通过电渗透递送代谢缓慢的胆碱能药物卡巴胆碱来长时间、局部刺激汗液分泌。

Prolonged and localized sweat stimulation by iontophoretic delivery of the slowly-metabolized cholinergic agent carbachol.

机构信息

Department of Biomedical, Chemical, Enviromental Engineering, University of Cincinnati, Cincinnati, OH 45221, USA.

Winkle College of Pharmacy, University of Cincinnati, Cincinnati, OH 45267, USA.

出版信息

J Dermatol Sci. 2018 Jan;89(1):40-51. doi: 10.1016/j.jdermsci.2017.10.013. Epub 2017 Nov 8.

DOI:10.1016/j.jdermsci.2017.10.013

PMID:29128285

Abstract

BACKGROUND

Continuous non-invasive sampling and sensing of multiple classes of analytes could revolutionize medical diagnostics and wearable technologies, but also remains highly elusive because of the many confounding factors for candidate biofluids such as interstitial fluid, tears, saliva, and sweat. Eccrine sweat biosensing has seen a recent surge in demonstrations of wearable sampling and sensing devices. However, for subjects at rest, access to eccrine sweat is highly limited and unpredictable compared to saliva and tears.

OBJECTIVE

Reported here is a prolonged and localized sweat stimulation by iontophoretic delivery of the slowly-metabolized nicotinic cholinergic agonist carbachol.

METHODS

Presented here are detailed measurements of natural baseline sweat rates across multiple days, confirming a clear need for localized sweat stimulation. Iontophoresis was performed with either carbachol or pilocarpine in order to stimulate sweat in subjects at rest. Furthermore, improved methods of quantifying sweat generation rates (nL/min/gland) are demonstrated.

RESULTS

In-vivo testing reveals that carbachol stimulation can surpass a major goal of 24-h sweat access, in some cases providing more than an order of magnitude longer duration than stimulation with commonly-used pilocarpine. Also demonstrated is reduction of the traditional iontophoretic dosage for sweat stimulation (<5.25-42mC/cm). This increases the viability of repeated dosing as demonstrated herein, and for carbachol is as much as 100-1000X less than used for other applications.

CONCLUSION

This work is not only significant for wearable sweat biosensing technology, but could also have broader impact for those studying topical skin products, antiperspirants, textiles and medical adhesives, nerve disorders, the effects of perspiration on skin-health, skin related diseases such as idiopathic pure sudomotor failure and hyperhidrosis, and other skin- and perspiration-related applications.

摘要

背景

持续无创地对多种分析物进行采样和传感，可能会彻底改变医学诊断和可穿戴技术，但由于候选生物流体（如间质液、泪液、唾液和汗液）存在许多混杂因素，这一目标仍然难以实现。近年来，人们对汗腺汗液生物传感的研究越来越多，展示了可穿戴式采样和传感设备。然而，与唾液和眼泪相比，处于休息状态的受试者获得的外分泌汗液非常有限且难以预测。

目的

本文报道了一种通过离子电渗递送来实现的长时间局部汗液刺激，所用物质是代谢缓慢的烟碱性乙酰胆碱激动剂卡巴胆碱。

方法

本文详细测量了多天的自然基础出汗率，证实了对局部性汗液刺激的明确需求。我们用卡巴胆碱或毛果芸香碱进行离子电渗，以便在休息状态的受试者中刺激出汗。此外，还展示了量化出汗生成率（nL/min/腺）的改进方法。

结果

体内测试表明，卡巴胆碱刺激可以超过 24 小时获取汗液的主要目标，在某些情况下，其持续时间比常用的毛果芸香碱刺激长一个数量级以上。还证明了传统的离子电渗刺激汗液的剂量减少（<5.25-42mC/cm）。这增加了本文中反复给药的可行性，而且对于卡巴胆碱，其用量比其他应用减少了 100-1000 倍。

结论

这项工作不仅对可穿戴汗液生物传感技术具有重要意义，而且对于研究局部皮肤产品、止汗剂、纺织品和医用粘合剂、神经疾病、出汗对皮肤健康的影响、与皮肤相关的疾病（如特发性纯自主神经功能衰竭和多汗症）以及其他与皮肤和出汗相关的应用，也具有更广泛的影响。

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通过电渗透递送代谢缓慢的胆碱能药物卡巴胆碱来长时间、局部刺激汗液分泌。

Prolonged and localized sweat stimulation by iontophoretic delivery of the slowly-metabolized cholinergic agent carbachol.

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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