Invasive group A streptococcal infections, Israel. (Research).We conducted a prospective, nationwide, population-based study of invasive group A streptococcal infections in Israel. We identified 409 patients (median age 27 years; range <1-92), for an annual incidence of 3.7/100,000 (11/100,000 in Jerusalem). The mortality rate was 5%. Bacteremia bacteremia: see septicemia. bacteremia Presence of bacteria in the blood. Short-term bacteremia follows dental or surgical procedures, especially if local infection or very high-risk surgery releases bacteria from isolated sites. occurred in 125 cases (31%). The most common illnesses were soft-tissue infection (63%) and primary bacteremia (14%). Thirty percent of patients had no identifiable risk factors for infection. Eighty-seven percent of pharyngeal pharyngeal /pha·ryn·ge·al/ (fah-rin´je-al) pertaining to the pharynx. pha·ryn·geal or pha·ryn·gal adj. Of, relating to, located in, or coming from the pharynx. carriers had the same serotype serotype /se·ro·type/ (ser´o-tip) the type of a microorganism determined by its constituent antigens; a taxonomic subdivision based thereon. se·ro·type n. See serovar. v. as the index patient. M types included M3 (25%), M28 (10%), and M-nontypable (33%). A marked paucity of M1 serotype (1.2%) was detected. The results highlighted concentrated pockets of invasive disease in the Jewish orthodox community (annual incidence 16/100,000). ********** Group A streptococcus group A streptococcus n. A common but virulent streptococcus that kills the tissue it infects and produces toxins that trigger a form of shock that affects the vital organs. (GAS) causes human disease ranging from noninvasive infections such as pharyngitis pharyngitis Inflammation and infection (usually bacterial or viral) of the pharynx. Symptoms include pain (sore throat, worse on swallowing), redness, swollen lymph nodes, and fever. or impetigo impetigo (ĭmpətī`gō), contagious skin infection affecting mainly infants and children. The causative organisms are either hemolytic streptococci or staphylococci. to life-threatening conditions such as bacteremia, necrotizing fasciitis necrotizing fasciitis n. Tissue death such as that associated with group A streptococcus infection. Necrotizing fasciitis (NF), and toxic-shock syndrome (TSS See ITU. ). Invasive GAS infections are thought to result from entry of bacteria through the skin, although often the site of entry cannot be determined. Since the mid-1980s, retrospective reviews of invasive GAS disease in different geographic areas have described an increase in deaths from these infections (1-4). These studies have also emphasized the changing nature of the population affected and have shown that young, healthy persons often have severe infections (4,5). This increased severity of invasive GAS infections has produced an augmented search for new virulence factors and host determinants that may amplify the potential of this organism for producing disease. Since GAS vaccines are being developed by several groups (6,7), baseline incidence data on severe GAS infections are needed. Information regarding the geographic distribution of M types will assist in directing vaccine development to prevalent strains. Prospective population-based studies provide an assessment of the true incidence of severe infection and are thus the preferred method for studying the epidemiology of disease. Few such studies of severe GAS infections have been performed (5,8-11); no previous studies have encompassed the epidemiology of an entire country. We report the clinical characteristics of patients and bacterial attributes of GAS isolates from a 2-year, nationwide, prospective, population-based study to determine the incidence of invasive GAS diseases in Israel. In the greater Jerusalem area, we conducted an in-depth study to determine the prevalence of carriage of GAS in household contacts of index patients with invasive disease. Methods We studied invasive GAS infections in Israel from January 1997 through December 1998. Collaboration between the study center in Jerusalem and 24 of the 25 acute-care hospitals in Israel This is a list of hospitals in Israel, listed by district and city. Center District Be'er Ya'aqov
We provided each hospital with kits for transporting bacterial isolates and a questionnaire requesting the following demographic and clinical data for each case: age, sex, infection site, presence of hypotension hypotension or low blood pressure Condition in which blood pressure is abnormally low. It may result from reduced blood volume (e.g., from heavy bleeding or plasma loss after severe burns) or increased blood-vessel capacity (e.g., in syncope). , and signs of organ damage, including renal failure renal failure n. Acute or chronic malfunction of the kidneys resulting from any of a number of causes, including infection, trauma, toxins, hemodynamic abnormalities, and autoimmune disease, and often resulting in systemic symptoms, especially edema, , adult respiratory distress syndrome Adult Respiratory Distress Syndrome Definition Adult respiratory distress syndrome (ARDS), also called acute respiratory distress syndrome, is a type of lung (pulmonary) failure that may result from any disease that causes large amounts of fluid to , disseminated intravascular coagulation disseminated intravascular coagulation n. Abbr. DIC A hemorrhagic disorder that occurs following the uncontrolled activation of clotting factors and fibrinolytic enzymes throughout small blood vessels, resulting in tissue necrosis and , or mental changes. In a 1995 census from the Israeli Central Bureau of Statistics, the population of Israel was 5,548,000; 81% were Jews. Of the total population, 698,000 were children [less than or equal to] 5 years of age, 990,000 were 6-15 years of age, 2,550,000 were 16-45 years old, and 1,310,000 were persons >45 years of age. The median age of the population in Israel was 27.4 years (23.2 in the greater Jerusalem area). In the greater Jerusalem area, the total population was 602,100; 421,200 were Jews, and 180,900 were Arabs. Among the Jewish population, 120,000 were Orthodox Jews, with an average of 5.5 members per family, compared with 2.9 in the nonorthodox Jewish population. Using age-adjusted rates for Human herpesvirus herpesvirus, any of the family (Herpesviridae) of common DNA-containing viruses, many of which are associated with human disease. See cytomegalovirus; Epstein-Barr virus; herpes simplex; herpes zoster. 