Bordetella holmesii-Like Organisms Isolated from Massachusetts Patients with Pertussis-Like Symptoms.We isolated Bordetella Bordetella A genus of gram-negative bacteria which are coccobacilli and obligate aerobes, and fail to ferment carbohydrates. These bacteria are respiratory pathogens. Bordetella pertussis, B. parapertussis, and B. holmesii, generally associated with 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. in patients with underlying conditions, from nasopharyngeal nasopharyngeal pertaining to the nasal and pharyngeal cavities. nasopharyngeal meatus see nasopharyngeal meatus. nasopharyngeal spasm see reverse sneeze. specimens of otherwise healthy young persons with a cough. The proportion of B. holmesii- positive specimens submitted to the Massachusetts State Laboratory Institute increased from 1995 to 1998. Bordetella holmesii is a recently described gram-negative, asaccharolytic, nonoxidizing, soluble, brown-pigment-producing rod previously known as CDC See Control Data, century date change and Back Orifice. CDC - Control Data Corporation nonoxidizer group 2 (NO-2) (1). This group consists of 15 closely related, biochemically similar strains of fastidious fas·tid·i·ous adj. 1. Possessing or displaying careful, meticulous attention to detail. 2. Difficult to please; exacting. 3. Having complex nutritional requirements. Used of microorganisms. nonmotile bacteria isolated from human blood cultures. In establishing NO-2 as a species, Weyant et al. (1) performed 16S rRNA sequencing of one NO-2 strain and the type strains of B. pertussis pertussis: see whooping cough. , B. parapertussis, B. bronchiseptica, and B. avium. They found a high degree of homology among them ([is greater than or equal to] 98% over 1,525 bases) and confirmed a close relatedness between NO-2 and Bordetella species by 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. relatedness studies (hydroxyapatite hydroxyapatite /hy·droxy·ap·a·tite/ (-ap´ah-tit) an inorganic calcium-containing constituent of bone matrix and teeth, imparting rigidity to these structures. method). Biochemically, the lack of oxidase oxidase /ox·i·dase/ (ok´si-das) any enzyme of the class of oxidoreductases in which molecular oxygen is the hydrogen acceptor. ox·i·dase n. activity and the production of a brown soluble pigment differentiate B. holmesii from B. pertussis, B. bronchiseptica, and B. avium; the lack of urease urease /ure·ase/ (u´re-as) an enzyme that catalyzes the hydrolysis of urea to ammonia and carbon dioxide; it is a nickel protein of microorganisms and plants that is used in clinical assays of plasma urea concentrations. activity differentiates it from B. parapertussis (1). Unlike B. pertussis, which causes whooping cough whooping cough or pertussis, highly communicable infectious disease caused by the bacterium Bordetella pertussis. The early or catarrhal stage of whooping cough is manifested by the usual symptoms of an upper respiratory infection with , B. holmesii has been associated most often with septicemia in patients with underlying conditions (1-4). It also has been isolated from sputum sputum /spu·tum/ (spu´tum) [L.] expectoration; matter ejected from the trachea, bronchi, and lungs through the mouth. sputum cruen´tum bloody sputum. from one patient with respiratory symptoms (3). Van den Akker (5) suggested that the difference in lipopolysaccharide lipopolysaccharide /lipo·poly·sac·cha·ride/ (-pol?e-sak´ah-rid) 1. a molecule in which lipids and polysaccharides are linked. 2. expression (important in bacterial pathogenesis) between the closely related B. pertussis and B. holmesii might help explain their observed difference in propensity to infect respiratory tract epithelium verses causing opportunistic 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. . In Massachusetts, however, we have seen B. holmesii associated with a different clinical picture. From January 1995 (when the article describing B. holmesii [1] was published) through December 1998, the Massachusetts State Laboratory Institute (SLI (Scalable Link Interface) A multi-GPU interface from NVIDIA for connecting two or four NVIDIA display adapters together for faster graphics rendering on one monitor or two monitors. ) isolated B. holmesii