Development of Portable, Wireless and Smartphone Controllable Near-Infrared Spectroscopy System.

We have developed portable near-infrared tissue oxygenation monitoring systems, called the "PocketNIRS Duo" and the "PocketNIRS HM", which features wireless data communication and a sampling rate of up to 60 data readings per second. The systems can be controlled by smartphone or personal computer. We demonstrate the efficacy of the systems for monitoring changes in brain and arm muscle hemodynamics and oxygenation in breath-holding and cuff-occlusion tests, respectively.Our systems should prove to be useful as an oxygenation monitor not only in research but also in healthcare applications.

Site-specific migration of human fetal melanocytes in volar skin.

BACKGROUND: Melanocytes originate from the neural crest and migrate ventrally from the dorsal neural tube during embryogenesis. How human melanocytes locate at their suitable positions during embryogenesis, however, is unclear. Although a growing body of evidence indicates that melanocytes, melanoblasts, and melanocyte stem cells are closely related to hair follicles, little is known about volar skin. OBJECTIVE: The aim of this study was to observe skin development during human fetal period and clarify the site-specific migration process of human fetal sole melanocytes. METHODS: We obtained 4-mm punch biopsies from the scalp, back, abdomen, and right sole of 36 aborted fetuses (gestational age 12-21 weeks). We compared the migration process between hairly areas and volar areas by immunohistochemical staining. RESULTS: Immunohistochemical examination revealed that gp100 (HMB-45) sensitively detects human melanocytes in embryogenesis. Melanocytes were present at the epidermal base, where hair placodes/buds form at 12-15 weeks gestation. Fetal melanocytes in hair follicles are supplied from the epidermis. In volar skin, melanocytes originally localize only in the acrosyringium, where they migrate deeper into with gland development at 16-18 weeks gestation. Palmoplantar melanocyte migration and maturation processes differ considerably from those of the other hairy skin sites. CONCLUSION: Eccrine sweat glands seem to have a central role in the palmoplantar melanocyte migration process, similar to the role of hair follicles in hairy sites.

Optical diagnosis of gastric cancer using near-infrared multichannel Raman spectroscopy with a 1064-nm excitation wavelength.

BACKGROUND: Gastric cancer is one of the most common cancers in Japan. The use of endoscopy is increasing, along with the number of histological examinations of specimens obtained by endoscopy. However, it takes several days to reach a diagnosis, which increases the medical expense. Raman spectroscopy is one of the available optical techniques, and the Raman spectrum for each molecule and tissue is characteristic and specific. The present study investigated whether Raman spectroscopy can be used to diagnose gastric cancer. METHODS: A total of 251 fresh biopsy specimens of gastric carcinoma and non-neoplastic mucosa were obtained from 49 gastric cancer patients at endoscopy. Without any pretreatment, the fresh specimens were measured with a near-infrared multichannel Raman spectroscopic system with an excitation wavelength of 1064 nm, and Raman spectra specific for the specimens were obtained. A principal component analysis (PCA) was performed to distinguish gastric cancer and non-neoplastic tissue, and a discriminant analysis was used to evaluate the accuracy of the gastric cancer diagnosis. RESULTS: The Raman spectra for cancer specimens differed from those for non-neoplastic specimens, especially at around 1644 cm(-1). Sensitivity was 66%, specificity was 73%, and accuracy was 70%. The accuracy of diagnosis using the single Raman scattering intensity at 1644 cm(-1) was 70%, consistent with the PCA result. CONCLUSIONS: The present results indicate that near-infrared multichannel Raman spectroscopy with a 1064-nm excitation wavelength is useful for gastric cancer diagnosis. Establishment of a Raman diagnostic system for gastric cancer may improve the clinical diagnosis of gastric cancer and be beneficial for patients.