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DESCRIPTION:Course type: Short CourseDate: 15 June - 26 June 2026Location: 
 Face-to-Face/OnlineOverviewInfectious diseases remain a leading cause of m
 orbidity and mortality worldwide\, with HIV\, tuberculosis and malaria est
 imated to cause 10% of all deaths each year. New pathogens continue to eme
 rge\, as demonstrated by the SARS epidemic in 2003\, the swine flu pandemi
 c in 2009\, MERS CoV in 2013\, Zika in 2016 and\, recently SARS-CoV-2.This
  two-week course\, now running for its 26th year\, is organised jointly be
 tween the London School of Hygiene &amp\; Tropical Medicine and the&nbsp\;
 UK Health Security Agency&nbsp\;(formerly\, Public Health England). It is 
 intended to introduce professionals working on infectious diseases in eith
 er developing or developed countries to this exciting and expanding area. 
 The emphasis will be on developing a conceptual understanding of the basic
  methods and on their practical application\, rather than the manipulation
  of mathematical equations. The methods will be illustrated by "hands-on" 
 experience of setting up models in spreadsheets as well as other specialis
 t modelling packages\, small group work\, and seminars in which the applic
 ations of modelling will be discussed.By the end of the course\, participa
 nts will have deepened their current understanding of infectious disease e
 pidemiology and have gained an understanding and practical experience of t
 he basics of infectious disease modelling\, which will be useful in their 
 future work.Who is this course for?The course is designed for individuals 
 interested in expanding their knowledge of the techniques available for an
 alysing and interpreting epidemiological data on infectious diseases and f
 or predicting the impact of control programmes\, including medical and hea
 lth professionals\, policymakers\, veterinary scientists\, medical statist
 icians and infectious disease researchers. Specialist mathematical trainin
 g is not a prerequisite. However\, individuals with degrees in mathematica
 l disciplines working on some aspect of infectious disease dynamics and/ o
 r control\, who wish to learn about the potential of infectious disease mo
 delling will also benefit. Some familiarity with spreadsheet packages (ide
 ally Excel) is desirable. Applicants should have a good command of English
 . Participants are expected to bring their own laptop (please contact the 
 course organisers before the start of the course if this won&rsquo\;t be p
 ossible).&nbsp\;&nbsp\;Course OutlineThe course makes use of Excel\, and a
  specialist modelling package (Berkeley Madonna). The topics to be covered
  include:Key concepts in infectious disease epidemiology\;The basic method
 s for setting up (deterministic and stochastic) infectious disease models\
 ;Practical applications of modelling\, including predicting the impact of 
 control strategies against infections\, and describing the course of outbr
 eaks\;Analyses of serological data: methods for estimating age and time-de
 pendent transmission rates and their application for developing models of 
 the dynamics of infections\;Modelling in real-time\;How to read and interp
 ret modelling papers\;Models for describing STI transmission and control\;
 Models of the dynamics and control of&nbsp\;tuberculosis\;Fitting models t
 o data\, network models\, sensitivity analyses and introductory health eco
 nomics.Guest lectures from researchers working on mathematical modelling.T
 he material from this popular and successful course is complemented by the
  published book&nbsp\;&ldquo\;An Introduction to Infectious Disease Modell
 ing&rdquo\;&nbsp\;which was written by two of the course organizers (Emili
 a Vynnycky&nbsp\;and&nbsp\;Richard White).How to ApplyFor more information
  and how to register\, please&nbsp\;click here!Application deadline: 18 Ma
 y 2026
DTEND;VALUE=DATE:20260727
DTSTAMP:20260430T102813Z
DTSTART;VALUE=DATE:20260615
LOCATION:
SEQUENCE:0
SUMMARY:Introduction to Infectious Disease Modelling and its Applications
UID:RFCALITEM639131416932289702
X-ALT-DESC;FMTTYPE=text/html:<img src="https://psiweb.org/images/default-so
 urce/default-album/lshtm.png?sfvrsn=84f2a9db_1&amp\;sf_site_temp=true&amp\
 ;sf_site=aa6f9fcc-8c60-4e6d-90ca-8c73a12c9f03" style="max-width:100%\;heig
 ht:auto\;" width="432" height="218" sf-image-responsive="true" sf-size="43
 370" alt="" title="LSHTM" /><p><strong>Course type: </strong>Short Course<
 br /><strong>Date</strong>: 15 June - 26 June 2026<br /><strong>Location: 
 </strong>Face-to-Face/Online</p><h2>Overview</h2><p>Infectious diseases re
 main a leading cause of morbidity and mortality worldwide\, with HIV\, tub
