Genetic analysis of viruses associated with emergence of Rift Valley fever in Saudi Arabia and Yemen, 2000-01. (Research).The first confirmed Rift Valley fever Rift Valley fever An arthropod-borne (primarily mosquito), acute, febrile, viral disease of humans and numerous species of animals. Rift Valley fever is caused by a ribonucleic acid (RNA) virus in the genus Phlebovirus of the family Bunyaviridae. outbreak outside Africa was reported in September 2000, in the Arabian Peninsula Arabian Peninsula or Arabia Peninsular region, southwest Asia. With its offshore islands, it covers about 1 million sq mi (2.6 million sq km). Constituent countries are Bahrain, Kuwait, Oman, Qatar, United Arab Emirates, Yemen, and, the largest, Saudi Arabia. . As of February 2001, a total of 884 hospitalized patients were identified in Saudi Arabia Saudi Arabia (sä  `dē ərā`bēə, sou`–, sô–), officially Kingdom of Saudi Arabia, kingdom (2005 est. pop. , with 124 deaths. In Yemen, 1,087 cases were estimated to have
occurred, with 121 deaths. Laboratory diagnosis of Rift Valley fever
virus (RVFV RVFV Rift Valley Fever Virus ) infections included virus genetic detection and
characterization of clinical specimens by reverse
transcription-polymerase chain reaction, in addition to serologic tests
and virus isolation. Genetic analysis of selected regions of virus S, M,
and L RNA RNA: see nucleic acid. RNA in full ribonucleic acid One of the two main types of nucleic acid (the other being DNA), which functions in cellular protein synthesis in all living cells and replaces DNA as the carrier of genetic genome segments indicated little genetic variation among the viruses associated with disease. The Saudi Arabia and Yemen viruses were almost identical to those associated with earlier RVF RVF Rift Valley Fever (febrile disease caused by a virus) RVF Right Ventricular Failure RVF Residual Volume Fraction RVF Rational Valuation Formula (economics) epidemics in East Africa. Analysis of S, M, and L RNA genome segment sequence differences showed similar phylogenetic phy·lo·ge·net·ic adj. 1. Of or relating to phylogeny or phylogenetics. 2. Relating to or based on evolutionary development or history. relationships among these viruses, indicating that genetic reassortment did not play an important role in the emergence of this virus in the Arabian Peninsula. These results are consistent with the recent introduction of RVFV into the Arabian Peninsula from East Africa. ********** Rift Valley fever (RVF) (caused by Rift Valley fever virus [RVFV], family Bunyaviridae) is an emerging epidemic disease Noun 1. epidemic disease - any infectious disease that develops and spreads rapidly to many people pest, pestilence, plague - any epidemic disease with a high death rate infectious disease - a disease transmitted only by a specific kind of contact of humans and livestock, as well as an important endemic problem in sub-Saharan Africa. The virus is transmitted to livestock and humans by the bite of infected mosquitoes or exposure to tissues or blood of infected animals. Massive epizootics are typically observed in livestock during times of unusually high and sustained rainfall because of the presence of breeding sites and overabundance o·ver·a·bun·dance n. A going or being beyond what is needed, desired, or appropriate; an excess: teenagers with an overabundance of energy. of adult competent mosquito vectors (1). Infections caused by RVFV are characterized by severe disease and abortion in livestock, particularly sheep and cattle. Persons in the epidemic region are at high risk for RVFV infection, potentially leading to thousands of human cases. Humans infected with RVFV typically have self-limited febrile febrile /feb·rile/ (feb´ril) pertaining to or characterized by fever. feb·rile adj. Of, relating to, or characterized by fever; feverish. illness, but retinal degeneration (5-10%), hemorrhagic fever hemorrhagic fever (hĕm'ərăj`ĭk), any of a group of viral diseases characterized by sudden onset, muscle and joint pain, fever, bleeding, and shock from loss of blood. (<1%), or encephalitis encephalitis (ĕnsĕf'əlī`təs), general term used to describe a diffuse inflammation of the brain and spinal cord, usually of viral origin, often transmitted by mosquitoes, in contrast to a bacterial infection of the meninges (<1%) may also develop (2). We report the first confirmed outbreak of RVF outside Africa, in the Kingdoms of Saudi Arabia and Yemen. On September 10, 2000, the Ministry of Health in Saudi Arabia began to receive reports of unexplained hemorrhagic fever in humans near the Saudi-Yemeni border, with associated