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Previous Volume 358:1777-1779 April 24, 2008 Number 17 Next

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Trachoma, a chronic bacterial keratoconjunctivitis, has always been inextricably linked with poverty. It would not even be mentioned in the curricula of many U.S. medical schools today if not for its connection with a common sexually transmitted disease: trachoma is caused by four serovars of Chlamydia trachomatis (A, B, Ba, and C); serovars D through K cause genital tract infection. All strains share a proclivity for epithelial surfaces. The organism is transmitted from eye to eye by hands or towels used on the face; moisture-seeking flies may play a lesser role. The genome of C. trachomatis has been sequenced, revealing that the trachoma strains, but not the genital-infecting strains, carry a mutation in a variable region encoding genes for tryptophan synthesis. Repeated infections of the eyes with the trachoma strains result in a sequence of tarsal conjunctivitis, scarring, shortening of the upper lid (so that the eyelashes abrade the cornea), trichiasis, and finally, corneal opacity.

Trachoma was not always so little known. It was once an exclusion criterion at Ellis Island for those wishing to immigrate into the United States (see photo). The sadness caused by such exclusions was memorialized in the autobiography of New York's Mayor LaGuardia, who had worked as an interpreter at Ellis Island.¹ A "trachoma belt" was thought to exist in the United States as late as 1940.² Trachoma hospitals were established in this belt, and the last of them did not close until the 1950s (around the time that C. trachomatis was finally cultured), when socioeconomic improvements had resulted in steadily decreasing trachoma rates in Europe and North America.

View larger version (99K): [in this window] [in a new window]   Public Health Service Physician Checking for Signs of Trachoma in Prospective Immigrants at Ellis Island. "It was harrowing to see families separated . . . sometimes, if it was a young child who suffered from trachoma, one of the parents had to return to the native country with the rejected member of the family." — New York Mayor Fiorello LaGuardia, The Making of an Insurgent: An Autobiography, 1882–1919. From the National Park Service: Statue of Liberty National Monument.

 
In the developing world, by contrast, trachoma remains the leading infectious cause of blindness. The World Health Organization (WHO) reports that 55 million people remain infected, and 3 million are visually impaired or blind because of trachoma. The total at-risk population is approximately 500 million; the 2005 global distribution is shown on the world map. Although there has been a steady downward trend in trachoma rates, the economic improvements, increased access to water, and enhanced sanitation that caused trachoma to vanish from the United States and Western Europe cannot be expected to occur in the near term in much of the developing world.

View larger version (26K): [in this window] [in a new window]   Global Distribution of Trachoma in 2005. Data are from the International Centre for Eye Health.

 
In 1997, the WHO founded its Alliance for the Global Elimination of Blinding Trachoma by the Year 2020 (GET2020), which includes ministries of health and organizations for the prevention of blindness. And in 1998, a World Health Assembly resolution called for the 55 countries where trachoma remains endemic to take steps to eliminate blinding trachoma by implementing the SAFE strategy devised by the WHO, which includes four elements proven to lead to control³: trichiasis surgery to halt corneal damage (tertiary prevention), antibiotic treatment (single-dose azithromycin, 20 mg per kilogram of body weight for children and 1 g per kilogram for adults, for secondary prevention), face washing or improved facial hygiene (primary prevention), and environmental change, including access to water and improved sanitation (primary prevention). The WHO's endorsement of the use of azithromycin for trachoma led to a decision by Pfizer to donate the drug for this purpose. Pfizer joined the Edna McConnell Clark Foundation to found the International Trachoma Initiative to advance this elimination program.⁴

The SAFE approach provides not only an effective public health intervention but also a rallying cry for implementing it. A single dose of azithromycin was found in many studies to be as effective as 6 weeks of treatment with topical tetracycline ointment.

In this issue of the Journal, Solomon et al. (pages 1870–1871) report heartening news from Tanzania: the remarkable effects of a single mass treatment with azithromycin in a small village and the complete absence of the organism 5 years after a second treatment. This report strengthens the view that trachoma as a cause of blindness need not persist beyond the first quarter of this century. Fifteen countries have launched national control efforts involving the SAFE guidelines and azithromycin. Although not all programs can report the dramatic decrease in infection rates seen in the Tanzanian village, national programs are no doubt partially responsible for a striking drop in worldwide rates — from approximately 100 million people infected in 1996 to 43 million in 2008, according to WHO estimates. Moreover, one does not have to eradicate the organism, nor eliminate every case of trachoma, to prevent blindness. Scarring and shortening of the upper eyelid in trachoma result from repeated infections. If prevalence falls to low levels (perhaps not even as low as those achieved in the Tanzanian village), trichiasis and blindness may not occur.

