Primary Pneumocystis infection in infants hospitalized with acute respiratory tract infection.Acquisition of Pneumocystis Pneumocystis /Pneu·mo·cys·tis/ (-sis´tis) a genus of yeastlike fungi. P. cari´nii is the causative agent of interstitial plasma cell pneumonia. pneu·mo·cys·tis n. jirovecii infection early in life has been confirmed by 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. studies. However, no evidence of clinical illness correlated with the primary infection has been found in immunocompetent im·mu·no·com·pe·tent adj. Having the normal bodily capacity to develop an immune response following exposure to an antigen. im children. We analyzed 458 nasopharyngeal nasopharyngeal pertaining to the nasal and pharyngeal cavities. nasopharyngeal meatus see nasopharyngeal meatus. nasopharyngeal spasm see reverse sneeze. aspirates from 422 patients hospitalized with 431 episodes of acute respiratory tract infection Noun 1. respiratory tract infection - any infection of the respiratory tract respiratory infection infection - the pathological state resulting from the invasion of the body by pathogenic microorganisms (RTI RTI - Return from interrupt ) by using a real-time PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) assay. In 68 episodes in 67 infants, P. jirovecii was identified. The odds ratio (95% confidence interval confidence interval, n a statistical device used to determine the range within which an acceptable datum would fall. Confidence intervals are usually expressed in percentages, typically 95% or 99%. ) of a positive signal compared with the first quartile Quartile A statistical term describing a division of observations into four defined intervals based upon the values of the data and how they compare to the entire set of observations. Notes: Each quartile contains 25% of the total observations. of age (7-49 days) was 47.4 (11.0-203), 8.7 (1.9-39.7), and 0.6 (0.1-6.7) for infants in the second (50-112 days), third (113-265 days), and fourth (268-4,430 days) age quartiles, respectively. Infants with an episode of upper RTI (URTI URTI upper respiratory tract infection. ) were 2.0 (1.05-3.82) times more likely to harbor P. jirovecii than infants with a lower RTI. P. jirovecii may manifest itself as a self-limiting URTI in infants, predominantly those 1.5-4 months of age. ********** The opportunistic fungus Pneumocystis jirovecii (formerly Pneumocystis carinii pneumocystis carinii: see pneumonia. f.sp. hominis [1]) may cause severe pneumonia (PCP PCP abbr. 1. phencyclidine 2. primary care physician Pneumocystis carinii pneumonia (PCP) ) in patients with AIDS and other immunodeficiencies. The epidemiology of P. jirovecii infection is still not well understood, however. Serologic studies have shown that children are exposed to P. jirovecii early in life (2-5). To our knowledge, no previous evidence exists of a correlation between clinical illness and primary infection in the competent host (6). Recently, P. jirovecii has been found in respiratory secretions from infants with respiratory tract infection (RTI) as well as in autopsy lung tissue from infants who died of sudden infant death syndrome sudden infant death syndrome (SIDS) or crib death, sudden, unexpected, and unexplained death of an apparently healthy infant under one year of age (usually between two weeks and eight months old). (7-10). The role of a human reservoir for the pathogen, consisting of HIV-positive or HIV-negative adults, has recently been debated (11). Also, immunocompetent children may contribute to the circulation of the organism. In addition, detecting abundant infection in infants could reflect widespread exposure from an environmental reservoir. We conducted a blinded, retrospective study retrospective study, a study in which a search is made for a relationship between one phenomenon or condition and another that occurred in the past (e.g. to determine the prevalence of P. jirovecii harbored in the respiratory tracts of Danish children with acute RTI, and whether clinical and laboratory characteristics separate those with and without P. jirovecii infection. The detection method employed was a single-round, closed-tube, real-time PCR assay. The study was approved by the Ethical Committee of Copenhagen (KF 01-028/03). Methods Patient Population and Samples All available routine nasopharyngeal aspirates (NPAs) obtained for respiratory syncytial virus respiratory syncytial virus (sĭnsĭsh`əl): see cold, common. (RSV RSV respiratory syncytial virus; Rous sarcoma virus. RSV abbr. respiratory syncytial virus RSV 1 Respiratory syncytial virus, see there 2 Rous sarcoma virus, see there ) analysis during 1999-2002 from children hospitalized