Epidemiology of Haemophilus influenzae serotype a, North American Arctic, 2000-2005.Before the introduction of Haemophilus influenzae type b Haemophilus influenzae type b n. Abbr. Hib A gram-negative, rod-shaped bacterium of the genus Haemophilus that is found in the human respiratory tract and causes acute respiratory infections, such as pneumonia, and other diseases, (Hib) conjugate vaccines, rates of invasive H. influenzae disease among indigenous people of the North American North American named after North America. North American blastomycosis see North American blastomycosis. North American cattle tick see boophilusannulatus. Arctic were among the highest in the world. Routine vaccination reduced rates to low levels; however, 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. replacement with non-type b strains may result in a reemergence of invasive disease in children. We reviewed population-based data on invasive H. influenzae in Alaska and northern Canada Northern Canada is the vast northernmost region of Canada variously defined by geography and politics. Definitions and usage Also referred to as the Canadian North or (locally) as the North from 2000-2005; 138 cases were reported. Among 88 typeable isolates, 42 (48%) were H. influenzae type a (Hia); 35 (83%) occurred in indigenous peoples The term indigenous peoples has no universal, standard or fixed definition, but can be used about any ethnic group who inhabit the geographic region with which they have the earliest historical connection. . Among Hia patients, median age was 1.1 years; 62% were male; 1 adult died. Common clinical manifestations included meningitis, pneumonia, and septic arthritis septic arthritis Acute inflammation of one or more joints caused by infection. Suppurative arthritis may follow certain bacterial infections; joints become swollen, hot, sore, and filled with pus, which erodes their cartilage, causing permanent damage if not promptly treated . Overall annual incidence was 0.9 cases per 100,000 population. Incidence among indigenous children <2 years of age in Alaska and northern Canada was 21 and 102, respectively. Serotype a is now the most common H. influenzae serotype in the North American Arctic; the highest rates are among indigenous children. ********** Haemophilus influenzae Haemophilus in·flu·en·zae n. A gram-negative, rod-shaped bacterium of the genus Haemophilus, especially Haemophilus influenzae type b, that occurs in the human respiratory tract and causes acute respiratory infections, acute conjunctivitis, and causes illnesses ranging from local respiratory infection Noun 1. respiratory infection - any infection of the respiratory tract respiratory tract infection infection - the pathological state resulting from the invasion of the body by pathogenic microorganisms to serious invasive disease, including meningitis, epiglottitis, septic arthritis, and septicemia septicemia (sĕptĭsē`mēə), invasion of the bloodstream by virulent bacteria that multiply and discharge their toxic products. The disorder, which is serious and sometimes fatal, is commonly known as blood poisoning. (1). Among the encapsulated strains (a to f) that have been identified, H. influenzae serotype b (Hib) is the most virulent (1-4). Nonencapsulated (nontypeable) strains are usually associated with noninvasive infections but can cause invasive disease, including neonatal sepsis neonatal sepsis Sepsis of newborn, septicemia of newborn Pediatrics A severe systemic infection of the newborn caused primarily by group B streptococcus, a bacterium found in the GI and GU tracts, which causes ±3/4 (2-5). Historically, Hib was the leading cause of bacterial meningitis bacterial meningitis Acute bacterial meningitis Neurology Meningeal inflammation caused by bacteria which, if untreated, is often fatal, or associated with significant sequelae Epidemiology 60% are community-acquired–CM, 40% nosocomial–NM Predisposing in the United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. and Canada (6). However, since the introduction of Hib capsular cap·su·lar adj. Of, relating to, or resembling a capsule. Adj. 1. capsular - resembling a capsule; "the capsular ligament is a sac surrounding the articular cavity of a freely movable joint and attached to the bones" polysaccharide-protein conjugate vaccine in 1988, the incidence of invasive Hib disease Hib disease An infection caused by Haemophilus influenza type b (Hib). This disease mainly affects children under the age of five. In that age group, it is the leading cause of bacterial meningitis, pneumonia, joint and bone infections, and throat has declined dramatically. Data from 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 ) show invasive Hib disease in the United States has decreased by 99% to <l case per 100,000 children <5 years of age (7). Similar declines have been documented in Canada (8). Indigenous people, defined as the original people of Alaska (Alaska Native people) and northern Canada (aboriginal people), are at increased risk for Hib disease (8-12) than the general populations of the United States and Canada, and the risk for disease peaks at an earlier age (12-14). While Hib vaccination HIB vaccination Vaccination intended to prevent H influenzae type B infection, which causes meningitis and epiglottitis with airway obstruction Dosing 2, 4, 6 months of age, followed by a booster at 12-15 months of age Adverse reactions Rare led to the rapid decline of Hib disease in all populations including indigenous groups, indigenous children continue to have higher rates of Hib disease than nonindigenous children (12,15). With widespread vaccination against Hib, concern has been raised about the potential for replacement disease caused by non-type b encapsulated strains. Protection conferred by the Hib vaccine Hib vaccine n. A conjugate vaccine that provides immunization against infections caused by Haemophilus influenzae type b, especially bacterial meningitis and pneumonia in children. is specific to the type b polysaccharide polysaccharide: see carbohydrate. polysaccharide Any of a large class of long-chain sugars composed of monosaccharides. Because the chains may be unbranched or branched and the monosaccharides may be of one, two, or occasionally more kinds, capsule. It was suggested that reducing carriage of the vaccine type may open an ecologic niche, allowing increased colonization with non-type b strains of H. influenzae with the potential to become invasive (6,16). Non-type b H. influenzae disease is uncommon in children; however, since the introduction of Hib vaccine, the relative importance of infections due to nonencapsulated and non-type b encapsulated H. influenzae has increased (3). Infections caused by nonencapsulated strains are more common in adults and are more likely to be associated with pneumonia, whereas infections caused by encapsulated strains tend to occur in younger children with a predominance of meningitis and 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. (3,17). Non-type b H. influenzae appears to be more common in persons with underlying medical illnesses, such as immunosuppressive Immunosuppressive Any agent that suppresses the immune response of an individual. Mentioned in: Antirheumatic Drugs, Graft-vs.