BACTERIAL SEPSIS AND MENINGITIS - Nizet Laboratory at UCSD
BACTERIAL SEPSIS AND MENINGITIS - Nizet Laboratory at UCSD
BACTERIAL SEPSIS AND MENINGITIS - Nizet Laboratory at UCSD
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[529] E. Kozer, et al., Pain in infants who are younger than 2 months during<br />
suprapubic aspir<strong>at</strong>ion and transurethral bladder c<strong>at</strong>heteriz<strong>at</strong>ion: a randomized,<br />
controlled study, Pedi<strong>at</strong>rics 118 (2006) e51–e56.<br />
[530] Y.L. Lau, E. Hey, Sensitivity and specificity of daily tracheal aspir<strong>at</strong>e cultures<br />
in predicting organisms causing bacteremia in ventil<strong>at</strong>ed neon<strong>at</strong>es,<br />
Pedi<strong>at</strong>r. Infect. Dis. J. 10 (1991) 290.<br />
[531] L. Finelli, J.R. Livengood, L. Saiman, Surveillance of pharyngeal coloniz<strong>at</strong>ion:<br />
detection and control of serious bacterial illness in low birth weight<br />
infants, Pedi<strong>at</strong>r. Infect. Dis. J. 13 (1994) 854.<br />
[532] H.B. Srinivasan, D. Vidyasagar, Endotracheal aspir<strong>at</strong>e cultures in predicting<br />
sepsis in ventil<strong>at</strong>ed neon<strong>at</strong>es, Indian J. Pedi<strong>at</strong>r. 65 (1998) 79–84.<br />
[533] J.O. Klein, S.S. Gellis, Diagnostic needle aspir<strong>at</strong>ion in pedi<strong>at</strong>ric practice:<br />
with special reference to lungs, middle ear, urinary bladder, and amniotic<br />
cavity, Pedi<strong>at</strong>r. Clin. North. Am. 18 (1971) 219.<br />
[534] L. Eisenfeld, et al., Systemic bacterial infections in neon<strong>at</strong>al de<strong>at</strong>hs, Am.<br />
J. Dis. Child. 137 (1983) 645.<br />
[535] T.M. Minckler, et al., Microbiology experience in human tissue collection,<br />
Am. J. Clin. P<strong>at</strong>hol. 45 (1966) 85.<br />
[536] J.R. Pierce, G.B. Merenstein, J.T. Stocker, Immedi<strong>at</strong>e postmortem cultures<br />
in an intensive care nursery, Pedi<strong>at</strong>r. Infect. Dis. J. 3 (1984) 510.<br />
[537] J. Levin, et al., Detection of endotoxin in the blood of p<strong>at</strong>ients with sepsis<br />
due to gram-neg<strong>at</strong>ive bacteria, N. Engl. J. Med. 283 (1970) 1313.<br />
[538] I. Levin, T.E. Poore, N.S. Young, Gram-neg<strong>at</strong>ive sepsis: detection of endotoxemia<br />
with the limulus test, Ann. Intern. Med. 76 (1972) 1.<br />
[539] R.I. Stumacher, M.J. Kovn<strong>at</strong>, W.R. McCabe, Limit<strong>at</strong>ions of the usefulness<br />
of the limulus assay for endotoxin, N. Engl. J. Med. 288 (1973) 1261.<br />
[540] R.J. Elin, et al., Lack of clinical usefulness of the limulus test in the diagnosis<br />
of endotoxemia, N. Engl. J. Med. 293 (1975) 521.<br />
[541] G.H. McCracken Jr., L.D. Sarff, Endotoxin in CSF detection in neon<strong>at</strong>es<br />
with bacterial meningitis, JAMA 235 (1976) 617.<br />
[542] M.A. Sobanski, et al., Meningitis antigen detection: interpret<strong>at</strong>ion of agglutin<strong>at</strong>ion<br />
by ultrasound-enhanced l<strong>at</strong>ex immunoassay, Br. J. Biomed. Sci.<br />
56 (1999) 239–246.<br />
[543] K.L. McGowan, Diagnostic value of l<strong>at</strong>ex agglutin<strong>at</strong>ion tests for bacterial<br />
infections, Rep Pedi<strong>at</strong>r Infect Dis 8 (1992) 31.<br />
[544] P.J. Sanchez, et al., Significance of a positive urine group B streptococcal<br />
l<strong>at</strong>ex agglutin<strong>at</strong>ion test in neon<strong>at</strong>es, J. Pedi<strong>at</strong>r. 116 (1990) 601.<br />
[545] B.J. Stoll, et al., To tap or not to tap: high likelihood of meningitis without<br />
