Abstract

Multispectral imaging has shown promise in subcutaneous vein detection and localization in human subjects. While many limitations of single-wavelength methods are addressed in multispectral vein detection methods, their performance is still limited by artifacts arising from background skin reflectance and optimality of postprocessing algorithms. We propose a background removal technique that enhances the contrast and performance of multispectral vein detection. We use images acquired at visible wavelengths as reference for removing skin reflectance background from subcutaneous structures in near-infrared images. Results are validated by experiments on human subjects.

Highlights

  • Multispectral imaging has shown promise in subcutaneous vein detection and localization in human subjects

  • Subcutaneous vein detection using near-infrared (NIR) imaging has recently become a subject of study.[1,2,3,4]

  • Automatic subcutaneous vein detection has become possible using NIR imaging with extensive application in catheter insertion at health care facilities.[8]

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Summary

Introduction

Multispectral imaging has shown promise in subcutaneous vein detection and localization in human subjects. We apply a background removal and normalization scheme to multispectral vein imaging that circumvents the limitations of other methods and allows for high-contrast subcutaneous vein detection while extracting nonvein subcutaneous physiological and anatomical structures.

Results
Conclusion

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