Malaria Surveillance - United States, 2015.

IF 37.3 1区 医学 Q1 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH
Kimberly E Mace, Paul M Arguin, Kathrine R Tan
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Malaria surveillance in the United States is conducted to provide information on its occurrence (e.g., temporal, geographic, and demographic), guide prevention and treatment recommendations for travelers and patients, and facilitate transmission control measures if locally acquired cases are identified.</p><p><strong>Period covered: </strong>This report summarizes confirmed malaria cases in persons with onset of illness in 2015 and summarizes trends in previous years.</p><p><strong>Description of system: </strong>Malaria cases diagnosed by blood film microscopy, polymerase chain reaction, or rapid diagnostic tests are reported to local and state health departments by health care providers or laboratory staff members. Case investigations are conducted by local and state health departments, and reports are transmitted to CDC through the National Malaria Surveillance System (NMSS), the National Notifiable Diseases Surveillance System (NNDSS), or direct CDC consultations. CDC reference laboratories provide diagnostic assistance and conduct antimalarial drug resistance marker testing on blood samples submitted by health care providers or local or state health departments. This report summarizes data from the integration of all NMSS and NNDSS cases, CDC reference laboratory reports, and CDC clinical consultations.</p><p><strong>Results: </strong>CDC received reports of 1,517 confirmed malaria cases, including one congenital case, with an onset of symptoms in 2015 among persons who received their diagnoses in the United States. Although the number of malaria cases diagnosed in the United States has been increasing since the mid-1970s, the number of cases decreased by 208 from 2014 to 2015. Among the regions of acquisition (Africa, West Africa, Asia, Central America, the Caribbean, South America, Oceania, and the Middle East), the only region with significantly fewer imported cases in 2015 compared with 2014 was West Africa (781 versus 969). Plasmodium falciparum, P. vivax, P. ovale, and P. malariae were identified in 67.4%, 11.7%, 4.1%, and 3.1% of cases, respectively. Less than 1% of patients were infected by two species. The infecting species was unreported or undetermined in 12.9% of cases. CDC provided diagnostic assistance for 13.1% of patients with confirmed cases and tested 15.0% of P. falciparum specimens for antimalarial resistance markers. Of the U.S. resident patients who reported purpose of travel, 68.4% were visiting friends or relatives. A lower proportion of U.S. residents with malaria reported taking any chemoprophylaxis in 2015 (26.5%) compared with 2014 (32.5%), and adherence was poor in this group. Among the U.S residents for whom information on chemoprophylaxis use and travel region were known, 95.3% of patients with malaria did not adhere to or did not take a CDC-recommended chemoprophylaxis regimen. Among women with malaria, 32 were pregnant, and none had adhered to chemoprophylaxis. A total of 23 malaria cases occurred among U.S. military personnel in 2015. Three cases of malaria were imported from the approximately 3,000 military personnel deployed to an Ebola-affected country; two of these were not P. falciparum species, and one species was unspecified. Among all reported cases in 2015, 17.1% were classified as severe illnesses and 11 persons died, compared with an average of 6.1 deaths per year during 2000-2014. In 2015, CDC received 153 P. falciparum-positive samples for surveillance of antimalarial resistance markers (although certain loci were untestable for some samples); genetic polymorphisms associated with resistance to pyrimethamine were identified in 132 (86.3%), to sulfadoxine in 112 (73.7%), to chloroquine in 48 (31.4%), to mefloquine in six (4.3%), and to artemisinin in one (<1%), and no sample had resistance to atovaquone. Completion of data elements on the malaria case report form decreased from 2014 to 2015 and remains low, with 24.2% of case report forms missing at least one key element (species, travel history, and resident status).</p><p><strong>Interpretation: </strong>The decrease in malaria cases from 2014 to 2015 is associated with a decrease in imported cases from West Africa. This finding might be related to altered or curtailed travel to Ebola-affected countries in in this region. Despite progress in reducing malaria worldwide, the disease remains endemic in many regions, and the use of appropriate prevention measures by travelers is still inadequate.</p><p><strong>Public health actions: </strong>The best way to prevent malaria is to take chemoprophylaxis medication during travel to a country where malaria is endemic. 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引用次数: 0

Abstract

Problem/condition: Malaria in humans is caused by intraerythrocytic protozoa of the genus Plasmodium. These parasites are transmitted by the bite of an infective female Anopheles species mosquito. The majority of malaria infections in the United States occur among persons who have traveled to regions with ongoing malaria transmission. However, malaria is occasionally acquired by persons who have not traveled out of the country through exposure to infected blood products, congenital transmission, laboratory exposure, or local mosquitoborne transmission. Malaria surveillance in the United States is conducted to provide information on its occurrence (e.g., temporal, geographic, and demographic), guide prevention and treatment recommendations for travelers and patients, and facilitate transmission control measures if locally acquired cases are identified.

Period covered: This report summarizes confirmed malaria cases in persons with onset of illness in 2015 and summarizes trends in previous years.

