Group G Streptococcal bacteremia in Jerusalem.Group G Streptococcus streptococcus (strĕp'təkŏk`əs), any of a group of gram-positive bacteria, genus Streptococcus, some of which cause disease. (GGS GGS Geelong Grammar School (Australia) GGS Generations and Gender Survey GGS Global Geospace Science GGS Good Games (Quake) GGs Governor-General's Literary Awards (Canada) ) can cause severe infections, including 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. . These organisms often express a surface protein homologous to the Streptococcus pyogenes M protein. We retrospectively studied the characteristics of patients from the Hadassah Medical Center Hadassah Medical Center (Hebrew: מרכז רפואי הדסה with GGS bacteremia from 1989 to 2000. Ninety-four cases of GGS bacteremia were identified in 84 patients. The median age was 62 years, 54% were males, and 92% had underlying diseases (35% had a malignancy, and 35% had diabetes mellitus). The most frequent source for bacteremia was cellulitis Cellulitis Definition Cellulitis is a spreading bacterial infection just below the skin surface. It is most commonly caused by Streptococcus pyogenes or Staphylococcus aureus. (61%). emm typing of 56 available isolates disclosed 13 different types, including 2 novel types. Six patients had recurrent bacteremia with two to four bacteremia episodes, five had chronic lymphatic lymphatic /lym·phat·ic/ (lim-fat´ik) 1. pertaining to lymph or to a lymphatic vessel. 2. a lymphatic vessel. lym·phat·ic adj. disorders, and two had emm type stG840.0 in every episode. Recurrent bacteremia has not been described for invasive 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. . We describe an entity of recurrent GGS bacteremia, which is associated with lymphatic disorders and possibly with emm stG840.0. ********** Large colony-forming group G [beta]-hemolytic 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. (GGS) were first isolated in patients with puerperal puerperal /pu·er·per·al/ (-al) pertaining to a puerpera or to the puerperium. pu·er·per·al adj. sepsis in 1935 (1). GGS are known to be commensals and pathogens in domestic animals. In humans, they may colonize col·o·nize v. col·o·nized, col·o·niz·ing, col·o·niz·es v.tr. 1. To form or establish a colony or colonies in. 2. To migrate to and settle in; occupy as a colony. 3. the 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. , skin, gastrointestinal and female genital tract (2). In recent years, GGS have been reported with increasing frequency as the cause of a variety of human 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. , cellulitis, meningitis, endocarditis endocarditis (ĕn'dōkärdī`tĭs), bacterial or fungal infection of the endocardium (inner lining of the heart) that can be either acute or subacute. , and sepsis (2-8). Bacteremia attributable to GGS has been related to underlying conditions, such as alcoholism, diabetes mellitus, malignancy, intravenous substance abuse, or breakdown of the skin (2-7,9,10). The taxonomy of these organisms has been reevaluated in recent years. The Lancefield group G carbohydrate may be encountered in several [beta]-hemolytic streptococcal streptococcal /strep·to·coc·cal/ (-kok´al) pertaining to or caused by a streptococcus. Streptococcal (Streptococcus) Pertaining to any of the Streptococcus bacteria. species, including Streptococcus anginosus and S. canis, but mainly in S. dysgalactiae subsp. equisimilis, which is the subject of our study (11). This subspecies subspecies, also called race, a genetically distinct geographical subunit of a species. See also classification. also hosts variants with Lancefield group A, C, and L carbohydrates. The subspecies epithet was determined by gene sequencing of the group C species previously named Streptococcus equisimilis, which showed it to be indistinguishable from group G S. dysgalactiae. This finding resulted in the description of a new taxon taxon (pl. taxa), in biology, a term used to denote any group or rank in the classification of organisms, e.g., class, order, family. , S. dysgalactiae subsp, equisimilis. The true proportions of the non-G carbohydrates among members of this taxon are difficult to estimate. In a prospective, population-based study of invasive S. pyogenes infections (12), we found six isolates with the group A antigen to be S. dysgalactiae subsp, equisimilis. Among isolates from infections attributable to S. dysgalactiae subsp. equisimilis, the group C and G antigen was found much more commonly in human infections than group A (GAS) (11). S. dysgalactiae subsp. equisimilis and S. pyogenes share virulence factors such as streptokinase streptokinase /strep·to·ki·nase/ (-ki´nas) a protein produced by ß, which produces fibrinolysis by binding to plasminogen and causing its conversion to plasmin; used as a thrombolytic agent. , C5a peptidase peptidase /pep·ti·dase/ (pep´ti-das) any of a subclass of proteolytic enzymes that catalyze the hydrolysis of peptide linkages; it comprises the exopeptidases and endopeptidases. pep·ti·dase n. , M protein, streptolysin streptolysin /strep·tol·y·sin/ (strep-tol´i-sin) the hemolysin of hemolytic streptococci. strep·tol·y·sin n. A hemolysin produced by streptococci. S, and certain 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. genes (13-18). The M protein is an important virulence factor