Aplicación del Láser de Baja Potencia (LLLT) en Pacientes Pediátricos: Revisión de Literatura a Propósito de una Serie de Casos / Application of Low Power Laser (LLLT) in Pediatric Patients: Review of the Literature in a Series of Cases

RESUMEN: El uso del láser de baja potencia en odontología está siendo cada vez más frecuente y con excelentes resultados, los equipos más modernos traen pre-establecidos la dosimetría de los parámetros para las diferentes acciones clínicas. El objetivo de esta revisión fue encontrar evidencia científica que permita al clínico tener como una alternativa de tratamiento el uso del láser de baja potencia en patologías orales de tejidos blandos y duros en pacientes pediátricos. Se realizó una revisión de la literatura por medio de buscadores como PubMed, LILACS y SciELO. Después de leer a texto completo todos los trabajos es posible señalar que el láser de baja frecuencia es una buena alternativa terapéutica en la resolución de signos y síntomas en patologías orales que aquejan al paciente pediátrico, puesto que, presenta un rápido control del dolor, la inflamación, el sangrado y acelera los procesos de reparación celular.

ABSTRACT: Low Level Laser Therapy in dentistry is becoming more frequent and has had excellent results, with state of the art equipment having pre-established dosimetry parameters for the various clinical actions. The objective of this review was to find scientific evidence that allows the clinician to have the use of low power laser as treatment alternative, in oral soft tissue and hard pathologies in pediatric patients. A review of the literature was performed through search engines such as PubMed, LILACS and SciELO. After reading the texts, it was possible to point out that low frequency laser is a good therapeutic alternative in the resolution of signs and symptoms in oral pathologies of the pediatric patient. This alternative allows for rapid pain control, reduces inflammation and bleeding, and accelerates cellular repair processes.

Fast photoacoustic imaging systems using pulsed laser diodes: a review

Photoacoustic imaging (PAI) is a newly emerging imaging modality for preclinical and clinical applications. The conventional PAI systems use Q-switched Nd:YAG/OPO (Optical Parametric Oscillator) nanosecond lasers as excitation sources. Such lasers are expensive, bulky, and imaging speed is limited because of low pulse repetition rate. In recent years, the semiconductor laser technology has advanced to generate high-repetitions rate near-infrared pulsed lasers diodes (PLDs) which are reliable, less-expensive, hand-held, and light-weight, about 200 g. In this article, we review the development and demonstration of PLD based PAI systems for preclinical and clinical applications reported in recent years.

Development of power self-adapting semi-conductor laser therapeutic instrument / 医疗卫生装备

Objective To solve the problems of low power laser instrument with single wavelength and instable output power as well as its incapability of studying the biological effect of low intensity laser and clinical treatment. Methods The AT89S52 singlechip and PID algorithm were used. Results The desired instrument could output the wave of 532nm green laser which could be adjusted continuously from 0mW to 30mW and the wave of 650nm red laser which could be adjusted continuously from 0mW to 50mW. The error of power could be controlled within 0.1mW. Conclusion The instrument can be used to study the biological effect of low intensity laser and clinical treatment with small volume,easy operation and high stability of laser output.

Development of semi-conductor laser therapeutic apparatus / 医疗卫生装备

Low-power laser irradiation has an excellent effect when applied clinically. But existing laser apparatuses have many disadvantages such as inconvenience. So, this paper develops an intelligent semi-conductor laser therapeutic apparatus and introduces its hardware structure and software design as well as its test and clinical application.