at the Departments of Pediatrics, Hvidovre University Hospital and Amager Hospital Amager Hospital is located in Denmark on the island of Amager in Copenhagen. It was founded on April 1st 1997 with the merger of Skt. Elisabeth Hospital and Sundby Hospital. Administratively, Amager Hospital is maintained by Region Hovedstaden. , Copenhagen, Denmark, were included in the study. Thus, included samples and subjects were NPAs from children in whom the treating physician suspected or wished to rule out an RSV infection. Therefore, most children were <24 months of age. Samples collected within 3 weeks from the same person were regarded as being from the same episode of respiratory disease. Clinical Data Collection Clinical data were obtained by reviewing medical records of the patients using uniform data abstraction forms. The reviewer, a pediatrician, was blinded to PCR data. A diagnosis of lower RTI (LRTI LRTI Lower respiratory tract infection ), upper RTI (URTI), or "other" was made on the basis of recorded clinical findings (12). In brief, a diagnosis of URTI was made if the infant had one or more of the following clinical signs without evidence of LRTI: cough, nasal discharge, a red bulging tympanic membrane tympanic membrane n. See eardrum. Tympanic membrane A structure in the middle ear that can rupture if pressure in the ear is not equalized during airplane ascents and descents. , and pharyngotonsillar erythema erythema (ĕr'əthē`mə), more or less diffuse redness of the skin due to concentration of an abnormally large amount of blood within the small vessels of the skin (hyperemia), as in burns. or exudate exudate /ex·u·date/ (eks´u-dat) a fluid with a high content of protein and cellular debris which has escaped from blood vessels and has been deposited in tissues or on tissue surfaces, usually as a result of inflammation. . A diagnosis of LRTI was made if the infant also had abnormal sounds on lung auscultation auscultation Procedure for detecting certain defects or conditions by listening for normal and abnormal heart, breath, bowel, fetal, and other sounds in the body. The invention of the stethoscope in 1819 improved and expanded this practice, still very useful despite the and chest indrawing or tachypnea tachypnea /tach·yp·nea/ (tak?ip-ne´ah) very rapid respiration. tach·yp·ne·a n. Rapid breathing. Also called polypnea. . Infants with an RTI who were hospitalized primarily for other reasons received the diagnosis "other." PCR Analysis All samples were extracted and assayed in the Clinical Microbiology Laboratory at Hvidovre University Hospital. Universal PCR laboratory procedures were used, such as physical separation of the steps involved in PCR and unidirectional The transfer or transmission of data in a channel in one direction only. workflow; specimens were processed carefully with observance of universal PCR laboratory precautions. In addition, a single-round, nonnested, closed-tube PCR assay, with no manipulations of amplicons required, inherently reduces the risks of carryover contamination. To further reduce this risk, uracil-N-glycosylase and deoxyuridine triphosphate triphosphate /tri·phos·phate/ (tri-fos´fat) a salt containing three phosphate radicals. tri·phos·phate n. A salt or ester containing three phosphate groups. were used to prevent amplicon carryover (13). PCR analysis was carried out with researchers blinded to all clinical data. The code was only broken at the time PCR analysis and clinical data collection were completed. DNA Extraction 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. was extracted from patient and control specimens with the automated MagnaPure (Roche Diagnostics GmbH, Mannheim, Germany) system, using the MagNA Pure LC DNA Kit III (bacteria, fungi) (Roche), according to the manufacturer's recommendations. A sample volume of 100 [micro]L was used for extraction, and a preincubation step was carried out by adding lysis buffer and protein K mixture to the sample, which was then incubated for 15 min at 65[degrees]C, followed by 10 min at 95[degrees]C. Extracted material was stored at -80[degrees]C. PCR Controls P. jirovecii--positive and--negative respiratory samples, as determined by results of previous microscopy and PCR, were included with each DNA extraction and in each PCR run as external controls. An internal control amplifiable by the P. jirovecii primers was included to detect PCR inhibitors in the patient specimens (14). The following standards were set. For Pneumocystis, 10-fold serial dilutions ([10.sup.