animal deaths and abortions. Patient samples from the outbreak were sent to the Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. (CDC See Control Data, century date change and Back Orifice. CDC - Control Data Corporation ), where laboratory analysis confirmed the cases as being caused by RVFV. Genetic analysis was performed on all three viral RNA segments from human clinical samples, and the sequences were compared with previously characterized RVFV isolates to determine their genetic relatedness and geographic distribution. Materials and Methods Clinical Specimens On September 15, 2000, acute-phase sera from four seriously ill A patient is seriously ill when his or her illness is of such severity that there is cause for immediate concern but there is no imminent danger to life. See also very seriously ill. , hospitalized patients with unexplained hemorrhagic fever were received by Special Pathogens Branch, CDC for diagnostic assessment (Table 1). The shipment also contained sera from nine close contacts, mainly household members. A second shipment, which arrived on September 20, 2000, contained acute-phase sera from an additional 15 hospitalized patients and 12 contacts. Subsequent specimens from Saudi Arabia and Yemen were submitted for confirmation and more detailed analysis. All work with potentially infectious material was performed in a biosafety level biosafety level Epidemiology A classification for the degree of caution required when working with specific groups of pathogens. See Maximum containment facility. 4 maximum containment facility maximum containment facility Public health A 'level 3 to 4' research facility that is equipped to, and experienced in, handling exotic, dangerous, and potentially life-threatening pathogens–eg, Ebola, Lassa fever viruses. See Biosafety, Ebola virus. . Virus Antigen, IgM, and IgG Detection in Patient Sera Patient sera were tested for the presence of RVFV or Crimean-Congo hemorrhagic fever Crimean-Congo hemorrhagic fever a zoonotic disease of humans, in central Asia through to eastern Europe, who are in contact with livestock. Caused by a bunyavirus, it is transmitted by ticks. The principal signs are fever, widespread hemorrhages and necrotizing hepatitis. virus (C-CHFV) antigen, or immunoglobulin (Ig) M or IgG antibodies reactive with these viruses and Alkhurma virus Alkhurma virus is a member of the Flaviviridae virus family (class IV) so has a positive sense single stranded RNA genome and the virus will replicate in the cytoplasm of the infected host cell. , a member of the tick-borne encephalitis (TBE) complex that was recently discovered in Saudi Arabia (4). RVFV and C-CHFV antigen-capture assays were performed in an enzyme-linked immunosorbent assay enzyme-linked immunosorbent assay n. ELISA. Enzyme-linked immunosorbent assay (ELISA) A diagnostic blood test used to screen patients for AIDS or other viruses. (ELISA ELISA (e-li´sah) Enzyme-Linked Immuno-Sorbent Assay; any enzyme immunoassay using an enzyme-labeled immunoreactant and an immunosorbent. ELISA n. ) format essentially as described (5). The RVFV assay used polyclonal polyclonal /poly·clo·nal/ (-klon´'l) 1. derived from different cells. 2. pertaining to several clones. polyclonal derived from different cells; pertaining to several clones. hyperimmune hyperimmune /hy·per·im·mune/ (hi?per-i-mun´) possessing very large quantities of specific antibodies in the serum. hyperimmune possessing very large quantities of specific antibodies in the serum. ascitic as·ci·tes n. pl. ascites An abnormal accumulation of serous fluid in the abdominal cavity. [Middle English aschites, from Late Latin asc fluid raised against RVFV strain Zagazig 501 as the capture antibody and rabbit hyperimmune serum raised against RVFV Zagazig 501 as the detector antibody. The C-CHFV assay used a sheep hyperimmune serum raised against a South African C-CHFV strain as the detector antibody, and a mouse hyperimmune ascitic fluid raised against C-CHFV strain IbAr10200 as the capture antibodies (6). IgM antibody titers were determined by IgM antibody-capture ELISA, with RVFV, C-CHFV, or Alkhurma virus-infected cell slurry prepared as described (5). IgG antibody titers were determined by using RVFV, C-CHFV, and Alkhurma virus-infected cell antigens in an ELISA format similar as to that described previously (5). Virus Isolation and RNA Extraction Viral RNA was obtained directly from patient blood or serum collected during the outbreak or from virus isolated from patient serum that was passaged once in Vero E6 cells. A virus stock was prepared by placing 100 [micro]L of patient