Browsing by Author "Maskey, R"
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Publication New-Onset Diabetes after Transplant (NODAT)(Kathmandu University, 2014) Maskey, RABSTRACT New onset diabetes mellitus after transplantation (NODAT) is a well known complication following solid organ transplantation and has been reported to occur in 4% to 25% of renal transplant recipients, 2.5% to 25% of liver transplant recipients, hepatitis C virus (HCV) infection between 40% and 60% and 2% to 53% of all solid organ transplants. This variation in the reported incidence may be because of lack of a universal agreement on the definition of NODAT, the duration of follow- up, and the presence of modifiable and non-modifiable risks factors. Moreover, reduced patient survival and accelerated graft loss have been reported with NODAT. In our country also there is increasing in number of kidney transplants patients and along with that there is chance of development of NODA. It is better to detect the NODATS early. So in this article I tried to presents an overview of the literature on the current diagnostic criteria for NODAT and discuss suggested risk factors for the development of NODAT, its potential pathogenic mechanisms, and its impact on post-transplant outcomes after solid organ transplantation. KEYWORDS New onset diabetes after transplantation, review and managementPublication Visual Evoked Potentials (VEPs) in Patients with Type 2 Diabetes Mellitus(Kathmandu University, 2022) Subedi, P; Limbu, N; Maskey, R; Baral, DDABSTRACT Background Type 2 diabetes constitutes about 85-95% of all diabetes in developed countries, and accounts for an even higher percentage in developing countries. Diabetic retinopathy is probable the most characteristic, easily identifiable and treatable complication of diabetes, but remains an important cause of visual loss. Objective To study P100 latencies and inter ocular latency difference in diabetic group and compared it with a control group and study the correlation between P100 and inter ocular latency difference with the duration of disease in diabetic group. Method A comparative, cross sectional study was done from September 2016 to January 2018 in Neurophysiology Lab, Basic and Clinical Physiology, BP Koirala Institute of Health Sciences. The sample size was 64 and random sampling technique was used. Subjects were divided into three groups according to the duration of disease. Anthropometric and visual evoked potentials were recorded. Descriptive analysis, analysis of covariance and Post Hoc multiple comparison analyses were done using SPSS 11.5. Pearson’s correlation was applied between P100 latency and inter ocular latency difference with the duration of disease. Result On using analysis of covariance, P100 latencies were significantly prolonged in diabetic as compared to healthy controls (p < 0.001). Post Hoc multiple comparison showed significant differences in both left and right P100 latencies within diabetic groups and between diabetic groups and healthy controls. Left inter ocular latency difference showed positive correlation with the duration of disease. Conclusion P100 latencies are significantly prolonged in diabetes patients and is positively correlated with duration of disease. Visual evoked potential test can be useful for detecting retinal dysfunction before the appearance of symptoms of retinopathy. KEY WORDS P100 latencies, Type 2 diabetes, Visual evoked potentials