-2]-[10.sup.5] copies/[micro]L) of a plasmid containing a P. jirovecii major surface glycoprotein glycoprotein (glī'kōprō`tēn), organic compound composed of both a protein and a carbohydrate joined together in covalent chemical linkage. (MSG MSG: see glutamic acid. ) gene insert were prepared (14). Standard curves for quantification of positive patient samples were generated by assaying the serial dilution in triplicate. For betaglobin, 10-fold serial dilutions (1.5 x [10.sup.-4]-1.5 x [10.sup.-1] ng/[micro]L) of human genomic DNA provided with the Control Kit DNA (Roche) were used to generate standard curves, according to the manufacturer's instructions. DNA amplification DNA amplification Molecular diagnostics Any method used to ↑ the copy number of a sequence of DNA. See Cycling probe technology, Gap LCR–gap ligase chain reaction, Gene amplification, NASBA–nucleic acid sequence-based amplification, PCR, and detection were carried out as follows. For Pneumocystis, we used a quantitative touchdown PCR method that targeted the multicopy MSG gene of P. jirovecii (14). In brief, primers JKK14/15 and JKK17 amplify a 250-bp segment of the multicopy MSG gene family. The MSG primers also amplify a 295-bp fragment of the artificially constructed internal control. Detection was carried out by using 2 separate sets of fluorescence resonance energy transfer Fluorescence resonance energy transfer (FRET) describes an energy transfer mechanism between two chromophores. A donor chromophore in its excited state can transfer energy by a nonradiative, long-range dipole-dipole coupling mechanism to an acceptor chromophore in close (FRET) probes, which detected the MSG (PCMSGFRET1U and PCMSGFRET1D) and internal control target (PCMIM PCMIM Personal Computer Memory Interface Module PCMIM Personal Computer Media Interface Module 1U and PCMIM1D), respectively. The probes were labeled with Red640 and Red705, respectively, for simultaneous amplification and detection to take place in the same reaction tube. PCR conditions were as previously described (14). First, all samples were assayed with the internal control included. P. jirovecii--positive samples were then assayed for quantification without an internal control, including 2 standards ([10.sup.3] copies/[micro]L) in the experiment, and the generated external standard curve was imported for quantification. For betaglobin, a commercial kit, Control Kit DNA (Roche), was used to estimate the amount of human DNA present in the samples. PCR conditions were as recommended by the company. Two standards (1.5 x [10.sup.-1] ng/[micro]L) were included in each experiment, and the generated external standard curve was imported for quantification. All P. jirovecii--positive samples and a randomly selected subgroup of P. jirovecii--negative samples (all negative samples from patients born on the first through third days of the month) were assayed; 5 [micro]L of patient specimen or the standard dilution was added per tube. Interpretation If a PCR-positive sample was negative by the second analysis, the sample was reextracted and reassayed in 2 tubes. If at least 2 of 4 tubes were positive, the sample was recorded as positive for P. jirovecii. A negative MSG result had to have a positive result for the internal control to be considered valid, to ensure absence of inhibitors in the specimen. If PCR inhibitors were detected, the sample was to be diluted 1:5. Data Analysis All acquired fluorescence data were analyzed with LightCycler software (Roche). Clinical data were recorded with EpiData 2.1a (EpiData Association, Odense, Denmark). Statistics were calculated by using the SAS System, version 9.1 for Windows (SAS Institute Inc., Cary, NC, USA). Wilcoxon 2-sample test or Kruskal-Wallis test was used to compare quantitative data when appropriate. Fisher exact test was used to compare groups. A 2-sided p value of <0.05 was considered significant. Values presented are medians with ranges or interquartile ranges (IQR IQR Interquartile Range (statistics) IQR Internet Quick Reference IQR Individual Qualification Record IQR Internal Quality Review ). Logistic regression was used for univariate and multivariate analyses. Results Patients and Episodes Four hundred sixty-one NPAs from 423 patients with 432 episodes were available for analysis. One HIV-infected child with PCP was excluded from analysis. The remaining infants were presumed to be uninfected with HIV HIV (Human Immunodeficiency Virus), either of two closely related retroviruses that invade T-helper lymphocytes and are responsible for AIDS. There are two types of HIV: HIV-1 and HIV-2. HIV-1 is responsible for the vast majority of AIDS in the United States. of the basis of review of their medical charts. Two hundred ninety-six (70%) patients (with 303 episodes [70%]) were hospitalized at Hvidovre University Hospital and the rest at Amager