3 (HHV-3) infection (12), we estimated that 4,100 cases of varicella varicella: see chicken pox. occurred annually in children <10 years of age in the Jerusalem cohort. Invasive disease was defined as the isolation of GAS from a normally sterile site such as blood, joint, or wound infection or from deep tissue retrieved during surgery. Isolates from the throat, ear, and eye were excluded. TSS was defined 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. conventional criteria (13). A study nurse (S.G) interviewed household contacts (defined as persons who lived in the same household as the index patient) within 3 days of obtaining a positive culture from an index patient who had been admitted to a hospital (one of three medical centers) serving the greater Jerusalem area. Information was obtained about antibiotic treatment and the presence of a recent throat or skin infection. Pharyngeal cultures were obtained from all household contacts. Hospital laboratories identified the isolate as GAS by using a commercial latex agglutination agglutination, in biochemistry agglutination, in biochemistry: see immunity. agglutination, in linguistics agglutination, in linguistics: see inflection. kit. We sent all isolates to the Israel Ministry of Health Streptococcal streptococcal /strep·to·coc·cal/ (-kok´al) pertaining to or caused by a streptococcus. Streptococcal (Streptococcus) Pertaining to any of the Streptococcus bacteria. Reference Laboratory for M- and T-typing and confirmatory GAS antigen typing. The presence of the genes encoding the two exotoxins A and C (speA, speC) was assessed by 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 (PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) ) (14). Statistical analysis was done by using the chi-square test chi-square test: see statistics. for differences in proportions. A p value of <0.05 was regarded as significant. Results Clinical and Epidemiologic Characteristics During the 2-year study period, 24 medical centers in Israel submitted 423 specimens. Of these, 14 isolates were not included in the study: 6 were found not to be GAS, and 8 were isolates from an eye or ear infection. Thus, 409 isolates were available for further study. The audit of case reporting showed a sensitivity that ranged from 30% to 70% among different institutions. However, for patients with bacteremia the average sensitivity of case reporting was 75%. The annual incidence of invasive GAS infection in Israel was 3.7 per 100,000 population (Table 1). The median age was 27 years (range 1 week to 92 years). Incidence was highest in children [less than or equal to] 5 years and adults >45 years of age (Table 1). For bacteremia and TSS, the annual incidences in the national cohort (Table 1) were 1.1/100,000 and 0.25/100,000, respectively, with the highest incidence in persons [greater than or equal to] 45 years of age (p<0.001). The case-fatality rate of the national cohort could not be assessed because deaths were underreported. The disease entities associated with invasive GAS infection are summarized in Table 2. Of the 409 cases, 125 (31%) had bacteremia, which was considered to be primary (14%) if no source of infection was identified. The median age of bacteremic bac·te·re·mi·a n. The presence of bacteria in the blood. bac  te·re patients was 48 years,
considerably higher than the median age (27 years, p<0.001) of all
participants. Of 42 cases with cellulitis Cellulitis DefinitionCellulitis is a spreading bacterial infection just below the skin surface. It is most commonly caused by Streptococcus pyogenes or Staphylococcus aureus. , 59% also had bacteremia. Of 14 cases of necrotizing fasciitis, 4 were bacteremic, and GAS was isolated from deep fascia deep fascia n. A thin fibrous membrane forming an intricate network that envelops and separates muscles, forms sheaths for nerves and vessels, forms or strengthens ligaments around joints, envelops various organs and glands, and binds all structures in 10 others. Fourteen patients had pneumonia: in 5 patients GAS was isolated from blood, in 2 from pleural fluid pleural fluid n. The thin film of serous fluid between the visceral and parietal pleurae. , in 1 from lung tissue, and in the other 6 from sputum sputum /spu·tum/ (spu´tum) [L.] expectoration; matter ejected from the trachea, bronchi, and lungs through the mouth. sputum cruen´tum bloody sputum. . Of 10 patients with burns, 7 were from one burn unit. Three of these seven comprised a single nosocomial nosocomial /noso·co·mi·al/ (nos?o-ko´me-il) pertaining to or originating in a hospital. nos·o·co·mi·al adj. 1. Of or relating to a hospital. 2. outbreak. In the national cohort, of 28 cases defined as TSS, 16 (57%) were male. In 20 (71%) of the TSS patients, GAS was isolated from blood cultures; in 10 this bacteremia was primary. Six had concurrent NF, two were children with chickenpox chickenpox or varicella Contagious viral disease producing itchy blisters. It usually occurs in epidemics among young children, causes a low fever, and runs a mild course, leaving patients immune. The blisters can scar if scratched. , and two had cellulitis. Only one patient was known to be positive for HIV HIV (Human Immunodeficiency Virus), either of two closely related retroviruses that invade T-helper lymphocytes and are responsible for AIDS. There are two types of HIV: HIV-1 and HIV-2. HIV-1 is responsible for the vast majority of AIDS in the United States. infection. Characteristics of Bacterial Isolates Serologic se·rol·o·gy n. pl. se·rol·o·gies 1. The science that deals with the properties and reactions of serums, especially blood serum. 