from 34 clinical specimens: 33 nasopharyngeal specimens from patients suspected of having pertussis and one blood culture specimen from a 45-year-old patient with septicemia. Of the 33 patients with respiratory symptoms, 30 (91%) were 11 to 29 years old, 1 (3%) was an infant, and 2 (6%) were 10 years old; most were otherwise healthy. B. holmesii is confirmed by its biochemical patterns and cellular fatty acid analysis or the DNA transformation test will definitively separate B. holmesii from Acinetobacter, neither procedure is performed at SLI. Three of the initial isolates were sent to the Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. , Atlanta, Georgia, for definitive identification and were confirmed as B. holmesii by cellular fatty acid analysis. The remaining 31 isolates were biochemically and morphologically identical to those. B. holmesii-positive nasopharyngeal specimens have increased both in absolute number and as a percentage of the total nasopharyngeal specimens processed at SLI (Table). The number rose from 3 (0.1% of total specimens submitted for pertussis culture) in 1995, to 6 (0.2%) in 1996, to 9 (0.4%) in 1997, and to 15 (0.6%) in 1998. A chi-square analysis for linear trend of proportions from 1995 to 1998 found the trend significant (chi-square = 11.6, p [is less than] .001), possibly indicating a rise in prevalence. (When such an analysis was applied to the proportion of nasopharyngeal specimens testing positive for pertussis during the same period, no trend was apparent ([chi-square = 0.8, p = .36].) A growing awareness of the species by laboratory personnel may be contributing to the observed increase. Table. Bordetella species isolated from nasopharyngeal (NP) specimens at the Massachusetts State Laboratory Institute, 1994-1998
1994 1995 1996
No. % No. % No. %
B. pertussis 75 4.2 140 5.8 325 8.9
B. parapertussis 7 0.4 20 0.8 32 0.9
B. holmesii 0 0 3(a) 0.1 6 0.2
Total NP specimens 1,792 2,399 3,653
reported
1997 1998
No. % No. %
B. pertussis
B. parapertussis 132 5.6 165 6.6
B. holmesii 11 0.5 NA NA
Total NP specimens 9 0.4 15 0.6
reported 2,375 2,508
(a) Does not include the one case of B. holmesii isolated from blood. in the 24 months from January 1997 through December 1998. We called providers and patients for disease histories and demographic information. Pertussis case report forms, modified to include more possible symptoms and underlying conditions, were used to record the information collected in the interviews. Nineteen (83%) of the 23 B. holmesii-positive cases were in adolescents (11 to 19 years), 2 (9%) in young adults (20 and 29 years), 1 (4%) in a 10-year-old child, and 1 (4%) in an infant. All had cough. In addition, 14 (61%) had paroxysms, 2 (9%) had whoop whoop (hldbomacp) the sonorous and convulsive inhalation of whooping cough. whoop n. The paroxysmal gasp characteristic of whooping cough. , and 6 (26%) had posttussive vomiting. No other symptoms were identified by patients or providers. Fourteen (61%) of the 23 had no underlying conditions, 8 (35%) had minor conditions such as occasional asthma or allergies, and 1 (4%) had chronic fatigue. The fact that cultures were taken from 20 (87%) of the 23 case-patients within 14 days of cough onset generally excluded convalescent-stage pertussis as a cause of symptoms. However, B. pertussis had been confirmed in a 14-year-old girl, who had occasional asthma, 3 months before B. holmesii was confirmed--she received a reculture because of a persistent cough that had not resolved since the original infection. She had had paroxysms and vomiting associated with the pertussis infection but no symptoms other than cough at the time B. holmesii was isolated. Cultures were taken on the same day from two sisters, 15 and 9 years old, each with cough of fewer than 14 days. B. holmesii was culture-confirmed in the 15-year-old; B. pertussis was culture-confirmed in the 9-year-old. This raises the question of whether B. pertussis and B. holmesii might cocirculate. At least 11 (48%) of the 23 cases were found during active surveillance for pertussis in school and university settings, which may explain the age profile of the cases. Three case-patients, with cough onset dates of April 1, 1997; February 27, 1998; and March 