Hospital. Sixty-four percent of the episodes received a diagnosis of LRTI, 28% a diagnosis of URTI, and 8% "other." The median age was 112 days (IQR 49-265), and 52.7% of the NPAs were from male patients. PCR Results No samples exhibited inhibition. All controls were appropriate. Sixty-seven (16%) of the 422 patients had positive test results for P. jirovecii in 68 (16%) of 431 episodes. More than 1 NPA (1) (Numbering Plan Area) The Bellcore/Telcordia telephone area code system in use in the U.S., Canada, Alaska, Hawaii and islands in the Caribbean. See NPA code. (2) (Network Professional Association, San Diego, CA, www.npanet. was collected in 21 episodes, of which 4 (19%) were P. jirovecii positive, and PCR results were concordant in 96% (46/48 samples) of the NPAs. NPAs from 8 pairs of siblings were collected, and all pairs were concordant (1/8 pairs positive). Basic demographic data for the P. jirovecii--positive and--negative groups are presented in Table 1, and age distribution in quartiles is presented in Table 2. Significant differences were found in age, days admitted to hospital, and occurrence of reported fever. However, no significant difference was found in temperature at admission. No difference in positivity rate was seen between the 2 hospitals. Univariate and multivariate analyses are presented in Table 3. By univariate analysis, URTI versus LRTI, age quartiles 2 and 3 versus 1, and reported fever were associated with the presence of P. jirovecii, but days admitted to the hospital was not. Age quartiles 2 and 3 versus quartile 1 and URTI versus LRTI were independently associated with P jirovecii positivity by multivariate analysis multivariate analysis, n a statistical approach used to evaluate multiple variables. multivariate analysis, n a set of techniques used when variation in several variables has to be studied simultaneously. . The distribution of number of episodes by clinical diagnosis and age is illustrated by online Appendix Figure A (available from www.cdc.gov/ncidod/EID/13/l/66-appG.htm#A) and the frequency of P jirovecii--positive episodes by online Appendix Figure B (available from www.cdc.gov/ncidod/EID/13/1/ 66-appG.htm#B). Quantitative Analysis Quantitative Analysis A security analysis that uses financial information derived from company annual reports and income statements to evaluate an investment decision. Notes: of PCR-positive Results If >1 NPAs were collected during the same episode, average numbers of copies were calculated for that episode. The Pjirovecii--positive episodes had a median of 9 copies/tube (IQR 2.8-25). Of the 387 P jirovecii-negative NPAs, 49 (12.7%) were randomly selected for betaglobin analysis. The P. jirovecii--positive and--negative samples had a median of 129,400 (IQR 49,540-298,800) versus 95,410 (IQR 27,610-228,800) pg/tube, with no significant difference (p = 0.09). Due to the natural variation of the specimens, P. jirovecii copy numbers were corrected for amount of human DNA in the sample (copies MSG per ng betaglobin). The PCR-positive episodes had a median of 0.069 (IQR 0.021--0.315) copies/ng betaglobin per tube. The quantitative data were normally distributed when logarithm logarithm (lŏg`ərĭthəm) [Gr.,=relation number], number associated with a positive number, being the power to which a third number, called the base, must be raised in order to obtain the given positive number. transformed (Figure). Quantitative data for age and clinical diagnosis subgroups are presented in Table 4. No significant differences were found among groups. Discussion In this study, P jirovecii was detected in NPAs from 16% of infants hospitalized with acute RTI. A marked difference occurred in the age distribution, as the prevalence was 48% in infants ages 50 to 112 days (second quartile), 13% in infants ages 113 to 265 days (third quartile), and negligible in the youngest and oldest infants (Table 2, online Appendix Figure). Similarly, ORs of 47 and 8.7 were found for the second and third quartiles, respectively, when compared with that of the youngest group for being P. jirovecii positive by multivariate analysis (Table 3). These data indicate that infants were exposed very early to P. jirovecii, and this raises the question of whether this diagnosis should be considered in infants ages 1.5-4 months who exhibit symptoms of an acute RTI. The relative absence of P. jirovecii among the youngest infants (ages [less than or equal to] 50 days) could indicate either differences in exposure or in immunity, or reflect the incubation time of the infection. One could hypothesize hy·poth·e·size v. hy·poth·e·sized, hy·poth·e·siz·ing, hy·poth·e·siz·es v.tr. To assert as a hypothesis. v.intr. To