2. typing was performed for 401 isolates (98%). Of these, 33% were M-nontypable. The typable strains belonged to 23 different M serotypes. The most common strain was M3, constituting 25% of all isolates. The next most common serotypes were M28 (10%), M2 (5%), M62 (4%), M41 (3%), and M12 (3%). M1 was isolated from only five cases (1.2%). Four isolates gave a positive serologic reaction with two M serotypes. Among the M-nontypable isolates, 21 different T serotypes were identified (data not shown). The most prevalent were T28 (11%), T12 (9%), T11 (8%), and T3/13/B3264 (8%); 28% were T-nontypable. T serotypes were different from those usually associated with M1. The M serotype distribution was similar in the national and Jerusalem cohorts. Four hundred and one isolates were tested for the presence of speA or spec by PCR. Ten percent were positive for speA in both cohorts. Thirty-two percent and 37% were positive for spec in the national and Jerusalem cohorts, respectively. Of the 101 M3 strains, 21% were positive for spell. Jerusalem Cohort Of 409 patients who could be evaluated, 133 were from the Jerusalem area. In Jerusalem, the audit of case reporting showed a sensitivity of 94%. The median age was 24 years. The annual incidence of disease was 11/100,000 (Table 1). In this cohort the highest annual incidence was in the orthodox Jewish community (16/100,000; Table 3). The incidence differed by age group, with the groups [less than or equal to] 5 years (19/100,000) and >45 years (15/100,000) having the highest incidence (p < 0.01). Males accounted for 65%. In the Jerusalem group there were 86% Jews and 14% Arabs (Table 3). The overall case-fatality rate in the Jerusalem area was 5% (7/133) but was 14% (6/44) among patients with bacteremia. Four of the seven patients who died in Jerusalem were >65 years of age. All five cases of chickenpox-related GAS infection were in the Jerusalem cohort, for an estimated attack rate of 61/ 100,000 cases per year. One child died of the infection. All were children <4 years of age from orthodox Jewish families, but no epidemiologic association could be demonstrated since strains belonged to a variety of M serotypes. In the Jerusalem cohort of 133 cases, we assessed the presence of underlying medical conditions See carpal tunnel syndrome, computer vision syndrome, dry eyes and deep vein thrombosis. that may predispose pre·dis·pose v. To make susceptible, as to a disease. to GAS infection. Forty patients (30%) had no underlying disease. Nineteen percent had an acutely infected skin lesion Skin Lesions can include moles, cysts, warts or skin tags. Most are benign but are sometimes removed if they are painful, unsightly or restrict movement. Surgical removal is the most common treatment for most skin lesions. . Twelve percent had a chronic skin condition, which was acutely infected with GAS. Ten percent of patients had diabetes mellitus diabetes mellitus Disorder of insufficient production of or reduced sensitivity to insulin. Insulin, synthesized in the islets of Langerhans (see Langerhans, islets of), is necessary to metabolize glucose. In diabetes, blood sugar levels increase (hyperglycemia). , and nine percent had various forms of cancer. Nine pregnant women (7%) were infected before or shortly after delivery. Five children had chickenpox. In the Jerusalem cohort, pharyngeal cultures were obtained from 302 contacts of 60 index patients. Relatives of 73 index patients were not studied because of lack of informed consent (22), nonavailability due to early discharge (19), or absence of family contacts (32). The mean number of family contacts per index patient was 5 (range 1-9). Twenty-eight index patients were associated with 61 household carriers of GAS, 75% of whom were [less than or equal to] 15 years old. Only one contact (a child with pharyngitis) was symptomatic. The gender distribution of the carrier cohort was similar to that of the general population. Comparison of the M serotypes of the carriers and their respective index patients disclosed identity in 87% of cases. Discussion Our prospective population-based study is a first nationwide survey of the incidence of invasive GAS. The annual incidence of invasive GAS infections in Israel (3.7/100,000) is similar to that reported from Pima County, Arizona Pima County is located in the south central region of the U.S. state of Arizona. The county is named after the Pima American Indian tribe which was indigenous to the area. As of the 2006 U.S. Census estimate, the population was 946,362. (4), and Atlanta, Georgia (9), but is considerably higher than that reported for Ontario, Canada (1.5/100,000) (8). The annual incidence in the Jerusalem cohort was three times higher (11/ 100,000) than that of the national cohort, reflecting, at least in part, a greater accuracy of reporting, achieved by frequent contact of the study nurse with the three medical centers. The relatively large number of orthodox Jews living in the Jerusalem area may also have contributed to the higher incidence of infection in this city. Unlike Ontario or Connecticut (8,11), reporting invasive GAS infections in Israel is not mandatory, contributing to the relatively low reporting accuracy. Thus, the true incidence of invasive GAS disease in Israel may be closer to that of the Jerusalem cohort, which is substantially higher than that reported by other population-based studies. We made routine telephone calls to the hospital contacts to encourage participation and confirm that cases were being reported. Audits of one third of the large and small hospital laboratories were conducted twice during the study period to evaluate the proportion of cases actually reported. Since some of the Arab population in Jerusalem uses the East Jerusalem East Jerusalem refers to the part of Jerusalem captured by Jordan in the 1948 Arab-Israeli War, and subsequently by Israel in the 1967 Six-Day War. It includes Jerusalem's Old City and some of the holiest sites of Judaism, Christianity