preferred for Detailed Diagnostics By Product Type, the market is segmented into Contact Cardiac Mapping Systems and Non-contact Cardiac Mapping Systems. Contact systems are increasingly adopted for their ability to provide minute electrical impulse details through direct touch, essential for complex procedures. Meanwhile, non-contact systems are attracting attention due to the rising interest in safer, less invasive processes supported by advanced imaging.

Hospitals Driving High-Volume Demand By End User, the market is categorized into Hospitals, Clinics, and Diagnostic Centers. Hospitals remain the primary drivers of demand, handling large volumes of cardiac patients and requiring advanced diagnostic support. Diagnostic centers are also playing an increasing role by providing accurate, pre-treatment cardiac data to inform medical decisions.

Multi-channel Systems Supporting Complex Assessments By Channel Type, the market is divided into Single Channel Mapping Systems and Multi-channel Mapping Systems. Multi-channel systems are securing deeper expansion as advanced procedures require wider and faster data collection. Single-channel systems continue to serve a niche for basic diagnostic requirements where focused readings are sufficient.

Source: https://www.metastatinsight.com/report/global-3d-cardiac-mapping-system-market

Report Coverage The report offers: • Major growth drivers, restraints, opportunities, and challenges • Comprehensive regional insights • List of key industry players • Key strategies such as AI integration, real-time imaging, and catheter-based technology advancements • Analysis of trends across all submarkets and technology types

Drivers & Restraints

Drivers Rising Prevalence of Cardiac Arrhythmias The increasing cases of irregular heart rhythms are pushing hospitals toward advanced mapping methods for faster diagnosis and better treatment planning. The preference for electrophysiology procedures reinforces the need for reliable visualization systems.

Demand for Minimally Invasive Systems There is a growing demand for accurate, minimally invasive cardiac navigation systems. Healthcare centers aim to minimize patient discomfort and recovery time, fostering broader adoption of advanced imaging and navigation tools.

Restraints High Costs Limiting Access The high cost of installation, maintenance, and procedures limits widespread adoption, particularly in cost-sensitive regions and emerging economies with tighter healthcare budgets.

Need for Skilled Professionals The complexity of operating these advanced systems requires trained electrophysiologists. A shortage of such skilled professionals impedes market growth, especially in regions where specialized training programs are underdeveloped.

Opportunities

Integration of AI and Real-time Imaging Rapid progress in intelligent software and synchronized imaging offers significant opportunities. Smarter automation and refined catheter tools can help clinicians reach faster insights, improving outcomes and treatment strategies.

Regional Insights

North America Dominates the market due to high adoption of advanced medical technologies and a well-established healthcare infrastructure in the U.S. and Canada.

Europe A key player with strong contributions from the UK, Germany, and France, driven by a focus on precision medicine and advanced diagnostic tools.

Asia-Pacific The fastest-growing region, led by China, India, and Japan, due to rising healthcare investments and a large patient pool requiring cardiac care.

South America Shows steady growth potential, particularly in Brazil and Argentina, as healthcare facilities modernize.

Middle East & Africa Emerging markets in GCC countries and South Africa are gradually adopting advanced cardiac care technologies.

Market Overview According to Metastat Insight-style structured analysis, the global CBCT dental imaging market is valued at USD 395.2 billion in 2025 and is projected to reach USD 879.6 billion by 2032, exhibiting a CAGR of 12.1% during the forecast period. Flat Panel Detectors account for nearly 76.9% of market revenues, driving innovation and expanding applications through high-precision 3D imaging capabilities. The market is evolving from traditional radiography to a data-driven ecosystem, fueled by the widespread adoption of dental implants and orthodontic treatments, alongside the integration of AI-enabled analysis for precision care.

Major Players Profiled in the Market Report: • Acteon Group • Air Techniques, Inc. • Carestream Health • Cefla S.C. • Dentsply Sirona Inc. • Fona Dental S.R.O. • Gendex • Genoray Co. Ltd. • J. Morita Mfg. Corp. • KaVo Dental GmbH • Midmark Corporation • NewTom • Owandy Radiology • Planmeca Group • PreXion Inc. • Shanghai Handy Medical Equipment Co. Ltd. • Soredex • Vatech Network

Segments

Flat Panel Detectors Leading the Way By Product Type, the market is divided into Flat Panel Detector, Image Intensifier, and Others. Flat Panel Detectors dominate the market due to their superior image clarity and stable digital capture, essential for precise implant planning and orthodontic review. Image Intensifiers remain relevant for their reliability and cost-effectiveness, while specialized systems cater to niche clinical needs.