serum (200010901) onto a confluent con·flu·ent adj. 1. Flowing together; blended into one. 2. Merging or running together so as to form a mass, as sores in a rash. monolayer mon·o·lay·er n. 1. A film or layer one molecule thick formed at the interface between water and either oil or air by a substance such as a partially esterified fatty acid that contains both hydrophobic and hydrophilic groups in the same of Veto E6 cells in a T-25 flask. After the virus was allowed to absorb for 1 h at 37[degrees]C, 6-7 mL of Dulbecco, modified Eagle medium supplemented with 5% fetal calf serum (FCS FCS - Frame Check Sequence ) and antibiotics, was added to the T-25 flask and allowed to incubate incubate /in·cu·bate/ (in´ku-bat) 1. to subject to or to undergo incubation. 2. material that has undergone incubation. in·cu·bate v. 1. at 37[degrees]C, 5% C[O.sub.2]. Cell cultures were checked daily for cytopathic effect Cytopathic effect (CPE) refers to degenerative changes in cells (especially in tissue culture) associated with the multiplication of certain viruses. When in tissue culture, the spread of virus is restricted by an overlay of agar (or other suitable substance) and thus the (CPE (Customer Premises Equipment) Communications equipment that resides on the customer's premises. CPE - Customer Premises Equipment ), and after approximately 75% CPE was observed, remaining cells were scraped off and combined with the supernatant supernatant /su·per·na·tant/ (-na´tant) the liquid lying above a layer of precipitated insoluble material. supernatant the liquid lying above a layer of precipitated insoluble material. . A low-speed centrifugation Centrifugation A mechanical method of separating immiscible liquids or solids from liquids by the application of centrifugal force. This force can be very great, and separations which proceed slowly by gravity can be speeded up enormously in centrifugal removed most debris, and the resulting supernatant was stored at -80[degrees]C. Some cells were retained to perform immunofluorescence Immunofluorescence A technique that uses a fluorochrome to indicate the occurrence of a specific antigen-antibody reaction. The fluorochrome labels either an antigen or an antibody. (IFA Immunofluorescent assay (IFA) A blood test sometimes used to confirm ELISA results instead of using the Western blotting. In an IFA test, HIV antigen is mixed with a fluorescent compound and then with a sample of the patient's blood. ) directed at RVFV to check for positive cultures. Two hundred microliters of passage 1 cell/supernatant was placed into 1 mL of TriPure (Roche, Indianapolis, IN) for RNA purification. Saudi Arabia sample 2003043 and Yemen sample 2001373 were prepared by placing 200 [micro]L of blood or serum, respectively, directly into 1 mL of TriPure. RNA was extracted onto glass beads by using a RNAid kit (Bio101, Carlsbad, CA) according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. a modified protocol (7). Indirect Immunofluorescence Noun 1. indirect immunofluorescence - a method of using fluorescence microscopy to detect the presence of an antigen indirectly fluorescence microscopy - light microscopy in which the specimen is irradiated at wavelengths that excite fluorochromes Assay and RT-PCR RT-PCR reverse transcriptase-polymerase chain reaction. See PCR1. Virus-infected cells were tested for RVFV antigens by indirect immunofluorescence assay essentially as described (5), except cells were incubated with anti-RVFV immune mouse ascitic fluid. The nucleic acid nucleic acid, any of a group of organic substances found in the chromosomes of living cells and viruses that play a central role in the storage and replication of hereditary information and in the expression of this information through protein synthesis. sequences of the partial S, M, and L segments of RVFVs were amplified by using a one-step reverse transcriptase Reverse transcriptase Any of the deoxyribonucleic acid (DNA) polymerases present in particles of retroviruses which are able to carry out DNA synthesis using an RNA template. polymerase chain reaction polymerase chain reaction (pŏl`ĭmərās') (PCR), laboratory process in which a particular DNA segment from a mixture of DNA chains is rapidly replicated, producing a large, readily analyzed sample of a piece of DNA; the process is (RT-PCR) (Promega Access kit, Madison, WI), according to manufacturer's protocol. The primers NSn (5'-TATCATGGATTACTTTCC-3') and NSc (5'- CCTTAACCTCTAATCAAC-3') were used to amplify a 661-Nt region (excluding primer sequences) of the virus S segment region encoding the NSs protein (8). The primers RVFFORI (5'-GTCTTGCTTGAAAAGGGAAAA-3') and RVFREVE (5'-CCTGACCCATTAGCATG-3') were used to amplify a 708-Nt region (excluding primers) of the virus M segment region encoding the G2 protein. Primers Wag (5'-ATTCTTATTCCCGAATAT-3') and Xg (5'-TTGTTTTGCCTATCCTAC-3') were used to amplify a 176-Nt (excluding primers) region of the L segment (9). The primers RVFREVE together with primer RVFFORA (5'-TGCTACCAGACTCATTTGTC-3') were used to amplify the initial diagnostic fragment of 186 Nt (excluding primers) of the virus M RNA genome segment region encoding the G2 protein. Electrophoresis of amplified DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. products was done on a 1.7% agarose agarose more highly purified form of agar with similar uses to agar and widely used in the separation of nucleic acid fragments. gel in Tris-acetate-EDTA buffer. Following staining with ethidium bromide Ethidium bromide (sometimes abbreviated as EtBr) is an intercalating agent commonly used as a nucleic acid stain in molecular biology laboratories for techniques such as agarose gel electrophoresis. , specific DNA bands were located by UV translumination, sliced from the gel, and purified by using Qiaquick spin columns (Qiagen, Valencia, CA). Dye terminator cycle sequencing reactions were performed by using ABI Abi (ā`bī) [short for Abijah], in the Bible, King Hezekiah's mother. (Application Binary Interface) A specification for a specific hardware platform combined with the operating system. PRISM Dye Terminator Cycle Sequencing Ready Reaction Kits with AmpliTaq DNA Polymerase DNA polymerase /DNA po·lym·er·ase/ (pah-lim´er-as) any of various enzymes catalyzing the template-directed incorporation of deoxyribonucleotides into a DNA chain, particularly one using a DNA template. FS (Applied Biosystems Applied Biosystems, Inc. (formerly NASDAQ: ABIO) is the original name of a pioneer biotechnology company founded in 1981 in Foster City, California, among the Silicon Valley cities of the southern San Francisco Bay Area. , Foster City, CA). Reaction products were purified by using Centri-sep spin columns (Princeton Separations, Adelphia, NJ) and sequences determined with an ABI 377 automated DNA sequencer A DNA sequencer is an instrument used to automate the DNA sequencing process. DNA sequencers have become more important due to large genomics projects and the need to increase productivity. (Applied Biosystems). Output chromatograms were analyzed with Sequencher 3.0 software (Gene Codes Corp., Ann Arbor, MI). RVFV sequences were aligned with those of previously characterized RVFVs (10) by using the PILEUP program of the Wisconsin Package Version 10.2 (Genetics Computer Group, Inc., Madison, WI). Maximum likelihood phylogenetic analysis was carried out by using PAUP PAUP Phylogenetic Analysis Using Parsimony 4.0b10 (Sinauer Associates Inc., Sunderland, MA). Results Initial RVF Diagnosis In early September 2000, the Ministry of Health of Saudi Arabia received reports of unexplained hemorrhagic fever cases in the southern Tehama (coastal plain) region of southwestern Saudi Arabia. Subsequently, reports were also obtained by the Yemen Ministry of Health of a similar disease in the adjoining Tehama region of Western Yemen. Initial specimens included acute-phase sera from four hospitalized patients with suspected cases and sera from nine contacts (mostly family members). Based on the available clinical information, the differential diagnostic included Rift Valley fever, Crimean-Congo hemorrhagic fever, and Tick-borne encephalitis-like viruses. The four serum samples from the suspected case-patients were tested by antigen-capture ELISA with RVFV- or C-CHFV-reactive antibodies; IgM-capture ELISA with RVFV, C-CHFV, or Alkhurma virus-infected cell lysate ly·sate n. The cellular debris and fluid produced by lysis. antigens; IgG ELISA IgG ELISA, n.pr a diagnostic test for identifying reactive substances that provoke delayed hypersensitivity of the immune system. A solid-phase immunoassay that uses enzymes to test for IgG subclass reactions. with RVFV, C-CHVF, or Alkhurma virus-infected cell slurry antigen; virus isolation with Vero E6 cells; and RT-PCR assays for detection of RVFV, C-CHFV, or TBE-complex virus RNA. Evidence of RVFV infection was found in all four patients with suspected cases (Table 1). No evidence of C-CHFV or Alkhurma virus infection was found. Three of four acute-phase sera were positive by RVFV antigen-capture ELISA, and the single negative serum was positive for RVFV IgM and IgG, suggesting a later stage of infection in this case. All four sera were positive by RVFV RT-PCR assay and