CONSTRUCTION OF STOCHASTIC MODEL FOR TIME TO DENGUE VIRUS TRANSMISSION WITH EXPONENTIAL DISTRIBUTION

Similar documents
International Journal of Emerging Technologies in Computational and Applied Sciences (IJETCAS)

Validation of the Gravity Model in Predicting the Global Spread of Influenza

Modeling the Survival of Retrospective Clinical Data from Prostate Cancer Patients in Komfo Anokye Teaching Hospital, Ghana

Gurprit Grover and Dulumoni Das* Department of Statistics, Faculty of Mathematical Sciences, University of Delhi, Delhi, India.

STAGE-STRUCTURED POPULATION DYNAMICS OF AEDES AEGYPTI

A STOCHASTIC EQUATION-BASED MODEL OF THE VALUE OF INTERNATIONAL AIR-TRAVEL RESTRICTIONS FOR CONTROLLING PANDEMIC FLU

Economic crisis and follow-up of the conditions that define metabolic syndrome in a cohort of Catalonia,

Joint Modelling Approaches in diabetes research. Francisco Gude Clinical Epidemiology Unit, Hospital Clínico Universitario de Santiago

Estimating the distribution of the window period for recent HIV infections: A comparison of statistical methods

Project title: Mathematical Models of Fish Populations in Marine Reserves

UNIVERISTY OF KWAZULU-NATAL, PIETERMARITZBURG SCHOOL OF MATHEMATICS, STATISTICS AND COMPUTER SCIENCE

Linking Dynamical and Population Genetic Models of Persistent Viral Infection

Optimal Planning of Charging Station for Phased Electric Vehicle *

Price linkages in value chains: methodology

Association between cholesterol and cardiac parameters.

Copy Number Variation Methods and Data

LETTERS. Effects of thymic selection of the T-cell repertoire on HLA class I-associated control of HIV infection

Physical Model for the Evolution of the Genetic Code

The Effect of Fish Farmers Association on Technical Efficiency: An Application of Propensity Score Matching Analysis

National Polyp Study data: evidence for regression of adenomas

Application of Gamma Process for Deterioration Prediction of Buildings from Discrete Condition Data

NHS Outcomes Framework

Survival Rate of Patients of Ovarian Cancer: Rough Set Approach

Unobserved Heterogeneity and the Statistical Analysis of Highway Accident Data

TOBIT REGRESSION AND CENSORED CYTOKINE DATA. Terrence L. O Day. BS, St Vincent College, MBA, University of Phoenix, 2003

The Interaction Effects of the Factors Influencing Knowledge and. Consciousness of the Infectious Diseases: Bangladeshi Population

HIV/AIDS-related Expectations and Risky Sexual Behavior in Malawi

THE ASSOCIATION OF PNEUMOCOCCI, HEMOPHILUS INFLUENZAE, AND STREPTOCOCCUS HEMOLYTICUS WITH CORYZA, PHARYNGITIS, AND SINUSITIS

THE NATURAL HISTORY AND THE EFFECT OF PIVMECILLINAM IN LOWER URINARY TRACT INFECTION.

THE NORMAL DISTRIBUTION AND Z-SCORES COMMON CORE ALGEBRA II

HIV/AIDS-related Expectations and Risky Sexual Behavior in Malawi

The Limits of Individual Identification from Sample Allele Frequencies: Theory and Statistical Analysis

Statistical Analysis on Infectious Diseases in Dubai, UAE

Prediction of Total Pressure Drop in Stenotic Coronary Arteries with Their Geometric Parameters

PSI Tuberculosis Health Impact Estimation Model. Warren Stevens and David Jeffries Research & Metrics, Population Services International

Parameter Estimates of a Random Regression Test Day Model for First Three Lactation Somatic Cell Scores

Study and Comparison of Various Techniques of Image Edge Detection

A comparison of statistical methods in interrupted time series analysis to estimate an intervention effect

This article appeared in a journal published by Elsevier. The attached copy is furnished to the author for internal non-commercial research and

Concentration of teicoplanin in the serum of adults with end stage chronic renal failure undergoing treatment for infection

Estimation of Relative Survival Based on Cancer Registry Data

THIS IS AN OFFICIAL NH DHHS HEALTH ALERT

Optimal probability weights for estimating causal effects of time-varying treatments with marginal structural Cox models

Knowledge and perception on tuberculosis transmission in Tanzania: Multinomial logistic regression analysis of secondary data