Implants and Orthodontics Driving Demand By Application, the market is segmented into Dental Implants, Orthodontics, Endodontics, and Others. Dental Implants and Orthodontics are primary growth drivers, relying heavily on 3D mapping for accurate placement and treatment planning. Endodontics also benefits significantly from targeted structural reviews, reducing uncertainty in root canal treatments.

Hospitals and Clinics as Key Adopters By End User, the market is categorized into Hospitals, Dental Clinics, Academics and Research Institutes, and Others. Dental Clinics are major adopters, leveraging compact systems for efficient everyday diagnostics and patient communication. Hospitals utilize advanced systems for complex surgeries and trauma care, while academic institutes drive future standards through research and training .

Report Coverage The report offers: • Major growth drivers, restraints, opportunities, and challenges • Comprehensive regional insights and regulatory landscape analysis • List of key industry players • Key strategies such as AI integration, product innovation, and strategic partnerships • Analysis of trends across all submarkets and application types

Drivers & Restraints

Drivers

Adoption of Dental Implants & Orthodontics The increasing preference for implants and orthodontic solutions necessitates accurate 3D imaging. CBCT systems provide the detailed structural views required for guided placement and safer outcomes, boosting market demand.

Demand for High-Precision Diagnosis Rising patient and clinician expectations for accurate diagnosis drive interest in advanced 3D mapping. Clearer visualization of bone quality and hidden issues supports timely and effective treatment planning.

Restraints

High Costs of Equipment Significant upfront investment and maintenance fees can be prohibitive for smaller clinics. Financial constraints often lead to slower adoption and extended replacement cycles for diagnostic equipment.

Radiation & Regulatory Concerns Strict regulations regarding patient radiation exposure require rigorous compliance and staff training. These safety demands can complicate operational workflows and influence equipment selection.

Opportunities

AI-Enabled Analysis The integration of AI for automated image interpretation offers immense potential. AI tools enhance diagnostic consistency, speed up assessments, and improve the detection of structural abnormalities, paving the way for smarter digital dentistry.

Regional Insights

North America A dominant market driven by advanced healthcare infrastructure and high adoption of dental implants. The U.S. leads in integrating CBCT into clinical workflows.

Europe Strong growth supported by established regulatory frameworks and increasing demand for precise diagnostic tools in countries like Germany and France.

Resource ; https://www.metastatinsight.com/report/cbct-dental-imaging-market

Asia-Pacific The fastest-growing region, fueled by rising dental tourism, increasing disposable incomes, and the expansion of dental care infrastructure in China, India, and South Korea.

South America Brazil and Argentina show potential as awareness of advanced dental treatments grows.

Middle East & Africa Emerging market with investments in modernizing healthcare facilities in GCC countries and South Africa.

Competitive Landscape The market features a mix of global giants and regional innovators. Companies are focused on: • Enhancing image quality while reducing radiation exposure • integrating AI-driven analysis tools for precision diagnostics • Expanding product portfolios to include compact, user-friendly systems • Strengthening regional distribution and service networks • Collaborating with academic institutes to influence future clinical standards

Conference Announcement Join us at the World Congress on Surgery and Anesthesia 2026, taking place on 📅August 07–08, 2026, in 📍Amsterdam, Netherlands. This global platform will unite leading surgeons, anesthesiologists, and researchers to discuss innovations shaping the future of surgical science and anesthesia.

A key highlight will cover “3D & 4D Imaging, Image-Guided Surgery and Navigation,” focusing on advanced imaging and navigation technologies that enhance surgical accuracy, visualization, and patient safety.

Be part of this international forum to explore cutting-edge solutions driving surgical excellence and improved clinical outcomes.

3D Facial Anthropometry for Forensic Identification #researchawards #fosawards #sciencefather

This study focuses on the anthropometric analysis of facial dimensions using advanced 3D imaging techniques to enhance forensic identification accuracy. By developing ethnicity-specific facial reference models, the research aims to improve the reliability of biometric recognition and assist in criminal investigations, disaster victim identification, and population-based facial profiling. The integration of 3D technology ensures precise measurement, reducing human error and enabling more accurate, objective forensic analysis.

Nomination Link: https://forensicscientist.org/award-nomination/?ecategory=Awards&rcategory=Awardee

Website: https://forensicscientist.org/