Главная страница

Коллектив авторов, 2015 удк 616. 94053. 31074


Скачать 37.76 Kb.
НазваниеКоллектив авторов, 2015 удк 616. 94053. 31074
Дата05.12.2019
Размер37.76 Kb.
Формат файлаdocx
Имя файлаlaboratorn-e-marker-ranney-diagnostiki-neonatalnogo-sepsisa (1)..docx
ТипДокументы
#98809
страница4 из 4
1   2   3   4
Arch. Dis. Child Fetal Neonat. Ed. 2003; 88 (3): 209–13.

  • Cernada M., Badía N., Modesto V., Alonso R., Mejías A., Golombek S et al. Cord blood interleukin–6 as a predictor of early-onset neo-natal sepsis. Acta Paediat. 2012; 101 (5): 203–7.

  • Birju A.S., Padbury F.J. Neonatal sepsis an old problem with new insights. Virulence. 2014; 5 (1): 170–8.

  • Mishra U.K., Jacobs S.E., Doyle L.W., Garland S.M. Newer ap-proaches to the diagnosis of early onset neonatal sepsis. Arch. Dis. Child Fetal Neonat. Ed. 2006; 91 (3): F208–12.

  • Silveira R.C., Procianoy R.S. Evaluation of interleukin-6, tumor necrosis factor-alpha and interleukin-1beta for early diagnosis of neonatal sepsis. Acta Paediat. 1999; 88 (6): 647–50.

  • Verboon-Maciolek M.A., Thijsen S.F., Hemels M.A., Menses M., van Loon A.M., Krediet T.G. et al. Inflammatory mediators for the diagnosis and treatment of sepsis in early infancy. Pediat. Res. 2006; 596 (3): 457–61.

  • Küster H., Weiss M., Willeitner A.E., Detlefsen S., Jeremias I., Zbojan J. et al. Interleukin-1 receptor antagonist and interleukin-6 for early diagnosis of neonatal sepsis 2 days before clinical mani-festation. Lancet. 1998; 352 (9136): 1271–7.

  • Chiesa C., Signore F., Assumma M., Buffone E., Tramontozzi P., Osborn J.F. et al. Serial measurements of C-reactive protein and interleukin–6 in the immediate postnatal period: reference intervals and analysis of maternal.and perinatal confounders. Clin. Chem. 2001; 47 (6): 1016–22.

  • Bianchi M.E. DAMPs, PAMPs and alarmins: all we need to know

    about danger. J. Leukoc. Biol. 2007; 81 (1): 1–5.

    1. Van Zoelen M.A., Laterre P.F., van Veen S.Q., van Till J.W., Wit-tebole X., Bresser P. et al. Systemic and local high mobility group box 1 concentrations during severe infections. Crit. Care Med. 2007; 35 (12): 2799–804.




    1. Kornblit B., Munthe-Fog L., Madsen H.O., Strøm J., Vindeløv L., Garred P. et al. Association of HMGB1 polymorphisms with out-come in patients with SIRS. Crit. Care. 2008; 12: R83.

    2. Wang H., Yang H., Tracey K.J. Extracellular role of HMGB1 in inflammation and sepsis. J. Intern. Med. 2004; 255 (3): 320–31.

    3. Karlsson S., Pettilä V., Tenhunen J., Laru-Sompa R., Hynninen M., Ruokonen E. HMGB1 as a predictor of organ dysfunction and out-come in patients with severe sepsis. Intensive Care Med. 2008; 34

    (6): 1046–53.

    1. Buhimschi C.S., Baumbusch M.A., Dulay A.T., Oliver E.A., Lee S., Zhao G. et al. Characterization of RAGE, HMGB1, and S100b in inflammation-induced preterm birth and fetal tissue injury. Am. J. Pathol. 2009; 175 (3): 958–75.

    2. Suraj Gupte. Recent Adv. Pediat. 2013; Spec. Vol. 22: Immunol., Infect., Immunizat.




    1. Baek Y.W., Brokat S., Padbury J.F., Pinar H., Hixson D.C., Lim Y.P. Inter-alpha inhibitor proteins in infants and decreased levels in neonatal sepsis. J. Pediat. 2003; 143 (1): 11–5.

    2. Chaaban H., Singh K., Huang J., Siryaporn E., Lim Y.P., Padbury J.F. The role of inter-alpha inhibitor proteins in the diagnosis of neonatal sepsis. J. Pediat. 2009; 154 (4): 620–2.

    3. Simms H.H., D’Amico R. et al. Lipopolysaccharide induces in-tracytoplasmic migration of the polymorphonuclear leukocyte CD11b/CD18 receptor. Shock. 1995; 3 (3): 196–203.

    4. Ng P.C. Diagnostic markers of infection in neonates. Arch. Dis. Child Fetal Neonat. Ed. 2004; 89 (3): 229–35.




    1. Ng P.C., Li K., Wong R.P., Chui K.M., Wong E., Fok T.F. Neutro-phil CD64 expression: a sensitive diagnostic marker for late-onset nosocomial infection in very low birthweight infants. Pediat. Res. 2002; 51 (3): 296–303.

    2. Fjaertoft G., Håkansson L., Ewald U., Foucard T., Venge P. Neu-trophils from term and preterm newborn infants express the high affinity Fc[gamma]-receptor I (CD64) during bacterial infection. Pediat. Res. 1999; 45 (6): 871–6.

    3. Ng P.C., Li K., Wong R.P., Chui K.M., Wong E., Fok T.F. Neutro-phil CD64 expression: a sensitive diagnostic marker for late-onset nosocomial infection in very low birthweight infants. Pediat. Res. 2002; 51 (3): 296–303.

    4. Bhandari V., Wang C., Rinder C., Rinder H. Hematologic profile of sepsis in neonates: Neutrophil CD64 as a diagnostic marker. Pedi-atrics. 2008; 121 (1): 129–34.

    5. Ng P.C., Lam H.S. Diagnostic markers for neonatal sepsis. Curr. Opin. Pediat. 2006; 18 (2): 125–31.

    6. Buhimschi C.S., Bhandari V., Hamar B.D., Bahtiyar M.O., Zhao G., Sfakianaki A.K. et al. Proteomic profiling of the amniotic fluid to detect inflammation, infection, and neona-tal sepsis. Available at: http://www.plosmedicine.org/article/ info%3Adoi%2F10,1371%2Fjournal.pmed,0040018 (Published Jan, 16, 2007).

    7. Ng P.C., Ang I.L., Chiu R.W., Li K., Lam H.S., Wong R.P. Host-response biomarkers for diagnosis of late-onset septicemia and necrotizing enterocolitis in preterm infants. J. Clin. Invest. 2010; 120 (8): 2989–3000.

    8. Esparcia O., Montemayor M., Ginovart G., Pomar V., Soriano G., Pericas R. et al. Diagnostic accuracy of a 16S ribosomal DNA gene-based molecular technique (RT-PCR, microarray and sequencing) for bacterial meningitis, early-onset neonatal sepsis, and spontane-ous bacterial peritonitis. Diagn. Microbiol. Infect. Dis. 2011; 69


    (2): 153–60.

    1. Kasper D.C., Altiok I., Mechtler T.P., Böhm J., Straub J., Lang-gartner M. et al. Molecular detection of late-onset neonatal sepsis in premature infants using small blood volumes: proof-of-consept. Neonatology. 2013; 103 (4): 268–73.


    Received. Поступила 15.02.15




  • АНЕСТЕЗИЯ У ДЕТЕЙ И НОВОРОЖДЕННЫХ

    15









    1   2   3   4


    написать администратору сайта