and Islam, such as the Temple Mount, Western Arab hospitals, which were not included in the study, infections occurring in a small proportion of Jerusalem Arab patients may have been missed. Risk factors for GAS infection were not studied in the national cohort. In the Jerusalem cohort, 30% were previously healthy patients without evident risk factors. This finding is consistent with those of other studies, supporting the notion that underlying illnesses appear to play an important role in the occurrence of invasive GAS disease (4,8,9,15-17). Previous skin lesions Skin Lesions Definition A skin lesion is a superficial growth or patch of the skin that does not resemble the area surrounding it. Description Skin lesions can be grouped into two categories: primary and secondary. , diabetes mellitus, and cancer were the most common conditions predisposing to GAS infection. Alcoholism and AIDS are relatively rare in Israel (18) and were not found to be risk factors for our patients. In Israel the incidence of invasive streptococcal disease in children was higher than reported previously (9), consistent with our earlier finding that children with GAS bacteremia in Jerusalem were younger than those reported by others (19). In Jerusalem the incidence of GAS infection in the [less than or equal to] 5-year age group was higher than previously reported (19/100,000). This incidence remained elevated (14/100,000) even after five cases of an infection secondary to chickenpox were excluded from analysis. In Jerusalem, 40% of children ([less than or equal to] 15 years of age) with invasive GAS infections were from the orthodox Jewish community. The overall incidence for this group was 16/100,000 population and was probably even higher in children [less than or equal to] 15 years of age, although data for age distribution were not available for this group. In this community, families are large and the relatively crowded living conditions living conditions npl → condiciones fpl de vida living conditions npl → conditions fpl de vie living conditions living may facilitate the spread of streptococci Streptococcus (plural, streptococci) A genus of spherical-shaped anaerobic bacteria occurring in pairs or chains. Sydenham's chorea is considered a complication of a streptococcal throat infection. (20). Recently, a higher pharyngeal carriage rate (odds ratio 5.0; 95% confidence interval confidence interval, n a statistical device used to determine the range within which an acceptable datum would fall. Confidence intervals are usually expressed in percentages, typically 95% or 99%. 2.1-11.9) of GAS was reported for an orthodox Jewish community in London (21). In Jerusalem, the incidence of GAS infection was also much higher in the group >45 years of age (Table 1). Thus, the incidence of severe GAS infections reported in the Jerusalem area is much higher than previously reported. The mortality rate (5%) in the Jerusalem cohort was lower than that reported by Davies et al. (8) and Zurawski et al. (9) but is similar to the rate reported for bacteremic patients at the Hadassah Medical Center Hadassah Medical Center (Hebrew: מרכז רפואי הדסה in Jerusalem (22). Both bacteremia and TSS occurred at a significantly older age (P<0.0001) (median age 48 and 49 years, respectively) than the median age of the general population in Israel (Table 1). The annual rate of TSS in our study was similar to that reported by Davies et al. (0.2/100,000), who also found that severe disease occurred preferentially in older patients. NF was relatively rare in Israel (annual incidence 0.1/100,000), accounting for 3.4% of all patients and 4.5% of the Jerusalem cohort patients. This was similar to the percentage reported by Zurawski (3%) but considerably less than that reported by Davies et al. (13%). Zurawski et al. (9) suggested that the low incidence of NF might have been due to ascertainment bias In scientific research, ascertainment bias occurs when false results are produced by non-random sampling and conclusions made about an entire group are based on a distorted or nontypical sample. , engendered by the laboratory-based study methods, which may have missed cases of NF without concomitant bacteremia. However, in Jerusalem the close association between the study team and their clinical and laboratory counterparts in all three medical centers makes such an ascertainment bias unlikely. The differences between population-based studies may be due to microbiologic attributes of the strains involved or other unknown factors. Nosocomially acquired invasive streptococcal infections Streptococcal Infections Definition Streptococcal (strep) infections are communicable diseases that develop when bacteria normally found on the skin or in the intestines, mouth, nose, reproductive tract, or urinary tract invade other parts of the body were relatively rare. Postpartum infections accounted for 2.4% and 4.5% of the national and Jerusalem cohorts, respectively. Although this infection can be hospital acquired (22, 23), GAS may also arise from the patient's own bacterial flora The bacterial flora is the whole system of bacteria in body cavities that have contact with the outside world. Every place shows another biochemical environment:
