Forth Photonics's alternatives and competitors
ABT Molecular Imaging is a medical imaging company developing a production platform to generate unit doses of molecular imaging drugs. The Company developed the Biomark…
Third Eye Diagnostics is a company focused on the development of non-invasive technologies for the evaluation of intracranial pressure, operating in the medical technol…
Applied Spectral Imaging (ASI) develops imaging systems for the life sciences and health care sectors, focusing on the markets for pathology and cytogenetics, which is …Forth Photonics vs. Applied Spectral Imaging
- Customer References and more
Genetic Signatures is a molecular diagnostics company operating in the healthcare industry. The company offers streamlined sample processing methods and highly multiple…
Micronics is advancing a portfolio of point of care products for disease detection, diagnosis and treatment monitoring. The company employs an estate in microfluidics a…Forth Photonics vs. Micronics Microfluidics
- Customer References and more
EraGen provides clinical laboratories and medical researchers with molecular assays for the early detection and monitoring of diseases. The company's patented MultiCode…
Top 10 Forth Photonics competitors
Compare Forth Photonics to Competitors
Seno Medical is a medical imaging company. It develops and markets optoacoustic imaging technology for cancer diagnosis. It offers Imagio, a breast imaging system that combines laser optics and ultrasound technology to provide fused functional and anatomical breast imaging in real-time. It was founded in 2005 and is based in San Antonio, Texas.
Kjaya is a company that received a SBIR Phase I grant for a project entitled: Semi-Autonomous Adaptive Neural and Genetic Segmentation of Medical Images. Their Phase I project will implement a physician-assisted, real-time adaptive system for the segmentation of anatomical structures in 3D medical image data. Medical image segmentation seeks to change the representation of an anatomical structure, making it more easily analyzed. Because of the extreme variability of these structures in biological systems, current idiosyncratic manual methods currently in use are tedious, time consuming, and error prone. Image segmentation cannot in general be programmatically solved. The proposed system is a Neural Network (NN) based adaptation of the individual data using parallel Graphics Processing Units (GPUs) and coupled with a Genetic Algorithm (GA) based adaptation across GPU cores. The system will build a diagnostically useful segmentation of the anatomical feature within seconds from an area of interest outlined by a physician using a Computed Tomography (CT) or Magnetic Resonance Imaging (MRI) scan. Fast growth in medical imaging overwhelms available diagnosticians. An intuitive and inexpensive system to quickly and accurately deliver diagnostic relevant segmentation of medical images offers tremendous commercial value. Currently, each scan requires approximately 50 minutes of manual preparation. The diagnosis and treatment of an estimated 20 percent of diseases benefit from medical imaging. Newer scanning technologies have increased in resolution, but such techniques have not made segmenting easier or faster. The proposed method will enable more diagnostics to be done with the quality controlled directly by physicians.
Orison Corporation was founded to design, manufacture and market a ultrasound technology platform for early breast cancer detection and diagnosis. Orison's technology aims to utilize Full Field Digital Ultrasound (FDDU) as an enabler that aims to allow the radiologist, for a time, to view breast tissue in a three dimensional environment. The outcome is earlier detection of breast cancer prior to metastasis, resulting in greater five-year survival rates and decreased treatment costs.
FMI Medical Systems specializes in the development and design of high-end medical imaging equipment within the healthcare technology sector. The company's main offerings include computed tomography (CT) systems and positron emission tomography/computed tomography (PET/CT) systems, which are used for advanced medical diagnostics. FMI primarily serves the healthcare industry, providing imaging solutions for clinical and molecular applications. It is based in Akron, Ohio.
Microwave Imaging Systems Technology was founded in 1995 by Dr. Keith Paulsen and Dr. Paul Meaney of the Thayer School of Engineering and has developed a microwave-based, breast imaging system which aims to provide high-contrast images for breast cancer diagnostics. Per the company, the NIH has invested more than $6 million to develop and demonstrate the MIST system for tumor imaging. The company reports that testing on more than 150 patients has shown excellent detection of breast tumors.
Optasia Medical specializes in healthcare technology, focusing on the identification and management of osteoporosis-related conditions. The company offers AI-powered software solutions that assist in detecting Vertebral Fragility Fractures, aiming to improve the efficiency of bone health teams and patient care. Optasia primarily serves the healthcare sector, with a focus on enhancing Fracture Liaison Services through improved case-finding for vertebral fracture patients. It is based in Cheadle, United Kingdom.