9, 1998, were students at the same university. These cases, though not epidemiologically linked to each other, were in symptomatic contacts of pertussis patients and were cultured as part of an azithromycin efficacy study. At least eight other cases were also in contacts of confirmed patients with pertussis and were detected through active surveillance. No cases were definitively linked. Peak months of cough onset were November and December (8 of the 23 cases), as is tree for pertussis in Massachusetts, with a smaller peak in March and April (6 of the 23 cases). The observed peak in November-December may be due to the role of active surveillance for pertussis in ascertaining cases of B. holmesii colonization. The clinical profile of the 21 cases in adolescent and adult patients infected with B. holmesii was compared with that of 122 culture-confirmed pertussis cases in patients between 11 and 29 years of age with cough onsets in the same period, i.e., 1997 through 1998. (Relevant clinical information was not available for an additional 42 culture-confirmed pertussis case-patients in this age group.) We did not consider cough duration, because of imprecise data, but rather focused on the presence or absence of three classic pertussis symptoms: paroxysms of cough, whoop, and posttussive vomiting. Cases were categorized as patients with 0, 1, or 2 to 3 of these symptoms. (No separate category for three symptoms was used due to a cell size of 0 in the case of B. holmesii.) On applying the chi-square test for independent proportions, we found B. holmesii infection milder (i.e., accompanied by fewer of the above three pertussis symptoms) than B. pertussis infection (chi-square = 10, p [is less than] .01). To role out the possibility that the difference was due to more frequent cultures for severe than for milder pertussis cases, we compared the 21 adolescent and adult B. holmesii patients with the 577 SLI-serology-positive pertussis patients 11 to 29 years of age with cough onsets in 1997 or 1998 for whom sufficient clinical data were available. The SLI pertussis serology Serology The division of biological science concerned with antigen-antibody reactions in serum. It properly encompasses any of these reactions, but is often used in a limited sense to denote laboratory diagnostic tests, especially for syphilis. test is a single-serum enzyme-linked immunosorbent assay enzyme-linked immunosorbent assay n. ELISA. Enzyme-linked immunosorbent assay (ELISA) A diagnostic blood test used to screen patients for AIDS or other viruses. for immunoglobulin G to pertussis toxin, available since 1987. The assay is for use in persons [sup.3] 11 years of age and is optimally sensitive at 2 to 8 weeks after cough onset. By the same methods as for the previous comparison, we found that the B. holmesii cases were milder at a higher level of significance (chi-square = 69, p [is less than] [10.sup.-8]). Without knowing the prevalence of B. holmesii carriage in asymptomatic persons, we cannot say with certainty that B. holmesii is the causative agent for the respiratory symptoms of the patients from whom it was isolated. Approximately half the cases were discovered through active surveillance for pertussis. This, together with the fact that the symptoms associated with B. holmesii were relatively mild, suggests that the organism may not have been causing disease. On the other hand, B. holmesii may be the etiologic agent, given that it is closely related to B. pertussis and the associated symptoms (like those of B. parapertussis) are similar. B. pertussis is the only Bordetella species known to produce pertussis toxin, although B. parapertussis and B. bronchiseptica have silent copies of the toxin gene (6). We do not know whether B. holmesii has the toxin gene. However, since B. parapertussis can cause disease (albeit not as severe as B. pertussis [7]), the presence of pertussis toxin is not necessary for the development of symptoms. Continued investigation, including conducting diagnostic tests for agents such as Chlamydia chlamydia (kləmĭd`ēə), genus of microorganisms that cause a variety of diseases in humans and other animals. Psittacosis, or parrot fever, caused by the species Chlamydia psittaci, and Mycoplasma