A SIMULATION STUDY OF MECHANISM OF POSTFLIGHT ORTHOSTATIC INTOLERANCE

Arithmetic Average: Sum of all precipitation values divided by the number of stations 1 n

Estimation for Pavement Performance Curve based on Kyoto Model : A Case Study for Highway in the State of Sao Paulo

The Influence of the Isomerization Reactions on the Soybean Oil Hydrogenation Process

Modeling Multi Layer Feed-forward Neural. Network Model on the Influence of Hypertension. and Diabetes Mellitus on Family History of

Investigation of zinc oxide thin film by spectroscopic ellipsometry

BIOSTATISTICS. Lecture 1 Data Presentation and Descriptive Statistics. dr. Petr Nazarov

INITIAL ANALYSIS OF AWS-OBSERVED TEMPERATURE

Incorrect Beliefs. Overconfidence. Types of Overconfidence. Outline. Overprecision 4/22/2015. Econ 1820: Behavioral Economics Mark Dean Spring 2015

Non-parametric Survival Analysis for Breast Cancer Using nonmedical

Testing the Fetal Origins Hypothesis in a Developing Country: Evidence from the 1918 Influenza Pandemic

BIOSTATISTICS. Lecture 1 Data Presentation and Descriptive Statistics. dr. Petr Nazarov

An Introduction to Modern Measurement Theory

Optimizing an HIV testing program using a system dynamics model of the continuum of care

BAYESIAN EXPONENTIAL SURVIVAL MODEL IN THE ANALYSIS OF UNEMPLOYMENT DURATION DETERMINANTS

WHO S ASSESSMENT OF HEALTH CARE INDUSTRY PERFORMANCE: RATING THE RANKINGS

Ependymal cells Cilia on one surface Movement of material or fluid over surface of the cell

CORRUPTION PERCEPTIONS IN RUSSIA: ECONOMIC OR SOCIAL ISSUE?

A MIXTURE OF EXPERTS FOR CATARACT DIAGNOSIS IN HOSPITAL SCREENING DATA

Using the Perpendicular Distance to the Nearest Fracture as a Proxy for Conventional Fracture Spacing Measures

SMALL AREA CLUSTERING OF CASES OF PNEUMOCOCCAL BACTEREMIA.

Evaluation of the generalized gamma as a tool for treatment planning optimization

A GEOGRAPHICAL AND STATISTICAL ANALYSIS OF LEUKEMIA DEATHS RELATING TO NUCLEAR POWER PLANTS. Whitney Thompson, Sarah McGinnis, Darius McDaniel,

Supplement. PART A: Methods. In order to estimate population-wide HIV transmission and progression rates, we

The effect of travel restrictions on the spread of a moderately contagious disease

Bimodal Bidding in Experimental All-Pay Auctions

Analysis of Restricted Queueing Networks - A Blocking Approach

J. H. Rohrer, S. H. Baron, E. L. Hoffman, D. V. Swander

A Meta-Analysis of the Effect of Education on Social Capital

Intergenerational Use of and Attitudes Toward Food Labels in Louisiana

Discussion Papers In Economics And Business

Disease Mapping for Stomach Cancer in Libya Based on Besag York Mollié (BYM) Model

Biomarker Selection from Gene Expression Data for Tumour Categorization Using Bat Algorithm

Are Drinkers Prone to Engage in Risky Sexual Behaviors?

This article appeared in a journal published by Elsevier. The attached copy is furnished to the author for internal non-commercial research and

Analysis of Malaria Incidence using Quasi-Poisson Regression Model: Evidence from Obuasi Municipality, Ghana

NUMERICAL COMPARISONS OF BIOASSAY METHODS IN ESTIMATING LC50 TIANHONG ZHOU

PAPER TITLE: DETERMINING THE OPPORTUNITY OF NEW RAILWAY STATIONS

Birol, Ekin; Asare-Marfo, Dorene; Ayele, Gezahegn; Mensa-Bonsu, Akwasi; Ndirangu, Lydia; Okpukpara, Benjamin; Roy, Devesh; and Yakhshilikov, Yorbol

Desperation or Desire? The Role of Risk Aversion in Marriage. Christy Spivey, Ph.D. * forthcoming, Economic Inquiry. Abstract

Causal inference in nonexperimental studies typically

The effect of salvage therapy on survival in a longitudinal study with treatment by indication

Risk Misperception and Selection in Insurance Markets: An Application to Demand for Cancer Insurance

Active Affective State Detection and User Assistance with Dynamic Bayesian Networks. Xiangyang Li, Qiang Ji

