Bacterial contamination of lightproof covers for high-calorie infusion solutions in wards.

Deterioration of drugs due to light exposure is one of the major concerns, especially regarding protection of high-calorie infusion solutions, lightproof covers are used in hospitals. In the absence of any set standards regarding their usage, they are often reused. This study aimed to investigate bacterial contamination of lightproof covers used in hospital wards. For this, lightproof covers which had been used or stored in wards were collected and bacterial cultures were carried out from them. Examination of the cultures revealed that bacteria were present in the used lightproof covers. The bacterial species detected in the used lightproof covers were Bacillus species Coagulase-negative Staphylococci (CNS) and Methicillin-resistant Staphylococcus aureus (MRSA). Bacillus species and CNS were also detected in lightproof covers stored in wards, whereas MRSA was not detected. Intestinal bacteria were detected in only one lightproof cover. However, no bacteria were detected from either inside or outside of the unused lightproof covers that were stored in the drugs department. After allowing the unused lightproof covers stored in the drugs department to stand for 24 h, Bacillus species and CNS were detected in only one of the covers, whereas no bacteria was detected in other covers. These results indicate that there is a risk of bacterial contamination in the reuse of lightproof covers and that they should either be disposed off properly after usage or hand, finger disinfectants should be used while handling them to prevent any possible contamination.

Parenteral nutrition and oxidant stress in the newborn: A narrative review.

There is strong evidence that oxidant molecules from various sources contaminate solutions of parenteral nutrition following interactions between the mixture of nutrients and some of the environmental conditions encountered in clinical practice. The continuous infusion of these organic and nonorganic peroxides provided us with a unique opportunity to study in cells, in vascular and animal models, the mechanisms involved in the deleterious reactions of oxidation in premature infants. Potential clinical impacts of peroxides infused with TPN include: a redox imbalance, vasoactive responses, thrombosis of intravenous catheters, TPN-related hepatobiliary complications, bronchopulmonary dysplasia and mortality. This is a narrative review of published data.

Shielding Parenteral Nutrition From Light Improves Survival Rate in Premature Infants.

BACKGROUND: Intravenous nutrition preparations that are not photoprotected generate oxidants, which are deleterious for cell survival. The question remains: are these observations of clinical relevance in individuals receiving parenteral nutrition (PN), especially in those who exhibit immature antioxidant defenses such as premature infants? OBJECTIVE: To review clinical trials reporting the effect of light-exposed vs light-protected PN to determine whether photoprotection reduces neonatal mortality in preterm infants. DATA SOURCE: Electronic databases, abstracts in relevant journals, and references in manuscripts between 1980 and 2014. SELECTION CRITERIA: Newborn, premature infants, PN, photoprotection, shielding from light, randomization, mortality, death. METHODS: Consensus for inclusion reached by 2 reviewers; meta-analysis of trials and observational studies reporting mortality at 36 weeks' gestational age or hospital discharge. RESULTS: Four trials meeting selection criteria, which involved a total of 800 newborn premature infants, were included. Across trials, gestational age (mean ± SD) ranged from 26 ± 1 to 31 ± 2 weeks, birth weight from 775 ± 161 to 1588 ± 366 g, and mortality from 5%-32%. Mortality in the light-protected group was half of that in the light-exposed group (95% confidence interval, 0.32-0.87) and twice as high in males compared with females (χ2, P = .01). CONCLUSION: Shielding PN from light has vital repercussions that call for action to provide photoprotected delivery systems and infusion sets in premature infants. Further studies should be extended to the increasing number of children and adults receiving long-term home PN to evaluate the effects of light protection on severe complications that impede their quality of life.

Shielding Parenteral Nutrition Solutions From Light: A Randomized Controlled Trial.

INTRODUCTION: Oxidant stress is implicated in the pathogenesis of bronchopulmonary dysplasia (BPD). Light induces peroxide generation in parenteral nutrition (PN) solutions, creating an oxidant stress. Shielding PN from light decreases its peroxide content, which has nutrition and biochemical benefits in animals and humans. This study aims at determining whether full light protection of PN decreases the rate of bronchopulmonary dysplasia and/or death in very low-birth-weight infants. METHODS: Multicenter randomized controlled trial of photoprotection, using amber bags and tubing initiated during compounding of PN and maintained throughout infusion in the light-protected (LP) group. The control group (light exposed [LE]) received PN exposed to ambient light. Depending on centers, lipids were infused either separately or as all-in-one PN. RESULTS: In total, 590 infants born <30 weeks gestational age were included. At randomization, LE and LP groups did not differ clinically except for maximal FiO2 before 12 hours. The rate of BPD/death was not different between groups at 28 days (77% LP vs 72% LE, P = .16) or at 36 weeks corrected age (30% LP vs 27% LE, P = .55). Multivariate analysis showed no significant effect of photoprotection on BPD and/or death. The rate of BPD/death was significantly lower (odds ratio, 0.54; 95% confidence interval, 0.32-0.93; P = .02) in infants receiving all-in-one PN vs those who received lipids separately. CONCLUSION: This study did not show significant beneficial effects of photoprotection. Since the decreased rate of BPD/death found with all-in-one PN relates to a center-dependent variable, this warrants further investigation.