-Host Disease, Immunosuppressant Drugs immunosuppressive 1. pertaining to or inducing immunosuppression. 2. conditions (3,4,17). The extent to which non-b H. influenzae causes invasive disease is not fully known (1 7). In some countries, only Hib disease is reportable; therefore, information on other serotypes is lacking. However, numerous case reports of invasive H. influenzae disease caused by encapsulated non-b serotypes, particularly types a, e, and f, have been published (6,10,11,18-20). Although uncommon, H. influenzae serotype a (Hia) has been reported to cause invasive disease, meningitis, pneumonia, and sepsis (3,20). Hia disease may occur more frequently in indigenous populations (10,11,21). Reports of invasive H. influenzae disease have identified Hia in 7.8% of Australian aboriginal children and 16.7% of Apache children with invasive disease (10,21-23). The Navajo and White Mountain Apache populations have a higher rate of Hia disease than the general US population, and Hia is now a leading cause of invasive H. influenzae disease in these populations (10). Although high rates were discovered during the period of surveillance (1988-2003), significant increases in incidence were not found (10). Seasonal, temporal, and geographic clustering was not demonstrated. An outbreak of invasive Hia has recently been described in Alaska (11), and data from the International Circumpolar cir·cum·po·lar adj. 1. Located or found in one of the Polar Regions. 2. Astronomy Denoting a star that from a given observer's latitude does not go below the horizon. Surveillance (ICS (1) (Internet Connection Sharing) A Windows feature that enables two or more computers to share one Internet connection. First introduced in Windows 98 Second Edition, sharing is accomplished with network address translation (NAT), which is the common method. ) Program suggest that the number of cases of Hia has increased in both Alaska and northern Canada. The objectives of this study were to characterize cases of invasive Hia, to examine incidence rates over time, and to assess the relatedness of Hia isolates by molecular typing. Methods ICS, a population-based surveillance system for invasive bacterial diseases bacterial diseases Diseases caused by bacteria. The most common infectious diseases, they range from minor skin infections to bubonic plague and tuberculosis. Until the mid-20th century, bacterial pneumonia was probably the leading cause of death among the elderly. established in 1999, includes laboratory-based surveillance for Streptococcus pneumoniae Streptococcus pneu·mo·ni·ae n. Pneumococcus. Streptococcus pneumoniae Microbiology A pathogenic streptococcus with 90 serotypes associated with pneumonia, bacteremia, meningitis Transmission Person to person Incidence , H. influenzae, Neisseria meningitidis Neisseria men·in·git·i·dis n. The bacteria that is the causative agent of cerebrospinal meningitis; meningococcus. Neisseria meningitidis , and groups A and B 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. . Current member countries include the US Arctic (Alaska), northern Canada, Greenland, Iceland, Norway, northern Sweden, and Finland. This study reviews data collected from 2000 through 2005 from Alaska and northern Canada. In Alaska, 23 laboratories throughout the state are asked to send any isolate of H. influenzae recovered from a normally sterile site to a reference laboratory in Anchorage at CDC's Arctic Investigations Program, which serves as the data repository See repository. for ICS. In northern Canada, a network of laboratories within the regions (Yukon, Northwest Territories Northwest Territories, territory (2001 pop. 37,360), 532,643 sq mi (1,379,028 sq km), NW Canada. The Northwest Territories lie W of Nunavut, N of lat. 60°N, and E of Yukon. , Nunavut, northern Quebec, and northern Labrador) participate, as well as 3 reference laboratories (2 national and 1 provincial). The laboratories are requested to send any isolate of H. influenzae recovered from a normally sterile site to the appropriate reference laboratory to confirm the identity, determine the serotype, and test for antimicrobial drug susceptibility. Laboratory, demographic, and clinical data are collected for each invasive case of H. influenzae occurring in Alaska and northern Canada, and these data are forwarded to ICS headquarters in Alaska. A case of invasive H. influenzae disease is defined as illness in a resident of the surveillance area from whom H. influenzae is isolated from a sample obtained from a normally sterile site, including blood, cerebrospinal fluid cerebrospinal fluid (CSF) Clear, colourless liquid that surrounds the brain and spinal cord and fills the spaces in them. It helps support the brain, acts as a lubricant, maintains pressure in the skull, and cushions shocks. , pleural fluid pleural fluid n. The thin film of serous fluid between the visceral and parietal pleurae. , peritoneal peritoneal /peri·to·ne·al/ (per?i-to-ne´al) pertaining to the peritoneum. peritoneal pertaining to the peritoneum. fluid, or joint fluid. Patients with clinical epiglottitis from which H. influenzae is isolated from an epiglottis epiglottis (ĕp'əglŏt`ĭs): see larynx. swab are also reportable to ICS. The primary clinical manifestation of H. influenzae was determined by a review of the patient's medical record. Population denominator data for Alaska and northern Canada were obtained from the Alaska Department of Labor and Workforce Development (www.labor.state.ak.us), Statistics Canada (www.statcan.ca), and the Demography Division of Statistics Canada. Estimates from Alaska and northern Canada reflect population figures from the 2000 and 2001 census years, respectively. Canadian indigenous estimates were calculated by using population data from the Aboriginal Population Profile, which is developed from 2001 Census data. This study covers a 6-year surveillance period, January 1, 2000-December 31, 2005. Alaska and northern Canada's estimated populations were 655,435 and 132,956, respectively. Indigenous peoples comprised 19% of the population in Alaska and 59% of the population in northern Canada. Laboratory Methods Isolates were streaked onto chocolate agar to check for purity and confirmed to be H. influenzae. Confirmation tests included a requirement for both X (hemin hemin /he·min/ (he´min) 1. a porphyrin chelate of iron, derived from red blood cells; the chloride of heme. It is used to treat the symptoms of various porphyrias. 