because it confers resistance to phagocytosis phagocytosis: see endocytosis. Phagocytosis A mechanism by which single cells of the animal kingdom, such as smaller protozoa, engulf and carry particles into the cytoplasm. (19). M proteins of GAS and GGS obtained from human infections have similar biologic, immunochemical im·mu·no·chem·is·try n. The chemistry of immunologic phenomena, as of antigen-antibody reactions. im , and structural features (20). The substantial polymorphism exhibited by GAS M proteins has also been described for GGS (21). We have conducted a 12-year retrospective study to establish the incidence, clinical features, epidemiologic characteristics, and emm typing of GGS isolates that cause bacteremia in a large tertiary-care center in Jerusalem, Israel. Materials and Methods A retrospective study was conducted from 1989 through 2000 at the Hadassah Hospitals, Jerusalem, Israel. This is a 1,000-bed, tertiary-care center with all major disciplines represented, including hematology, oncology, and bone marrow transplantation Bone Marrow Transplantation Definition The bone marrow—the sponge-like tissue found in the center of certain bones—contains stem cells that are the precursors of white blood cells, red blood cells, and platelets. . The mean number of annual admissions during the study period was 62,433. Clinical Characteristics We reviewed the records of all patients in whom a positive blood culture of GGS was reported. Demographic and clinical data were collected. Death rates were measured only during hospitalization. Descriptive statistics were performed with the SPSS A statistical package from SPSS, Inc., Chicago (www.spss.com) that runs on PCs, most mainframes and minis and is used extensively in marketing research. It provides over 50 statistical processes, including regression analysis, correlation and analysis of variance. (SPSS Inc., Chicago, IL) statistical package release 11.01. The Fisher exact test was used for differences in proportions. A two-sided p value of <0.05 was considered significant. Microbiologic Methods Patients with GGS bacteremia were retrieved from the microbiology laboratory database of bacteremia. No more than one isolate per admission was included. Clinical specimens were collected and handled according to standard protocols. During the study period, the BACTEC 460 radiometric system and the BacTAlert (Organon or·ga·non or or·ga·num n. pl. or·ga·nons or or·ga·nums or or·ga·na 1. An organ. 2. A set of principles for use in scientific investigation. organon pl. organa [Gr.] organ. Teknika, Belgium) blood culture system were used. All catalase-negative, chain-forming, gram-positive cocci cocci /coc·ci/ (kok´si) plural of coccus. cocci [L.] plural of coccus. that were [beta]-hemolytic on 5% sheep blood agar were Lancefield serogrouped by using kits according to the manufacturer's instructions (PathDox Strep Grouping, DPC DPC Department of Premier and Cabinet (Victoria, Australia) DPC Dutch Power Cows DPC Deferred Procedure Calls (Microsoft Windows NT 4. Diagnostic Products Corporation, Los Angeles, CA). We had 56 isolates available for further analysis. These had been stored at -70[degrees]C in the laboratory collection of blood culture isolates. All isolates displayed large colonies and did not belong to the S. anginosus group ("S. milleri"). Molecular Methods An overnight growth was resuspended in saline and heated at 70[degrees]C for 15 min. Bacteria were then resuspended in 50 [micro]L of 10 mmol/L Tris, 1 mmol/L EDTA EDTA: see chelating agents. , pH 8. Ten microliters of mutanolysin (3,000 U/mL) and 2 [micro]L hyaluronidase Hyaluronidase Any one of a family of enzymes, also known as hyaluronate lyases or spreading factors, produced by mammals, reptiles, insects, and bacteria, which catalyze the breakdown of hyaluronic acid. (30 mg/mL) were added. After incubation at 37[degrees]C for 30 min and heat inactivation inactivation /in·ac·ti·va·tion/ (in-ak?ti-va´shun) the destruction of biological activity, as of a virus, by the action of heat or other agent. at 100[degrees]C for 10 min, 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. was subjected to 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) ). Fifty-six GGS isolates were emm typed. PCR was performed as described (http://www.cdc.gov/ncidod/ biotech/strep/doc.htm). Primers used for amplification of GGS 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. were G1F and G1R, previously described by Schnitzler et al. (21). According to recommendations (http://www.cdc.gov/ ncidod/biotech/strep/doc.htm), the sequence of the sense strand of the emm hypervariable coding region was determined by using primer 1 (5' TATTCGCTTAGAAAATTAA 3') by automated sequencing (Hy Laboratories Ltd., Rehovot, Israel). The sequence of base pair numbers 30-260 was submitted by using the Streptococcal Group A Subtyping Request Form, to the Blast 2.0 Core Facility (http://www.cdc.gov/ncidod/biotech/strep/strepblast.htm), where emm type was determined (22). The 12 strains from recurrent infection were analyzed by pulsed-field electrophoresis (PFGE PFGE Pulsed-Field Gel Electrophoresis ). Chromosomal DNA was digested with SmaI and prepared and analyzed as described with minor modifications (23). Results The 504 bloodstream isolates of [beta]-hemolytic Streptococcus from 1989 through 2000 