Description of system: Malaria cases diagnosed by blood film microscopy, polymerase chain reaction, or rapid diagnostic tests are reported to local and state health departments by health care providers or laboratory staff members. Case investigations are conducted by local and state health departments, and reports are transmitted to CDC through the National Malaria Surveillance System (NMSS), the National Notifiable Diseases Surveillance System (NNDSS), or direct CDC consultations. CDC reference laboratories provide diagnostic assistance and conduct antimalarial drug resistance marker testing on blood samples submitted by health care providers or local or state health departments. This report summarizes data from the integration of all NMSS and NNDSS cases, CDC reference laboratory reports, and CDC clinical consultations.

Results: CDC received reports of 1,517 confirmed malaria cases, including one congenital case, with an onset of symptoms in 2015 among persons who received their diagnoses in the United States. Although the number of malaria cases diagnosed in the United States has been increasing since the mid-1970s, the number of cases decreased by 208 from 2014 to 2015. Among the regions of acquisition (Africa, West Africa, Asia, Central America, the Caribbean, South America, Oceania, and the Middle East), the only region with significantly fewer imported cases in 2015 compared with 2014 was West Africa (781 versus 969). Plasmodium falciparum, P. vivax, P. ovale, and P. malariae were identified in 67.4%, 11.7%, 4.1%, and 3.1% of cases, respectively. Less than 1% of patients were infected by two species. The infecting species was unreported or undetermined in 12.9% of cases. CDC provided diagnostic assistance for 13.1% of patients with confirmed cases and tested 15.0% of P. falciparum specimens for antimalarial resistance markers. Of the U.S. resident patients who reported purpose of travel, 68.4% were visiting friends or relatives. A lower proportion of U.S. residents with malaria reported taking any chemoprophylaxis in 2015 (26.5%) compared with 2014 (32.5%), and adherence was poor in this group. Among the U.S residents for whom information on chemoprophylaxis use and travel region were known, 95.3% of patients with malaria did not adhere to or did not take a CDC-recommended chemoprophylaxis regimen. Among women with malaria, 32 were pregnant, and none had adhered to chemoprophylaxis. A total of 23 malaria cases occurred among U.S. military personnel in 2015. Three cases of malaria were imported from the approximately 3,000 military personnel deployed to an Ebola-affected country; two of these were not P. falciparum species, and one species was unspecified. Among all reported cases in 2015, 17.1% were classified as severe illnesses and 11 persons died, compared with an average of 6.1 deaths per year during 2000-2014. In 2015, CDC received 153 P. falciparum-positive samples for surveillance of antimalarial resistance markers (although certain loci were untestable for some samples); genetic polymorphisms associated with resistance to pyrimethamine were identified in 132 (86.3%), to sulfadoxine in 112 (73.7%), to chloroquine in 48 (31.4%), to mefloquine in six (4.3%), and to artemisinin in one (<1%), and no sample had resistance to atovaquone. Completion of data elements on the malaria case report form decreased from 2014 to 2015 and remains low, with 24.2% of case report forms missing at least one key element (species, travel history, and resident status).

Interpretation: The decrease in malaria cases from 2014 to 2015 is associated with a decrease in imported cases from West Africa. This finding might be related to altered or curtailed travel to Ebola-affected countries in in this region. Despite progress in reducing malaria worldwide, the disease remains endemic in many regions, and the use of appropriate prevention measures by travelers is still inadequate.

Public health actions: The best way to prevent malaria is to take chemoprophylaxis medication during travel to a country where malaria is endemic. As demonstrated by the U.S. military during the Ebola response, use of chemoprophylaxis and other protection measures is possible in stressful environments, and this can prevent malaria, especially P. falciparum, even in high transmission areas. Detailed recommendations for preventing malaria are available to the general public at the CDC website (https://www.cdc.gov/malaria/travelers/drugs.html). Malaria infections can be fatal if not diagnosed and treated promptly with antimalarial medications appropriate for the patient's age and medical history, the likely country of malaria acquisition, and previous use of antimalarial chemoprophylaxis. Health care providers should consult the CDC Guidelines for Treatment of Malaria in the United States and contact the CDC's Malaria Hotline for case management advice when needed. Malaria treatment recommendations are available online (https://www.cdc.gov/malaria/diagnosis_treatment) and from the Malaria Hotline (770-488-7788 or toll-free at 855-856-4713). Persons submitting malaria case reports (care providers, laboratories, and state and local public health officials) should provide complete information because incomplete reporting compromises case investigations and efforts to prevent infections and examine trends in malaria cases. Compliance with recommended malaria prevention strategies is low among U.S. travelers visiting friends and relatives. Evidence-based prevention strategies that effectively target travelers who are visiting friends and relatives need to be developed and implemented to reduce the numbers of imported malaria cases in the United States. Molecular surveillance of antimalarial drug resistance markers (https://www.cdc.gov/malaria/features/ars.html) has enabled CDC to track, guide treatment, and manage drug resistance in malaria parasites both domestically and internationally. More samples are needed to improve the completeness of antimalarial drug resistance marker analysis; therefore, CDC requests that blood specimens be submitted for all cases diagnosed in the United States.