2. hematin (1). ) and V (nicotinamide adenine dinucleotide nicotinamide adenine dinucleotide and nicotinamide adenine dinucleotide phosphate: see coenzyme. Nicotinamide adenine dinucleotide (NAD) ) growth factors (Oxoid, Hampshire, UK), Gram stain gram stain Staining technique for the initial identification of bacteria, devised in 1884 by the Danish physician Hans Christian Gram (1853–1938). The stain reveals basic differences in the biochemical and structural properties of a living cell. , and serotyping by slide agglutination agglutination, in biochemistry agglutination, in biochemistry: see immunity. agglutination, in linguistics agglutination, in linguistics: see inflection. . Antimicrobial Susceptibility Testing Susceptibility testing in Alaska was performed by using Etest (AB Biodisk, Solna, Sweden). A direct colony suspension equivalent to a 0.5 MacFarland standard was prepared in Mueller-Hinton broth from an overnight culture. Haemophilus Test Medium (Remel, Lexna, KS, USA) was added to produce 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. lawn of growth, and then Etest strips were placed onto the plate. The plates were then incubated for 20-24 hours at 35[degrees]C in 5% C[O.sub.2]. The MIC was read at the point of intersection of growth and the strip. Susceptibility of H. influenzae to the following antimicrobial drugs was tested: ampicillin ampicillin (ăm'pĭsĭl`ĭn), a penicillin-type antibiotic that is effective against both gram-negative microorganisms and gram-positive microorganisms such as Escherichia coli. , ceftriaxone ceftriaxone /cef·tri·ax·one/ (cef?tri-ak´son) a semisynthetic, ß–resistant, third-generation cephalosporin effective against a wide range of gram-positive and gram-negative bacteria, used as the sodium salt. , meropenem, chloramphenicol chloramphenicol (klōr'ămfĕn`əkŏl'), antibiotic effective against a wide range of gram-negative and gram-positive bacteria (see Gram's stain). It was originally isolated from a species of Streptomyces bacteria. , and trimethoprim-sulfamethoxazole (TMP-sulfa). Susceptibility data were not available from Canada. Serotyping Capsular serotyping was performed by slide agglutination with Difco antisera (Difco, Detroit, MI, USA) in Alaska and Remel antisera (Remel Europe Ltd, Dartford, UK) in northern Canadian laboratories (with the exception of the Laboratoire de Sante Publique in Quebec, which used PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) ). If no capsular polysaccharide was present, the isolate was classified as nontypeable by slide agglutination. Known positive and negative controls were run weekly, and each culture was screened in saline alone to check for auto-agglutination. Since 2005, laboratories have participated in an ongoing H. influenzae quality control program. Pulsed-field Gel Electrophoresis gel electrophoresis n. Electrophoresis performed in a gel composed of agarose, polyacrylamide, or starch. (PFGE PFGE Pulsed-Field Gel Electrophoresis ) and PCR A selection of invasive isolates of Hia from cases in Alaska and northern Canada that tested positive for serotype a by both slide agglutination and genotype-specific PCR (24) were examined by PFGE with the use of the restriction enzymes SmaI and ApaI digestions (18,25) at the CDC laboratory in Anchorage, Alaska. The fragments were resolved with a CHEF DRII DRII Disaster Recovery Institute International (Bio-Rad, Hercules, CA, USA) (2.2- to 35-s switch times) at 175V for 21 hours. 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. banding patterns were analyzed with BioNumerics version 3.0 software (Applied Maths, Sint-Martens-Latem, Belgium). Percentage similarities were identified on a dendrogram A dendrogram is a tree diagram frequently used to illustrate the arrangement of the clusters produced by a clustering algorithm (see cluster analysis). Dendrograms are often used in computational biology to illustrate the clustering of genes. derived from the unweighted pair group method by using Dice coefficients and a band position tolerance Position Tolerance is a Geometric Dimensioning and Tolerancing (GD&T) location control used on engineering drawings to specify desired location as well as allowed non-conformitied to the position of a feature on a part. of 1.5%. A similarity coefficient of 80% ([less than or equal to] 3-band difference) was used to define related groups. The ISlO16-bexA deletion was amplified from genomic DNA genomic DNA n. The full complement of DNA contained in the genome of a cell or organism. by PCR using sense ISIO ISIO Instrument Serial Input/Output 16 (5'-ATTAGCAAGTATGCTAGTCTAT-3') and antisense antisense, DNA or RNA manipulated in a laboratory so that its components (nucleotides) form a complementary copy of normal, or "sense," messenger RNA (mRNA; see nucleic acid). bexA (5'-CAATGATTCGCGTAAATAATGT3') primers (26). Statistical Analysis Data were double entered into Paradox v9.0 (Corel, Ottawa, Ontario, Canada), and analyzed by using Epi Info Epi Info is a public domain statistical software for epidemiology developed by Centers for Disease Control and Prevention. Developed by the Centers for Disease Control and Prevention (CDC) in Atlanta, Georgia (USA), Epi Info has been in existence for over 20 years and is version 6.04b (CDC, Atlanta, GA, USA) and StatXact version 6.2 (CYTEL Software Corp., Cambridge, MA, USA). Statistical differences in rates between periods and between countries were assessed by using a 2-sample Poisson test; p values are exact when appropriate. Results Descriptive Epidemiology descriptive epidemiology see descriptive epidemiology. We identified 138 cases of invasive H. influenzae disease from 2000 through 2005; serotype data were available for 132 (96%) of the isolates. Among these, 44 (33%) were nontypeable (Alaska 27; northern Canada 17). Of the remaining 88 isolates, 42 (48%) were serotype a, 27 (31%) serotype b, 12 (14%) serotype f, 4 (5%) serotype d, 2 (2%) serotype c, and 1 (1%) serotype e (Figure 1). The proportion of illnesses that resulted in death among Hia, encapsulated non-a, and nontypeable isolates was 5% (2/37), 14% (6/42), and 15% (6/40), respectively. Among the 42 Hia isolates, 30 (71%) occurred in children <2 years of age; 4 (10%) occurred in children 2-5 years of age; the remaining 8 (19%) occurred in adults (range 21-73 years). Ethnicity data were available for 38 cases; 35 (92%) occurred in indigenous people. The median age among case-patients was 1.1 years (range 3 months to 73 years) and did not differ significantly by country. Overall, 62% were male (Table 1). Cases occurred in 3 Alaska regions and 3 regions in northern Canada. Most cases (60%) occurred in 1 northern Canadian region. No clear seasonal pattern of invasive Hia disease was observed; however, 5 (50%) cases of invasive Hia that occurred in indigenous Alaska children <2 years of age were clustered over a 5-month period in 2003 and occurred in 2 villages in western Alaska (11). No clusters >2 cases in 1 village over a period of 2 months were observed in northern Canada. No pattern of increasing incidence rates was seen over the study period. [FIGURE 1 OMITTED] Incidence Rates by Age Overall crude annualized annualized Of or relating to a variable that has been mathematically converted to a yearly rate. Inflation and interest rates are generally annualized since it is on this basis that these two variables are ordinarily stated and compared. incidence of invasive Hia for the 6-year study period was 0.9 cases