Deep Learning approach to determining scar volume from optical coherence tomography for evaluating the effectiveness of photography
Low-level laser therapy is applied to the skin surface with a low intensity laser, and OCT imaging is employed to observe volume changes in the stratum corneum and epidermis.
Microcirculation device is a medical tool designed to measure and analyze blood flow in the smallest blood vessels, or microvasculature, typically found in tissues like the skin or the organs. This device is crucial for studying how blood circulates at a micro level, helping researchers and medical professionals understand tissue health, detect circulation disorders, and monitor treatments
Infrared camera is a device that captures images using infrared radiation instead of visible light, enabling it to detect and visualize heat patterns. Unlike regular cameras, infrared cameras can "see" temperatures, displaying objects in various colors or shades based on their heat signatures. This makes them invaluable in applications like night vision, building inspections, and medical diagnostics, as they can detect temperature differences that are otherwise invisible to the naked eye.
Myoton is a non-invasive, handheld device used to measure muscle and tissue properties, including stiffness, elasticity, and tone. It provides a quantitative way to assess muscle health by delivering a gentle mechanical tap to the skin, causing the underlying muscle to respond with a small oscillation. The device then records these oscillations and analyzes them, giving insight into muscle condition.
The F-Scan system is placed on the foot sensors inside the subject's footwear or directly on their feet. Ensure they are correctly positioned to capture accurate pressure data.
RS-Scan are two modes of operation: 1) Static: Used to measure pressure when the person is standing still. 2) Dynamic: Used to measure pressure when the person is moving (walking, running, etc.).
3D printer is a device that creates threedimensional objects by layering material based on digital models. Using materials such as plastic, resin, metal, or even biological materials, 3D printers can construct intricate shapes and complex structures, allowing for rapid prototyping and custom manufacturing. The process typically involves slicing a 3D model into thin layers and then building each layer sequentially, following precise instructions from the digital file.
