Complement activation by pulsed tunable dye laser in normal skin and hemangioma

Pulsed tunable dye laser (577 nm) (PTDL) therapy induces hemoglobin coagulation and tissue necrosis, which is mainly limited to blood vessels. To define whether this treatment activates complement in normal skin and senile hemangioma, we analyzed complement deposition in blood vessels by immunofluorescence. C3 fragments, C8, and C9 were detected with specific polyclonal antibodies. The membrane attack complex of complement (MAC) was demonstrated with a monoclonal antibody which reacts only with a neoantigen of MAC. Amplification of C3 deposition by the alternative pathway was determined on cryostat sections by indirect immunofluorescence with use of C4 deficient guinea pig (GP) serum. Normal skin and hemangiomas from three individuals were studied. In PTLD-irradiated normal skin, the main findings were as follows: 1) C3 fragments, C8, C9, and MAC were deposited in vessel walls; 2) these deposits were not due to denaturation of the proteins since they became apparent only 7 min after irradiation, contrary to immediate deposition of transferrin at the sites of erythrocyte coagulates; 3) the C3 deposits were shown to amplify complement activation by the alternative pathway, a reaction which was specific since tissue necrosis itself did not lead to such amplification; 4) these reactions preceded the local accumulation of polymorphonuclear leucocytes. Tissue necrosis was more pronounced in the hemangiomas. The larger angiomatous vessels in the center of the necrosis did not fix complement significantly. By contrast, complement deposition in the vessels situated at the periphery was similar to that observed in normal skin with one exception: C8, C9, and MAC were detected in some blood vessels immediately after laser treatment, a finding consistent with assembly of the MAC occurring directly without the formation of a C5 convertase. These results indicate that complement is activated in PTDL-induced vascular necrosis, and might be responsible for the ensuing inflammatory response

Development of a passive doas system to retrieve atmospheric pollution columns in the 200 to 355 nm region

<p>Abstract</p> <p>In recent years several techniques have been developed to measure and monitor the pollution of the air. Among these techniques, remote sensing using optical methods stands out due to several advantages for air quality control applications. A Passive Differential Optical Absorption Spectroscopy system that uses the ultraviolet region from 200 to 355 nm of the solar radiation is presented. The developed system is portable; therefore it is practical for real time and in situ measurements. The enhanced wavelength range of the system is intended to detect the ultraviolet light penetration in the Mexican Valley considering the solar zenith angle and the altitude. The system was applied to retrieve atmospheric SO₂ columns emitted either by anthropogenic (power plant) or natural sources (volcano), reaching a detection limit of about 1 ppm. The measurement of the penetrating solar radiation on the earth surface at the UVC range is presented and the possibility to measure pollution traces of some contaminants as O₃, NO₂ and aromatic compounds in real time and in situ in the ultraviolet region is discussed.</p