Thursday, 9 November 2017

Medical Journal- October issue 2017

Medical Journal: Published volume-3, Issue-10, October 2017 with ad publications

Indoor environment: Is it possible to use outdoor air in densely populated areas as an indicator of indoor air quality in Swedish buildings

Abstract— In the last few decades, indoor air problems have increased in Swedish housing, office and school buildings. The problems that are mentioned are mucosal and respiratory symptoms, asthma, skin symptoms, fatigue and headache. In the environmental health report compiled by the responsible authorities, it is shown that the scope of the problem has been constant since the early 1990s. This is done despite the fact that extensive efforts have been made and extensive resources have been used in research, government investigations with new industry directives and through measures taken in buildings. There is a great need for validated analysis and measurement methods, as well as finding level values for the air environment in Swedish housing, office and school buildings. The purpose of this project is to evaluate whether outdoor air can be used as an indicator and level sensor for the quality of the indoor air environment. Outdoor air is an indicator where the number of particles, preferably those larger than 5.0 μm, is a valuable parameter. The long-term goal should be to build a bank with values from the outdoor air. This bank should include values with an even distribution that include temporal variations, the Swedish seasonal variations and the longer-term variations that occur annually. In addition, it should cover a uniform distribution across the whole of Sweden. This bank should be a better basis for assessing the environment in each object, instead of using the value of the level outside the building at the current time of measurement. An important issue is the calibration of measuring instruments to make the results comparable. In this project, this is not a problem since only one and the same instrument is used, but when using several instruments, the relationships actualized.

Keywords: Air quality, Hygiene and Health, Indoor Environment, Particle Amount, Particle Measurements, Particle Size.

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Effect of Root Heal Therapy (RHT) on Melasma: A Quincy Experiment

Abstract—Melasma is a very common skin disorders which has no fix treatment schedule and is very difficult to treat. This present study was planned to compare the effect of traditional treatment alone and in combination with Root Heal Therapy on Melasma cases. A Quincy experiment was conducted on 60 patients of Melasma, who were taking treatment from a same physician working in Charak Bhawan, a hospital attached to SMS Medical College, Jaipur (Rajasthan). Out of these 67 melasma cases were completed the protocall, out of that 35 were in group who has received traditional treatment, 32 were in group who has received RHT along with traditional treatment. Baseline status of Melasma with its Severity its impact on quality of life was assessed. Severity of Melasma was assessed through MASI scores and quality of life was assessed by Dermatology Life Quality Index (DLQI) scores. These cases were followed for 6 months; again they were assessed as per MASI. Changes in over this period Melasma severity in both the groups were compared with Chi-square test and Unpaired’t’ test. It was found that significantly more cases were benefited with this RHT in the form of number of severity of Melasma and quality of life was also significantly improved with RHT. Further researches are required for further details.

Key Words: Melasma, MASI scores, Dermatology Life Quality Index (DLQI), Root Heal Therapy (RHT).

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