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BioPhotonics Newsletter — AI Accelerates Skin Lesion Identification, Assessing the Extent of Laser Skin Damage, and more… (11/20/2024)

BioPhotonics Newsletter — AI Accelerates Skin Lesion Identification, Assessing the Extent of Laser Skin Damage, and more…

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Wednesday, November 20, 2024

Monthly newsletter focusing on how light-based technologies are being used in the life sciences. Includes news, features and product developments in lasers, imaging, optics, spectroscopy, microscopy, lighting and more. Manage your Photonics Media membership at BioPhotonics.com/subscribe.

AI Accelerates Skin Lesion Identification

Historically, the gold standard for diagnostics in dermatology has been histopathology, which is the examination of tissues and cells under a microscope. The tissue sample that is extracted from the patient for this purpose is called a biopsy. It is a standard routine that clinicians carry out daily — but new advancements in artificial intelligence and machine learning may be able to disrupt this process by drawing data from many contexts during image analysis. Read Article

Assessing the Extent of Laser Skin Damage

Lasers are currently used in many skin care applications. However, it is important to ensure proper handling and monitoring of the laser source to avoid damage to the skin tissue. Typical laser treatments that would occur in a clinic, dermatologist’s office, or cosmetic studio include skin tightening, skin resurfacing, tattoo removal, or targeted removal of malignant skin lesions. The power of the laser ranges from a few watts to 100 W. Read Article

Food Dye Curbs Light Scattering, Enables Live Tissue Imaging

The structure of biological tissues causes light to scatter, making optical imaging of the tissue difficult. Each biomaterial comprising the tissue, whether a fat, protein, or other type of biomolecule, has a different refractive index. The variety of refractive indices causes light to scatter as it passes through the tissue, making the tissue appear opaque. Also, the tissue absorbs light, which limits penetration depth. Read Article

Featured Products & Services

LS850 Fully Automated Microscope

Etaluma Inc.
The LS850 Microscope is the latest generation of our fully automated three-channel flagship model and offers the latest advances in optics, cameras, throughput, and user flexibility delivering image quality, motion speed, illumination, and software flexibility.

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CRISP Autofocus System

Applied Scientific Instrumentation Inc.
The Continuous Reflection Interface Sampling and Positioning system (CRISP) is designed to maintain focus over time. It substantially eliminates focus drift in high-power microscopy applications by sensing minute changes between the objective lens and the sample’s cover slip.

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Custom Microscopes and Optical Systems

Prior Scientific Inc.
Prior Scientific has developed OpenStand to offer a working platform to build OEM solutions and one-off customizations with excellent value for money and reduced development time. Whether developing new automation techniques and software or developing new imaging methods, you can quickly find that you need a microscope system tailored to your application.

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Photonics Spectra Reference Chart

Photonics Media
Updated in 2024! This full-color, 29.5 × 20.5-inch poster of the photonics spectrum displays the major commercial laser lines, detectors and optical materials in the ultraviolet to the far-infrared and beyond. The convenient format makes it easy to quickly find the information you need.

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Looking for something else? Check the Photonics Marketplace.

More News

Bifocal Lenses, with Liquid Crystal Bilayers, Allow Flexible Light Modulation
A bilayer, bifocal lens with adjustable focal points could allow more flexible modulation of light in applications for optical computing, bioimaging, AR and VR, and other areas. The lens, which was developed at Hunan University, is composed of bilayer structures made with a liquid crystal cell and liquid crystal polymer. Each liquid crystal layer has a different function in controlling light modulation. Read Article

Spectroscopic Headset Could Reveal Stroke Risk
Clinicians have historically been at a disadvantage in successfully identifying those at grave risk of having a stroke ahead of time. A team from the California Institute of Technology and Keck School of Medicine of the University of Southern California has created a headset based on relatively basic laser and detector technology that could be fitted on patients to dramatically change the health trajectory of those at risk. Read Article

OLED Tech Provides Optogenetic Light Source for Cochlear Implants
To advance the development of optical cochlear implants (oCIs), the Fraunhofer Institute for Photonic Microsystems (Fraunhofer IPMS) is collaborating with the Max Planck Institute for Multidisciplinary Natural Sciences and University Medical Center Göttingen to evaluate its OLED-on-silicon technology for use in optical cochlear implants. The IPMS team, which originally developed the technology for microdisplays, has created miniature OLED-on-silicon probes to use as optical stimulators in oCIs. Read Article

Next Issue

Features
Fluorescence Microscopy, NIR Spectroscopy, Terahertz Imaging, and LED Illumination

Photonics Media is currently seeking technical feature articles on a variety of topics for publication in our magazine BioPhotonics. Please submit an informal 100-word abstract to Senior Editor Doug Farmer at [email protected], or use our online submission form www.photonics.com/submitfeature.aspx.

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