Our data support the assumption that chickenpox is a risk factor for invasive GAS disease (8,9,30-33). In our cohort, all children with chickenpox were from orthodox Jewish families. Nevertheless, cases were caused by diverse M serotypes and occurred in several different city neighborhoods without any epidemiologic link between them. The most striking microbiologic characteristic of the GAS isolates of both the national and Jerusalem cohorts is the paucity of the M1 serotype. This finding contrasts with many previous reports, which described the M1 serotype as the prominent isolate from patients with invasive GAS infection, particularly those with NF or TSS (34-40). Our M-nontypable strains had 21 distinct T serotypes that differed from those usually associated with M1 strains. Thus, emm typing would be unlikely to categorize these nontypable isolates as M type 1. The association between M1 and the production of exotoxin exotoxin /exo·tox·in/ (ek´so-tok?sin) a potent toxin formed and excreted by the bacterial cell, and free in the surrounding medium. A is well established (37) but not universal (41). The prevalence of speA in our cohort (10%) was lower than that found by Zurawski (34%) (9) and Kiska, who observed that 98% of M1 and M3 outbreak strains were speA positive (5). Half our speA-positive cases were serotype M3, but few were associated with TSS and NF. We concur with Davies (8) that factors other than speA play a role in TSS pathogenesis. These findings and the paucity of the M1 serotype among our isolates suggest that no single invasive clone is responsible for severe disease (20) and that strains attain their virulence through means other than speA. The relative prevalence of speC in our study was similar to that found by others (8). Serotype M3, the most frequent M type in our cohort and a relatively common isolate in other studies of invasive GAS (41,42), seems to have replaced M1 as the leading cause of invasive streptococcal disease (8). In a retrospective analysis of GAS bacteremia in Jerusalem over a 6-year period (1987-1992), none of the 41 isolates available were serotype M3, 11 (27%) were nontypable, 4 were M12, and 2 were M1 (22). Thus, an unexplained increase in the rate of invasive M3 strains in Jerusalem has occurred. Nevertheless, this increase has not been accompanied by a change in the absolute number of bacteremic streptococcal cases per year, and the mortality rate has remained constant. Therefore, we cannot conclude that infections with M3 result in more cases of bacteremia or are more virulent. Only 20% of our M3 strains harbored the speA gene, compared with 100% of the strains from Japan (41). In Israel, 67% of 21,517 GAS isolates (mostly from pharyngeal swabs taken over a 10-year period) were M-nontypable, and 99% were T-typable (43). The most prevalent M serotypes were M12 (17%) and M1 (6%), and the most prevalent T type was 3/13/B3264 (20%). Ten years later, Yagupsky et al. found 90% strains (10/13 cases) of GAS isolated from children with bacteremia to be M-nontypable (44). The M28 serotype, accounting for 10% of our cases, was reported to be a common serotype in invasive GAS diseases by some investigators (8) but not by others (9). We also had a relatively high percentage of M-nontypable isolates. This finding is in contrast to those who have been able to serologically type >90% of isolates (41) but is similar to findings of surveys in which 60% or 80% of isolates were nontypable (9,45). emm-typing (46) may clarify the actual M type of those strains. In the Jerusalem cohort, we found a particularly high prevalence of patients with family members who had GAS in their pharynx pharynx (fâr`ĭngks), area of the gastrointestinal and respiratory tracts which lies between the mouth and the esophagus. In humans, the pharynx is a cone-shaped tube about 4 1-2 in. (11.43 cm) long. . As reported previously (47), the M types of almost all isolates (87%) from household contacts were identical to those found in the index patients. We chose to administer preventive antimicrobial therapy to positive contacts, although this practice is still controversial (48). None of the contacts had invasive disease. As in other studies (47), we found that asymptomatic carriers were mostly young children. Whether the index patients were infected from an asymptomatic carrier or vice versa VICE VERSA. On the contrary; on opposite sides. is impossible to determine. The reasons for one person remaining an asymptomatic carrier while another has a severe, sometimes lethal infection have not been clarified. Whether there are any genetic differences between the index patient/contact pair of bacterial isolates or whether varying virulence genes of GAS are expressed under different clinical conditions remains to be determined. Further studies of GAS epidemiology and pathogenesis are required to determine the reasons for acquiring severe invasive GAS diseases in specific hosts. This knowledge will allow a more accurate definition of the risk factors for these infections and may lead to development of effective intervention strategies.
Table 1. The incidence of diseases from the national cohort, the
Jerusalem cohort, the cohort of patients with bloodstream isolates,
and the toxic-shock syndrome cohort, by age group, 1997-1998
National Jerusalem:
Age group cohort: no. Annual no. of Annual
(years) of patients incidence (a) patients incidence
<5 88 6.3 38 19
6-15 53 2.68 16 6.8
16-45 116 2.27 41 8
>45 109 4.16 38 15
Unknown 43
Total 409 3.69 133 11
Median age (yr) 27 24
Age group Bacteremia: Annual TSS: no. of Annual
(years) no. of patients incidence patients incidence
<5 26 1.86 5 0.36
6-15 11 0.56
16-45 24 0.47 8 0.16
>45 62 2.37 15 0.57
Unknown 2
Total 125 1.13 28 0.25
Median age (yr) 48 49
(a) Annual incidence = cases per 100,000 population. TSS = Toxic-shock
syndrome.
Table 2. Clinical characteristics of invasive GAS infections:
comparison of the national cohort to the Jerusalem cohort, 1997-1998
Jerusalem
Disease National cohort % cohort %
Soft tissue infection (a) 272 67 88 66
Primary bacteremia 57 14 11 8.3
Pneumonia 14 3.4 4 3
Postpartum 10 2.4 6 4.5
Arthritis 8 2 1 < 1%
Lymphadenitis 6 1.5 2 1.5
Chickenpox 5 1.2 5 3.8
Meningitis 5 1.2 2 1.5
Peritonitis 5 1.2 4 3
PID 5 1.2 1 < 1%
Osteomyelitis 4 < 1% 2 1.5
Others 14 3.4 5 3.8
Unknown 4 < 1%
Total 409 100 133 100
(a) Soft tissue infection includes 35 patients with abscesses, 14 with
necrotizing fasciitis, and 10 with burns. PID = pelvic inflammatory
disease.
Table 3. Religious distribution of patients in the Jerusalem cohort,
1997-1998
Number
Religion (a) (n=133) % Annual incidence (b)
Jewish 113 85 13
Orthodox Jewish 39/113 26 16
Moslem/Christian 18 14 5
Arabs
Other 2 1
(a) The Orthodox Jewish cohort is included in the Jewish cohort.
(b) Annual incidence = cases per 100,000 population.
