02474nas a2200325 4500000000100000008004100001653001300042653002200055653002500077653002400102653002300126653001100149653001300160653002600173653002600199100001500225700001200240700001200252700001000264700001200274700001100286700001400297700001200311700002200323245008400345300001100429490000600440520168800446022001402134 2011 d10aTrachoma10aSurvival Analysis10aStochastic Processes10aPopulation Dynamics10aModels, Biological10aHumans10aEthiopia10aChlamydia trachomatis10aAnti-Bacterial Agents1 aLietman TM1 aGebre T1 aAyele B1 aRay K1 aMaher C1 aSee CW1 aEmerson P1 aPorco T1 aTANA Study Group 00aThe epidemiological dynamics of infectious trachoma may facilitate elimination. a119-240 v33 a

INTRODUCTION: Trachoma programs use mass distributions of oral azithromycin to treat the ocular strains of Chlamydia trachomatis that cause the disease. There is debate whether infection can be eradicated or only controlled. Mass antibiotic administrations clearly reduce the prevalence of chlamydia in endemic communities. However, perfect coverage is unattainable, and the World Health Organization's goal is to control infection to a level where resulting blindness is not a public health concern. Here, we use mathematical models to assess whether more ambitious goals such as local elimination or even global eradication are possible.

METHODS: We fit a class of non-linear, stochastic, susceptible-infectious-susceptible (SIS) models which allow positive or negative feedback, to data from a recent community-randomized trial in Ethiopia, and make predictions using model averaging.

RESULTS: The models predict that reintroduced infection may not repopulate the community, or may do so sufficiently slowly that surveillance might be effective. The preferred model exhibits positive feedback, allowing a form of stochastic hysteresis in which infection returns slowly after mass treatment, if it returns at all. Results for regions of different endemicity suggest that elimination may be more feasible than earlier models had predicted.

DISCUSSION: If trachoma can be eradicated with repeated mass antibiotic distributions, it would encourage similar strategies against other bacterial diseases whose only host is humans and for which effective vaccines are not available.

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