form a hypothesis. that the increased rate of P. jirovecii positivity was coincidental with the infants' introduction to a daycare facility/institution. However, the infants were cared for at home and not at an institution in 64 (96%) of the 67 P. jirovecii--positive episodes. Another possible explanation is differences in immunity, which could be mediated by maternal antibodies in the youngest infants. Animal studies have shown that maternal antibodies are protective in infants (15-17). Likewise, P. jirovecii was seldom found in the oldest infants (>265 days of age), which may have been due to acquired immunity acquired immunity n. Immunity obtained either from the development of antibodies in response to exposure to an antigen, as from vaccination or an attack of an infectious disease, or from the transmission of antibodies, as from mother to fetus through . Previous studies suggest that the clearance of organisms is complete; no detectable organisms were found by microscopy or PCR in postmortem postmortem /post·mor·tem/ (post-mort´im) performed or occurring after death. post·mor·tem adj. Relating to or occurring during the period after death. n. See autopsy. lung specimens from immunocompetent adult patients (18). However, primary infection could possibly be acquired later in life and produce a milder illness (one that does not require hospitalization) in older children, and therefore these cases are not included in the current study. Also, the absence of P. jirovecii among the youngest infants (ages [less than or equal to] 50 days) may have been a result of the incubation period incubation period n. 1. See latent period. 2. See incubative stage. Incubation period of the infection, assuming that organism burden during the incubation period was below level of detection of the assay. Animal studies have indicated that the peak organism load in healthy mice occurs 5-6 weeks after exposure (19,20). Thus, the infants could have been exposed shortly after birth in order for symptoms to develop in infants at the ages found here. In fact, animal studies have found early exposure of newborn infants by a maternal source, and asymptomatic carriage by pregnant women has been reported recently (21-23). In a reported case of probable mother-to-infant transmission, the mother became symptomatic at 3 days postpartum and the infant at 29 days of age (24). The shorter incubation period in this case may reflect a higher level of infectious inoculum inoculum /in·oc·u·lum/ (-ok´u-lum) pl. inoc´ula material used in inoculation. in·oc·u·lum n. pl. in this infant. The age distribution was in concordance concordance /con·cor·dance/ (-kord´ins) in genetics, the occurrence of a given trait in both members of a twin pair.concor´dant con·cor·dance n. with the trend reported in a recent study on autopsied lung specimens from 112 infants (25). Similarly, serologic studies have indicated that most children seroconvert early in life (2-5,8,26). Among children with perinatally acquired HIV, the incidence of PCP was highest from 3 to 6 months of age (27,28). That is, these infants were slightly older when PCP was diagnosed. Assuming that they were exposed to P. jirovecii at the same time as healthy infants, the difference could be because a longer incubation time is needed for clinical PCP to develop in susceptible immunocompromised immunocompromised /im·mu·no·com·pro·mised/ (-kom´pro-mizd) having the immune response attenuated by administration of immunosuppressive drugs, by irradiation, by malnutrition, or by certain disease processes (e.g., cancer). persons. Previous studies have reported an overall P. jirovecii prevalence of 25% (8), and 32% (9) in infants with acute RTI. When episodes were considered, however, the prevalence in the latter study was 17%, which was in concordance with the findings in our current study. The former study comprised 178 infants but did not include clinical data, and the latter study comprised a smaller population (74 infants with 178 episodes). Geographic variation or methodologic differences may account for the slight difference in reported prevalence. Our study used a single-round, closed-tube, PCR format for detection, which has a high sensitivity and a greatly reduced risk for carryover contamination (14). The difference in amount of human DNA detected in P. jirovecii--positive and--negative samples did not reach the 5% level of significance. If, in fact, a difference exists, this could be because sample quality varied, which means that we may have underestimated the true prevalence of P. jirovecii carriage. The difference could also have occurred because the presence of P. jirovecii increases the amount of, for