Integration of sensory information within touch and across modalities

Optimal Deployment of Stations for a Car Sharing System with Stochastic Demands: a Queueing Theoretical Perspective

1 0 1 Neither A nor B I Both Anti-A and Anti-B 1 0, A, B, AB I 0 1. Simulated ABO 6; Rh Bood vping Lab Activity Student Study Guide BACKGROUND

Richard Williams Notre Dame Sociology Meetings of the European Survey Research Association Ljubljana,

TOPICS IN HEALTH ECONOMETRICS

Evaluation of two release operations at Bonneville Dam on the smolt-to-adult survival of Spring Creek National Fish Hatchery fall Chinook salmon

Introduction ORIGINAL RESEARCH

310 Int'l Conf. Par. and Dist. Proc. Tech. and Appl. PDPTA'16

HIV/AIDS AND POVERTY IN SOUTH AFRICA: A BAYESIAN ESTIMATION OF SELECTION MODELS WITH CORRELATED FIXED-EFFECTS

Saeed Ghanbari, Seyyed Mohammad Taghi Ayatollahi*, Najaf Zare

Monte Carlo Analysis of a Subcutaneous Absorption Insulin Glargine Model: Variability in Plasma Insulin Concentrations

Effect of Acute-Phase Retinopathy of Prematurity on Grating Acuity Development in the Very Low Birth Weight Infant

Transcription:

Internatonal Journal of Pure and Appled Mathematcal Scences. ISSN 97-988 Volume, Number (7), pp. 3- Research Inda Publcatons http://www.rpublcaton.com ONSTRUTION OF STOHASTI MODEL FOR TIME TO DENGUE VIRUS TRANSMISSION WITH EXPONENTIAL DISTRIBUTION. Nanthaumar and.r.vjayashree Assocate Professor & Head, Department of Statstcs, Salem Sowdeswar ollege, Salem 636, TamlNadu, Inda. Emal: nandhustatslm@gmal.com Assstant Professor & Head, Department of Statstcs, Vysya ollege, Salem 6363, TamlNadu, Inda Emal: vjayashree78stat@gmal.com ABSTRAT In ths paper deals wth the study of a stochastc model for predctng the tme to Dengue vrus transmsson. As the mmune capactes of an ndvdual dffer and also have ts personal resstance, the antgenc dversty threshold s dssmlar for dfferent person. We construct a stochastc model to study the damage process actng on the mmune system that s non-lnear. The mean tme to Dengue vrus transmsson and ts varance are derved wth numercal example. Keywords: Antgenc dversty threshold, Alpha-Posson process, Mttag-Laffler dstrbuton, Dengue, Tme to Dengue vrus transmsson.. Introducton Dengue Fever (DF) and Dengue Hemorrhagc Fever (DHF), collectvely nown as dengue," are mosquto-borne, potentally mortal, flu-le vral dseases that affect humans worldwde. Transmtted to humans by the bte of an nfected mosquto Aedes aegypt, dengue s caused by any one of four serotypes are termed as DENV-, DENV-, DENV-3, and DENV-4, or antgen-specfc vruses; dengue vrus s part of the Flavvrdae famly. Dengue s one of the most rapdly spreadng mosquto-borne

onstructon Of Stochastc Model For Tme To Dengue Vrus 4 vral dseases n the world and nflcts sgnfcant health, economc and socal burdens on populatons. The severe form of dengue s medated by an ncrease n capllary permeablty that can cause severe bleedng (e.g. Gastrontestnal bleedng) and plasma leaage resultng n asctes and pleural effusons. Dengue dsease s a mosquto-borne condton that has become a major publc health concern. Dengue severty can be classfed nto mld Dengue fever (DF) and severe Dengue or Dengue hemorrhagc fever (DHF). Mathematcal and statstcal models descrbng the transmsson of dengue vruses appeared n the study of observatons related to pathogeness of dengue hemorrhagc fever (Fscher, 97) and provdng a better understandng of the nature and dynamcs of the transmsson of dengue nfecton, as well as predct outbreas and smulate the mpact of control strateges n dsease transmsson (Rco-Hesse, ). The tme to Dengue vrus transmsson by btng mosquto alone s the only mode of Dengue transmsson. The btes of mosqutoes are assumed between a seropostve person who s labeled as ndex case and seropostve state taes place over an ncubaton perod due to the contracton of Dengue to the partner from the ndex case by the btes of mosqutoes. In ths research paper constructng a stochastc model to learn the damage process performng on the mmune system that s non-lnear and also mean and varance of tme to Dengue vrus transmsson are derved wth numercal example.. Objectves Because of hardy assocated wth btes of mosqutoes, ths wor concentrates prmarly on estmatng the dynamcs of the Dengue transmsson by the btes of mosqutoes, as more than 95% of Dengue transmsson accounts for btes of mosqutoes. The objectves are: To realze the dynamcs of Dengue n an nfected ndvdual so that control measures can be adopted n order to slow down the severty of the dsease To learn the transmsson dynamcs of Dengue nfecton n a susceptble person so that the effcent strateges for controllng the spread of the epdemc can be mplemented To categorze the statstcal pattern of recognton of the tme to Dengue vrus transmsson To derve the dstrbuton of the tme to Dengue vrus transmsson To grant the nature and extent of uncertanty n tme to Dengue vrus transmsson wth respect to the vral load, bte rate and antgenc dversty threshold