per 100,000 population. In Alaska and northern Canada, crude annualized incidence rates were 0.3 and 3.9 cases per 100,000 population, respectively. Annualized incidence rates of invasive Hia in children <2 years of age were 19.7 cases per 100,000 population; annualized rates in Alaskan and northern Canadian children <2 years were 5.7 and 79.1 cases per 100,000 population, respectively (p<0.001, Table 2). Incidence Rates by Ethnicity The overall annualized crude incidence rates of invasive Hia over the study period in indigenous and nonindigenous people were 2.9 and 0.2 cases per 100,000 population, respectively. Among indigenous people, the overall annual crude incidence rates ranged from 2.0 to 4.0 cases per 100,000 population during the study period; annualized indigenous incidence rates in Alaska and northern Canada were 1.1 and 5.9 cases per 100,000 population, respectively (Table 2). Among indigenous children <2 years of age, the overall annualized incidence rate was 52.6 cases per 100,000 population, 20.9 and 101.9 cases per 100,000 persons in Alaska and northern Canada, respectively (Table 2). Clinical Illness Among all ages, the most common clinical syndromes were meningitis (33%) and pneumonia (29%), followed by septic arthritis (12%). Clinical manifestations differed between children and adults. As noted previously, all pediatric pediatric /pe·di·at·ric/ (pe?de-at´rik) pertaining to the health of children. pe·di·at·ric adj. Of or relating to pediatrics. cases occurred in children <5 years of age. Adult case-patients were 21-73 years of age. Children were more likely to exhibit meningitis, and adults were more likely to exhibit pneumonia; septic arthritis was reported among 5 (15%) pediatric patients. Clinical features were similar in Alaska and northern Canada. No cases of epiglottitis were reported (Table 3). Of the 37 case-patients with known hospitalization status, 35 (95%) were hospitalized with a median duration of 8 days. Case-patients in Alaska had a shorter median duration of hospitalization than those in northern Canada (6.5 vs. 9.0 days). Outcome information was available for 37 cases. Two patients (I indigenous child, 1 nonindigenous adult) with invasive Hia died (Table 1). Both patients who died were diagnosed with pneumonia; neither had a history of immunodeficiency noted in the chart. Recurrence Two Alaskan Hia patients had recurrent disease. In 1 patient, the clinical manifestation was septic arthritis in both occurrences (4 months before recurrence). In the second patient, the initial clinical syndrome was pneumonia, followed by meningitis 4 months later. Both of these patients were <1 year of age when first brought for treatment. Neither child had documented immunodeficiency (11). No recurring cases of Hia were documented in northern Canada. Antimicrobial Susceptibility Testing All 11 Hia isolates from Alaska were susceptible to ampicillin, ceftriaxone, meropenem, and chloramphenicol. Ten of 11 Hia isolates from Alaska were tested for TMP-sulfa resistance; 2 of the 10 (20%) demonstrated intermediate resistance. PFGE and PCR analysis PFGE was performed on 9 Hia isolates from Alaska and 19 isolates from northern Canada. With 1 exception, all isolates were found to be closely related (<3-band difference) with a Dice correlation of [greater than or equal to] 85% (Figure 2). All 28 isolates were negative for the IS 1016-bexA deletion by PCR. Discussion Our data demonstrate that 69% of invasive H. influenzae disease in the North American Arctic is now caused by non-b serotypes (Alaska 51%; northern Canada 89%) with serotype a comprising almost half of cases (Alaska 24%; northern Canada 74%). Hia is now the most prevalent serotype in the North American Arctic. The clinical features of invasive Hia cases were similar to those of invasive disease caused by Hib. The overall annualized incidence of Hia in children <2 years of age living in the North American Arctic was 19.7 cases per 100,000 children (Alaska 5.7; northern Canada 79.1) in contrast to the rate of 0.83 cases of non-type b invasive H. influenzae disease among US children <5 years of age (7). The overall annualized incidence rate among indigenous children <2 years of age residing in the North American Arctic was particularly high at 52.6 cases per 100,000 children (Alaska 20.9; northern Canada 101.9). Widespread use of Hib conjugate vaccine has resulted in a dramatic decline in invasive Hib disease in the United States and Canada (7,8), including among indigenous children in the North American Arctic (7,8,14) and the southwestern United States (12, 27). However, the potential for serotype replacement remains a concern (16). Three population-based studies have documented small increases in the incidence of non-type b H. influenzae disease after the introduction of the Hib conjugate vaccine (28-30). Several recent studies conducted in different countries have demonstrated a predominance of serotype a disease. A study by Tsang et al. in Manitoba, Canada, found that most of the 52 H. influenzae cases reported during 2000-2004 were caused by serotype a (50%) or nonserotypeable isolates (38.5%) (31). Ribeiro et al. noted an 8-fold increase in the incidence of Hia meningitis from the prevaccine (0.02 per 100,000 population) to postvaccine period (0.16 per 100,000 population) in Brazil (32). However, more recently published data by this group demonstrate that the increase in incidence during the year following vaccine introduction was not observed in subsequent years (33). A study by Millar et al. has demonstrated high rates of invasive Hia disease among Navajo and White Mountain Apache children in the southwestern United States, although no increase in Hia incidence was noted after the introduction of Hib vaccine (10). Clinical manifestation, of invasive Hia disease were similar to those of invasive Hib disease in the prevaccine era (29). Meningitis was more common among Hia infections than in infections caused by encapsulated non-a and non-typeable Hi infections (37% vs. 24% and 12%, respectively, p = 0.05); conversely, pneumonia was less common (32% Hia vs. 41% encapsulated non-a H. influenzae and 40% nontypeable H. influenzae); however, this finding was not statistically significant. Clinical disease varied with age when treatment was sought; meningitis was more common in children, and bacteremic bac·te·re·mi·a n. The presence of bacteria in the blood. bac  te·re pneumonia was more common in
adults. The differing age distribution of Hia patients compared to
patients with non-a and nontypeable infections may account for the
differing clinical illnesses. Invasive Hia disease tended to occur among
young children and nontypeable H. influenzae infections among adults
(median age 1.1 vs. 39.2 years, respectively, p = 0.0003). The higher
median age of patients infected with nontypeable H. influenzae is
consistent with results of a recent US study that demonstrated an
increase in the number of cases of invasive nontypeable H. influenzae
among adults (30) in the postvaccine era, and a study by McVernon et al.