included the following: 232 (46%) group A, 171 (34%) group B (GBS See GB/sec. ), 94 (19%) group G, and 7 (1.4%) groups F and C. The 94 episodes of GGS bacteremia involved 84 patients, 6 of whom had recurrent infections. Patient characteristics are summarized in Tables 1 and 2. The annual incidence of GGS bacteremia was 0.0-0.2 cases/1,000 admissions during the 12-year study; the incidence ranges for GAS and GBS were 0.2 0.48 and 0.19 0.3, respectively (Figure 1). [FIGURE 1 OMITTED] Five patients died, but only two of the deaths were directly attributed to the GGS bacteremia. The other three deaths were related to malignancy in two patients and congestive heart failure congestive heart failure, inability of the heart to expel sufficient blood to keep pace with the metabolic demands of the body. In the healthy individual the heart can tolerate large increases of workload for a considerable length of time. in one. Of the 56 GGS isolates available for emm typing, we found 13 emm types (including 2 subtypes of stG6:stG6.0 and stG6.1). These types included stG507.1, a variant of emmLG507.0 (GenBank accession no. X79527) and stG6792.0 (identical to a partial gene sequence, accession no. AF485842, listed from a blood isolate of S. dysgalactiae subsp. equisimilis), which were not in the database. The patient with the stG507.1 bacteremia had cellulitis, and two patients had the stG6792.0 strain: one was a 17-year-old patient with venous malformations of the leg and pelvis who had GGS sepsis and multiorgan failure, and the other was a 92-year-old man with diabetes and cellulitis. No association was found between emm type and year of study, season, source of infection, or cellulitis location. Six patients had recurrent bacteremia, ranging from 2 to 4 episodes per patient (Table 3). All six patients had a community-acquired recurrent cellulitis and were given treatment similar to that received by patients who did not have a recurrent infection. Five patients had chronic lymphatic abnormalities at the infection site compared to 11 of 42 patients with nonrecurrent cellulitis (odds ratio [OR] 14.1, 95% confidence interval [CI] 1.5-134.3, p = 0.012). Two patients had recurrent infection with the same emm type, stG840.0 (one patient had three episodes, 1 and 7 months apart; the other patient had 2 episodes, 6 months apart). Three patients had a different emm type each episode. The isolates of the patient with four recurrent episodes were not available for emm typing. PFGE results indicated that isolates recovered from the same patient that shared the same emm type were highly genetically related (Figure 2). [FIGURE 2 OMITTED] Discussion GGS are widely distributed in nature and are recognized as both commensals and pathogens in animals as well as in humans. S. dysgalactiae subsp, equisimilis is part of the normal bacterial flora in humans. S. dysgalactiae subsp, equisimilis is the most common species of large colony-forming serogroup G streptococci that is 13hemolytic he·mo·lyt·ic adj. Destructive to red blood cells; hematolytic. Hemolytic Referring to the destruction of the cell membranes of red blood cells, resulting in the release of hemoglobin from the damaged cell. on sheep blood agar. The animal-associated S. canis has rarely been implicated as a human pathogen, although accurate data are not available (11,24). Asymptomatic 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. carriage of GGS has been described in up to 23% of humans (25), and vaginal carriage in 5% of asymptomatic puerperal women (1). This 12-year retrospective survey identified 94 episodes of GGS bacteremia at the Hadassah-Hebrew University Medical Center. it is one of the two largest series of GGS bacteremia described in the literature to date (26). Some similarities were found in the epidemiologic characteristics of group G streptococcal bacteremia between our study and other studies. Patients were predominantly elderly men. Most patients (92%) had underlying diseases, similar to those (74% 92%) reported previously (2-6,9). As shown by Auckenthaler et al. (3) and Woo et al. (6), malignancy was one of the most important underlying conditions associated with GGS bacteremia, affecting 35% of our patients. In our patients, the most common malignancy associated with cellulitis was carcinoma of the breast. The most common source of infection among patients with bacteremia with a known source was soft tissue infection, especially cellulitis (61%), 66% of these infections were confined to the lower limbs. Similarly, 48% of our patients with cellulitis had an underlying skin lesion; in 35% of the patients, it was related to lymphatic abnormalities. These abnormalities were mostly attributed to malignancy, surgery, or radiation. Two patients had a congenital lymphatic malformation malformation /mal·for·ma·tion/ (-for-ma´shun) 1. a type of anomaly. 