5. Nanthaumar and.r.vjayashree 3. Assumptons and Notatons Btes of mosquto are the only source of Dengue transmsson. Damages to ndvduals are caused by transmsson of Dengue at each bte and the nter arrval tme between the btes are ndependent, dentcally dstrbuted random varables. The damage process actng on the mmune system of an nfected ndvdual s non-lnear and cumulatve. The total damage caused exceeds a threshold level, whch tself s a random varable, the tme to Dengue vrus transmsson occurs and the person s recognzed as nfected. The process that generates the btes, the sequence of damages and threshold are mutually ndependent. and the model parameters are: Btes rate of the nfected person (a) Intensty of the Dengue of the nfected person (β) Antgenc dversty threshold () 4. Stochastc model for tme to Dengue vrus transmsson wth one parameter Exponental dstrbuton 4. Dstrbuton of tme to Dengue vrus transmsson Let us consder a susceptble populaton whose major mode of transmsson s through btes of mosqutoes. Assume that at tme t=, a new member tested Dengue negatve enters the populaton and maes btes of mosquto wth members of the susceptble populaton. Let the btes of mosquto occur at random tme ponts whch s assumed to follow the Alpha-Posson dstrbuton () wth parameters a and β whch s gven as ( n) n ( at) pa, ( n, t) ( ), a,, n,,... ( ( n) ( at) e ( at), a, t,, ( )

onstructon Of Stochastc Model For Tme To Dengue Vrus 6 Where a = No. of btes, β = ntensty of Dengue nfected person Let G(t) be the dstrbuton functon of the nter bte between the btes whch follows Mttag-Leffler dstrbuton. The dstrbuton functon of Mttag-Leffler dstrbuton () s gven by ( ) ( ) Ga, ( t) ( at), t, a and ( ) Let the tme to Dengue vrus transmsson of the ndvdual be represented by the random varable. We obtan the dstrbuton of tme to Dengue vrus transmsson by a stochastc model based on the assumptons wth lnear damage process actng on the mmune system, we have the followng theorem. If the number of btes s an Alpha-Posson process wth parameters a and β and nter bte tme s a Mttag-Leffler dstrbuton whle the threshold level s an exponental dstrbuton wth parameter, then the probablty densty functon of tme to Dengue vrus transmsson s a three parameter Webull dstrbuton. The densty functon of the dstrbuton of tme to Dengue vrus transmsson: onsder S(t) = P{no nfecton n (, t)} P T t P{ Number of Seroconverson before t gven exactly bte n, t wth ntensty } P exactly btes n, t wth ntensty V() t X Y where V ( t) Probablty of btes n, t wth ntensty p( x) e ( at). e., the Alpha Posson dstrbuton wth parameter a and ( at) e, a,,,,3... ( ) x x g ( ) x P( X Y) G( x) e dx G ( ) g ( ), whereg ( ) G( x) e dx P( X Y) g ( ) x P X X... X Y g( x) e dx g ( ) g ( ) g ( )... g ( ) g ( )

7. Nanthaumar and.r.vjayashree where g ( ) sthe LaplaceTransformatonof g( x) and g ( x) p. d. f. of X S( t) V ( t) g ( ) ( at) g ( ) ( at) g ( ) ( at) g ( ) ( at) g ( ) ( at) e... sn ce, hence St ( ) e ( at) g( ) 3 ( ) ( at) g ( ) ( at) g ( ) ( at) g ( ) ( at) g ( ) ( at) e... 3 ( ) L t S t s called Prevalence functon e x ( at) g( ) The probablty densty functon of tme to Dengue vrus transmssont s d f () t Lt dt d f() t e a t g ( ) e dt ( at) g ( ) ( at) g ( ) The probablty densty functon of tme to Dengue vrus transmsson t s ( at) g ( ) a t g ( ) e, t,, a, f() t, Otherwse Usng Mttag Leffler dstrbuton a a g ( ) g ( ) g ( ) a a a The above functon s n the form of three parameter Webull dstrbuton. Furthermore, we notced that f the number of btes s a Alpha-Posson process wth parameters a and the nter bte tme s a Mttag-Leffler dstrbuton whle the threshold level s also an exponental dstrbuton wth parameter (), then the probablty densty functon of tme to Dengue vrus transmsson s a three parameter Webull dstrbuton.

