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  1. Momynaliev K, Klubin A, Chelysheva V, Selezneva O, Akopian T, Govorun V
    Res. Microbiol., 2007 May;158(4):371-8.
    PMID: 17363224
    Ureaplasma parvum colonizes human mucosal surfaces, primarily in the respiratory and urogenital tracts, causing a wide spectrum of diseases, from non-gonococcal urethritis to pneumonitis in immunocompromised hosts. Although the basis for these diverse clinical outcomes is not yet understood, more severe disease may be associated with strains harboring a certain set of strain-specific genes. To investigate this, whole genome DNA macroarrays were constructed and used to assess genomic diversity in 10 U. parvum clinical strains. We found that 7.6% of U. parvum genes were dispersed into one or more strains, thus defining a minimal functional core of 538 U. parvum genes. Most of the strain-specific genes (79%) were of unknown function and were unique to U. parvum. Four hypervariable plasticity regions were identified in the genome containing 93% of the variability in the gene pool (UU32-UU33, UU145-UU170, UU440-UU447 and UU527-UU529). We hypothesized that one of them (UU145-UU170) was a pathogenicity island in U. parvum and we characterized it. Thus, we propose that the clinical outcome of U. parvum infection is probably associated with this newly identified pathogenicity island.
    Matched MeSH terms: Ureaplasma/classification*; Ureaplasma/genetics; Ureaplasma/isolation & purification; Ureaplasma/pathogenicity; Ureaplasma Infections/microbiology
  2. Zurina Zainuddin, Zainab Jumai Kassim, Siti Norbaya Masri, Putri Yubbu, Norlijah Othman, Zainab Jumai Kassim
    MyJurnal
    Congenital pneumonia is one of the common causes of respiratory distress at birth with significant morbidity and mortality in infants. Estimates show that neonatal pneumonia including congenital pneumonia contributes to between 750 000 and 1.2 million neonatal deaths every year which accounts for 10% global child mortality. Etiological agents are many and vary but atypical bacterial causes are few. The commonest cause for atypical bacteria is Ureaplasma urealyticum. Congenital pneumonia is often clinically difficult to diagnose owing to poor specificity of clinical signs, with similarities in radiologic presentation with other respiratory conditions of the newborn. Isolation of causative organism (s) by culture from nasopharyngeal aspirates or tracheal aspirates obtained within 8 hours of life is the gold standard of its diagnosis. However, this technique is elaborate and time consuming in identifying atypical bacteria. Development of a more sensitive modality such as polymerase chain reaction (PCR) has dramatically altered the microbiological diagnosis of congenital pneumonia.
    Matched MeSH terms: Ureaplasma Infections; Ureaplasma urealyticum
  3. Tay ST, Boo NY, Khoo TB, Koay AS, Rohani MY
    Med J Malaysia, 1997 Dec;52(4):409-11.
    PMID: 10968119
    Ureaplasma urealyticum was isolated from the endotracheal aspirates of 39 (21.4%) of 182 neonates with respiratory distress requiring ventilatory support. Mycoplasma hominis was isolated from one (0.5%) neonate. Bacterial cultures were negative in 123 (67.6%) neonates. Antibiotic susceptibility test carried out on ten isolates of U. urealyticum showed that all the organisms were sensitive to erythromycin but resistant to lincomycin and sulfamethoxazole trimethoprim. All, except one, U. urealyticum were sensitive to tetracycline and minocycline. Two isolates were resistant to ciprofloxacin. This study showed that U.urealyticum was a common organism isolated from the endotracheal aspirates of neonates with respiratory distress.
    Matched MeSH terms: Ureaplasma urealyticum/drug effects; Ureaplasma urealyticum/isolation & purification*
  4. Chua KB, Ngeow YF, Ng KB, Chye JK, Lim CT
    Singapore Med J, 1998 Jul;39(7):300-2.
    PMID: 9885690
    A prospective study was carried out at the University Hospital, Kuala Lumpur to determine the cervical carriage rate of Ureaplasma urealyticum and Mycoplasma hominis among healthy pregnant women at delivery and the incidence of nasopharyngeal colonisation among their infants.
    Matched MeSH terms: Ureaplasma Infections/diagnosis; Ureaplasma Infections/transmission*; Ureaplasma urealyticum/isolation & purification*
  5. Chua KB, Ngeow YF, Lim CT, Ng KB, Chye JK
    Med J Malaysia, 1999 Jun;54(2):242-6.