2. a morphologic defect of an organ or larger region of the body, resulting from an intrinsically abnormal developmental process. . Nineteen percent of our patients had primary bacteremia, which is within the range (11% 52%) described by others (2,3,6,7). The death rate in our study (5%) was lower than that previously reported (8%-30%) (3,6,9). One reason for this finding may be the relatively younger age of our patients: Only 22% of our patients were >75 years of age compared to those from Sylvetsky's group, where 63% were >75 years of age (9). The small number of patients who eventually died of bacteremia precluded analysis of risk factors associated with death. In contrast to the previous study from a different hospital in Jerusalem, Israel, describing GGS bacteremia during the same years as our study (9), the yearly incidence of GGS bacteremia did not increase. The dissimilarity in our two groups may be attributable to the differences in ages of the patients and the proportion of men. In addition, the other hospital is a community hospital with a large geriatric department, without neurosurgery neurosurgery /neu·ro·sur·gery/ (noor´o-sur?jer-e) surgery of the nervous system. neu·ro·sur·ger·y n. Surgery on any part of the nervous system. or bone-marrow and solid organ transplants. A noteworthy finding in our series was the high frequency of recurrent GGS bacteremia. We identified six patients with bacteremia, all of whom had recurrent cellulitis. Five had lymphatic drainage abnormalities. Two patients had recurrent bacteremia attributable to the same emm type (stG840, patients 1 and 2, Table 3). PFGE results indicated that within each patient the isolates recovered at different time points were clonal (Figure 2) but that the two pairs of stG840 isolates had differing PFGE patterns, which suggests that they were different clonal types. Since two of the patients with recurrent bacteremia had an infection by the same clone, these infections may have been relapses. Recurrence of bacteremia suggests that the initial infection may not provide protective immunity. The question of protective immunity to this bacterium is addressed by Bisno et al. in a murine murine /mu·rine/ (mur´en) pertaining to, derived from, or characteristic of mice or rats. mu·rine adj. model of recurrent GGS cellulitis (27). Despite recurrent skin challenge with GGS, the lesion did not decrease in severity, size, or time to heal. Bisno et al. found that, despite the development of demonstrable humoral immune response humoral immune response The immune response involving the transformation of B cells into plasma cells that produce and secrete antibodies to a specific antigen. See Note at antibody. Noun 1. to M protein, acquired protective immunity did not occur. Possibly GGS downregulates M protein in vivo, thus allowing it to evade these specific antibodies. Immediately initiating antibiotic therapy for the first GGS infection might contribute to the low level of immunity, as has been demonstrated in cases of recurrent GAS tonsillitis tonsillitis Inflammatory infection of the tonsils, usually with hemolytic streptococci (see streptococcus) or viruses. The symptoms are sore throat, trouble in swallowing, fever, and enlarged lymph nodes on the neck. (28). Cellulitis can recur in extremities or other sites where venous and lymphatic circulation has been compromised by processes such as malignancy, lymph node dissection Lymph node dissection Surgical removal of a group of lymph nodes. Mentioned in: Malignant Melanoma , prior irradiation, trauma, or saphenous saphenous /sa·phe·nous/ (sah-fe´nus) pertaining to or associated with a saphena; applied to certain arteries, nerves, veins, etc. venectomy (10,29,30). Nongroup A [beta]-hemolytic streptococci have been implicated as a major cause of cellulitis in the setting of circulatory compromise (31,32). Focusing on the 48 patients with cellulitis, we found that recurrent cellulitis with bacteremia was 14.1 times more likely to develop in patients with lymphatic drainage abnormalities when compared to patients without such abnormalities. Our report is the first to describe the phenomenon of recurrent GGS cellulitis associated with bacteremia in patients with lymphatic abnormalities. Recurrent GGS bacteremia seems to be more common than recurrent GAS bacteremia. In our study of 90 patients with GAS bacteremia (33) who were admitted to the Hadassah Medical Center during a 6-year period, none had a recurrence compared to 6 of 84 patients in this study (p < 0.013). Our patient with four recurrences of GGS bacteremia had in effect five additional episodes, which were not included in our report. Three episodes were cellulitis with GGS bacteremia at other hospitals, and two episodes were severe cellulitis without proven bacteremia. These cases are examples of recurrence of GGS infection in a manner not known to occur with GAS. A recent report suggested that allelic al·lele n. One member of a pair or series of genes that occupy a specific position on a specific chromosome. [German Allel, short for Allelomorph, allelomorph, from English variation of human leukocyte antigen human leukocyte antigen n. Abbr. HLA A gene product of the major histocompatibility complex; these antigens have been shown to have a strong influence on human allotransplantation, transfusions in refractory patients, and certain disease II contributes to the differences in severity of GAS infections (34). The relationship between bacterial factors and host mechanisms of defense in this patient and others with recurrent bacteremia needs further investigation. To illuminate the unique characteristics of patients with GGS bacteremia, we compared our group of GGS bacteremia patients with two groups of GAS bacteremia patients (33,35). Sex and age of the patients with GGS bacteremia were similar to those with GAS bacteremia in a retrospective study. However, when we compared patients with GAS bacteremia from our hospital participating in a nationwide prospective, population-based study, GGS patients were older and more likely to be men than the GAS patients (35). Thus, the characteristics of the GGS patients may reflect institutional and selection bias attributable to different study methods and may not be a true tendency for older patients. 