AIM: To determine the incidence and causative organisms of bacterial sepsis in neonates at The University Hospital of the West Indies. METHODS: A retrospective review of all neonates with culture-proven sepsis admitted to the hospital between January 1995 and December 2000 was conducted. Incidence rates and antimicrobial susceptibility patterns were determined. RESULTS: There were 4702 admissions to the neonatal unit during the study period. Of these, 135 had culture-proven sepsis and 115 were inborn, giving an incidence of 6.7/1000 live births. There were 89 positive blood cultures, 51 positive urine cultures and two positive CSF cultures. The single most common organism was Klebsiella spp (28%). Other organisms included Escherichia coli (16%), group B Streptococcus (11%) and Enterobacter spp (10%). The aminoglycoside resistance rate of Klebsiella spp was 46% and seven isolates had multiple resistance to antibiotics. There was a case fatality rate of 6.7%. CONCLUSION: Physicians involved in newborn care at The University Hospital of the West Indies need to recognise the important role Klebsiella now plays in neonatal sepsis and its contribution to neonatal mortality. Empirical antibiotic regimens for gram-negative sepsis must take into consideration the high rates of aminoglycoside resistance that are now prevalent.
AIM: To determine the incidence and causative organisms of bacterial sepsis in neonates at The University Hospital of the West Indies. METHODS: A retrospective review of all neonates with culture-proven sepsis admitted to the hospital between January 1995 and December 2000 was conducted. Incidence rates and antimicrobial susceptibility patterns were determined. RESULTS: There were 4702 admissions to the neonatal unit during the study period. Of these, 135 had culture-proven sepsis and 115 were inborn, giving an incidence of 6.7/1000 live births. There were 89 positive blood cultures, 51 positive urine cultures and two positive CSF cultures. The single most common organism was Klebsiella spp (28%). Other organisms included Escherichia coli (16%), group B Streptococcus (11%) and Enterobacter spp (10%). The aminoglycoside resistance rate of Klebsiella spp was 46% and seven isolates had multiple resistance to antibiotics. There was a case fatality rate of 6.7%. CONCLUSION: Physicians involved in newborn care at The University Hospital of the West Indies need to recognise the important role Klebsiella now plays in neonatal sepsis and its contribution to neonatal mortality. Empirical antibiotic regimens for gram-negative sepsis must take into consideration the high rates of aminoglycoside resistance that are now prevalent.
Authors: Anita K M Zaidi; Hammad A Ganatra; Sana Syed; Simon Cousens; Anne C C Lee; Robert Black; Zulfiqar A Bhutta; Joy E Lawn Journal: BMC Public Health Date: 2011-04-13 Impact factor: 3.295
Authors: Lola Madrid; Anna C Seale; Maya Kohli-Lynch; Karen M Edmond; Joy E Lawn; Paul T Heath; Shabir A Madhi; Carol J Baker; Linda Bartlett; Clare Cutland; Michael G Gravett; Margaret Ip; Kirsty Le Doare; Craig E Rubens; Samir K Saha; Ajoke Sobanjo-Ter Meulen; Johan Vekemans; Stephanie Schrag Journal: Clin Infect Dis Date: 2017-11-06 Impact factor: 20.999