subsequently yielded infectious RVFV by culture on Vero E6 cells. Of the nine sera from close contacts, two showed evidence of RVFV infection. One was RT-PCR positive and virus isolation positive, and the other was positive for RVFV IgM antibodies. A second shipment of specimens yielded similar results, again confirming that RVFV was responsible for the outbreak in Saudi Arabia. In this second shipment, 13 of 15 hospitalized suspected case-patients had evidence of RVFV infection. Four contacts of case-patients also showed evidence of RVFV infection. The rapid RVFV RT-PCR assay appeared to be a useful complement to the RVFV antigen and IgM-capture ELISA tests for diagnosis of acute illness, as it detected virus RNA in 15 of 16 serum samples that were subsequently found to be RVFV positive. Overall correlation between the various RVFV diagnostic assays was good. Nucleotide sequence analysis of the 186-Nt (excluding primer regions) PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) products amplified from these initial specimens confirmed the virus identity as RVFV and showed no nucleotide differences between the viruses detected in these Saudi Arabian patients. In addition, no nucleotide differences were detected in this 186-Nt region relative to viruses detected in an earlier outbreak in East Africa in 1997 (data not shown) (11). Detailed Genetic Analysis RNA extracted from three representative viruses was chosen for more detailed genetic analysis. These included RNA from RVFV isolate (strain 200010901) obtained from the first RVFV-infected case-patient to be laboratory confirmed and representing the early phase of the outbreak in Saudi Arabia. This isolate was obtained from a serum sample collected on September 13, 2000, from this case-patient (Table 1), who was infected in Jizan Province. RNA extracted from a serum sample collected late in the outbreak in Saudi Arabia was also included (Table 2). This serum sample was collected on November 22, 2000, from a case-patient infected in Asir Province. The third RNA sample was extracted from a blood sample obtained from a case-patient in Yemen. With these RNA samples, we hoped to detect any genetic variation in the RVFVs active during the early and late phases of the outbreak in Saudi Arabia and to evaluate whether the same virus strain was responsible for disease in Saudi Arabia and Yemen. A single nucleotide difference was observed between each of the Saudi Arabia and Yemen virus S RNA genome segment fragments analyzed (601 nt). Similarly, no nucleotide differences were found between the Saudi Arabia 200010901 and Yemen 2003043 virus M RNA genome segment fragments we analyzed (510 nt), and these differed from the Saudi Arabia 2001373 virus fragment by only 1 nt. All three viruses were identical for the L RNA genome segment fragment we analyzed (129 nt). These data demonstrate that the viruses in the early and late stages of the RVF outbreak in Saudi Arabia are virtually identical to one another and to the virus causing disease in Yemen. The results of phylogenetic analysis of the nucleotide sequence differences among the S, M, and L RNA genome fragments of the Saudi Arabia and Yemen viruses and previously described RVFVs are shown (Figure). Earlier maximum likelihood analyses had separated RVFVs into three broad groups, which predominantly contained viruses from North Africa, West Africa, and East/Central Africa (10). All three RNA segment trees obtained here have the Saudi Arabia and Yemen viruses grouped with the East/Central Africa viruses. Specifically, the S, M, and L RNA genome segments of the Saudi Arabia and Yemen viruses are closely related to those of viruses previously detected in outbreaks in East Africa, as represented by the Kenya 1997 and Madagascar 1991 virus isolates (Figure, A, B, and C). The nucleotide changes in the S, M, and L RNA genome segment fragments observed among the closely related Saudi Arabia/Yemen viruses and the Kenya 1997 and Madagascar 1991 viruses are synonymous changes, resulting in no amino acid amino acid (əmē`nō), any one of a class of simple organic compounds containing carbon, hydrogen, oxygen, nitrogen, and in certain cases sulfur. These compounds are the building blocks of proteins. differences among these viruses. [FIGURE OMITTED] Discussion Using a combination of RVFV IgM and antigen-capture ELISA tests, along with the RT-PCR assay, we quickly identified RVFV as the cause of a large outbreak in Saudi Arabia reported in September 2000. The RT-PCR assay proved to be an excellent complement to the antigen and antibody ELISA detection systems for the initial rapid