in England and Wales England and Wales are both constituent countries of the United Kingdom, that together share a single legal system: English law. Legislatively, England and Wales are treated as a single unit (see State (law)) for the conflict of laws. that showed an increase in invasive non-b H.
influenzae among older age groups (34).
[FIGURE 2 OMITTED] There are several possible explanations for the high proportion of Hia among invasive 11. influenzae disease in the surveillance population. First, an increase in virulence might explain the current predominance of serotype a. The IS 1016-bexA deletion enables production of more capsule, which is thought to be the major virulence factor Virulence factors are molecules produced by a pathogen that specifically influence their host's function to allow the pathogen to thrive. Factors that are used in general life processes, such as metabolism or bacterial cell structural components, may be vital to the pathogen's for invasive disease (26, 35). However, Hia isolates from Alaska or northern Canada tested negative for the bexA deletion, and it appears unlikely that the high rates of invasive Hia disease, particularly among indigenous children in this region, are due to introduction of a particularly virulent strain of Hia. If a new highly virulent Hia strain were introduced into the North American Arctic in the postvaccine period, subtyping data may show a clonally restricted pattern. We found a high degree of relatedness with a predominance of 1 clone across the North American Arctic. However, these data do not directly support the introduction of a virulent clone because other studies suggest limited genetic diversity of Hia (18, 36). Second, widespread use of Hib conjugate vaccine and the subsequent reduction in Hib colonization may have opened an ecologic niche for increased colonization with Hia or other non-Hib strains. Little data regarding carriage of non-type b strains of H. influenzae are available; however, an investigation of a cluster of 5 of the invasive Hia cases in Alaska found that among 31 close contacts of casepatients, 5 (16%) were colonized Colonized This occurs when a microorganism is found on or in a person without causing a disease. Mentioned in: Isolation with Hia. Two of the 3 case-patients were infants with recurrent Hia disease; reexposure is the likely explanation for disease recurrence (11). Finally, a preexisting pre·ex·ist or pre-ex·ist v. pre·ex·ist·ed, pre·ex·ist·ing, pre·ex·ists v.tr. To exist before (something); precede: Dinosaurs preexisted humans. v.intr. background rate of non-b serotype disease may have simply been uncovered due to the decreasing Hib rates. Further studies of invasive H. influenzae disease are needed to describe clinical and epidemiologic features, characterize the pattern and rates of colonization, determine risk factors for carriage, and further characterize the strains by using molecular techniques. Hia disease raises many questions from a public health response perspective. While chemoprophylactic regimens are well described for contacts of persons with Hib disease (37), the utility of chemoprophylaxis chemoprophylaxis /che·mo·pro·phy·lax·is/ (-pro?fi-lak´sis) prevention of disease by means of a chemotherapeutic agent. che·mo·pro·phy·lax·is n. Disease prevention by use of chemicals or drugs. or other public health prevention measures for non-b typeable disease such as Hia is not clear. Further research is needed to provide clear guidance to practicing physicians caring for patients with Hia disease. This study has several limitations. Alaskan and northern Canadian data on non-b invasive H. influenzae disease were not collected in the pre-Hib conjugate vaccine era, making it difficult to determine baseline or prevaccine incidence of serotype a in this region. We did not collect detailed clinical and demographic information beyond what was available from medical record review, and therefore we were not able to assess other factors (e.g., H. influenzae carriage among case-patients, within the community, or among close contacts). In addition, most H. influenzae isolates are serotyped by using slide agglutination only. Because PCR is not yet routinely used throughout the ICS network for serotyping, nontypeable strains could have been misclassified as encapsulated strains. This article analyzed population-based surveillance for invasive H. influenzae disease across the North American Arctic. We identified a high proportion of non-b serotypes over the 6-year study period, with particularly high rates of invasive disease caused by Hia. The reason for these high rates of invasive Hia disease is unknown and is likely multifactorial multifactorial /mul·ti·fac·to·ri·al/ (mul?te-fak-tor´e-al) 1. of or pertaining to, or arising through the action of many factors. 