Motomu Tanigawa scite author profile

Motomu Tanigawa

4Publications

33Citation Statements Received

36Citation Statements Given

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Affiliations

Osaka Health Science University, Osaka University

Publications

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Dynamic analysis of internal and external mental sweating by optical coherence tomography

et al. 2009

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Mental sweating is human sweating that is accelerated via the sympathetic nerve by application of mental or physical stress. In the neurosciences, there is keen interest in this type of sweating, because the amount of sweat in response to a stress applied to a volunteer directly reflects activity of the sympathetic nerve. It is therefore of particular value that optical coherence tomography (OCT) can provide clear in vivo imaging of the spiral lumen of an eccrin sweat gland in the epidermis with a spatial resolution around 10 mum. We demonstrate dynamic OCT of mental sweating of an eccrin sweat gland on a human fingertip, where the sweating dynamics can be tracked by time-sequential OCT images with a frame spacing of one second. An instantaneous amount of sweat stored in the spiral lumen is evaluated quantitatively in each OCT image, resulting in time variation measurements of excess sweat in response to mental or physical stress. In the dynamic OCT of mental sweating, as demonstrated here, we note for the first time internal sweating without ejection of excess sweat from the spiral lumen to the skin surface. Internal sweating has not been previously detected without the availability of our dynamic OCT technique. Until now, it has been commonly accepted that sweating is always accompanied with ejection of excess sweat to the skin surface. On the basis of our findings reported here, this type of sweating should now be referred to as external sweating. In this study, we demonstrate that internal sweating occurs more often in the case where mental stress is applied to a volunteer, and that it is more useful for evaluation of activity of the sympathetic nerve. The dynamic OCT for both external and internal sweating is demonstrated.

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Dynamic analysis for mental sweating of a group of eccrine sweat glands on a human fingertip by optical coherence tomography

Ohmi

Tanigawa

Wada

et al. 2011

Skin Research and Technology

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Dynamic analysis of mental sweating by optical coherence tomography

Ohmi

Tanigawa

Saigusa

et al. 2010

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Dynamic analysis for mental sweating of a group of eccrin sweat glands on a human fingertip by optical coherence tomography

Ohmi

Tanigawa

Wada

et al. 2011

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OCT is highly potential for in vivo observation of human sweating dynamics which affects activity of the sympathetic nerve. In this paper, we demonstrate dynamic OCT analysis of mental sweating of a group of eccrin sweat glands. The sweating dynamics is tracked simultaneously for nineteen sweat glands by time-sequential piled-up en-face OCT images with the frame spacing of 3.3 sec. Strong non-uniformity is observed in mental sweating where the amount of excess sweat is different for each sweat gland although the sweat glands are adjacent to each other. The non-uniformity should be necessary to adjust as precisely the total amount of excess sweat as possible through the sympathetic nerve in response to strength of the stress.

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Motomu Tanigawa

Dynamic analysis of internal and external mental sweating by optical coherence tomography

Dynamic analysis for mental sweating of a group of eccrine sweat glands on a human fingertip by optical coherence tomography

Dynamic analysis of mental sweating by optical coherence tomography

Dynamic analysis for mental sweating of a group of eccrin sweat glands on a human fingertip by optical coherence tomography

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