diagnosis of RVF. Virus-specific antibodies were present in three of four specimens that were positive by both virus isolation and PCR but negative by antigen capture, suggesting that immune complex immune complex n. Any of various complexes of an antigen and an antibody in the blood, to which complement may also be fixed, and which may form a precipitate. formation (antibody blocking of antigen) may be the basis for the lower sensitivity of the antigen-capture assay. Although the IgM assay failed to identify 9 of 17 laboratory-confirmed (by virus isolation or PCR) acute RVF cases, the assay did detect recent RVFV infections in five contacts (mostly close family members) and one acute case that would have been missed on the basis of virus isolation or PCR assay only. The data from this study and others (12) demonstrate the importance of combining assays for the detection of virus (antigen capture, RT-PCR, or virus isolation) and the detection of virus-specific IgM to ensure that no acutely ill RVFV patients are missed. This RVF outbreak, the first confirmed outside Africa, illustrates the potential for this disease to spread to other regions of the world. Virus activity on the Arabian Peninsula resulted in a considerable amount of disease activity from September 2000 to February 2001 (3,13). In Saudi Arabia, as of February 2001, 884 seriously ill, hospitalized RVF patients were identified, with 124 deaths. In Yemen, 1,087 cases were estimated to have occurred, with 121 deaths (14). The outbreak involved a broad geographic area, including Jizan and Asir Provinces in southwestern Saudi Arabia and much of the western coastal plain of Yemen. Because of the magnitude of this outbreak and the large geographic area it encompassed, the total number of human RVFV infections remains unknown. Data from previous outbreaks suggest that the number of hospitalized RVF patients identified during a large outbreak represents only a small percentage (<1%) of the total number of infections (2). Our finding of six laboratory-confirmed RVFV infections among household contacts is consistent with the view that hospitalized patients represent a small fraction of the number of infected persons. Based on these and earlier observations, the number of human infections during this epidemic must have been considerable. Large numbers of livestock were also affected, causing substantial losses and economic impact in the rural areas hardest hit by the disease. Further impact of the outbreak included trade and travel restrictions. Genetic analysis of S, M, and L segments of the viruses detected in Saudi Arabia and Yemen indicated that essentially the same virus caused both outbreaks. Few genetic differences were detected between viruses sampled early and late in the outbreak or from the distant geographic regions of Jizan and Asir Provinces in Saudi Arabia and areas of Western Yemen. The lack of substantial genetic variation in these viruses, together with the lack of earlier disease reports, suggests that RVFV has only recently been introduced onto the Arabian Peninsula. Phylogenetic comparison of the nucleotide sequence differences between the Arabian Peninsula RVFV S, M, and L segments and those of previously characterized RVFV isolates showed a close relationship between the Saudi Arabia/Yemen RVFVs and those circulating earlier in East Africa, particularly with the viruses responsible for the large RVF outbreak seen in the region in 1997-98 (11). These results are consistent with the introduction of RVFV into Saudi Arabia and Yemen from East Africa. While genetic reassortment has been observed in RVFVs associated with outbreaks in various geographic regions of Africa The continent of Africa can be conceptually subdivided into a number of regions or subregions. Directional approach One common approach categorises Africa directionally, e.g. (10), the close phylogenetic relationship of the S, M, and L RNA segments of the 2000-01 Saudi Arabia and Yemen viruses and the earlier 1997 and 1991 Kenya and Madagascar viruses, respectively, provided no evidence of genetic reassortment among these viruses. The mechanism of introduction of the virus into the Saudi Arabia and Yemen remains unknown. However, commercial trade of livestock is active from East Africa to the Arabian Peninsula, and disease is known to be endemic in the East African region. While no hospitalized RVF patients have been reported in 2002, whether this RVF lineage has become established in the Arabian Peninsula remains unclear. Surveillance of humans, livestock, and vector populations will continue to address this question.
