The aim of this study is to determine the risk factors for retinopathy of prematurity (ROP), and also to screen Norrie Disease Pseudoglioma (NDP) gene mutation in order to determine if mutation in the NDP gene may play a role in the development of ROP among Malay premature infants. This was a case control studyamong Malay premature infants from Hospital Universiti Sains Malaysia (USM) conducted from August 2011 to May 2013. Written consent were taken from their parents before conducting the study. The stage of ROP, systemic risk factors (gestational age and birth weight) and enviromental risk factors (oxygen exposure and duration of ventilation)were reviewed from patients’medical records. DNA was extracted from venous blood and subjected to polymerase chain reaction (PCR) before direct sequencing of NDP gene. A total of 56 Malay premature infants (Case group = 28 ROP premature infants, Controlgroup = 28 non-ROP premature infants)from Hospital USMwere enrolled in this study. Out of 28 premature infants with ROP, 11 (39.3%) premature infants were in stage 3. Only 1 (3.6%) premature infant in stage 4 and 2 (7.2%) premature infants in stage 5. The gestational age (p = 0.010) and birth weight (p = 0.010) were the significant risk factors for ROP. There was no significant difference ofenvironmental risk factors between the two groups. The NDPgene mutation was not detected in Malay premature infants with ROP and also in control group. The gestational age and birth weight were important risk factors of ROP.Although NDPgene mutations were being linked to ROP but NDPgene mutation was not detected in premature infants with ROPas well as premature infants with non-ROP among Malay ethnic background.
To determine whether the addition of low-cost reflecting curtains to a standard phototherapy unit could increase effectiveness of phototherapy for neonatal jaundice.
Pantoea infections are uncommon in humans. Most reports have involved adults or children after thorn injuries. There are only a few reports of systemic infections with Pantoea. This is the first report of the clinical picture of systemic Pantoea spp. infection in neonates as observed during an outbreak in a neonatal intensive care unit caused by infected parenteral nutrition solutions. Even though detected early, the infections had a fulminant course, causing septicemic shock and respiratory failure. Pulmonary disease was prominent and presented mainly as pulmonary hemorrhage and adult respiratory distress syndrome. The organism was sensitive to most antibiotics used in neonatal intensive care units, but the clinical response to antibiotic therapy was poor. The fatality rate was very high: 7 out of 8 infected infants succumbed to the infection (87.5%).
Neonatal invasive Group A Streptococcus (GAS) infection is a rare occurrence nowadays. Prior maternal vaginal colonization is an important factor in early neonatal disease. We report a case of invasive and fatal infection in a neonate. At Day 1 of life, a term baby was found to be lethargic, with poor feeding, and later became unresponsive. Consequently, the baby was immediately brought to the Emergency Department of Hospital Universiti Sains Malaysia, Kubang Kerian, Kelantan via ambulance. Despite the active resuscitation efforts in the hospital, the baby died. An autopsy was carried out to determine the cause of death. The mother was noted to have puerperal pyrexia secondary to vaginal discharge. Her high vaginal swab culture was positive for GAS. GAS was also isolated from the intracardiac blood, pleural fluid, peritoneal fluid, and umbilical swab of the baby, giving evidence to the aetiology of the mortality. Vaginal colonization of GAS is an important factor for high morbidity and mortality for both mother and infant due to its invasiveness and virulence.
The addition of glutamine to parenteral nutrition (PN) in neonates has not shown significant benefits as compared to adults thus far. This study aimed to determine the potential benefits of the addition of glutamine to neonatal PN in a tertiary hospital in a middle-income country.
Contaminated parenteral nutrition (PN) is an important source of infection in neonates. Many organisms have been reported to cause contamination that results in outbreaks in intensive care units. The objective of this study was to investigate an outbreak caused by Pantoea spp., which contaminates PN, in a neonatal intensive care unit (NICU). This was a descriptive study of an outbreak of sepsis in an NICU of a tertiary teaching hospital in Malaysia. Pantoea spp. infection was detected in eight patients over a three-day period from 24 to 27 January 2004 following the administration of PN. Seven of the eight patients died due to the infection. Extensive environmental samplings for culture were performed. PN solution from the NICU and the pharmacy were also cultured during the outbreak period. Pantoea spp. was isolated from blood cultures of all infected patients, and the unused PN from the pharmacy and the NICU. All the strains of Pantoea spp. had a similar antibiotic susceptibility pattern and biochemical reaction. From the results, we concluded that PN was the source of the outbreak and the contamination may have occurred during its preparation in the pharmacy. A thorough investigation has been carried out and, where possible, corrective measures have been taken to avoid similar outbreaks in the future.
We report the first case of a human Burkholderia tropica infection. The patient was a premature neonate who had necrotizing enterocolitis with bowel perforation requiring surgical intervention. The stoma care and difficulties in feeding were a chronic problem. At the age of almost 4 months he developed septicemia due to B. tropica. Three consecutive blood cultures grew this organism. The organism was cleared from the blood after a course of imipenem and resolution of post-operative ileus. Our case suggests that environmental and plant pathogens can cause human infection especially in those in an immunocompromised condition.