1.Predictive Modelling Of Visual Acuity Upon Diabetic Retinopathy In Type 2 Diabetes Mellitus
Xin Wee Chen ; Zaliha Ismail ; Embong Zunaina ; Kamarul Imran Musa
Malaysian Journal of Public Health Medicine 2018;18(2):132-140
The worldwide upsurge of Type 2 Diabetes Mellitus (T2DM) warrants the attention of public health, especially in complications. Diabetic Retinopathy (DR), the commonest ocular complication, contributes to the growing incidence of blindness. Recommendations that the visual acuity (VA) assessment guidelines should be used in DR screening was not routinely practiced. This study aims to model the predictive effect of VA - a simple economic clinical assessment - upon DR in patients with T2DM. A case-control study was conducted in Hospital Universiti Sains Malaysia with subjects recruited from the ophthalmology clinic. The primary variable during analysis was VA, and the outcome variable was DR. Models with eight control variables which included age, gender, and duration of DM were developed. The predictive effect measured by logistic regression showed that when unadjusted; four variables had a significant association with DR, at p-value<0.25; they were the duration of DM, systolic blood pressure, glycosylated haemoglobin and VA. From the eight different predictive models, the estimated adjusted odds ratio produced ranges from 6.09 to 11.64. Our study shows that VA has a predictive effect upon DR in T2DM patients. We suggest VA assessment, to be on par with the monitoring of blood pressure and blood glucose.
Predictive
;
Visual acuity
;
Diabetic Retinopathy
;
Type 2 Diabetes Mellitus
2.Rapid Molecular Point of Care Testing for Detection of Influenza A, B Viruses and Respiratory Syncytial Virus Versus Multiplex PCR
Fadzilah Mohd Nor ; Wan Azlirull Aini Ahmad Ghazali ; Farah Roslinda Mohd Rustam ; Chen Xin Wee ; Navindra Kumari Palanisamy
Malaysian Journal of Medicine and Health Sciences 2022;18(No.5):165-170
Introduction: Rapid detection of influenza viruses and respiratory syncytial virus (RSV) can be achieved by having
rapid molecular point of care tests (POCTs). This expedites the diagnosis attributed by having similar clinical presentations leading to facilitation of precision medicine and reduction of antimicrobial resistance. The growing number
of POCTs foster the need to ensure that these POCTs have satisfactory and reliable performance. With that the aim
of this study is to evaluate the performance of rapid molecular POCT regarded as ‘X’ for the detection of Influenza
viruses and RSV in comparison to multiplex PCR. Methods: A laboratory-based study was conducted from January to
December 2020 which involved analysis of 116 nasopharyngeal swabs, tested using POCT X and multiplex PCR as
a method of reference. The performance analysis incorporated the sensitivity, specificity, positive and negative predicted values determination. The cycle threshold values were reviewed for discordant results. Results: The POCT X
demonstrated sensitivity of 88.57% with 100% specificity for Influenza A virus, and 85.71% of sensitivity with 100%
specificity for influenza B virus detection. Meanwhile it revealed 100% sensitivity and specificity for RSV detection.
There were ten specimens demonstrating discordant results whereby viruses were not detected by POCT X, however
detected by multiplex PCR. The POCT X was not able to detect eight (12.9%) and two (16.7%) influenza A and B
viruses respectively. Conclusion: The overall performance of POCT X was corresponded to multiplex PCR. This best
served as a steadfast ancillary test for influenza and RSV infection.