example, inflammatory cells in the nasopharyngeal secretions (29), thereby increasing the amount of human DNA sampled. The current study confirms the previous reports that P. jirovecii can be detected in respiratory tract specimens from otherwise healthy infants with an acute RTI. Pneumocystis is likely transmitted through the respiratory route (30). The reservoir for P. jirovecii is unknown but could include other persons or environmental sources, whereas animal reservoirs are unlikely because of the host specificity (6,31). Animal studies have shown that colonized Colonized This occurs when a microorganism is found on or in a person without causing a disease. Mentioned in: Isolation mice may transmit the organism to immunosuppressed Immunosuppressed A state in which the immune system is suppressed by medications during the treatment of other disorders, like cancer, or following an organ transplantation. Mentioned in: Fifth Disease mice (32). Therefore, healthy children with a primary P. jirovecii infection may play a role in the circulation of the organism as previously suggested (25), although recent genotyping studies have yielded conflicting results (10,33). P. jirovecii--positive episodes could represent either colonization or clinical overt disease. We have previously shown the assay used here provides reproducible quantitative results, and that a similar real-time quantitative PCR assay correlates well with the number of whole organisms in the sample (14,34). The fact that the quantitative data were normally distributed after logarithmic logarithmic pertaining to logarithm. logarithmic relationship when the logs of two variables plotted against each other create a straight line. transformation (Figure), and that no differences in copy numbers were detected among groups (Table 4), may indicate that the P. jirovecii--positive episodes represent 1 biologic phenomenon. [FIGURE OMITTED] To our knowledge, no previous evidence has shown a connection between clinical illness or specific symptoms and primary infection in immunocompetent children. It has been presumed to be an asymptomatic or mild, nonspecific nonspecific /non·spe·cif·ic/ (non?spi-sif´ik) 1. not due to any single known cause. 2. not directed against a particular agent, but rather having a general effect. nonspecific 1. disease (6,22). In the study by Vargas et al., no differences in clinical diagnosis were observed (8). In the current study, we found that infants with an episode of URTI were 2.0x more likely to be carrying P. jirovecii than infants with LRTI, when findings were adjusted for age (online Appendix Figure B, Table 3). This finding is somewhat surprising because the organism causes LRTI in immunocompromised subjects. It is unlikely that the finding is due to differences in sample quality, because the amount of betaglobin detected in samples from patients with URTI and LRTI was similar (data not shown), and no difference in adjusted Pneumocystis DNA was detected (Table 4). Parents reported that the child had a history of fever less often in P. jirovecii--positive episodes by univariate analysis, but no differences were found in the presence of fever as assessed at admission (Tables 1 and 3). Also, P. jirovecii--positive infants tended to be hospitalized for a marginally shorter duration (Tables 1 and 3). The limitations of this study are primarily the lack of a healthy control group without respiratory symptoms, and lack of serologic data from the patients. Also, a comprehensive analysis of the specimens was not done for known respiratory pathogens other than RSV and P. jirovecii. Further investigation is therefore needed to confirm these findings before recommendations can be made for routine diagnostic testing Diagnostic testing Testing performed to determine if someone is affected with a particular disease. Mentioned in: Von Willebrand Disease for Pneumocystis in defined populations of infants, because it remains possible that Pneumocystis carriage in this population could represent a bystander phenomenon bystander phenomenon seen in secondary hepatic dysfunction caused by extrahepatic inflammatory disease. . Similarly, one should be cautious in inferring these results to infants without RTI or to those with an RTI that does not require hospitalization. In this study, we found an overall prevalence of P. jirovecii in the respiratory tracts of 16% of infants hospitalized with an episode of acute RTI. Infants ages 50-112 days harbored P. jirovecii in 48% of the episodes. Our data suggest that primary P. jirovecii infection acquired early in life may present itself as a self-limiting URTI. Acknowledgments We thank Lena Hansen for technical assistance. 