This study was funded by the Chief Scientist grant No. 4302 of the Israel Ministry of Health to AEM AEM Applied and Environmental Microbiology (journal) AEM Association of Equipment Manufacturers AEM Academic Emergency Medicine (journal) AEM Agnico-Eagle Mines Limited AEM Advanced Engine Management and the Center for the Study of Emerging Diseases to EH. References (1.) Lentnek AL, Giger O, O'Rourke E. Group A beta-hemolytic streptococcal bacteremia and intravenous substance abuse. A growing clinical problem? Arch Intern Med 1990;150:89-93. (2.) Holm SE, Norrby A, Berfholm AM, Norgren M. Aspects of pathogenesis of serious group A streptococcal infection in Sweden, 1988-1989. J Infect Dis 1992;166:31-7. (3.) Francis J, Warren RE. Streptococcus pyogenes Streptococcus py·og·e·nes n. A bacterium that causes the formation of pus or of fatal septicemias. 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Kiska DL, Thiede B, Caracciolo J, Jordan M, Johnson D, Kaplan EL, et al. Invasive group A streptococcal infections in North Carolina North Carolina, state in the SE United States. It is bordered by the Atlantic Ocean (E), South Carolina and Georgia (S), Tennessee (W), and Virginia (N). Facts and Figures Area, 52,586 sq mi (136,198 sq km). Pop. : epidemiology, clinical features, and genetic and serotype analysis of causative organisms. J Infect Dis 1997;176:992-1000. (6.) Brandt ER, Sriprakash KS, Hobb RI, Hayman WA, Zeng W, Batzloff MR, et al. New multi-determinant strategy for a group A streptococcal vaccine designed for the Australian Aboriginal population. Nat Med 2000;6:455-9. (7.) Dale JB, Chiang EY, Liu S, Courtney HS, Hasty DL. New protective antigen of group A streptococci. J Clin Invest 1999;103:1261-8. (8.) Davies HD, McGeer A, Schwartz B, Green K, Cann D, Simor AE, et al. Invasive group A streptococcal infections in Ontario, Canada. N Engl J Meal 1996;335:547-54. (9.) Zurawski CA, Bardsley M, Beall B, Elliott JA, Facklam R, Schwartz B, et al. Invasive group A streptococcal disease in metropolitan Atlanta: a population-based assessment. Clin Infect Dis 1998;27:150-7. (10.) Kaul R, McGeer A, Low DE, Green K, Schwartz B, and the Ontario Group A Streptococcal Study. Population-based surveillance for group A streptococcal necrotizing fasciitis: Clinical features, prognostic indicators, and microbiologic analysis of seventy-seven cases. Am J Med 1997;103:18-24. (11.) Fiorentino TR, Beall B, Mshar P, Bessen DE. A genetic-based evaluation of the principal tissue reservoir for group A streptococci isolated from normally sterile sites. J Infect Dis 1997;176:177-82. (12.) Wharton M. The epidemiology of varicella-zoster virus varicella-zoster virus n. A herpesvirus that causes chickenpox and shingles. Also called chickenpox virus, herpes zoster virus. Varicella-zoster virus The virus that causes chickenpox and shingles. infections. Infect Dis Clin North Am 1996;10:571-81. (13.) The working group on severe streptococcal infections. Defining the group A streptococcal toxic shock syndrome toxic shock syndrome (TSS). acute, sometimes fatal, disease characterized by high fever, nausea, diarrhea, lethargy, blotchy rash, and sudden drop in blood pressure. It is caused by Staphylococcus aureus, an exotoxin-producing bacteria (see toxin). : rationale and consensus definition. JAMA 1993;269:390-1. (14.) Tyler SD, Johnson WM, Huang JC, Ashton FE, Wand G, Low DE, et al. Streptococcal erythrogenic toxin erythrogenic toxin n. See streptococcus erythrogenic toxin. genes: Detection by polymerase chain reaction and association with disease in strains isolated in Canada from 1940 to 1991. J Clin Microbiol 1992;30:3127-3131. (15.) Stevens DL, Tanner MH, Winship J, Swarts R, Ries KM, Schlievert PM, et al. Severe group A streptococcal infections associated with a toxic shock-like syndrome and scarlet fever scarlet fever or scarlatina, an acute, communicable infection, caused by group A hemolytic streptococcal bacteria (see streptococcus) that produce an erythrogenic toxin. toxin A. N Engl J Med 1989;321:1-7. (16.) Martin PR, Hoiby EA. Streptococcal serogroup A epidemic in Norway 1987-1988. Scand J Infect Dis 1990;22:421-9. (17.) Demers B, Simor AE, Vellend H, Schlievert PM, Byrne S, Jamieson F, et al. Severe invasive group A streptococcal infections in Ontario, Canada: 1987-1991. Clin Infect Dis 1993;16:792-800. (18.) Moses AE, Maayan S, Rahav G, Weinberger M, Engelhard D, Schlesinger M, et al. HIV infection and AIDS in Jerusalem: a microcosm of illness in Israel. Isr J Med Sci 1996;32:716-21. (19.) Moses AE, Amitai Z, Harari M, Rahav G, Shapiro M, Engelhard D. Increased incidence and severity of group A streptococcal infection in young children. Pediatr Infect Dis J 1995;14:767-70. (20.) Holm SE. Invasive group A streptococcal infections. N Engl J Med 1996;335:590-1. (21.) Spitzer J, Hennessy E, Neville L. High group A streptococcal carriage in the Orthodox Jewish community of north Hackney. Br J Gen Pract 2001;51:101-5. (22.) Moses AE, Mevorach D, Rahav G, Sacks T, Simhon A, Shapiro M. Group A streptococcus bacteremia at the Hadassah Medical Center in Jerusalem. Clin Infect Dis 1995;20:1393-5. (23.) Anteby EY, Yagel S, Hanoch J, Shapiro M, Moses AE. Puerperal puerperal /pu·er·per·al/ (-al) pertaining to a puerpera or to the puerperium. pu·er·per·al adj. and intrapartum group A streptococcal infection. Infect Dis Obstet Gynecol 1999;7:276-82. (24.) 