2. . While Hia incidence rates are high among particular groups in the North American Arctic, case numbers remain low (4-9 cases per year) and are lower than Hib rates in the prevaccine era. Hib vaccination remains one of the great public health success stories. Continued surveillance for H. influenzae disease is needed; however, to identify emerging problems and provide data necessary to develop effective prevention strategies. The changing epidemiology of invasive H. influenzaedisease highlights the importance of continued surveillance for invasive H. influenzae disease in regions of the world where Hib conjugate vaccine is currently in use. ICS will continue to monitor invasive disease caused by all 11. influenzae serotypes in the North American Arctic and other participating Arctic countries. Acknowledgments We thank personnel at the Nunavut, Yukon, Northwest Territories, and the State of Alaska Departments of Health for their efforts. This work was supported by funding from the US CDC and the Public Health Agency of Canada The Public Health Agency of Canada (French: Agence de la santé publique du Canada) is an agency of Health Canada a department of the Government of Canada that is responsible for public health, emergency preparedness, and response and infectious and chronic disease control . Dr Bruce is a medical epidemiologist and the epidemiology team leader at the Arctic Investigations Program, CDC, Anchorage, Alaska. His primary research interests include Helicobacter pylori Helicobacter pylori A gramnegative rod-shaped bacterium that lives in the tissues of the stomach and causes inflammation of the stomach lining. Mentioned in: Indigestion, Ulcers Helicobacter pylori antimicrobial resistance and reinfection reinfection /re·in·fec·tion/ (-in-fek´shun) a second infection by the same agent or a second infection of an organ with a different agent. re·in·fec·tion n. , surveillance for invasive bacterial diseases across the Arctic, human papillomavirus human papillomavirus (HPV), any of a family of more than 60 viruses that cause various growths, including plantar warts and genital warts, a sexually transmitted disease. Detectable warts can be or removed, usually by chemicals, freezing, or laser, but often recur. infection, avian influenza avian influenza: see influenza. , and meningococcal disease. He is currently the chief medical epidemiologist for the International Circumpolar Surveillance Network and chair of the International Circumpolar Surveillance Working Group. References (1.) Peltola H. H. influenzae in the post-vaccination era. Lancet. 1993;341:864-5. (2.) Pittman M. Variation and type specificity in the bacterial species Haemophilus influenzae. J Exp Med. 1931 ;53:471-92. (3.) Heath PT, Booy R, Azzopardi H J, Slack MP, Fogarty J, Moloney AC, et al. Non-type b Haemophilus influenzae disease: clinical and epidemiologic characteristics in the Haemophilus influenzae type b vaccine era. Pediatr Infect Dis J. 2001;20:300-5. (4.) Gilsdorf JR. Haemophilus influenzae non-type b infections in children. Am J Dis Child. 1987;141:1063 5. (5.) Brook I, Gillmore JD. Expression of capsules by Haemophilus influenzae in mixed infections. J Infect. 1995;30:219-22. (6.) Waggoner-Fountain LA, Hendley JO, Cody E J, Perriello VA, Donowitz LG. The emergence of Haemophilus influenzae types e and f as significant pathogens. Clin Infect Dis. 1995;21 : 1322-4. (7.) Progress toward elimination of Haemophilus influenzae type b invasive disease among infants and children--United States, 1998-2000. 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. 2002;51:234-7. (8.) Scheifele D, Halperin S, Law B, King A, Halperin S, Morris R, et al. Invasive Haemophilus influenzae type b infections in vaccinated and unvaccinated children in Canada, 2001-2003. CMAJ CMAJ Canadian Medical Association Journal . 2005; 172: 53-6. (9.) Bisgard KM, Kao A, Leake J, Strebel PM, Perkins BA, Wharton M. Haemophilus influenzae invasive disease in the United States, 1994-1995: near disappearance of a vaccine-preventable childhood disease. Emerg Infect Dis. 1998;4:22907. (10.) Millar EV, O'Brien KL, Watt JP, Lingappa J, Pallipamu R, Rosenstein N, et al. Epidemiology of invasive Haemophilus influenzae type A disease among Navajo and White Mountain Apache children, 1988-2003. Clin Infect Dis. 2005;40:823-30. (11.) Hammitt LL, Block S, Hennessy TW, Debyle C, Peters H, Parkinson A, et al. Outbreak of invasive Haemophilus influenzae serotype a disease. Pediatr Infect Dis J. 2005;24:453-6. (12.) Millar EV, O'Brien KL, Levine OS, Kvamme S, Reid R, Santosham M. Toward elimination of Haemophilus influenzae type B carriage and disease among high-risk American indian children. Am J Public Health. 2000;90:1550-4. (13.) National Advisory Committee on Immunization immunization: see immunity; vaccination. . Canadian Immunization Guide. 7th ed. Ottawa: Public Health Agency of Canada (catalog no. HP40-3/2006E); 2006. p. 8742. (14.) Singleton R, Hammitt L, Hennessy T, Bulkow L, DeByle C, Parkinson A, et al. The Alaska Haemophilus influenzae type b experience: lessons in controlling a vaccine-preventable disease. Pediatrics. 2006;118:e421-9. (15.) Galil K, Singleton R, Levine OS, Fitzgerald MA, Bulkow L, Getty M, et al. Reemergenee of invasive Haemophilus influenzae type b disease in a well-vaccinated population in remote Alaska. J Infect Dis. 1999;179:101-6. (16.) Lipsiteh M. Bacterial vaccines and serotype replacement: lessons from Haemophilus influenzae and prospects for Streptococcus pneumoniae. Emerg Infect Dis. 1999;5:33645. (17.) Falla TJ, Dobson SR, Crook DW, Kraak WA, Nichols WW, Anderson EC, et al. Population-based study of non-typeable Haemophilus influenzae invasive disease in children and neonates. Lancet. 