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Passive immunization Passive immunization Treatment that provides immunity through the transfer of antibodies obtained from an immune individual. Mentioned in: Rabies of neonatal mice against Pneumocystis carinii f. sp. muris enhances control of infection without stimulating inflammation. Infect Immun. 2004;72:6211-20. (17.) Garvy BA, Harmsen AG. Susceptibility to Pneumocystis carinii infection: host responses of neonatal mice from immune or naive mothers and of immune or naive adults. Infect Immun. 1996;64:3987-92. (18.) Peters SE, Wakefield AE, Sinclair K, Millard PR, Hopkin JM. A search for Pneumocystis carinii in post-mortem lungs by DNA amplification. J Pathol. 1992;166:195-8. (19.) Vestereng VH, Bishop LR, Hernandez B, Kutty G, Larsen HH, Kovacs JA. Quantitative real-time polymerase chain-reaction assay allows characterization of pneumocystis infection in immunocompetent mice. J Infect Dis. 2004;189:1540-4. (20.) An CL, Gigliotti F, Harmsen AG. Exposure of immunocompetent adult mice to Pneumocystis carinii f. sp. muris by cohousing co·hous·ing n. A living arrangement that combines private living quarters with common dining and activity areas in a community whose residents share in tasks such as childcare. : growth of P. carinii f. sp. muris and host immune response immune response n. An integrated bodily response to an antigen, especially one mediated by lymphocytes and involving recognition of antigens by specific antibodies or previously sensitized lymphocytes. . Infect Immun. 2003;71:2065-70. (21.) Icenhour CR, Rebholz SL, Collins MS, Cushion MT. Early acquisition of Pneumocystis carinii in neonatal rats as evidenced by PCR and oral swabs. Eukaryot Cell. 2002;1:414-9. (22.) Peterson JC, Cushion MT. Pneumocystis: not just pneumonia. Curr Opin Microbiol. 2005;8:393-8. (23.) Vargas SL, Ponce CA, Sanchez CA, Ulloa AV, Bustamante R, Juarez G. Pregnancy and asymptomatic carriage of Pneumocystis jiroveci. Emerg Infect Dis. 2003;9:605-6. (24.) Miller RF, Ambrose HE, Novelli V, Wakefield AE. Probable mother-to-infant transmission of Pneumocystis carinii f. sp. hominis infection. J Clin Microbiol. 2002;40:1555-7. (25.) Vargas SL, Ponce CA, Luchsinger V, Silva C, Gallo M, Lopez R, et al. Detection of Pneumocystis carinii f sp. hominis and viruses in presumably pre·sum·a·ble adj. That can be presumed or taken for granted; reasonable as a supposition: presumable causes of the disaster. immunocompetent infants who died in the hospital or in the community. J Infect Dis. 2005;191:122-6. (26.) Respaldiza N, Medrano FJ, Medrano AC, Varela JM, de La HC, Montes-Cano M, et al. High seroprevalence seroprevalence Immunology The proportion of a population that is seropositive–ie, has been exposed to a particular pathogen or immunogen; the seropositivity of a population is calculated as the number of individuals who produce a particular antibody divided of Pneumocystis infection in Spanish children. Clin Microbiol Infect. 2004; 10:1029-31. (27.) Simonds RJ, Oxtoby MJ, Caldwell MB, Gwinn ML, Rogers MF. Pneumoeystis carinii pneumonia among US children with perinatally acquired HIV infection. JAMA. 1993;270:470-3. (28.) Ruffini DD, Madhi SA. The high burden of Pneumocystis carinii pneumonia in African HIV-1-infected children hospitalized for severe pneumonia. AIDS. 2002; 10:105-12. (29.) Vestbo J, Nielsen TL, Junge J, Lundgren JD. Amount of Pneumocystis carinii and degree of acute lung inflammation in HIV-associated P carinii pneumonia. Chest. 1993;104:109-13. (30.) Hughes WT. Natural mode of acquisition for de novo [Latin, Anew.] A second time; afresh. A trial or a hearing that is ordered by an appellate court that has reviewed the record of a hearing in a lower court and sent the matter back to the original court for a new trial, as if it had not been previously heard nor decided. infection with Pneumocvstis carinii. J Infect Dis. 1982; 145:842-8. (31.) Gigliotti F, Hartasen AG, Haidaris CG, Haidaris PJ. Pneumocystis carinii is not universally transmissible transmissible /trans·mis·si·ble/ (trans-mis´i-b'l) capable of being transmitted. trans·mis·si·ble adj. Capable of being conveyed from one person to another. between mammalian species. Infect Immun. 1993;61:2886-90. (32.) Dumoulin A, Mazars E, Seguy N, Gargallo-Viola D, Vargas S, Cailliez JC, et al. Transmission of Pneumocyxtis carinii disease from immunocompetent contacts of infected hosts to susceptible hosts. Eur J Clin Microbiol Infect Dis. 2000;19:671-8. (33.) Totet A, Latouche S, Lacube P, Pautard JC, Jounieaux V, Raccurt C, et al. Pneumocystis jirovecii dihydropteroate synthase synthase /syn·thase/ (-thas) a term used in the names of some enzymes, particularly lyases, when the synthetic aspect of the reaction is dominant or emphasized. syn·thase n. genotypes in immunocompetent infants and immunosuppressed adults, Amiens, France. Emerg Infect Dis. 2004;10:667-73. (34.) Larsen HH, Kovacs JA, Stock F, Vestereng VH, Lundgren B, Fischer SH, et al. Development of a rapid real-time PCR assay for quantitation of Pneumocystis carinii f. sp. carinii. J Clin Microbiol. 