onstructon Of Stochastc Model For Tme To Dengue Vrus 8 4. Probablty of tme to Dengue vrus transmsson The probablty of tme to Dengue vrus transmsson s calculated for varous ntervals by defnng p t t t t f ( t) dt for,,3... a t a t a a t a t a where f ( t) e, t,, a and a p e dt a a a t t a t a t e dt for,,3... a t a t dz Let z then dz dt and t dt a a a a where then t dt, lmt a z t t t a dz t t t z z e p e dz for,,3... t t t The probablty of tme to Dengue vrus transmsson s calculated for varous ntervals s gven as a a t t t t a a p e e e e where t and t + has one wdth of class nterval wdth

9. Nanthaumar and.r.vjayashree 4.3 Performance of measures of tme to Dengue vrus transmsson The expected tme to Dengue vrus transmsson and ts varance are obtaned below: Mean E( T ) t f ( t) dt ' a t a t ' a t a ' a a a a t e dt t e dt a t a y Let y where y t t a a dy dy t dy y t dt dt t t dt t ' ( ) ' ( ) ( ) E T t f t dt ' ' a ( ) at at a t a a a a a t e dt t t e dt at a a t e dt t dt, lmt t y t y a t a y y Let y where y t t t a a ( ) dy dy t dy y dy t y t dt dt t t dt t dt, lmt t t y ' y e ( ) dy ( ) ' e y dy ( ) ( )

onstructon Of Stochastc Model For Tme To Dengue Vrus Varance of tme to Dengue vrus transmsson s V ( T ) E( T ) E( T) VT ( ) ( ) ( ) Partcular case f = then ' ET ( ) ( ) VT ( ) ( ) a a a VT ( ) a 5. oncluson In the study of Dengue epdemc the seroconverson tme of Dengue transmsson s an nevtable component. Snce the bte rate s non observable n most cases one mosquto would expect that the spread of Dengue would have an mpact on the human lfe. In ths research artcle we constructed a stochastc model for tme to Dengue transmsson and t s noted that mean tme to Dengue transmsson to s less than the varance of tme to Dengue transmsson. REFERENES [] Anl, V.,, A generalzed Posson dstrbuton and ts applcaton, J. Kerala Stat. Asso., Volume, pp.-. [] Fscher, D.B., and Halstead, S.B., 97, Observatons related to pathogeness of dengue hemorrhagc fever, V. Examnaton of age specfc sequental nfecton rates usng a mathematcal model, J. of Boogy and Medcne, Volume 4, pp.39 49. [3] Nanthaumar and Vjayashree R (7). onstructon of Stochastc model for tme to Dengue vrus transmsson wth three parameters exponental

. Nanthaumar and.r.vjayashree dstrbuton, Bulletn of Mathematcs and Statstcs Research, Vol.5, Issue, pp.75-86. [4] Plla, R.N., 99, On Mttag-Lffler functon and related dstrbutons, Annals of the Insttute of Statstcal Mathematcs, Volume, pp.57-6. [5] Rco-Hesse, R.,, Dengue vrus vrulence and transmsson determnants, urr. Topcs n Mcrobology and Immunology, Volume 338, pp.45 55. [6] Santhaumaran, A., Nanthaumar,., Venaatesan, P., and Kannan, R., 3, A Stochastc model for seroconverson tmes of HIV transmsson, Bo- Scence research Bulletn, Volume 9, pp.3-39. [7] Sathyamoorthy, R. and Kannan, R.,, A Stochastc model for tme to seroconverson of HIV transmsson, J. of the Kerala Stat. Asso., Volume, pp.3-8. [8] Venatesan, P. and Nanthaumar,., 4, Some contrbutons to the modelng of seroconverson tme of human mmunodefcency vrus, Ph.D Thess, Unversty of Madras, henna. Webste: http://www.who.nt/en/

onstructon Of Stochastc Model For Tme To Dengue Vrus

2024 © healthdocbox.com Privacy Policy | Terms of Service | Feedback