1.Neonatal Sepsis.
Journal of the Korean Pediatric Society 2002;45(3):289-294
No abstract available
Sepsis*
2.Clinical observation in 72 Cases with Neonatal Sepsis.
Jae Seung YANG ; Ran NAMGUNG ; Chul LEE ; Dong Gwan HAN
Journal of the Korean Pediatric Society 1986;29(12):25-34
No abstract available.
Sepsis*
3.Sepsis and the current research of sepsis.
Korean Journal of Medicine 1999;57(1):132-132
No abstract available.
Sepsis*
4.Analysis for Causative Agents in Neonatal Sepsis.
Jung Sook HONG ; Ki hi LEE ; Shul Hoe KOO ; Yun Joo CHEUNG
Journal of the Korean Pediatric Society 1988;31(1):22-28
No abstract available.
Sepsis*
5.Intersphincteric Approach for Deep Postanal Sepsis.
Annals of Coloproctology 2013;29(2):39-40
No abstract available.
Sepsis
6.Clinical Observations on Neonatal Sepsis.
Beyong Il KIM ; Hae Lim CHUNG ; Yoon Deok KIM ; Weon Soon PARK ; Son Moon SHIN ; Hoan Jong LEE ; Jung Hwan CHOI ; Chong Ku YUN
Journal of the Korean Pediatric Society 1987;30(2):130-138
No abstract available.
Sepsis*
8.Clinical Obervation in 40 Cases with Neonatal Sepsis.
Jung Hee LEE ; Jae Jin PARK ; In Kyung SUNG ; Byung Churl LEE
Journal of the Korean Pediatric Society 1990;33(11):1489-1494
No abstract available.
Sepsis*
9.The 28-Day Mortality Prediction in Sepsis Patients Using Static Lactate Concentration and Early Lactate Clearance: An Observational Study
Tan TL ; Noor Asmidar A ; Ong WJ ; Ahmad Fuad Fahmi MN ; Chieng ZL ; Akmal SI
Medicine and Health 2014;9(2):124-133
Sepsis causes high mortality and morbidity. Static lactate concentration and early lactate clearance are cited to be a predictor for sepsis survival. This study examined the clinical utility of static lactate concentration and early lactate clearance within the first six hours of admission in Emergency Department (ED) to predict 28-day mortality rate in sepsis patients. Patients who presented with sepsis, severe sepsis or septic shock and admitted to ED of Universiti Kebangsaan Malaysia Medical Centre were recruited. Blood lactate concentrations were measured upon admission (H0), at 1st hour (H1) and 6th hour (H6), respectively. Either standard treatment of sepsis or early goal directed therapy was initiated according to sepsis severity. A follow-up report was conducted at 28 days via telephone call, e-mail or case notes. Patients were later classified into survivor and non-survivor as final outcome. Static lactate concentration appeared to be significantly higher for non-survivor as compared to the survival group at H0, H1 and H6 (p<0.05). The lactate clearance trend reflects no relationship between early lactate clearance and 28-day mortality. Static lactate
concentration showed a superior predictor for sepsis over early lactate clearance. Although early lactate clearance was unable to prove its ability to predict 28-day mortality, our findings suggest it can be a useful tool to gauge the resuscitation outcome.
Sepsis
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