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. M typing was developed years ago for GAS typing, but it has also been used for GGS (36). M protein encoded by emm is a virulence factor of GGS similar to the GAS surface protein (20). emm typing for both GAS and GGS is based on the heterogeneity of the 5' ends of the gene, which give rise to different sequence types. More than 120 emm types are recognized for GAS, and approximately 40 types of GGS and group C Streptococcus (GCS GCS Glasgow Coma Scale GCS Guilford County Schools (North Carolina) GCS Ground Control Station GCS Grand Central Station GCS Ground Control System GCS Ground Combat Systems GCS Group Communication Systems ) have been identified (http://www.cdc.gov/ncidod/ biotech/strep/emmtypes.htm). Despite the similarities between GAS and GGS, Geyer and Schmidt (37) found that in GCS and GGS, two types of arrangements in the emm region differ significantly from the known types of toga region in GAS. The conclusion was that Mgc is related to Mga proteins of various types of GAS but forms a distinct cluster. In previous studies, Lawal et al. used serologic M typing for 103 isolates of GGS. Fifty-six isolates (54%) could be serologically typed into eight serotypes (38). Of 128 isolates, 40 (31%) could be serotyped with six antisera (39). The inability to type a large proportion of GGS by the older serologic method is similar to the situation that exists for GAS (12). In our 56 GGS isolates available for sequence typing, we found 13 emm types. None of our isolates were emm nontypeable. Kalia et al. (40) emm typed 18 GGS isolates from human infections obtained from various countries. They found 13 emm types, the most common of which was stG480.0 (3 of 18 isolates compared to 3 of 56 in our study); our most common type was stG485.0 (10 of 56 isolates). Thus, emm typing provides a useful tool for identifying isolates when compared to traditional M typing. Tyrrell found a correlation between clusters of GAS M types and patient age (41). We could not find a correlation between emm type and clinical features such as patient sex, age, and source of infection or cellulitis location, although our database may not be sufficiently large to draw these correlations. We found among our GGS isolates emm types that were previously described for GCS (stC36.0) and for GAS (stG245.0). Although stG245.0 was originally associated with S. dysgalactiae subsp, equisimilis harboring group A antigen, it is usually associated with GGS (B. Beall, unpub. data). Kalia et al. described a few GCS emm types, which in our study were found in group G streptococci. Certain types are occasionally found in both GGS and GCS (Beall, unpub. data). The dynamics of interspecies transfer of virulence loci between GAS, GGS, and GCS (18,42-45), as well as potential genetic transfer or intragenomic events causing interconversion in·ter·con·ver·sion n. Mutual conversion. in  ter·con·vert v. of group antigen types, remains to be resolved.
Our findings that several isolates with emm type stG840 have different
PFGE patterns may support the notion that isolates of GGS with the same
emm type are not of the same clone. The relationship between GGS emm
type and clone remains to be examined. In general, GAS emm typing, when
restricted to the same geographic area and time period, is indicative of
clonal type; however Beall et al, (46) demonstrated numerous examples of
apparently unrelated GAS strains (as judged by independent T
agglutination agglutination, in biochemistryagglutination, in biochemistry: see immunity. agglutination, in linguistics agglutination, in linguistics: see inflection. phenotype and opacity Refers to being "opaque," which means to prevent light from shining through. For example, in an image editing program, the opacity level for some function might range from completely transparent (0) to completely opaque (100). factor [sof] sequence) sharing the same emm sequence type, and, more recently, nonrelatedness between distinct GAS strains of identical emm types has been demonstrated through MLST MLST Multi Locus Sequence Typing MLST Medical Logistics Support Team MLST Mini Losi Super Truck (1/18th scale radio control vehicle) (47). In summary, we describe 94 cases of GGS bacteremia, observed mainly in older patients with underlying medical conditions. The most frequent portal of entry portal of entry, n the area in which a microorganism enters the body. They may be cuts, lesions, injection sites, or natural body orifices. was the skin. The high rate of recurrence of GGS bacteremia was an unusual and unexpected finding. Clinicians should be alert to this phenomenon, which seems to be more common than recurrent GAS bacteremia. We found that lymphatic drainage disorders were a highly significant risk factor for recurrence, and that emm type stG840.0 may have a special role in recurring disease.