sepsis among very low birth weight infants, Pedi<strong>at</strong>rics 113 (2004)<br />
1181–1186.<br />
[546] M.G. Weiss, S.P. Ionides, C.L. Anderson, Meningitis in prem<strong>at</strong>ure infants<br />
with respir<strong>at</strong>ory distress: role of admission lumbar puncture, J. Pedi<strong>at</strong>r.<br />
119 (1991) 973.<br />
[547] K.D. Hendricks-Munoz, D.L. Shapiro, The role of the lumbar puncture in<br />
the admission sepsis evalu<strong>at</strong>ion of the prem<strong>at</strong>ure infant, J. Perin<strong>at</strong>ol.<br />
10 (1990) 60.<br />
[548] M. Eldadah, et al., Evalu<strong>at</strong>ion of routine lumbar punctures in newborn infants<br />
with respir<strong>at</strong>ory distress syndrome, Pedi<strong>at</strong>r. Infect. Dis. J. 6 (1987) 243.<br />
[549] J. Schwersenski, L. McIntyre, C.R. Bauer, Lumbar puncture frequency and<br />
CSF analysis in the neon<strong>at</strong>e, Am. J. Dis. Child. 145 (1991) 54.<br />
[550] S. Fielkow, S. Reuter, S.P. Gotoff, Clinical and labor<strong>at</strong>ory observ<strong>at</strong>ions:<br />
cerebrospinal fluid examin<strong>at</strong>ion in symptom-free infants with risk factors<br />
for infection, J. Pedi<strong>at</strong>r. 119 (1991) 971.<br />
[551] C.A. Gleason, et al., Optimal position for a spinal tap in preterm infants,<br />
Pedi<strong>at</strong>rics 71 (1983) 31.<br />
[552] J.M.B. Pinheiro, S. Furdon, L.F. Ochoa, Role of local anesthesia during<br />
lumbar puncture in neon<strong>at</strong>es, Pedi<strong>at</strong>rics 91 (1993) 379.<br />
[553] F.L. Porter, et al., A controlled clinical trial of local anesthesia for lumbar<br />
punctures in newborns, Pedi<strong>at</strong>rics 88 (1991) 663.<br />
[554] D.H. Fiser, et al., Prevention of hypoxemia during lumbar puncture in<br />
infancy with preoxygen<strong>at</strong>ion, Pedi<strong>at</strong>r. Emerg. Care 9 (1993) 81.<br />
[555] L.E. Weisman, G.B. Merenstein, J.R. Steenbarger, The effect of lumbar<br />
puncture position in sick neon<strong>at</strong>es, Am. J. Dis. Child. 137 (1983) 1077.<br />
[556] V.E. Visser, R.T. Hall, Lumbar puncture in the evalu<strong>at</strong>ion of suspected neon<strong>at</strong>al<br />
sepsis, J. Pedi<strong>at</strong>r. 96 (1980) 1063.<br />
[557] S.M. Franco, V.E. Cornelius, B.F. Andrews, Should we perform lumbar<br />
punctures on the first day of life? Am. J. Dis. Child. 147 (1993) 133.<br />
[558] H.P. Garges, et al., Neon<strong>at</strong>al meningitis. Wh<strong>at</strong> is the correl<strong>at</strong>ion among<br />
cerebrospinal fluid cultures, blood cultures, and cerebrospinal fluid parameters,<br />
Pedi<strong>at</strong>rics 117 (2006) 1094.<br />
[559] B.T. Naidoo, The CSF in the healthy newborn infant, S. Afr. Med. J.<br />
42 (1968) 933.<br />
[560] L.D. Sarff, L.H. Pl<strong>at</strong>t, G.H. McCracken Jr., Cerebrospinal fluid evalu<strong>at</strong>ion<br />
in neon<strong>at</strong>es: comparison of high-risk infants with and without meningitis,<br />
J. Pedi<strong>at</strong>r. 88 (1976) 473.<br />
[561] W.A. Bonadio, et al., Reference values of normal CSF composition in infants<br />
ages 0 to 8 weeks, Pedi<strong>at</strong>r. Infect. Dis. J. 11 (1992) 589.<br />
[562] A. Ahmed, et al., Cerebrospinal fluid values in the term neon<strong>at</strong>e, Pedi<strong>at</strong>r.<br />
Infect. Dis. J. 15 (1996) 298.<br />
[563] H. Wolf, L. Hoepffner, The CSF in the newborn and prem<strong>at</strong>ure infant,<br />
World Neurol. 2 (1961) 871.<br />
[564] E. Otila, Studies on the CSF in prem<strong>at</strong>ure infants, Acta Paedi<strong>at</strong>r. Scand.<br />
35 (1948) 9.<br />
