Update: influenza activity--United States, 1998-99 season.

In collaboration with the World Health Organization (WHO), its collaborating laboratories, and state and local health departments, CDC conducts surveillance to monitor influenza activity and to detect antigenic changes in the circulating strains of influenza viruses. This report summarizes influenza surveillance in the United States from October 4, 1998, to January 9, 1999, which indicates that overall influenza activity was low.

THIS REPORT SUMMARIZES INFLUENZA ACtivity in the United States from October 4, 1998, through February 27, 1999. It also presents results of an investigation of an influenza outbreak among staff and residents at one long-term-care facility (LTCF), and estimates the 1998-99 influenza vaccine effectiveness against the circulating influenza A(H3N2) viruses at that facility. Based on influenza surveillance data, influenza activity in the United States began to increase in mid-January 1999 and remained elevated in most regions of the country through the week ending February 27.
The percentage of patient visits to approximately 350 sentinel physicians for influenza-like illness (ILI) increased from baseline levels of 0-3% during the week ending January 23 and has remained elevated for 6 consecutive weeks. For the week ending February 27, 4% of patient visits were for ILI. Visits for ILI were above baseline levels in all influenza surveillance regions for the week ending February 27 except the mid-Atlantic and east south central regions, which had levels of 1% and 3%, respectively.
Since the week ending January 23, at least 25 states have reported either widespread or regional activity each week (Figure). The highest number of states reporting either widespread or regional activity during any 1 week was 43 during the week ending February 13. State and territorial epidemiologists in 41 states and the District of Columbia reported either widespread or regional influenza activity * for the week ending February 27.

Long-Term-Care Facility Outbreak
The California Department of Health Services (CDHS) requires that all LTCFs report respiratory illness outbreaks to the state or local health department. As of February 27, CDHS had received five reports of culture-confirmed influenza outbreaks among the approximately 1200 LTCFs in the state. Fol-

FROM THE CENTERS FOR DISEASE CONTROL AND PREVENTION
Number of state and territorial epidemiologists reporting widespread or regional influenza activity*, by week and year -United States, October 4, 1998-February 27, 1999 lowing is a result of an investigation of one of these outbreaks. On December 31, 1998, a LTCF notified the Santa Clara County Public Health Department of an ILI outbreak among residents of two units in one of the facility's four buildings. Nasopharyngeal swab specimens from eight of 10 ill residents were positive for influenza A by direct fluorescent antibody testing. The outbreak investigation included active surveillance for ILI (temperature Ն100 F [Ն38 C] and cough or sore throat or rhinitis), viral culture of nasopharyngeal swab samples collected from selected ill residents and staff, and collection of vaccination and illness histories from residents and staff in the two affected units. Vaccine effectiveness against ILI was calculated as 1 minus relative risk.
Residents in this facility are assigned to different buildings according to the level of care required. The most debilitated residents, most of whom are bedridden and require complete care, reside in Building 1. During the fall, residents in all four buildings (n = 524) received influenza vaccination, except residents with medical contraindications. Of the 1200 staff members offered vaccine, approximately 200 (17%) were vaccinated at the facility, and some may have been vaccinated by outside providers.
The Outbreak-control measures included cohorting ill residents and initiating droplet precautions 1 and administering amantadine for prophylaxis of non-ill residents and treatment of ill residents. Unvaccinated staff were offered amantadine prophylaxis and influenza vaccine. Ill staff were discouraged from coming to work, and ill visitors were asked to postpone their visits. CDC Editorial Note: Almost all states have reported either regional or widespread influenza activity this influenza season. Although only 21% of influenza isolates have been type B, influenza B viruses have been detected in all influenza surveillance regions. Influenza A/Sydney/5/97 (H3N2)-like virus appears to be the predominant strain so far this influenza season.
The influenza A outbreak described in this report illustrates several points. First, influenza outbreaks can occur among highly vaccinated LTCF populations even in years when the vaccine is well matched to circulating virus strains 2,3 ; LTCFs should conduct surveillance to identify clusters of respiratory illness and should alert state or local health departments when clusters are identified. Second, early detection of influenza outbreaks and timely initiation of control measures, such as cohorting of ill residents, use of droplet precautions, and use of antiviral medications (amantadine or rimantadine) for prophylaxis or treatment of persons at high risk for influenza A-related complications, can limit the spread of disease. 1,4 Amantadine and rimantadine are 70%-90% effective in preventing influenza A infections and can reduce severity and duration of symptoms from influenza A when administered within 48 hours of onset; however, these medications are not effective against influenza type B viruses. 5 Chronic-care facilities should know which laboratories in their area perform rapid influenza A testing and should develop a plan to rapidly detect influenza A outbreaks and to administer antiviral medications if influenza is detected. 4-7 Third, health-care workers can act as a vehicle for introducing influenza illness into LTCFs. 3,7 Because influenza infections can be severe in debilitated populations and because vaccine effectiveness is lower among LTCF residents (30%-40%) than in healthy adults (70%-90%), the Advisory Committee on Immunization Practices recommends that health-care workers and others caring for high-risk persons receive influenza vaccine annually. 2,3,5,7 Health-care workers and family members should be educated about the potentially serious consequences of influenza illness for high-risk persons and the need to limit contact with these persons. When health-care workers and family members are ill, they should avoid contact with high-risk persons.
Influenza surveillance data collected by CDC are updated weekly throughout the influenza season. Summaries are available through CDC; telephone (888) 232-3228, or fax (888) 232-3299 (request document number 361100). Surveillance information also is available on the World-Wide Web at Ͻhttp://www.cdc.gov/ncidod/diseases/ flu/weekly.htmϾ.
confirmed influenza in counties with a combined population of Ͻ50% of the state's total population; and (4) widespread-outbreaks of ILI or cultureconfirmed influenza in counties with a combined population of Ն50% of the state's total population. †The epidemic threshold is 1.645 standard deviations above the seasonal baseline. The expected seasonal baseline is projected using a robust regression procedure in which a periodic regression model is applied to observed percentages of deaths from P&I since 1983. MMWR. 1999;48:194-195 EFFECTIVE DECEMBER 31, 1998, ENrollment of new health-care workers (HCWs) in the Human Immunodeficiency Virus Postexposure Prophylaxis (HIV PEP) Registry ceased; the goals and objectives of the registry had been met. In addition, continuation of the registry appeared redundant with other ongoing surveillance programs.