    PMID: 10972036
    A prospective study was carried out among pregnant women and their newborn babies in the University Hospital, Kuala Lumpur from January 1996 to June 1997. The maternal cervical colonization rates of Ureaplasma urealyticum (UU) and Mycoplasma hominis (MH) were found to be 57.5% and 15.8% respectively while the isolation rates from nasopharyngeal secretions of the newborns were 50.8% for UU and 6.6% for MH. The overall transmission rates were 88.4% for UU and 42.1% for MH. There was no significant difference in the transmission rates of either organism from mothers to their respective newborn babies by the maturity of pregnancy. In preterm babies, the nasopharyngeal isolation rates of UU and MH were not influenced by the babies' gestational age and birth weight nor by the maternal history of abortion or parity. However, there was a tendency for UU to persist in the nasopharyngeal secretion of preterm babies especially those of birth weight below 2 kg. None of the babies contaminated with mycoplasmas at birth developed respiratory symptoms during six to eight weeks of follow-up.
    Matched MeSH terms: Ureaplasma urealyticum/isolation & purification*
  6. Cheah FC, Lai CH, Tan GC, Swaminathan A, Wong KK, Wong YP, et al.
    Front Pediatr, 2020;8:593802.
    PMID: 33553066 DOI: 10.3389/fped.2020.593802
    Background:Gardnerella vaginalis (GV) is most frequently associated with bacterial vaginosis and is the second most common etiology causing intrauterine infection after Ureaplasma urealyticum. Intrauterine GV infection adversely affects pregnancy outcomes, resulting in preterm birth, fetal growth restriction, and neonatal pneumonia. The knowledge of how GV exerts its effects is limited. We developed an in vivo animal model to study its effects on fetal development. Materials and Methods: A survival mini-laparotomy was conducted on New Zealand rabbits on gestational day 21 (28 weeks of human pregnancy). In each dam, fetuses in the right uterine horn received intra-amniotic 0.5 × 102 colony-forming units of GV injections each, while their littermate controls in the left horn received sterile saline injections. A second laparotomy was performed seven days later. Assessment of the fetal pups, histopathology of the placenta and histomorphometric examination of the fetal lung tissues was done. Results: Three dams with a combined total of 12 fetuses were exposed to intra-amniotic GV, and 9 fetuses were unexposed. The weights of fetuses, placenta, and fetal lung were significantly lower in the GV group than the saline-inoculated control group [mean gross weight, GV (19.8 ± 3.8 g) vs. control (27.9 ± 1.7 g), p < 0.001; mean placenta weight, GV (5.5 ± 1.0 g) vs. control (6.5 ± 0.7 g), p = 0.027; mean fetal lung weight, GV (0.59 ± 0.11 g) vs. control (0.91 ± 0.08 g), p = 0.002. There was a two-fold increase in the multinucleated syncytiotrophoblasts in the placenta of the GV group than their littermate controls (82.9 ± 14.9 vs. 41.6 ± 13.4, p < 0.001). The mean alveolar septae of GV fetuses was significantly thicker than the control (14.8 ± 2.8 μm vs. 12.4 ± 3.8 μm, p = 0.007). Correspondingly, the proliferative index in the interalveolar septum was 1.8-fold higher in the GV group than controls (24.9 ± 6.6% vs. 14.2 ± 2.9%, p = 0.011). The number of alveoli and alveolar surface area did not vary between groups. Discussion: Low-dose intra-amniotic GV injection induces fetal growth restriction, increased placental multinucleated syncytiotrophoblasts and fetal lung re-modeling characterized by alveolar septal hypertrophy with cellular proliferative changes. Conclusion: This intra-amniotic model could be utilized in future studies to elucidate the acute and chronic effects of GV intrauterine infections.
    Matched MeSH terms: Ureaplasma urealyticum
  7. Ng KF, Kee Tan K, Chok MC, Zamil Mohd Muzzamil N, Choo P, Paramasivam U, et al.
    J Trop Pediatr, 2017 Dec 01;63(6):447-453.
    PMID: 28334949 DOI: 10.1093/tropej/fmx011
    This prospective observational study aims to determine the incidence, predictors and clinical features of Mycoplasma hominis (MH), Ureaplasma urealyticum (UU) and Chlamydia trachomatis (CT) respiratory colonization in infants <37 weeks of gestation. A total of 200 preterm newborns admitted to a tertiary center in Malaysia between 2013 and 2015 for increased breathing effort had their respiratory secretions tested for these bacteria by polymerase chain reaction. Fifteen of the 200 (7.5%) infants were detected to have these organisms in their respiratory tracts. Preterm prelabor rupture of membrane was associated with positive detection (odds ratio: 3.7; 95% confidence interval: 1.2-11.3). Seventy-three of the 200 (36.5%) infants were given macrolide for presumed infection but only 4.1% (3 of 73) were positive for these organisms. The incidence of UU respiratory colonization among preterm infants in our center is lower than other published reports, while the frequency of MH and CT isolation is comparable with many studies. There should be judicious use of empirical antibiotics for presumed UU, MH and CT infection in preterm infants.
    Matched MeSH terms: Ureaplasma urealyticum
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