2002:40:2989-93. Hans Henrik Larsen, * Marie-Louise von Linstow, * Bettina Lundgren, * Birthe Hogh, * Henrik Westh, * and Jens D. Lundgren * * Hvidovre University Hospital, Copenhagen, Denmark Dr Larsen is currently a fellow in the Department of Bacteriology bacteriology Study of bacteria. Modern understanding of bacterial forms dates from Ferdinand Cohn's classifications. Other researchers, such as Louis Pasteur, established the connection between bacteria and fermentation and disease. , Mycology mycology Study of fungi (see fungus), including mushrooms and yeasts. Many fungi are useful in medicine and industry. Mycological research has led to the development of such antibiotic drugs as penicillin, streptomycin, and tetracycline. and Parasitology Parasitology The scientific study of parasites and of parasitism. Parasitism is a subdivision of symbiosis and is defined as an intimate association between an organism (parasite) and another, larger species of organism (host) upon which the parasite is , State Serum Institute, Copenhagen, Denmark. His primary research interest is the epidemiology and diagnosis of Pneumocystis infections. Address for correspondence: Hans Henrik Larsen, Dept. Clinical Microbiology 9301, Rigshospitalet, Juliane Maries Vej 22, 2100 Copenhagen, Denmark; email: hhl@cphiv.dk
Table 1. Basic demographic data for the Pneumocystis jirovecii-positive
and P. jirovecii-negative groups
No. P. jirovecii No. P. jirovecii
Demographic factor positive ([dagger]) negative *
RSV ([dagger]) positive 30/68 (44) 165/363 (45)
Sex (male) 36/67 (54) 188/358 (53)
Coexisting conditions 8/67 (12) 65/358 (18)
Reported fever 35/64 (55) 247/351 (70)
Admission temperature 37.6 (37.0-37.9) 37.7 (37.1-38.5)
([degress]C)
Age, d 90 (73-112) 140 (44-292)
Hospital days 2 (0-5) 3 (1-6)
Hospital (Hvidovre) 50/68 (74) 253/363 (70)
Demographic factor p value
RSV ([dagger]) positive 0.93
Sex (male) 0.89
Coexisting conditions 0.29
Reported fever 0.02
Admission temperature 0.11
([degress]C)
Age, d 0.04
Hospital days 0.04
Hospital (Hvidovre) 0.52
* Denominators are total number of episodes in each group. Values are
numbers (%) or median (interquartile range).
([dagger]) RSV, respiratory syncytial virus.
Table 2. Quartiles of age in days with rate of RSV and Pneumocystis
jiroveci positivity *
Age RSV P. jirovecii
quartile n Age, d ([dagger]) positive, % positive, %
1 108 7-49 (32.5, [22.5-42]) 48 2
2 105 50-112 (78, [63-96]) 51 48
3 107 113-265 (173, [139-214]) 44 13
4 105 268-4,430 (415, [319-542]) 38 1
* RSV, respiratory syncytial virus.
([dagger]) Median in parentheses with interquartile range in brackets.
Table 3. Univariate and multivariate OR (95% CI) for
Pneumocystis jirovecii positivity (logistic regression analysis) *
OR univariate OR multivariate
(95% CI) (95% CI) ([dagger])
LRTI 1 1
URTI (vs LRTI) 2.74 (1.58-4.73) 2.00 (1.05-3.82)
Other (vs LRTI) 0.70 (0.20-2.41) 1.06 (0.27-4.20)
Age Q1 1 1
Age Q2 vs Q1 48.2 (11.3-205) 47.4 (11.0-203)
Age Q3 vs Q1 7.98 (1.77-36.0) 8.74 (1.92-39.7)
Age Q4 vs Q1 0.51 (0.05-5.71) 0.60 (0.05-6.71)
Sex (M vs F) 1.05 (0.62-1.77)
Coexisting conditions 0.61 (0.28-1.34)
Reported fever 0.51 (0.30-0.88)
Fever ([double dagger]) 0.86 (0.50-1.49)
RSV 0.94 (0.56-1.58)
Hospital days 0.94 (0.88-1.01)
* OR, odds ratio; CI, confidence interval; LRTI, lower respiratory
tract infection; URTI, upper respiratory tract infection; M, male;
F, female; RSV, respiratory syncytial virus.
([dagger]) Including more variables in the model did not increase the
fitness; including RSV showed it was not a confounder.
([double dagger]) Defined by temperature at admission >37.5[degrees]C.
Table 4. Number of copies per ng of betaglobin detected per tube
(median, IQR) in PCR-positive specimens in the 4 age groups and 3
diagnosis groups * ([dagger])
Median copies/ng
n betaglobin/tube (IQR) p value
Age quartile
1 2 0.854 (0.023-1.685) 0.37
2 50 0.063 (0.021-0.311)
3 14 0.085 (0.022-0.318)
4 1 0.001
Clinical diagnosis
LRTI 32 0.033 (0.016-0.269) 0.16
URTI 32 0.082 (0.033-0.526)
Other 3 0.094 (0.087-1.098)
* IQR, interquartile range; LRTI, lower respiratory tract infection;
URTI, upper respiratory tract infection.
([dagger]) No significant differences were detected by Kruskal-Wallis
tests.
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