Table 1. Summary of clinical characteristic of 94
patients with group G streptococcal bacteremia
Characteristic No. of patients (%)
Age (y)
<10 3 (3.1)
10-50 28 (29.8)
51-75 42 (44.7)
>75 21 (22.3)
Median (range) 62 (2-92)
Male 51 (54.2)
Median LOH (a) in days 10
Underlying disorder
Diabetes mellitus 33 (35.1)
Malignancy 33 (35.1)
Hypertension 18 (19.1)
No disease 8 (8.5
Type of infection
Cellulitis 56 (59.6)
Primary bacteremia 18 (19.1)
Soft-tissue infection (b) 4 (4.3)
Bone and joint 4 (4.3)
Endocarditis 3 (3.1)
Respiratory 3 (3.1)
Postpartum 1 (1.1)
Line sepsis 1 (1.1)
Unknown 4 (4.3)
Death rate 5 (5.3)
(a) LOH, length of hospitalization.
(b) Soft tissue infection, pressure sore
attributable to diabetes.
Table 2. emm types of 94 patients with
group G streptococcal bacteremia
emm types No. of isolates
stG485.0 10
stG840.0 7
stG6.1 7
stG166b.0 6
stG4222.0 5
stG10.0 3
stG5420.0 3
stC74a.0 3
stG245.0 3
stG480.0 3
stC36.0 2
stG6792.0 (a) 2
stG6.0 1
stG507.1 (a) 1
(a) New emm types.
Table 3. Characteristics of recurrent episodes of GGS bacteremia
emm type
Time to
recurrence
Patient Episode 1 Episode 2 Episode 3 Episode 4 (mo.)
1 stG840.0 stG840.0 6
2 stG840.0 stG840.0 stG840.0 1, 7
3 stG840.0 stG485.0 12
4 stG485.0 stG245.0 21
5 stG480.0 stG6.1 stG166b.0 3, 1
6 Unknown Unknown Unknown Unknown 34, 13, 12
References (1.) Lancefield RC, Hare R. The serological serological pertaining to or emanating from serology. serological test one involving examination of blood serum usually for antibody. differentiation of pathogenic and non-pathogenic strains of hemolytic streptococci from parturient parturient /par·tu·ri·ent/ (pahr-tu´re-ent) giving birth or pertaining to birth; by extension, a woman in labor. par·tu·ri·ent adj. 1. Of or relating to giving birth. 2. women. J Exp Med. 1935;61:335-49. (2.) Vartian C, Lerner PI, Shlaes DM, Gopalakrishna KV. Infections due to Lancefield group G streptococci. Medicine (Baltimore). 1985;64:75-88. (3.) Auckenthaler R, Hermans PE, Washington JA 2nd. Group G streptococcal bacteremia: clinical study and review of the literature. Rev Infect Dis. 1983;5:196-204. (4.) Watsky KL, Kollisch N, Densen P. Group G streptococcal bacteremia. The clinical experience at Boston University Medical Center and a critical review of the literature. Arch Intern Med. 1985;145:58-61. (5.) Venezio FR, Gullberg RM, Westenfelder GO, Phair JP, Cook FV. Group G streptococcal endocarditis and bacteremia. Am J Med. 1986;81:29-34. (6.) Woo PC, Fung AM, Lau SK, Wong SS, Yuen KY. Group G betahemolytic streptococcal bacteremia characterized by 16S ribosomal RNA gene sequencing. J Clin Microbiol. 2001;39:3147-55. (7.) Lam K, Bayer AS. Serious infections due to group G streptococci. Report of 15 cases with in vitro-in vivo correlations. Am J Med. 1983;75:561-70. (8.) Dickie AS, Bremner DA, Say PJ. Group G streptococcal septicaemia septicaemia or septicemia Noun an infection of the blood which develops in a wound [Greek sēptos decayed + haima blood] septicemia, septicaemia : report of six cases. J Infect. 1984;8:173-6. (9.) Sylvetsky N, Raveh D, Schlesinger Y, Rudensky B, Yinnon AM. Bacteremia due to beta-hemolytic Streptococcus group G: increasing incidence and clinical characteristics of patients. Am J Med. 2002;112:622-6. (10.) Craven DE, Rixinger AI, Bisno AL, Goularte TA, McCabe WR. Bacteremia caused by group G streptococci in parenteral parenteral /pa·ren·ter·al/ (pah-ren´ter-al) not through the alimentary canal, but rather by injection through some other route, as subcutaneous, intramuscular, etc. par·en·ter·al adj. 1. drug abusers: epidemiological and clinical aspects. J Infect Dis. 1986;153:988-92. (11.) Facklam R. What happened to the streptococci: overview of taxonomic and nomenclature changes. Clin Microbiol Rev. 2002;15:613-30. (12.) Moses AE, Hidalgo-Grass C, Dan-Goor M, Jaffe J, Shetzigovsky I, Ravins M, et al. emm typing of M nontypeable invasive group A streptococcal isolates in Israel. J Clin Microbiol. 2003;41:4655-9. (13.) Bisno AL, Craven DE, McCabe WR. M proteins of group G streptococci isolated from bacteremic bac·te·re·mi·a n. The presence of bacteria in the blood. bac te·re human infections. Infect Immun.