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疟疾监测 - 美国,2015 年。
问题/条件:人类疟疾是由疟原虫属红细胞内原生动物引起的。这些寄生虫通过有传染性的雌性按蚊叮咬传播。在美国,大多数疟疾感染者都曾到过疟疾传播地区。不过,偶尔也会有未出国旅行的人因接触受感染的血液制品、先天性传播、实验室接触或当地蚊媒传播而感染疟疾。在美国开展疟疾监测是为了提供有关疟疾发生的信息(如时间、地理和人口),指导旅行者和患者的预防和治疗建议,并在发现本地感染病例时促进传播控制措施:本报告概述了 2015 年发病者中的疟疾确诊病例,并总结了往年的趋势:通过血片显微镜检查、聚合酶链反应或快速诊断检测确诊的疟疾病例由医疗服务提供者或实验室工作人员向地方和州卫生部门报告。病例调查由地方和州卫生部门进行,报告通过国家疟疾监测系统(NMSS)、国家应报告疾病监测系统(NNDSS)或直接向疾病预防控制中心咨询的方式传送给疾病预防控制中心。疾病预防控制中心参考实验室提供诊断协助,并对医疗服务提供者或地方或州卫生部门提交的血液样本进行抗疟药物耐药性标记检测。本报告总结了整合所有 NMSS 和 NNDSS 病例、疾病预防控制中心参考实验室报告以及疾病预防控制中心临床会诊的数据:2015 年,美国疾病预防控制中心收到了 1517 例疟疾确诊病例的报告,其中包括 1 例先天性病例,这些病例的发病者均在美国接受诊断。尽管自20世纪70年代中期以来,美国确诊的疟疾病例数量一直在增加,但从2014年到2015年,病例数量减少了208例。在获取病例的地区(非洲、西非、亚洲、中美洲、加勒比海地区、南美洲、大洋洲和中东)中,与2014年相比,2015年输入病例明显减少的唯一地区是西非(781例对969例)。在67.4%、11.7%、4.1%和3.1%的病例中分别发现了恶性疟原虫、间日疟原虫、卵形疟原虫和疟疾疟原虫。只有不到 1%的患者感染了两种病原体。12.9%的病例未报告或未确定感染物种。疾病预防控制中心为 13.1% 的确诊病例患者提供了诊断协助,并对 15.0% 的恶性疟原虫标本进行了抗疟药物耐药性标记检测。在报告旅行目的的美国居民患者中,68.4%是探亲访友。与2014年(32.5%)相比,2015年报告服用任何化学预防药物的美国居民比例较低(26.5%),且该群体的依从性较差。在已知化学预防药物使用情况和旅行地区信息的美国居民中,95.3%的疟疾患者没有坚持或没有采取疾控中心推荐的化学预防方案。在感染疟疾的妇女中,有 32 名孕妇,她们都没有坚持进行化学预防。2015 年,美国军事人员中共出现 23 例疟疾病例。3例疟疾病例是从部署到埃博拉疫区国家的约3000名军事人员中输入的;其中2例不是恶性疟原虫,1例病种不明。在 2015 年报告的所有病例中,17.1% 被归类为重症,11 人死亡,而 2000-2014 年期间平均每年死亡 6.1 人。2015年,疾病预防控制中心收到了153份恶性疟原虫阳性样本,用于监测抗疟药物耐药性标记(尽管某些样本的某些位点无法检测);在132份样本(86.3%)、112份样本(73.7%)、48份样本(31.4%)、6份样本(4.3%)和1份样本(1.3%)中发现了与嘧啶耐药性相关的基因多态性,对磺胺多辛、氯喹、甲氟喹和青蒿素也有耐药性:2014年至2015年疟疾病例的减少与西非输入病例的减少有关。这一发现可能与前往该地区受埃博拉影响国家的旅行有所改变或减少有关。尽管全球在减少疟疾方面取得了进展,但该疾病在许多地区仍然流行,旅行者使用适当的预防措施仍然不足:预防疟疾的最佳方法是在前往疟疾流行的国家旅行时服用化学预防药物。正如美国
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来源期刊
Mmwr Surveillance Summaries
Mmwr Surveillance Summaries PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-
CiteScore
60.50
自引率
1.20%
发文量
9
期刊介绍: The Morbidity and Mortality Weekly Report (MMWR) Series, produced by the Centers for Disease Control and Prevention (CDC), is commonly referred to as "the voice of CDC." Serving as the primary outlet for timely, reliable, authoritative, accurate, objective, and practical public health information and recommendations, the MMWR is a crucial publication. Its readership primarily includes physicians, nurses, public health practitioners, epidemiologists, scientists, researchers, educators, and laboratorians.
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