mycoplasma Any of the bacteria that make up the genus Mycoplasma. They are among the smallest of bacterial organisms. The cell varies from a spherical or pear shape to that of a slender branched filament. and culturing symptomatic and asymptomatic contacts, is warranted to ascertain the degree to which B. holmesii is pathogenic in the respiratory system and contagious. If it is contagious, antibiotic susceptibility testing is also needed. B. holmesii is susceptible to some 15 antibiotics of a variety of classes (2,3), but whether erythromycin erythromycin (ĭrĭth'rōmī`sĭn), any of several related antibiotic drugs produced by bacteria of the genus Streptomyces (see antibiotic). , the drug of choice for pertussis, is effective is not known. SLI is establishing routine erythromycin susceptibility testing of B. pertussis and will also test B. holmesii isolates. Acknowledgment We thank Colin D. Marchant for early suggestions regarding data analysis. References (1.) Weyant RS, Hollis DG, Weaver RE, Amin MFM (Modified Frequency Modulation) The magnetic disk encoding method used on most floppy disks and most earlier hard disks under 40MB. MFM has twice the capacity of the previous FM method, transfers data at 625 Kbytes per second and uses the ST506 interface. , Steigerwalt AG, O'Connor SP, et al. Bordetella holmesii sp. nov., a new gram-negative species associated with septicemia. J Clin Microbiol 1995;33:1-7. (2.) Lindquist SW, Weber DJ, Mangum ME, Hollis DG, Jordan J. Bordetella holmesii sepsis in an asplenic adolescent. Pediatr Infect Dis J 1995;14:813-5. (3.) Tang Y-W Y-W Yule-Walker equation , Hopkins MK, Kolbert CP, Hartley PA, Severance PJ, Persing DH. Bordetella holmesii-like organisms associated with septicemia, 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 respiratory failure. Clin Infect Dis 1998;26:389-92. (4.) Morris JT, Myers M. Bacteremia due to Bordetella holmesii. Clin Infect Dis 1998;27:912-3. (5.) van den Akker WMR WMR Winchester Magnum Rimfire WMR World Medical Relief (Detroit, MI) WMR Western Maryland Railway WMR Welding Material Requirement WMR War Maintenance Reserves WMR Wireless Multimedia Receiver . Lipopolysaccharide expression within the genus Bordetella: influence of temperature and phase variation. Microbiol 1998;144:1527-35. (6.) Arico B, Rappuoli R. Bordetellaparapertussis and Bordetella bronchiseptica contain transcriptionally silent pertussis toxin genes. J Bacteriol 1987;169:2847-53. (7.) Mastrantonio P, Stefanelli P, Giuliano M, Herrera Rojas Y, Ciofi degli Atti M, Anemona A, et al. Bordetella parapertussis infection in children: epidemiology, clinical symptoms, and molecular characteristics of isolates. J Clin Microbiol 1998;36:999-1002. Comments/Responses Have a comment on this article? Please use this form to reply. We're always happy to hear your views. [ILLUSTRATION OMITTED] Home | Top of Page | Current Issue | Expedited | Upcoming Issue | Past Issue | EID EID Emerging Infectious Diseases (journal) EID Electronic Identification EID Endpoint Identifier EID Employee Identification EID Ecological Interface Design EID Earned Income Disregard EID Education and Information Division Search | Contact Us CDC Home | Search | Health Topics A-Z This page last reviewed July 1, 1999 Emerging Infectious Diseases Journal National Center for Infectious Diseases Centers for Disease Control and Prevention URL URL in full Uniform Resource Locator Address of a resource on the Internet. The resource can be any type of file stored on a server, such as a Web page, a text file, a graphics file, or an application program. : http://www.cdc.gov/ncidod/eid/vol5no3/yih.htm Dr. Yih is epidemiology coordinator for vaccine-preventable diseases at the Massachusetts Department of Public Health The Massachusetts Department of Public Health is a governmental agency of the Commonwealth of Massachusetts with various responsibilities related to public health within that state. . Her research interests include ecologic and evolutionary aspects of infectious disease. Address for correspondence: W. Katherine Yih, State Laboratory Institute, 5th floor, 305 South Street, Boston, MA 02130, USA; fax: 617-983-6840; e-mail: Katherine. Yih@state.ma.us. |
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