Beneficial Applications and Deleterious Effects of Near-Infrared from Biological and Medical Perspectives

Lisa Gale; Yohei Tanaka

文献导航

搜索文章

搜索思路

钛学术文献服务平台 \
学术期刊 \
综合期刊 \
其它期刊 \
光学与光子学期刊（英文）期刊 \
Beneficial Applications and Deleterious Effects of Near-Infrared from Biological and Medical Perspectives

Beneficial Applications and Deleterious Effects of Near-Infrared from Biological and Medical Perspectives

作者：

Lisa Gale Yohei Tanaka

基本信息来源于合作网站，原文需代理用户跳转至来源网站获取

BIOLOGICAL

EFFECTS

NEAR-INFRARED

NON-THERMAL

Water-Filter

摘要：

Over half of solar energy consists of near-infrared and a wide range of preventative mechanisms have been evolutionarily maintained in organisms to protect against effects of near-infrared. However, the biological effects of near-infrared have not been investigated in detail. Despite the essential requirement of a water-filter to imitate solar near-infrared filtered by atmospheric water, previous studies used near-infrared resources without a water-filter or a cooling system. With these methods, near-infrared energy is primarily absorbed in the superficial tissues, thus these approaches are unable to sufficiently evaluate the biological effects of solar near-infrared that reaches human tissue. We have elucidated that near-infrared (1100 - 1800 nm together with a water-filter that excludes wavelengths 1400 - 1500 nm) non-thermally affects the skin into the deeper tissues. The biological effects of near-infrared have both beneficial applications and deleterious effects. Near-infrared induces collagen and elastin stimulation, which achieves skin rejuvenation and skin tightening, and induces long-lasting vasodilation that may prevent vasospasm and be beneficial for ischemic disorders. Near-infrared also relaxes and weakens dystonic and hypertrophic muscles to reduce wrinkles and myalgia. Nearinfrared is an essential tool in cancer detection and imaging, and induces drastic non-thermal DNA damage of mitotic cells, which may be beneficial for treating cancer. Activation of stem cells by near-infrared may be useful in regenerative medicine. However, continuous near-infrared exposure induces photoaging and potentially photocarcinogenesis. Humans have protective mechanisms against near-infrared on multiple levels, including perspiration, blisters, vasodilation, hair, skin, adipose tissue, and cotton or wool clothing. Further protection should be considered, as biological effects of near-infrared are significant, and standard sunscreens and glasses cannot sufficiently block near-infrared. This paper reviews the effects of

内容分析

关键词云

关键词热度

相关文献

推荐文献

根据相关规定，获取原文需跳转至原文服务方进行注册认证身份信息

完成下面三个步骤操作后即可获取文献，阅读后请点击下方页面【继续获取】按钮

钛学术文献服务平台

学术出版新技术应用与公共服务实验室出品

原文合作方

获取文献流程

1.访问原文合作方请等待几秒系统会自动跳转至登录页，首次访问请先注册账号，填写基本信息后，点击【注册】

2.注册后进行实名认证，实名认证成功后点击【返回】

3.检查邮箱地址是否正确，若错误或未填写请填写正确邮箱地址，点击【确认支付】完成获取，文献将在1小时内发送至您的邮箱

*若已注册过原文合作方账号的用户，可跳过上述操作，直接登录后获取原文即可

点击【获取原文】按钮，跳转至合作网站。

首次获取需要在合作网站进行注册。

注册并实名认证，认证后点击【返回】按钮。

确认邮箱信息，点击【确认支付】，订单将在一小时内发送至您的邮箱。

* 若已经注册过合作网站账号，请忽略第二、三步，直接登录即可。

期刊分类
期刊（年）
期刊（期）
期刊推荐

其它

光学与光子学期刊（英文）2021 光学与光子学期刊（英文）2020 光学与光子学期刊（英文）2019 光学与光子学期刊（英文）2018 光学与光子学期刊（英文）2017 光学与光子学期刊（英文）2015 光学与光子学期刊（英文）2014 光学与光子学期刊（英文）2013 光学与光子学期刊（英文）2012 光学与光子学期刊（英文）2011

光学与光子学期刊（英文）2013年第8期光学与光子学期刊（英文）2013年第7期光学与光子学期刊（英文）2013年第6期光学与光子学期刊（英文）2013年第5期光学与光子学期刊（英文）2013年第4期光学与光子学期刊（英文）2013年第3期光学与光子学期刊（英文）2013年第2期光学与光子学期刊（英文）2013年第1期

按字母查找期刊：

A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
R
S
T
U
V
W
X
Y
Z
其他

联系合作广告推广: shenyukuan@paperpass.com

篇名	Beneficial Applications and Deleterious Effects of Near-Infrared from Biological and Medical Perspectives
来源期刊	光学与光子学期刊(英文)	学科	医学
关键词	BIOLOGICAL EFFECTS NEAR-INFRARED NON-THERMAL Water-Filter
年，卷（期）	2013,（4）	所属期刊栏目
研究方向		页码范围	31-39
页数	9页	分类号	R73
字数		语种
DOI