[565] A. Gyllensward, S. Malmstrom, The CSF in imm<strong>at</strong>ure infants, Acta<br />
Paedi<strong>at</strong>r. Scand. 135 (1962) 54.<br />
CHAPTER 6 Bacterial Sepsis and Meningitis<br />
275<br />
[566] S. Widell, On the CSF in normal children and in p<strong>at</strong>ients with acute abacterial<br />
meningoencephalitis, Acta Pedi<strong>at</strong>r. 47 (1958) 711.<br />
[567] G.H. McCracken Jr., The r<strong>at</strong>e of bacteriologic response to antimicrobial<br />
therapy in neon<strong>at</strong>al meningitis, Am. J. Dis. Child. 123 (1972) 547.<br />
[568] A.F. Rodriguez, S.L. Kaplan, E.O. Mason Jr., Cerebrospinal fluid values in<br />
the very low birth weight infant, J. Pedi<strong>at</strong>r. 116 (1990) 971.<br />
[569] M.J. Mhanna, et al., Cerebrospinal fluid values in very low birth weight<br />
infants with suspected sepsis <strong>at</strong> different ages, Pedi<strong>at</strong>r. Crit. Care Med.<br />
9 (2008) 294–298.<br />
[570] A.S. Yeager, F.W. Bruhn, J. Clark, Cerebrospinal fluid: presence of virus<br />
unaccompanied by pleocytosis, J. Pedi<strong>at</strong>r. 85 (1974) 578.<br />
[571] C.M. Moore, M. Ross, Acute bacterial meningitis with absent or minimal<br />
CSF abnormalities: a report of three cases, Clin. Pedi<strong>at</strong>r. (Phila) 12 (1973)<br />
117.<br />
[572] G. Sarman, A.A. Moise, M.S. Edwards, Meningeal inflamm<strong>at</strong>ion in neon<strong>at</strong>al<br />
gram-neg<strong>at</strong>ive bacteremia, Pedi<strong>at</strong>r. Infect. Dis. J. 14 (1995) 701.<br />
[573] P.B. Smith, et al., Meningitis in preterm neon<strong>at</strong>es: importance of cerebrospinal<br />
fluid parameters, Am. J. Perin<strong>at</strong>ol. 25 (2008) 421–426.<br />
[574] T. Hedner, K. Iversen, P. Lundborg, Aminobutyric acid concentr<strong>at</strong>ions in<br />
the CSF of newborn infants, Early. Hum. Dev. 7 (1982) 53.<br />
[575] S. Engelke, et al., Cerebrospinal fluid lact<strong>at</strong>e dehydrogenase in neon<strong>at</strong>al<br />
intracranial hemorrhage, Am. J. Med. Sci. 29 (1986) 391.<br />
[576] G. Worley, et al., Cre<strong>at</strong>ine kinase brain isoenzyme: rel<strong>at</strong>ionship of CSF concentr<strong>at</strong>ion<br />
to the neurologic condition of newborns and cellular localiz<strong>at</strong>ion<br />
in the human brain, Pedi<strong>at</strong>rics 76 (1985) 15.<br />
[577] C.Y. Lin, M. Ishida, Elev<strong>at</strong>ion of cAMP levels in CSF of p<strong>at</strong>ients with neon<strong>at</strong>al<br />
meningitis, Pedi<strong>at</strong>rics 71 (1983) 932.<br />
[578] C.J. Corrall, et al., C-reactive protein in spinal fluid of children with meningitis,<br />
J. Pedi<strong>at</strong>r. 99 (1981) 365.<br />
[579] E. BenGershom, G.J. Briggeman-Mol, F. de Zegher, Cerebrospinal fluid<br />
C-reactive protein in meningitis: diagnostic value and p<strong>at</strong>hophysiology,<br />
Eur. J. Pedi<strong>at</strong>r. 145 (1986) 246.<br />
[580] A.G. Philip, C.J. Baker, Cerebrospinal fluid C-reactive protein in neon<strong>at</strong>al<br />
meningitis, J. Pedi<strong>at</strong>r. 102 (1983) 715.<br />
[581] A. Martin-Ancel, et al., Interleukin-6 in the cerebrospinal fluid after<br />
perin<strong>at</strong>al asphyxia is rel<strong>at</strong>ed to early and l<strong>at</strong>e neurological manifest<strong>at</strong>ions,<br />
Pedi<strong>at</strong>rics 100 (1997) 789.<br />
[582] K. Sayman, et al., Cytokine response in cerebrospinal fluid after birth<br />
asphyxia, Pedi<strong>at</strong>r. Res. 43 (1998) 746.<br />
[583] G. Chow, J.W. Schmidley, Lysis of erythrocytes and leukocytes in traum<strong>at</strong>ic<br />
lumbar punctures, Arch. Neurol. 41 (1984) 1084.<br />