1987;55:753-7.(14.) Cleary PP, Peterson J, Chen C, Nelson C. Virulent human strains of group G streptococci express a C5a peptidase enzyme similar to that produced by group A streptococci. Infect Immun. 1991;59:2305-10. (15.) Jones KF, Fischetti VA. Biological and immunochemical identity of M protein on group G streptococci with M protein on group A streptococci. Infect Immun. 1987;55:502-6. (16.) Simpson WJ, Robbins JC, Cleary PP. Evidence for group A-related M protein genes in human but not animal-associated group G streptococcal pathogens. Microb Pathog. 1987;3:339-50. (17.) Humar D, Datta V, Bast Bast, in Egyptian religion Bast (băst), ancient Egyptian cat goddess. At first a goddess of the home, she later became known as a goddess of war. The center of her cult was at Bubastis. Her name also appears as Ubast. DJ, Beall B, De Azavedo JC, Nizet V. Streptolysin S and necrotising infectious produced by group G streptococcus. Lancet. 2002:359:124-9. (18.) Kalia A, Bessen DE. Presence of streptococcal pyrogenic pyrogenic /py·ro·gen·ic/ (pi?ro-jen´ik) febrifacient; causing fever. py·ro·gen·ic or py·rog·e·nous adj. 1. Producing or produced by fever. 2. exotoxin A mid C genes in human isolates of group G streptococci. FEMS Microbiol Lett. 2003;219:291-5. (19.) Lancefield RC. Current knowledge of the type specific M antigens of group A streptococci. J Immunol. 1962;89:307-13. (20.) Collins CM, Kimura A, Bisno AL. Group G streptococcal M protein exhibits structural features analogous to those of class I M protein of group A streptococci. Infect Immun. 1992;60:3689-96. (21.) Schnitzler N, Podbielski A, Baumgarten G, Mignon M, Kaufhold A. M or M-like protein gene polymorphisms in human group G streptococci. J Clin Microbiol. 1995;33:356-63. (22.) Li Z, Sakota V, Jackson D, Franklin AR, Beall B. The array of M protein gene subtypes in 1061 recent invasive group A streptococcal isolates recovered from the Active Bacterial Core Surveillance. J Infect Dis. 2003:188:1587-92. (23.) Stanley J, Desai M, Xerry J, Tanna A, Efstratiou A, George R. High-resolution genotyping elucidates the epidemiology of group A streptococcus outbreaks. J Infect Dis. 1996;174:500-6. (24.) Whatmore AM, Engler KH, Gudmundsdottir G, Efstratiou A. Identification of isolates of Streptococcus canis infecting humans. J Clin Microbiol. 2001;39:4196-9. (25.) Hill HR, Caldwell GG, Wilson E, Hager D, Zimmerman RA. Epidemic of pharyngitis due to streptococci of Lancefield group G Lancet. 1969;7616:371-4. (26.) Hindsholm M, Schonheyder HC. Clinical presentation and outcome of bacteraemia bacteraemia see bacteremia. caused by beta-haemolytic streptococci serogroup G. Apmis. 2002;110:554-8. (27.) Bisno AL, Gaviria JM. Murine model of recurrent group G streptococcal cellulitis: no evidence of protective immunity. Infect Immun. 1997;65:4926-30. (28.) el-Daher NT, Hijazi SS, Rawashdeh NM, al-Khalil IA, Abu-Ektaish FM, Abdel-Latif DI. Immediate vs. delayed treatment of group A beta-hemolytic streptococcal pharyngitis with penicillin V. Pediatr Infect Dis J. 1991;10:126-30. (29.) Baddour LM, Bisno AL. Recurrent cellulitis after saphenous venectomy for coronary bypass surgery Coronary bypass surgery A surgical procedure which places a shunt to allow blood to travel from the aorta to a branch of the coronary artery at a point past an obstruction. Mentioned in: Cardiac Catheterization, Thallium Heart Scan . Ann Intern Med. 1982;97:493-6. (30.) Chmel H, Hamdy M. Recurrent streptococcal cellulitis complicating radical hysterectomy and radiation therapy. Obstet Gynecol. 1984;63:862-4. (31.) Woo PC, Lum n. 1. A chimney. 2. A ventilating chimney over the shaft of a mine. 3. A woody valley; also, a deep pool. PN, Wong SS, Cheng VC, Yuen KY. Cellulitis complicating lymphoedema. Eur J Clin Microbiol Infect Dis. 2000;19:294-7. (32.) Baddour LM, Bisno AL. Non-group A beta-hemolytic streptococcal cellulitis. Association with venous and lymphatic compromise. Am J Med. 1985;79:155-9. (33.) 