Although the SAFE strategy is effective, not all questions about how best to apply it have been answered. Operational research will be needed, and some relevant studies are under way or in the planning stages. The findings of Solomon et al. point to several immediate issues.

First, the evidence that a single mass treatment (or at most, two such treatments) may be sufficient in a low-prevalence area raises the question of whether the WHO should reconsider its recommendation that three annual treatments be administered in such areas. Second, there are questions about generalizability: for instance, it is unknown whether similar results can be expected in large areas, where mass treatment is unlikely to reach the 93 to 97% of the population treated in the Tanzanian village; and in areas where far more than 50% of children are infected — such as in Ethiopia — treatments may be required twice a year rather than once a year.

Third, the effectiveness of azithromycin may not be reflected in the commonly used clinical exams. Solomon et al. suggest that a point-of-care diagnostic assay is desirable; unfortunately, the one they cite has not yet been made available for further testing by other investigators.

Finally, mass treatment raises the specter of potential bacterial resistance. Ongoing monitoring is necessary; to date, studies in three countries have shown a return to pretreatment resistance levels of Streptococcus pneumoniae after mass treatment, but no resistance has been found for C. trachomatis.

The other elements of SAFE also require refinement or improved application. Surgery performed according to the WHO-recommended bilamellar tarsal-rotation procedure does halt corneal damage; however, trichiasis has been shown in several studies to recur in nearly 20% of patients. There is already evidence that quality control and retraining are needed to ensure that this 15-minute procedure (which is often performed by ophthalmologic nurses) meets quality standards. In addition, in areas of high transmission, standard azithromycin treatment at the time of surgery may improve results.

The facial-hygiene and environmental-change components of SAFE remain problematic and, with regard to improving sanitation and access to water, too expensive for some countries. The United Nations International Drinking Water Supply and Sanitation Decade, which ended in 1990, was not an unqualified success, largely because of the cost and complexity of the necessary interventions. Inventive approaches are being pursued to improve health education and change hygiene-related behavior through community participation. Manuals describing the application of the complete SAFE strategy are available from the WHO (www.who.int).

The WHO has been quite successful in defining the epidemiologic characteristics of blinding trachoma, continuing to encourage a small group of trachoma investigators, developing an effective public health strategy, convening an alliance, and organizing the means for defeating this disease. The gradual improvement in social conditions is clearly contributing to a decreasing prevalence, and Pfizer's donation of azithromycin may greatly hasten the elimination of blinding disease. Since 1998, approximately 74 million people have been treated. Among the 15 countries with national control programs, Morocco has already declared that trachoma has been eliminated. The WHO is now defining the criteria for certifying a country's elimination of trachoma.

Much work remains to be done, both to improve and to apply the SAFE strategy. Perhaps equally important, steps are being taken to integrate trachoma control with programs for controlling other "neglected" tropical diseases, especially schistosomiasis, lymphatic filariasis, onchocerciasis, and infection with soil-transmitted helminths.⁵ The early results achieved with the use of the SAFE strategy and azithromycin mass treatment suggest that elimination of blinding trachoma by 2020 is entirely possible.

No potential conflict of interest relevant to this article was reported.

Source Information

Dr. Cook is an adjunct professor of epidemiology at the School of Public Health, University of North Carolina, Chapel Hill.

A slide presentation is available with the full text of this article at www.nejm.org.

References

1. La Guardia FH. The making of an insurgent: an autobiography, 1882–1919. Philadelphia: J.B. Lippincott, 1948. 
2. Gradle HS. Incidence and distribution of trachoma in the United States. Sightsav Rev 1940;10:13-18. 
3. Kuper H, Solomon AW, Buchan J, Zondervan M, Foster A, Mabey D. A critical review of the SAFE strategy for the prevention of blinding trachoma. Lancet Infect Dis 2003;3:372-381. [CrossRef][ISI][Medline]
4. Mecaskey JW, Knirsch CA, Kumaresan JA, Cook JA. The possibility of eliminating blinding trachoma. Lancet Infect Dis 2003;3:728-734. [CrossRef][ISI][Medline]
5. Hotez PJ, Molyneux DH, Fenwick A, et al. Control of neglected tropical diseases. N Engl J Med 2007;357:1018-1027. [Free Full Text]

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Related Letters:

Two Doses of Azithromycin to Eliminate Trachoma in a Tanzanian Community
Solomon A. W., Harding-Esch E., Alexander N. D.E., Aguirre A., Holland M. J., Bailey R. L., Foster A., Mabey D. C.W., Massae P. A., Courtright P., Shao J. F.
Extract | Full Text | PDF  
N Engl J Med 2008; 358:1870-1871, Apr 24, 2008. Correspondence

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