Table 1. Results of diagnostic testing of initial Saudi Arabian Rift
Valley fever outbreak specimens (a)
ALK C-CHFV
Patient ID (b) Category (c) IgM IgG Ag IgM
10901 Suspected case-patient - - - -
10902 Suspected case-patient - - - -
10904 Suspected case-patient - - - -
10905 Suspected case-patient - - - -
10906 Contact - - - -
10907 Contact - - - -
10908 Contact - - - -
10909 Contact - - - -
10910 Contact - - - -
10911 Contact - - - -
10912 Contact - - - -
10913 Contact - - - -
10914 Contact - - - -
10931 Suspected case-patient - - - -
10933 Suspected case-patient - - - -
10935 Suspected case-patient - - - -
10937 Suspected case-patient - - - -
10939 Suspected case-patient - - - -
10941 Suspected case-patient - - - -
10943 Suspected case-patient - - - -
10945 Suspected case-patient - - - -
10947 Suspected case-patient - - - -
10949 Suspected case-patient - - - -
10951 Suspected case-patient - - - -
10953 Suspected case-patient - - - -
10955 Suspected case-patient - - - -
10957 Suspected case-patient - - - -
10959 Suspected case-patient - - - -
10960 Contact - - - -
10961 Contact - - - -
10962 Contact - - - -
10963 Contact - - - -
10964 Contact - - - -
10965 Contact - - - -
10966 Contact - - - -
10967 Contact - - - -
10968 Contact - - - -
10969 Contact - - - -
10970 Contact - - - -
10971 Contact - - - -
C-CHFV RVFV
Patient ID (b) IgG Ag IgM IgG ISOL PCR
10901 - POS - - POS POS
10902 - POS - - POS POS
10904 - - POS POS POS POS
10905 - POS - - POS POS
10906 - - - - - -
10907 - - - - - -
10908 - - - - - -
10909 - - - - - -
10910 - - - - - -
10911 - - - - POS POS
10912 - - POS - - -
10913 - - - - - -
10914 - - - - - -
10931 - POS - - POS POS
10933 - - POS POS - -
10935 - - - - - -
10937 - POS POS - POS POS
10939 - - POS - - -
10941 - - - - - -
10943 - POS - - POS POS
10945 - - POS - POS POS
10947 - POS POS - POS POS
10949 - - POS - POS POS
10951 - POS - - POS POS
10953 - POS - - POS POS
10955 - POS POS - POS -
10957 - POS - - POS POS
10959 - POS - - POS POS
10960 - - - - - -
10961 - - - - - -
10962 - - POS - - -
10963 - - POS - - -
10964 - - POS POS - -
10965 - - - - - -
10966 - - - - - -
10967 - - - - - -
10968 - - - - - -
10969 - - - - - -
10970 - - POS - - -
10971 - - - - - -
(a) RVFV, Rift Valley fever virus; ALK, Alkhurma virus; Ig,
immunoglobulin; C-CHFV, Crimean-Congo hemorrhagic fever virus; ISOL,
virus isolation; PCR, polymerase chain reaction; POS, positive results;
-, negative results.
(b) Initial specimens were all from persons living in Jizan Province.
(c) Suspected case-patients were defined as described earlier (3).
Table 2. Specimens chosen for more detailed virus genetic analysis,
Saudi Arabia and Yemen
No. Collection date Location
200010901 Sept. 13, 2000 Jizan Province, Saudi Arabia
2001373 Nov. 22, 2000 Asir Province, Saudi Arabia
2003043 Oct. 28, 2000 Northwest Yemen
No. Specimen type Passage history (a)
200010901 Virus isolate P1
2001373 Serum (human) NA
2003043 Blood (human) NA
(a) P1, first passage; NA, not applicable.
Acknowledgments We thank Thomas Stevens, Patrick Stockton, Debi Cannon, and Kim Slaughter for performance of serologic tests and John O'Connor for editorial assistance. We are indebted to the Ministry of Health of the Kingdom of Saudi Arabia for their invitation to participate and for their kind hospitality and support during the outbreak investigation. We also thank the Ministry of Health of Yemen and the U.S. Navy Medical Research Unit 3 for their assistance in obtaining clinical materials. References (1.) Linthicum KJ, Anyamba A, Tucker CJ, Kelley PW, Myers MF, Peters CJ. Climate and satellite indicators to forecast Rift Valley fever epidemics in Kenya. Science 1999;285:397-400. (2.) Meegan JM, Bailey CL. In: Monath TP, editor. The arboviruses arboviruses (ar´bōvī´r  sz),n. : epidemiology and ecology. Boca Raton (FL): CRC (Cyclical Redundancy Checking) An error checking technique used to ensure the accuracy of transmitting digital data. The transmitted messages are divided into predetermined lengths which, used as dividends, are divided by a fixed divisor. Press; 1989. (3.) Centers for Disease Control and Prevention. Outbreak of Rift Valley fever--Saudi Arabia, August-October, 2000. MMWR MMWR Morbidity & Mortality Weekly Report Epidemiology A news bulletin published by the CDC, which provides epidemiologic data–eg, statistics on the incidence of AIDS, rabies, rubella, STDs and other communicable diseases, causes of mortality–eg, Morb Mortal Wkly Rep 