 erculosis and malaria estimated to cause 10% of all deaths each year. New 
 pathogens continue to emerge\, as demonstrated by the SARS epidemic in 200
 3\, the swine flu pandemic in 2009\, MERS CoV in 2013\, Zika in 2016 and\,
  recently SARS-CoV-2.</p><p>This two-week course\, now running for its 26t
 h year\, is organised jointly between the London School of Hygiene &amp\; 
 Tropical Medicine and the&nbsp\;<a href="https://www.gov.uk/government/org
 anisations/uk-health-security-agency">UK Health Security Agency</a>&nbsp\;
 (formerly\, Public Health England). It is intended to introduce profession
 als working on infectious diseases in either developing or developed count
 ries to this exciting and expanding area. The emphasis will be on developi
 ng a conceptual understanding of the basic methods and on their practical 
 application\, rather than the manipulation of mathematical equations. The 
 methods will be illustrated by "hands-on" experience of setting up models 
 in spreadsheets as well as other specialist modelling packages\, small gro
 up work\, and seminars in which the applications of modelling will be disc
 ussed.</p><p>By the end of the course\, participants will have deepened th
 eir current understanding of infectious disease epidemiology and have gain
 ed an understanding and practical experience of the basics of infectious d
 isease modelling\, which will be useful in their future work.</p><h2>Who i
 s this course for?</h2>The course is designed for individuals interested i
 n expanding their knowledge of the techniques available for analysing and 
 interpreting epidemiological data on infectious diseases and for predictin
 g the impact of control programmes\, including medical and health professi
 onals\, policymakers\, veterinary scientists\, medical statisticians and i
 nfectious disease researchers. Specialist mathematical training is not a p
 rerequisite. However\, individuals with degrees in mathematical discipline
 s working on some aspect of infectious disease dynamics and/ or control\, 
 who wish to learn about the potential of infectious disease modelling will
  also benefit. Some familiarity with spreadsheet packages (ideally Excel) 
 is desirable. Applicants should have a good command of English. Participan
 ts are expected to bring their own laptop (please contact the course organ
 isers before the start of the course if this won&rsquo\;t be possible).&nb
 sp\;<p>&nbsp\;</p><h2>Course Outline</h2><p>The course makes use of Excel\
 , and a specialist modelling package (Berkeley Madonna). The topics to be 
 covered include:</p><ul><li>Key concepts in infectious disease epidemiolog
 y\;</li><li>The basic methods for setting up (deterministic and stochastic
 ) infectious disease models\;</li><li>Practical applications of modelling\
 , including predicting the impact of control strategies against infections
 \, and describing the course of outbreaks\;</li><li>Analyses of serologica
 l data: methods for estimating age and time-dependent transmission rates a
 nd their application for developing models of the dynamics of infections\;
 </li><li>Modelling in real-time\;</li><li>How to read and interpret modell
 ing papers\;</li><li>Models for describing STI transmission and control\;<
 /li><li>Models of the dynamics and control of&nbsp\;tuberculosis\;</li><li
 >Fitting models to data\, network models\, sensitivity analyses and introd
 uctory health economics.</li><li>Guest lectures from researchers working o
 n mathematical modelling.</li></ul><p>The material from this popular and s
 uccessful course is complemented by the published book&nbsp\;<em>&ldquo\;A
 n Introduction to Infectious Disease Modelling&rdquo\;</em>&nbsp\;which wa
 s written by two of the course organizers (<a href="https://www.lshtm.ac.u
 k/node/377006" data-entity-type="node" data-entity-uuid="b1ea1dce-f6ac-4f5
 3-9b14-2634f0412f8a" data-entity-substitution="canonical">Emilia Vynnycky<
 /a>&nbsp\;and&nbsp\;<a href="https://www.lshtm.ac.uk/node/60716" data-enti
 ty-type="node" data-entity-uuid="75e10985-2c63-4da7-b3ad-21b7c4f142ad" dat
 a-entity-substitution="canonical">Richard White</a>).</p><ul></ul><h2>How 
 to Apply</h2><p>For more information and how to register\, please&nbsp\;<s
 trong><a href="https://www.lshtm.ac.uk/study/courses/short-courses/cluster
 -randomised-trials?utm_source=psi&amp\;utm_medium=course_listing&amp\;utm_
 campaign=short-course"></a><a href="https://www.lshtm.ac.uk/study/courses/
 short-courses/infectious-disease-modelling?utm_source=psi&amp\;utm_medium=
 course_listing&amp\;utm_campaign=short-course">click here!</a></strong></p
 ><p><strong>Application deadline: 18 May 2026</strong></p>
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