[584] R.W. Steele, et al., Leukocyte survival in CSF, J. Clin. Microbiol. 23 (1986)<br />
965.<br />
[585] J.P. Osborne, B. Pizer, Effect on the white cell count of contamin<strong>at</strong>ing CSF<br />
with blood, Arch. Dis. Child. 56 (1981) 400.<br />
[586] R.W. Novak, Lack of validity of standard corrections for white blood cell<br />
counts of blood-contamin<strong>at</strong>ed CSF in infants, Am. J. Clin. P<strong>at</strong>hol.<br />
82 (1984) 95.<br />
[587] J.H. Mayefsky, K.J. Roghmann, Determin<strong>at</strong>ion of leukocytosis in traum<strong>at</strong>ic<br />
spinal tap specimens, Am. J. Med. 82 (1987) 1175.<br />
[588] A. Mehl, Interpret<strong>at</strong>ion of traum<strong>at</strong>ic lumbar puncture: a prospective experimental<br />
model, Clin. Pedi<strong>at</strong>r. 25 (1986) 523.<br />
[589] A. Mehl, Interpret<strong>at</strong>ion of traum<strong>at</strong>ic lumbar puncture: predictive value in the<br />
presence of meningitis, Clin. Pedi<strong>at</strong>r. 25 (1986) 575.<br />
[590] W.A. Bonadio, et al., Distinguishing CSF abnormalities in children with<br />
bacterial meningitis and traum<strong>at</strong>ic lumbar puncture, J. Infect. Dis.<br />
162 (1990) 251.<br />
[591] S.H. Naqvi, et al., Significance of neutrophils in CSF samples processed by<br />
cytocentrifug<strong>at</strong>ion, Clin. Pedi<strong>at</strong>r. 22 (1983) 608.<br />
[592] W.A. Bonadio, Bacterial meningitis in children whose CSF contains<br />
polymorphonuclear leukocytes without pleocytosis, Clin. Pedi<strong>at</strong>r. 27 (1988)<br />
198.<br />
[593] R.G. Greenberg, et al., Traum<strong>at</strong>ic lumbar punctures in neon<strong>at</strong>es: test performance<br />
of the cerebrospinal fluid white blood cell count, Pedi<strong>at</strong>r. Infect. Dis.<br />
J. 27 (2008) 1047–1051.<br />
[594] E. Weirich, et al., Neutrophil CD11b expression as a diagnostic marker for<br />
early-onset neon<strong>at</strong>al infection, J. Pedi<strong>at</strong>r. 132 (1998) 445.<br />
[595] C. Kennon, et al., Granulocyte colony-stimul<strong>at</strong>ing factor as a marker for<br />
bacterial infection in neon<strong>at</strong>es, J. Pedi<strong>at</strong>r. 128 (1996) 765.<br />
[596] H. Kuster, et al., Interleukin-1 receptor antagonist and interleukin-6 for<br />
early diagnosis of neon<strong>at</strong>al sepsis 2 days before clinical manifest<strong>at</strong>ion, Lancet<br />
352 (1998) 1271.<br />
[597] H. Doellner, et al., Interleukin-6 concentr<strong>at</strong>ions in neon<strong>at</strong>es evalu<strong>at</strong>ed for<br />
sepsis, J. Pedi<strong>at</strong>r. 132 (1998) 295.<br />
[598] A. Panero, et al., Interleukin 6 in neon<strong>at</strong>es with early and l<strong>at</strong>e onset infection,<br />
Pedi<strong>at</strong>r. Infect. Dis. J. 16 (1997) 370.<br />
[599] D. Harding, et al., Is interleukin-6-174 genotype associ<strong>at</strong>ed with the development<br />
of septicemia in preterm infants? Pedi<strong>at</strong>rics 112 (2003) 800.<br />
[600] B. Resch, W. Gusenleitner, W.D. Muller, Procalcitonin and interleukin-6 in<br />
the diagnosis of early-onset sepsis of the neon<strong>at</strong>e, Acta Paedi<strong>at</strong>r. 92 (2003)<br />
243.<br />
[601] A. Kordek, et al., Umbilical cord blood serum procalcitonin concentr<strong>at</strong>ion in<br />
the diagnosis of early neon<strong>at</strong>al infection, J. Perin<strong>at</strong>ol. 23 (2003) 148.<br />
[602] C. Chiesa, et al., Reliability of procalcitonin concentr<strong>at</strong>ions for the diagnosis<br />
of sepsis in critically ill neon<strong>at</strong>es, Clin. Infect. Dis. 26 (1998) 664.