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Abstract
Accurate diabetes survival time modeling is critical in estimating diabetes survival time potential for effectively. One of the bases for assessment of diabetes survival times potential for a specified region is the probability distribution of diabetes survival times, therefore diabetes survival times data is needed to produce statistical modeling, especially in determining the best probability distribution. Statistical models are designed to facilitate conclusions about the occurrence probability distribution of diabetic patient in the Mandau Regional General Hospital (RSUD), Bengkalis Regency, Riau Province. For this purpose, five distributions will be used and tested to determine the best model to describe diabetes survival times. The main goal of this study is to find the best fitting distribution to the duration survival times diabetes of 50 patients measured over Bengkalis region by using lindley (LIN) distribution, three modified lindley distributions such as weighted Lindley exponential (WLE), Power Modified Lindley (PML), Lindley half-Cauchy (LHC) and Rayleight Lomax distribution (RL). The maximum likelihood method will be used to get the estimated parameter value from the distribution used in this study. Furthermore, the graphical inspection (density-density plot and cumulative plot) and numerical criteria (Akaike’s information criterion (AIC), Bayesian Information Criteria (BIC), - log likelihood (- l) were used to determine the best fit model. In most cases, the results produced by the graphical inspection were similar, and differed from the numerical criteria . The best fit result was chosen as the distribution with the lowest values of AIC, BIC and - l. In general, the Rayleight Lomax (RL) distribution has been selected as the best model.
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References
D. Collet, Modeling survival data in medical research, 2nd ed., Chapman and Hall/CRC, London, (2003).
D. G. Kleinbaum and M. Klein, Survival Analysis, A Self-Learning Text 3rd Ed, Springer, New York, (2012).
E. T. Lee dan J.W. Wang, Statistical methods for survival data analysis, Third Ed., Johns Wiley and Sons, New Jersey, 2003.
International Diabetes Federation, International Diabetes Federation 9th ed., Brusseles,( 2019).
V. Lusiana, Menkes sebut diabetes paling banyak ”serang” warga Riau ini sebabnya, 25 Maret 2019, https://riau.antaranews.com/berita/112025, accessed 8 juni 2019.
Juli, Kencing Manis dan Hipertensi Masuk 10 Pola Penyakit Utama di Bengkalis, 3 November 2019, http ://infopublik.id/ kategori/ nusantara/ 384135, accessed 11 januari 2020.
Ummu Athifah, Rado Yendra, Muhammad Marizal, and Rahmadeni, Survival Time Data Modeling for Diabetics During the Covid 19 Pandemic Using Several Sensitive Distributions (Weibull, Gamma, and Normal Logs), Applied Mathematical Sciences, 15( 2021), 717-724
Manda Lisa Usvita, Arisman Adnan, Rado Yendra (2021). The Modelling Survival Times for Diabetes Patient Using Exponential, Weibull and Rayleigh-Lomax Distribution International Journal of Mathematics Trends and Technology, 109-112.
G. Gurpit, S. Alka, dan M. Juhi, An application of gamma generalized linear model for estimation of survival function of diabetic nephropathy patient, International Journal of Statistics in Medical Research, 2 (2013), 209-219.
S. K. Marvasti, S. Rimaz, J. Abolghasemi, dan I. Heydari, Comparing of Cox model and parametric models in analysis of effective factors on eventtime of neuropathy in patients with type 2 diabetes, Journal of Research in Medical Science, (2017).
K. Fatima, U. Jan, dan S. P. Ahmad, Statistical Properties of Rayleigh Lomax Distribution with Applications in Survival Analysis, Journal of Data Science, 3(2018), 531-548.
Shanker R, Fesshaye H (2016) On Modeling of Lifetime Data Using Akash, Shanker, Lindley and Exponential Distributions. Biom Biostat Int J 3(6): 00084. DOI: 10.15406/bbij.2016.03.00084
Doaa Basalamah and Bader Alruwaili, The weighted Lindley exponential distribution and its related properties, AIMS Mathematics, 8(2023), 24984–24998
Kawsar Fatima, Uzma Jan and S.P Ahmad, Statistical Properties of Rayleigh Lomax distribution with applications in Survival Analysis, Journal of Data Science, 16(2018), 531-548
Omid Kharazmi, Devendra Kumar, and Sanku Dey, Power Modi_ed Lindley Distribution: Properties,Classical and Bayesian Estimation and Regression Model with Applications, Austrian Journal of Statistics, 52(2023), 71-95
Arun Kumar Chaudhary and Vijay Kumar, Lindley Half Cauchy Distribution: Properties and Applications, International Journal For Research in Applied Science & Engineering Technology, 8(2020),1233-1242
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