Handheld Blood-Flow Imaging Device
§ Adds additional and valuable functionality to a commonly used device (dermatoscope) § Simultaneous blood flow imaging and visual inspection § Provides a portable, accurate solution for blood flow measurement § Small in size and easy to operate § Less expensive than commercially available technologies used to measure blood flow § Has equivalent capabilities to the bulky expensive devices
- Blood flow measurement - Skin Dermatoscopy - Cancer screening
Background: Dermatoscopy is the examination of skin lesions with a dermatoscope Critical for the diagnostic of some diseases like melanoma Diagnostic accuracy may be significantly improved through measurement of functional information in addition to conventional structural analysis of lesionsBlood flow is a critical aspect of functional information about skin lesions Problem: Dermatoscopy only might not be sufficient enough for accurate diagnostic of lesionsBlood flow measurement may significantly aid in accurate diagnosticsCommercially available solutions to provide maps of blood flow are both bulky and expensiveSuch devices are impractical for routine use in clinicsOther solutions involve invasive measurements, which can be more complicated Solution: The invention combines dermatoscopy and blood flow measurement in one single deviceIt integrates a compact Laser Speckle Imaging (LSI) system into a dermatoscopeLSI is a non-invasive solution for dynamic imaging of blood flowIt focuses on interpreting the speckle pattern phenomenon that occurs when electromagnetic light waves interfere with one another to produce optically visible effectsAnalysis of these speckle patterns results in quantitative wide-field imaging data pertaining to blood flow velocity mapping.Two illumination sources are used (one for the LSI system, and a white LED for the visual inspection)Both blood flow imaging and visual inspection are performed simultaneouslyIn spite of it’s handheld nature, it’s real time blood flow measuring capabilities are equivalent to those of a laboratory-grade device.The technology can aid in significantly improving diagnostic accuracy
Tech ID/UC Case 28707/2017-595-0 Related Cases 2017-595-0
美国