2000;49:905-8. (4.) Charrel RN, Zaki AM, Attoui H, Fakeeh M, Billoir F, Yousef AI, et al. Complete coding sequence cod·ing sequence n. See exon. of the Alkhurma virus, a tick-borne flavivirus causing severe hemorrhagic fever in humans in Saudi Arabia. Biochem Biophys Res Commun 2001;287:455-61. (5.) Ksiazek TG, Rollin PE, Williams AJ, Bressler DS, Martin ML, Swanepoel R, et al. Clinical virology virology, study of viruses and their role in disease. Many viruses, such as animal RNA viruses and viruses that infect bacteria, or bacteriophages, have become useful laboratory tools in genetic studies and in work on the cellular metabolic control of gene expression of Ebola hemorrhagic fever Noun 1. Ebola hemorrhagic fever - a severe and often fatal disease in humans and nonhuman primates (monkeys and chimpanzees) caused by the Ebola virus; characterized by high fever and severe internal bleeding; can be spread from person to person; is largely limited to (EHF EHF abbr. extremely high frequency Noun 1. EHF - 30 to 300 gigahertz extremely high frequency radio frequency - an electromagnetic wave frequency between audio and infrared ): virus, virus antigen, and IgG and IgM antibody findings among EHF patients in Kikwit, Democratic Republic of the Congo, 1995. J Infect Dis 1999;179:S177-87. (6.) Logan TM, Linthicum K J, Moulton JR, Ksiazek TG. Antigen-capture enzyme-linked immunosorbent assay for detection and quantification of Crimean-Congo hemorrhagic fever virus in the tick, Hyalomma truncatum. J Virol Methods 1993;42:33-44. (7.) Johnson AM, Bowen MD, Ksiazek TG, Williams RJ, Bryan RT, Mills JN, et al. Laguna Negra virus associated with HPS See Seer*HPS. in western Paraguay and Bolivia. Virology 1997;238:115-27. (8.) Sall AA, de A Zanotto PM, Zeller HG; Digoutte JP, Thiongane Y, Bouloy M. Variability of the NS(S) protein among Rift Valley fever virus isolates. J Gen Virol 1997;78:2853-8. (9.) Muller R, Poch O, Delarue M, Bishop DH, Bouloy M. Rift Valley fever virus L segment: correction of the sequence and possible functional role of newly identified regions conserved in RNA-dependent polymerases. J Gen Virol 1994;75:1345-52. (10.) Sall AA, Zanotto PM, Sene OK, Zeller HG, Digoutte JP, Thiongane Y, et al. Genetic reassortment of Rift Valley fever virus in nature. J Virol 1999;73:8196-200. (11.) Sall AA, de A Zanotto PM, Vialat P, Sene OK, Bouloy M. Origin of 1997-98 Rift Valley fever outbreak in East Africa. Lancet 1998;352:1596-7. (12.) Sall AA, Thonnon J, Sene OK, Fall A, Ndiaye M, Baudez B, et al. Single-tube and nested reverse transcriptase-polymerase chain reaction for detection of Rift Valley fever virus in human and animal sera. J Virol Methods 2001;91:85-92. (13.) Centers for Disease Control and Prevention. Update: outbreak of Rift Valley Fever--Saudi Arabia, August-November 2000. MMWR Morb Mortal Wkly Rep 2000;49:982-5. (14.) Centers for Disease Control and Prevention. Outbreak of Rift Valley fever--Yemen, August-October 2000. MMWR Morb Mortal Wkly Rep 2000;49:1065-6. Trevor Shoemaker, * ([dagger]) Carla Boulianne, * ([dagger]) Martin J. Vincent, * Linda Pezzanite, * Mohammed M. Al-Qahtani, ([double dagger]) Yagub Al-Mazrou, ([double dagger]) Ali S. Khan, * Pierre E. Rollin, * Robert Swanepoel, ([section]) Thomas G. Ksiazek, * and Stuart T. Nichol * * Centers for Disease Control and Prevention, Atlanta, Georgia, USA; ([dagger]) Emory University, Atlanta, Georgia, USA; ([double dagger]) Ministry of Health, Riyadh, Saudi Arabia; and ([section]) National Institute of Virology, Johannesburg, South Africa Mr. Shoemaker has an MPH degree from University of California, Berkeley The University of California, Berkeley is a public research university located in Berkeley, California, United States. Commonly referred to as UC Berkeley, Berkeley and Cal , and completed this work while a regular fellow in the Special Pathogens Branch, Division of Viral and Rickettsial Diseases, National Center for Infections Diseases, Centers for Disease Control and Prevention. His current interests include the integration of epidemiologic and molecular approaches to investigate emerging diseases and potential bioterrorism events. Address for correspondence: Stuart T. Nichol, Mailstop G14, Special Pathogens Branch, Division of Viral and Rickettsial Diseases, Centers for Disease Control and Prevention, Atlanta, GA 30333, USA; fax: 404-639-1118; e-mail: stn1@cdc.gov |
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