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. (34.) Kotb M, Norrby-Teglund A, McGeer A, El-Sherbini H, Dorak MT, Khurshid A, et al. An immunogenetic and molecular basis for differences in outcomes of invasive group A streptococcal infections. Nat Med. 2002;8:1398-404. (35.) Moses AE, Goldberg S, Korenman Z, Ravins M, Hanski E, Shapiro M. Invasive group A streptococcal infections, Israel. Emerg Infect Dis. 2002;8:421-6. (36.) Maxted WR, Potter EV. The presence of type 12 M-proteiantigen in group G streptococci. J Med Microbiol. 1967;49:119-25. (37.) Geyer A, Schmidt KH. Genetic organisation of the M protein region in human isolates of group C and G streptococci: two types of multigene regulator-like (mgrC) regions. Mol Gen Genet genet: see civet. . 2000;262:965-76. (38.) Lawal SF, Dosunmu-Ogunbi O. A new scheme for serotyping group-G streptococci. J Med Microbiol. 1986;21:275-7. (39.) Lawal SF, Coker AO, Solanke EO, Ogunbi O. Serotypes among Lancefield-group G streptococci isolated in Nigeria. J Med Microbiol. 1982;15:123-5. (40.) Kalia A, Enright MC, Spratt BG, Bessen DE. Directional gene movement from human-pathogenic to commensal-like streptococci. Infect Immun. 2001;69:4858-69. (41.) Tyrrell GJ, Lovgren M, Forwick B, Hoe NP, Musser JM, Talbot JA. M types of group a streptococcal isolates submitted to the National Centre for Streptococcus (Canada) from 1993 to 1999. J Clin Microbiol. 2002;40:4466-71. (42.) Igwe EI, Shewmaker PL, Facklam RR, Farley MM, van Beneden C, Beall B. Identification of superantigen genes speM, ssa, and smeZ in invasive strains of beta-hemolytic group C and G streptococci recovered from humans. FEMS Microbiol Lett. 2003;229:259-64. (43.) Kalia A, Bessen DE. Natural selection and evolution of streptococcal virulence genes involved in tissue-specific adaptations. J Bacteriol. 2004;186:110-21. (44.) Sriprakash KS, Hartas J. Lateral genetic transfers between group A and G streptococci for M-like genes are ongoing. Microb Pathog. 1996;20:275-85. (45.) Simpson WJ, Musser JM, Cleary PP. Evidence consistent with horizontal transfer of the gene (emm 12) encoding 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. M12 protein between group A and group G pathogenic streptococci. Infect Immun. 1992;60:1890-3. (46.) Beall B, Gherardi G, Lovgren M, Facklam RR, Forwick BA, Tyrrell GJ. emm and sof gene sequence variation in relation to serological typing of opacity-factor-positive group A streptococci. Microbiology. 2000;146(Pt 5):1195-209. (47.) McGregor KF, Bilek N, Bennett A, Kalia A, Beall B, Carapetis JR, et al. Group A streptococci from a remote community have novel multilocus genotypes but share emm types and housekeeping alleles with isolates from worldwide sources. J Infect Dis. 2004;189:717-23. Dr. Cohen-Poradosu is an infectious diseases physician in the Department of Clinical Microbiology and Infectious Diseases, Hadassah-Hebrew University Medical Center. Her clinical and research interests include streptococcal infections and antimicrobial drug-resistance patterns. Address for correspondence: Allon E. Moses, Hadassah-Hebrew University Medical Center, P.O. Box 12000, Jerusalem 91120, Israel; fax: 9722-6758915; email: mosesa@md2.huji.ac.il Ronit Cohen-Poradosu, * Joseph Jaffe, * David Lavi, * Sigal Grisariu-Greenzaid, * Ran Nir-Paz, * Lea Valinsky, ([dagger]) Mary Dan-Goor, ([double dagger]) Colin Block, * Bernard Beall, ([section]) and Allon E. Moses * * Hadassah-Hebrew University Medical Center, Jerusalem, Israel; ([dagger]) Ministry of Health Central Laboratory, Jerusalem, Israel; and ([double dagger]) Hebrew University-Hadassah Medical School, Jerusalem, Israel, ([section]) 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. , Atlanta, Georgia, USA |
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