1993;341:851-4. (18.) Adderson EE, Byington CL, Spencer L, Kimball A, Hindiyeh M, Carroll K, et al. Invasive serotype a Haemophilus influenzae infections with a virulence genotype resembling Haemophilus influenzae type b: emerging pathogen emerging pathogen Public health Any pathogen that ↑ incidence of an epidemic outbreak Examples Cryptosporidium, E coli O157:H7, Hantavirus, multidrug resistant pneumococci, vancomycin-resistant enterococci. See Emergent disease. in the vaccine era? Pediatrics. 2001; 108: E18. (19.) Zacharisen MC, Watters SK, Edwards J. Rapidly fatal Haemophilus influenzae serotype f sepsis in a healthy child. J Infect. 2003;46: 194-6. (20.) Rutherford GW, Wilfert CM. Invasive Haemophilus influenzae type a infections: a report of two cases and a review of the literature. Pediatr Infect Dis. 1984;3:575-7. (21.) Gratten M, Morey F, Hanna J, Hagget J, Pearson M, Torzillo P, et al. Type, frequency and distribution of Haemophilus influenzae in central Australian aboriginal children with invasive disease. Med J Aust. 1994;160:728-9. (22.) Losonsky GA, Santosham M, Sehgal VM, Zwahlen A, Moxon ER. Haemophilus influenzae disease in the White Mountain Apaches: molecular epidemiology molecular epidemiology Molecular medicine An evolving field that combines the tools of standard epidemiology–case studies, questionnaires and monitoring of exposure to external factors with the tools of molecular biology–eg, restriction endonucleases, of a high risk population. Pediatr Infect Dis. 1984;3:539-47. (23.) Wall RA, Mabey DC, Corrah PT. Haemophilus influenzae non type b. Lancet. 1985;2:845. (24.) Falla TJ, Crook DW, Brophy LN, Maskell D, Kroll JS, Moxon ER. PCR for capsular typing of Haemophilus influenzae. J Clin Microbiol. 1994;32:23824. (25.) Yano H, Suetake M, Kuga A, Irinoda K, Okamoto R, Kobayashi T, et al. Pulsed-field gel electrophoresis analysis of nasopharyngeal nasopharyngeal pertaining to the nasal and pharyngeal cavities. nasopharyngeal meatus see nasopharyngeal meatus. nasopharyngeal spasm see reverse sneeze. flora in children attending a day care center. J Clin Microbiol. 2000;38:625-9. (26.) Kroll JS, Moxon ER, Loynds BM. Natural genetic transfer of a putative virulence-enhancing mutation to Haemophilus influenzae type a. J Infect Dis. 1994;169:676-9. (27.) Moulton LH, Chung S, Croll J, Reid R, Weatherholtz RC, Santosham M. Estimation of the indirect effect of Haemophilus influenzae type b conjugate vaccine Haemophilus influenzae type b conjugate vaccine n. See Hib vaccine. in an American Indian population. Int J Epidemiol. 2000;29:753-6. (28.) Urwin G, Krohn JA, Deaver-Robinson K, Wenger JD, Farley MM. Invasive disease due to Haemophilus influenzae serotype f: clinical and epidemiologic characteristics in the H. influenzae serotype b vaccine era. The Haemophilus influenzae Study Group. Clin Infect Dis. 1996;22:1069-76. (29.) Perdue Perdue may refer to:
abbr. Journal of the American Medical Association . 2000;283:308944. (30.) Dworkin MS, Park L, Borchardt SM. The changing epidemiology of invasive Haemophilus influenzae disease, especially in persons > or = 65 years old. Clin Infect Dis. 2007;44:810-6. (31.) Tsang RS, Mubareka S, Sill ML, Wylie J, Skinner S, Law DK. Invasive Haemophilus influenzae in Manitoba, Canada, in the postvaccination era. J Clin Microbiol. 2006;44:1530-5. (32.) Ribeiro GS, Reis JN, Cordeiro SM, Lima JB, Gouveia EL, Petersen M, et al. Prevention of Haemophilus influenzae type b (Hib) meningitis and emergence of serotype replacement with type a strains after introduction of Hib immunization in Brazil. J Infect Dis. 2003;187:109-16. (33.) Ribeiro GS, Lima JB, Reis JN, Gouveia EL, Cordeiro SM, Lobo TS, et al. Haemophilus influenzae meningitis Haemophilus influenzae meningitis Neurology A bacterial meningitis most common in unimmunized children from 1 month to 4 yrs; Hib ↓ HIM after a URI Clinical May be abrupt, spread from the nasopharynx to the circulation, then meninges; absent therapy, rapidly 5 years after introduction of the Haemophilus influenzae type b conjugate vaccine in Brazil. Vaccine. 2007;25:4420-8. (34.) Mc Vernon J, Trotter CL, Slack MP, Ramsay ME. Trends in Haemophilus influenzae type b infections in adults in England and Wales: surveillance study. BMJ BMJ n abbr (= British Medical Journal) → vom BMA herausgegebene Zeitschrift . 2004;329:655-8. (35.) Kroll JS, Moxon ER, Loynds BM. An ancestral mutation enhancing the fitness and increasing the virulence of Haemophilus influenzae type b. J Infect Dis. 1993;168:172-6. (36.) Omikunle A, Takahashi S, Ogilvie CL, Wang Y, Rodriguez CA, St Geme JW Ill, et al. Limited genetic diversity of recent invasive isolates of non-serotype b encapsulated Haemophilus influenzae. J Clin Microbiol. 