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. . Nosocomial group A streptococcal infections associated with asymptomatic health-care workers--Maryland and California, 1997. JAMA 1999;281:1077-8. (25.) Centers for Disease Control and Prevention. Nosocomial group A streptococcal infections associated with asymptomatic health-care workers--Maryland and California, 1997. 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 1999;48:163-6. (26.) Ramage L, Green K, Pyskir D, Simor AE. An outbreak of fatal nosocomial infections Nosocomial infections Infections that were not present before the patient came to a hospital, but were acquired by a patient while in the hospital. Mentioned in: Enterobacterial Infections, Staphylococcal Infections due to group A streptococcus on a medical ward. Infect Control Hosp Epidemiol 1996;17:429-31. (27.) Jamieson FB, Green K, Low DE, Simor AE, Goldman C, Ng J, et al. A cluster of surgical wound infections due to unrelated strains of group A streptococci. Infect Control Hosp Epidemiol 1993;14:265-7. (28.) Harkness GA, Bentley DW, Mottley M, Lee J. Streptococcus pyogenes outbreak in a long-term care facility long-term care facility n. See skilled nursing facility. . Am J Infect Control 1992;20:142-8. (29.) Viglionese A, Nottebart VF, Bodman HA, Platt R. Recurrent group A streptococcal carriage in a health care worker associated with widely separated nosocomial outbreaks. Am J Med 1991;91:329S-333S. (30.) Laupland KB, Davies HD, Low DE, Schwartz B, Green K, McGeer A. lnvasive group A streptococcal disease in children and association with varicella-zoster virus infection. Ontario Group A Streptococcal Study Group. Pediatrics 2000;105:E60. (31.) Sztajnbok J, Lovgren M, Brandileone MC, Marotto PC, Talbot JA, Seguro AC. Fatal group A streptococcal toxic shock-like syndrome in a child with varicella: report of the first well documented case with detection of the genetic sequences that code for exotoxins spe A and B, in Sao Paulo, Brazil. Rev Inst Med Trop Sao Paulo 1999;41:63-5. (32.) Centers for Disease Control and Prevention. Varicella-related deaths among children--United States, 1997. JAMA 1998;279:1773-4. (33.) Centers for Disease Control and Prevention. Varicella-related deaths among children--United States, 1997. MMWR Morb Mortal Wkly Rep 1998;47:365-8. (34.) Givner LB. Invasive disease due to group A beta-hemolytic streptococci beta-hemolytic streptococci pl.n. Streptococci that lyse red blood cells cultured on blood agar medium, producing a clear area around the cell colonies. : continued occurrence in children in North Carolina. South Med J 1998;91:333-7. (35.) Cue D, Dombek PE, Lam H, Cleary PP. Streptococcus pyogenes serotype M1 encodes multiple pathways for entry into human epithelial cells Epithelial cells Cells that form a thin surface coating on the outside of a body structure. Mentioned in: Corneal Transplantation . Infect Immun 1998;66:4593-601. (36.) Colman G, Tanna A, Efsratiou A, Gaworzewska ET. The serotypes of Streptococcus pyogenes present in Britain during 1980-1990 and their association with disease. J Med Microbiol 1993;39:165-78. (37.) Cleary PP, LaPenta D, Vessela R, Lam H, Cue D. A globally disseminated M1 subclone of group A streptococci differs from other subclones by 70 kilobases of prophage prophage /pro·phage/ (pro´faj) the latent stage of a phage in a lysogenic bacterium, in which the viral genome becomes inserted into a specific portion of the host chromosome and is duplicated in each cell generation. 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. and capacity for high-frequency intracellular invasion. Infect Immun 1998;66:5592-7. (38.) Breathnach AS, Eykyn SJ. Streptococcus pyogenes bacteraemia: a 27-year study in a London teaching hospital. Scand J Infect Dis 1997;29:473-8. (39.) Murase T, Suzuki R, Osawa R, Yamai S. Characteristics of Streptococcus pyogenes serotype M1 and M3 isolates from patients in Japan from 1981 to 1997. J Clin Microbiol 1999;37:4131-4. (40.) Murono K, Fujita K, Saijo M, Hirano Y, Zhang J, Murai T. Emergence and spread of a new clone of M type 1 group A streptococcus coincident with the increase in invasive diseases in Japan. Pediatr Infect Dis J 1999;18:254-7. (41.) Nakashima K, Ichiyama S, Iinuma Y, Hasegawa Y, Ohta M, Ooe K, et al. A clinical and bacteriologic bac·te·ri·ol·o·gy n. The study of bacteria, especially in relation to medicine and agriculture. bac·te investigation of invasive streptococcal infections in Japan on the basis of serotypes, toxin production, and genomic DNA genomic DNA n. The full complement of DNA contained in the genome of a cell or organism. fingerprints. Clin Infect Dis 1997;25:260-6. (42.) Schwartz B, Facklam RR, Breiman RF. Changing epidemiology of group A streptococcal infection in the USA. Lancet 1990;336:1167-71. (43.) Bergner-Rabinowitz S, Ferne M. Type distribution of beta-hemolytic streptococci in Israel: a 10-year study. J Infect Dis 1978;138:152-9. (44.) Yagupsky P GY. Group A beta-hemolytic streptococcal bacteremia in children. Pediatr Infect Dis J 1987;6:1036-9. (45.) Pruksakorn S, Sittisombut N, Phornphutkul C, Pruksachatkunakorn C, Good MF, Brandt E. Epidemiological analysis of non-M-typeable group A streptococcus isolates from a Thai population in northern Thailand Northern Thailand, one of the 5 regional groups of Thailand, usually describes the area covered by 17 provinces.