HIV Postexposure Prophylaxis Registry Closing
The HIV PEP Registry was established in October 1996 as a prospective surveillance project to monitor adverse events associated with HIV PEP in HCWs after occupational HIV exposures. It was a collaborative project managed by CDC and two pharmaceutical companies, Glaxo Wellcome Inc. and Merck & Co., Inc.* A designated third party, a contract research organization, responsible for registration and follow-up, served as the data coordination center.
The registry data have shown that HCWs for whom HIV PEP is prescribed have not reported unusual adverse events (i.e., those not included in the prescribing information or literature) with these treatments.Datasuggestthatcarefulcounseling about drug toxicity may be necessary to improve compliance with PEP among exposed HCWs. Six-week followup of enrolled HCWs will be completed.
Additional information about the registry is available from the HIV PEP Registry, telephone (toll-free) ( ON AUGUST 26, 1998, THE U.S. DEPARTment of Health and Human Services (DHHS) adopted a policy to begin using a single new population standard for age-adjusting death rates. The new standard, which will be effective for deaths occurring in 1999, is based on the 2000 U.S. population.
Since 1943, the National Center for Health Statistics (NCHS) and state health departments have used a population standard based on the 1940 U.S. population for age-adjusting death rates. However, at least three different standards are used by federal and state agencies. Use of a single age-adjustment standard by federal agencies will help alleviate confusion and misunderstanding among data users and the news media.
In 1991 and 1997, NCHS sponsored workshops to examine issues associated with age standardization of death rates. The first workshop examined technical issues and problems related to the calculation and interpretation of age-adjusted death rates. 1 The second workshop focused on policy issues related to a coordinated approach to age standardization within DHHS. 2 Workshop participants concluded that although compelling technical reasons existed to change population standards, the public health community would be better served by a new, uniform, and more contemporary standard. The reports of both workshops are available on the World-Wide Web at http://www.cdc.gov/ nchswww/products/pubs/pubd/series/ sr4/pre-21/pre-21.htm.
Age-adjusted death rates calculated before implementation of the 2000 standard will not be comparable with rates based on the new standard. In addition, mortality time series at all geographic levels will have to be recomputed. Long-range goals (e.g., national health objectives for 2000) will have to be recalibrated in terms of ageadjusted death rates. Use of the 2000 standard will result in rates that are often substantially higher than those based on the 1940 standard. The new standard also will affect trends in ageadjusted death rates for certain causes of death and will narrow race differentials in age-adjusted death rates. The NCHS report on these changes 3 is available on the World-Wide Web, http:// www.cdc.gov/nchswww/products/pubs /pubd/nvsr/47-pre/47-pre.htm.
The decision by DHHS to adopt a uniform policy to age-adjust death rates represents a major change in statistical practice that has implications for federal, state, and local health programs. The adoption of a uniform standard will reduce the burden on state and local health departments to produce multiple time series to match federal statistical benchmarks. In addition, the adoption of a current population standard will improve the usefulness of health statistics issued by DHHS.