2002;40:1264-70. (37.) American Academy of Pediatrics The American Academy of Pediatrics ("AAP") is an organization of pediatricians, physicians trained to deal with the medical care of infants, children, and adolescents. Its motto is: "Dedicated to the Health of All Children. . Haemophilus influenzae infections. In: Picketing LK, Baker C J, Long SS, McMillan JA, editors. Red Book 2006 report of the Committee on Infectious Diseases, 27th ed. Elk Grove (IL): The Academy; 2006. p. 310-8. Michael G. Bruce, * Shelley L. Deeks, ([dagger]) Tammy Zulz, * Christine Navarro, ([dagger]) Carolina Palacios, ([double dagger]) Cheryl Case, ([section]) Colleen Hemsley, ([dagger]) Tom Hennessy, * Andre Corriveau, ([section]) Bryce Larke, ([paragraph]) Isaac Sobel, ([double dagger]) Marguerite Lovgen, (#) Carolynn DeByle, * Raymond Tsang, ** Alan J. Parkinson, * and the International Circumpolar Surveillance Hia Working Group * Centers for Disease Control and Prevention, Anchorage, Alaska, USA; ([dagger]) Public Health Agency of Canada, Ottawa, Ontario, Canada; ([double dagger]) Nunavut Department of Health, Iqaluit, Nunavut, Canada; ([section]) Northwest Territories Department of Health and Social Services, Yellowknife, Northwest Territories, Canada; ([paragraph]) Yukon Health and Social Services, Whitehorse, Yukon, Canada; (#) National Centre for Streptococcus streptococcus (strĕp'təkŏk`əs), any of a group of gram-positive bacteria, genus Streptococcus, some of which cause disease. , Edmonton, Alberta, Canada; and ** National Microbiology Laboratory The National Microbiology Laboratory (NML) is located in the Canadian Science Centre for Human and Animal Health in Winnipeg, Manitoba. This modern state-of-the-art facility houses the NML's Biological Safety Level 4 (BSL-4) containment laboratory, currently Canada's only BSL-4 , Winnipeg, Manitoba, Canada (1) International Circumpolar Surveillance Hia Working Group: Michael G. Bruce, Dana Bruden, Carolynn DeByle, Marcella Harker-Jones, Tom Hennessy, Kim Boyd Hummel hummel entire, naturally polled deer. , Debby Hurlburt, Alan J. Parkinson, Debby Parks, Helen Peters, Alisa Reasonover, Tammy Zulz, (CDC); Shelley L. Deeks, Christine Navarro, Raymond Tsang (Public Health Agency of Canada); Carolina Palacios, Isaac Sobel (Nunavut Department of Health); Cheryl Case, Andre Corriveau (Northwest Territories Department of Health and Social Services); Colleen Hemsley, Bryce Larke (Yukon Health and Social Services); Marguerite Lovgren, Gregory Tyrell (National Centre for Streptococcus, Edmonton); Louise Jette, Louise Ringuette (Quebec Public Health Laboratory) Address for correspondence: Michael G. Bruce, Arctic Investigations Program, National Center for Preparedness, Detection, and Control of Infectious Diseases, Centers for Disease Control and Prevention, 4055 Tudor Centre Dr, Anchorage, AK 99508, USA; email: zwa8@cdc.gov Use of trade names is for identification only and does not imply endorsement by the Public Health Service or by the U.S. Department of Health and Human Services Noun 1. Department of Health and Human Services - the United States federal department that administers all federal programs dealing with health and welfare; created in 1979 Health and Human Services, HHS .
Table 1 Characteristic of Alaskan and northern Canadian persons with
invasive Haemophilus influenzae type a disease, 2000-2005
Characteristic Alaska (n = 11) Northern Canada (n = 31)
Median age (range) 10 mo (4 mo-73 y) 1.2 y (3 mo-31 y)
Male sex, no. (%) 7 (64) 19 (61)
Indigenous, no. (%) 8 (73) 27 (100) *
Age appropriately 7 (88) ([dagger]) 21 ([double dagger])
vaccinated for
Hib, y (% vaccinated)
Hospitalization, no. 10 (91) 25 (96) ([section])
(%) ([double dagger])
Deaths, no. 1 (9) 1 (4)
(%) [parallel]
Characteristic Total (n = 42)
Median age (range) 1.1 y (3 mo-73 y)
Male sex, no. (%) 26 (62)
Indigenous, no. (%) 35 (92)
Age appropriately 28 (88)
vaccinated for
Hib, y (% vaccinated)
Hospitalization, no. 35 (97)
(%) ([double dagger])
Deaths, no. 2 (5)
(%) [parallel]
* Ethnicity data missing from 4 cases; denominator = 27.
([dagger]) Vaccine history missing from 3 cases; denominator = 8.
([section]) Hospitalization data missing from 5 cases;
denominator = 26.
([double dagger]) Vaccine history missing from 7 cases;
denominator = 24.
([parallel]) Death data missing from 5 cases; denominator = 26.
Table 2. Cases and annualized incidence rate per 100,000 population of
Invasive Haemophilus influenzae type a disease by age and ethnicity,
2000-2005 *
Demographic group Total no. (range/y); rate (range/100,000/y)
Overall 42 (4-9); 0.9 (0.5-1.2)
<2 y of age 30 (1-8) ;19.7 (4.0-31.4)
Indigenous 35 (4-8); 2.9 (2.0-4.0)
<2 v of age, 29 (1-8); 52.6 (11.2-86.2)
indigenous
Alaska, no. cases Northern Canada, p
Demographic group (rate) no. cases (rate) value *
Overall 11 (0.3) 31 (3.9) <0.001
<2 y of age 7 (5.7) 23 (79.1) <0.001
Indigenous 8 (1.1) 27 (5.7) <0.001
<2 v of age, 7 (20.9) 22 (101.9) <0.001
indigenous
* p value for rate, Alaska vs. northern Canada.
Table 3. Clinical illness in Alaskan and northern Canadian children
and adults with invasive Haemophilus influenzae type a disease,
2000-2005 *
Alaska (n = 11)
Children (n = 7), Adults (n = 4),
Diagnosis no. (%) no. (%)
Meningitis 2 (29) 0
Pneumonia 3 (43) 3 (75)
Bacteremia 0 1 (25)
Septic arthritis 2 (29) 0
Other ([dagger]) 0 0
Northern Canada (n = 31)
Children (n = 27), Adults (n = 4),
Diagnosis no. (%) no. (%)
Meningitis 12 (44) 0
Pneumonia 4 (15) 2 (50)
Bacteremia 6 (22) 1 (25)
Septic arthritis 3 (11) 0
Other ([dagger]) 2 (8) 1 (25)
North Arctic (n = 42)
Children (n = 34), Adults (n = 8),
Diagnosis no. (%) no. (%)
Meningitis 14 (41) 0
Pneumonia 7 (21) 5 (62)
Bacteremia 6 (18) 2 (25)
Septic arthritis 5 (15) 0
Other ([dagger]) 2 (3) 1 (13)
* Children, <18 years of age; adults, [greater than or equal to] 18
years of age.
([dagger]) Includes osteomyelitis (1 child), pericarditis (1 adult),
and cellulitis (1 child).
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