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Light Device (light + device)

Distribution by Scientific Domains
Medical Sciences85%

Selected Abstracts

Application of a New Intense Pulsed Light Device in the Treatment of Photoaging Skin in Asian Patients

DERMATOLOGIC SURGERY, Issue 11 2008
YUAN-HONG LI MD
BACKGROUND Intense pulsed light (IPL) technology has long been used in the treatment of photoaging skin. OBJECTIVE To evaluate the efficacy and safety of a new IPL device in the treatment of photoaging skin in Asian patients. METHODS One hundred fifty-two Chinese women with photoaging skin were enrolled in this open-labeled study. Subjects received four IPL treatments at 3- to 4-week intervals. Changes of photoaging were evaluated using a global evaluation, an overall self-assessment, a Mexameter, and a Corneometer. RESULTS One hundred thirty-nine of 152 patients (91.44%) experienced a score decrease of 3 or 2 grades, according to the dermatologist. One hundred thirty-six of 152 patients (89.47%) rated their overall improvement as excellent or good. The mean skin melanin index (MI) and erythema index values deceased with each session. MI on forehead and EI on cheilion decreased most significantly. Adverse effects were limited to mild pain and transient erythema. CONCLUSION IPL treatment is a safe and effective method for photoaging skin in Asian patients. Adverse effects were minimal and acceptable. [source]

Histologic and Ultrastructural Analysis of Ultraviolet B Laser and Light Source Treatment of Leukoderma in Striae Distensae

DERMATOLOGIC SURGERY, Issue 4 2005
David J. Goldberg MD
Background. Lasers and light sources emitting ultraviolet B (UVB) irradiation have been shown to repigment striae distensae. Objective. The purpose of this study was to analyze the histologic and ultrastuctural changes seen after UVB laser, or light source,induced repigmentation of striae distensae. Methods. Ten subjects with hypopigmented striae were selected. Five subjects were treated with an XeCl excimer UVB laser, and five subjects were treated with a UVB light device. Six months after the final treatment, the biopsies were evaluated for both standard and electron microscopic changes in melanocytes. Results. Analyses of biopsied skin after treatment with both the UVB laser and light source showed increased melanin content, hypertrophy of melanocytes, and an increase in the number of melanocytes in all patients. Conclusions. Repigmentation of striae distensae with either a UVB laser or light source is due to an increase in melanin pigment, hypertrophy of melanocytes, and an increase in melanocytes. DAVID J. GOLDBERG, MD, ELLEN S. MARMUR, MD, CHRYSALINE SCHMULTS, MD, MUSSARRAT HUSSAIN, MD, AND ROBERT PHELPS, MD, HAVE INDICATED NO SIGNIFICANT INTEREST WITH COMMERCIAL SUPPORTERS. [source]

Raman scattering determination of the depth of cure of light-activated composites: influence of different clinically relevant parameters

JOURNAL OF ORAL REHABILITATION, Issue 6 2002
G. Leloup
The purpose of this research was to determine the depth of cure of light-activated composites in relation with different clinically relevant parameters. A Raman spectroscopic method has been used. The measurement of cure is made on a relative basis by comparing the vibration band of the residual unpolymerized methacrylate C=C bond at 1640 cm,1 against the aromatic C=C stretching band at 1610 cm,1 used as an internal standard. The information gained draw attention to the importance of light transmission during the exposure. The influence of sample's thickness on the depth of cure is illustrated by a second order polynomial regression. The shade and translucency of the resin composite also modify the light transmission and thus have a significant influence on the degree of conversion. Moreover the light-source intensity and the distance from the curing tip are important parameters of influence. A significant reduction of the depth of cure is observed for all sample thickness of resin composite tested when using a light device with an intensity of 300 mW cm,2 as well as using a distance from the curing tip higher than 20 mm. [source]

Effect of a new infrared light device (1100,1800 nm) on facial lifting

PHOTODERMATOLOGY, PHOTOIMMUNOLOGY & PHOTOMEDICINE, Issue 1 2008
J. Y. Ahn
Summary Laser skin resurfacing procedures can be classed into two categories , invasive and non-invasive. The last several decades have witnessed a host of advancements in ablative laser therapy and other ablative modalities for the rejuvenation of skin, including the CO2 laser, the erbium : yttrium aluminum garnet laser, chemical peels, and dermabrasion. Despite the excellent results that can result from the practice of these techniques by experienced surgeons, the invasive nature of these devices is associated with inherent risks and patient discomfort. Therefore, much of the focus has been on non-ablative lasers and intense-pulsed light devices. We evaluated the efficacy and safety of treatment with the new infrared light device (1100,1800 nm), Titan, and assessed the degree of improvement associated with two-time laser treatments, as compared to one-time laser treatment. [source]

Two polymorphs of lysozyme nitrate: temperature dependence of their solubility

ACTA CRYSTALLOGRAPHICA SECTION D, Issue 10-1 2002
L. Legrand
Two crystallographic forms of lysozyme nitrate are known, namely monoclinic and triclinic. Having previously determined the temperature dependence of the solubility of the monoclinic form (0.2 M NaNO3 solutions at pH = 4.5) [Legrand et al. (2001). J. Crystal Growth232, 244-249], we focus here on the solubility of the triclinic form. The temperature dependence of the solubility of this crystallographic form has been measured with a static light device developed in our laboratory. This device allows to observe of the dissolution of one phase and/or the occurrence of a new one by varying the temperature with a sweep rate as low as 0.6 degree/hour. The new solubility data are complemented with crystallographic data of the triclinic form for the sake of completeness. The faces of a triclinic crystal are indexed. The crystallisation enthalpy of the triclinic form is deduced from these new results. These new solubility data allow us now to discuss (1) the publishedprotocols used to obtain the monoclinic and triclinic forms of lysozyme nitrate and (2) the phase transformation. [source]

Effect of a new infrared light device (1100,1800 nm) on facial lifting

PHOTODERMATOLOGY, PHOTOIMMUNOLOGY & PHOTOMEDICINE, Issue 1 2008
J. Y. Ahn
Summary Laser skin resurfacing procedures can be classed into two categories , invasive and non-invasive. The last several decades have witnessed a host of advancements in ablative laser therapy and other ablative modalities for the rejuvenation of skin, including the CO2 laser, the erbium : yttrium aluminum garnet laser, chemical peels, and dermabrasion. Despite the excellent results that can result from the practice of these techniques by experienced surgeons, the invasive nature of these devices is associated with inherent risks and patient discomfort. Therefore, much of the focus has been on non-ablative lasers and intense-pulsed light devices. We evaluated the efficacy and safety of treatment with the new infrared light device (1100,1800 nm), Titan, and assessed the degree of improvement associated with two-time laser treatments, as compared to one-time laser treatment. [source]