(46.) Beall B, Facklam R, Thompson T. Sequencing emm-specific PCR products for routine and accurate typing of group A streptococci. J Clin Microbiol 1996;34:953-8. (47.) Ichiyama S, Nakashima K, Shimokata K, Ohta M, Shimizu Y, Ooe K, et al. Transmission of Streptococcus pyogenes causing toxic shock-like syndrome among family members and confirmation by DNA macrorestriction analysis. J Infect Dis 1997;175:723-6. (48.) The Working Group on Prevention of Invasive Group A Streptococcal Infections. Prevention of invasive group A streptococcal disease among household contacts of case-patients: is prophylaxis prophylaxis (prō'fĭlăk`sĭs), measures designed to prevent the occurrence of disease or its dissemination. Some examples of prophylaxis are immunization against serious diseases such as smallpox or diphtheria; quarantine to confine warranted? JAMA 1998;279:1206-10. Dr. Moses is a senior physician in the Department of Clinical Microbiology and Infectious Diseases and a senior lecturer in Clinical Microbiology at the Hadassah-Hebrew University Medical Center. His research interests include the pathogenesis and epidemiology of Group A streptococcal infections. Address for correspondence: Allon E. Moses, Hadassah Medical Center, P.O. Box 12000, Jerusalem 91120, Israel; fax: 9722-6758915; e-mail: MOSESA@MD2.HUJI Noun 1. HUJI - an extremist militant group in Pakistan occupied Kashmir that seeks an Islamic government and that has had close links and fought with the Taliban in Afghanistan Harakat ul-Jihad-I-Islami, Harkat-ul-Jihad-e-Islami .AC.IL Allon E. Moses, * Sara Goldberg, ([dagger]) Zinaida Korenman, ([double dagger]) Miriam Ravins, ([dagger]) Emanuel Hanski, ([dagger]) Mervyn Shapiro, * and the Israeli Group for the Study of Infections Caused by Streptococcus pyogenes (1) * Hadassah University Medical Center, Jerusalem, Israel; ([dagger]) Hebrew University Medical School, Jerusalem, Israel; and ([double dagger]) Ministry of Health Streptococcal Reference Laboratory, Jerusalem, Israel (1) Israeli Group for the Study of Infections Caused by Streptococcus pyogenes: V. Agmon, A. Mates, Ministry of Health Streptococcal Reference Laboratory; E. Ambun, Barzilai Hospital, Ashkelon; E. Azam, French Hospital, Nazareth; S. Berger, Y. Igra, Ichilov Medical Center, Tel Aviv; I. Boldur, A. Itzhaki, Assaf Haroffe Hospital, Zriffin; N. Chashan, R. Finkelstein, Rambam Hospital, Haifa; Y. Glick, Laniado Hospital, Natanya; R. Gutman, M. Dan, Wolfson Medical Center, Holon; E. Halperin, Bikur Cholim Hospital, Jerusalem; M. Kaupstein, D. Chasin, Hillel Yaffe Hospital, Hadera; N. Keller, Sheba Medical Center The Chaim Sheba Medical Center (Hebrew: המרכז הרפואי ע"ש חיים שיבא - תל , Tel Hashomer; R. Kolodney, R. Raz, Haemek Hospital, Afula; A. Lefler, Naharia Hospital; D. Lev lev-, pref See levo-. , M. Efros, Carmel Hospital, Haifa; A. Linben, Poryia Hospital, Tiberias; M. Maayan, M. Chovers, Meir Hospital, Kfar Saba; A. Miskin, Z. Landau, Kaplan Hospital, Rehovot; I. Moskovitz, Hasharon Hospital, Petah Tiqva; G. Rahav, D. Engelstein, Hadassah Medical Center, Jerusalem; Z. Samra, A. Bushara, Rabin Medical Center The Rabin Medical Center is a medical center in Petah Tikva, Israel. It is currently the second largest medical center in Israel after Sheba Medical Center, having lost the title of largest in 2006. , Petah Tiqva; I. Sarugo, I. Potesman, Bnei Zion Hospital, Haifa; Y. Schlezinger, B. Rodensky, D. Atias, Share Zedek Hospital, Jerusalem; M. Shechter, Ziv Hospital, Zafat; and P. Yagupsky, Soroka Medical Center Soroka Medical Center is a hospital in Beersheba, Israel. It is the largest medical center in southern region of the country, and fourth-largest in Israel.[1] References 1. ^ Ayala Hurwicz (2007-05-07). , Beer Sheva Sheva (shē`və), in the Bible. 1 Son of Caleb. 2 David's scribe: see Shavsha. |
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