Physicochemical Stability and Sterility of Standard Parenteral Nutrition Solutions and Simulated Y-Site Admixtures for Neonates

Physicochemical Compatibility of Ceftolozane-Tazobactam with Parenteral Nutrition

Ceftolozane-tazobactam (CT) is used for the treatment of complicated infections and for multidrug-resistant strains of Pseudomonas aeruginosa and extended-spectrum beta-lactamase-producing enterobacteria. In certain cases, simultaneous administration of CT and parenteral nutrition (PN) may be required, but compatibility of Y-site co-administration is unknown. The aim of this study was to analyse the physicochemical compatibility of CT Y-site administered with PN. We evaluated a protocolized PN approach for critical patients in our center. We studied both bolus infusion (2 g ceftolozane/1 g tazobactam in 1 h) and continuous infusion (CI) (6 g ceftolozane/3 g tazobactam) strategies. Samples were visually observed against light, microscopically inspected, and pH was analysed using a pH meter. The mean lipid droplet diameter (MDD) was determined via dynamic light scattering. CT concentration was quantified using HPLC-HRMS. No alterations were observed through visual or microscopic inspection. Changes in pH were ≤0.2, and changes in osmolarity were less than 5%. MDD remained below 500 nm (284.5 ± 2.1 for bolus CT and 286.8 ± 7.5 for CI CT). CT concentrations at t = 0 h and t = 24 h remained within prespecified parameters in both infusion strategies. CT is physiochemically compatible with PN during simulated Y-site administration at the tested concentration and infusion rates.

Nutritional Strategies for Preterm Neonates and Preterm Neonates Undergoing Surgery: New Insights for Practice and Wrong Beliefs to Uproot

The nutrition of preterm infants remains contaminated by wrong beliefs that reflect inexactitudes and perpetuate old practices. In this narrative review, we report current evidence in preterm neonates and in preterm neonates undergoing surgery. Convictions that necrotizing enterocolitis is reduced by the delay in introducing enteral feeding, a slow advancement in enteral feeds, and the systematic control of residual gastric volumes, should be abandoned. On the contrary, these practices prolong the time to reach full enteral feeding. The length of parenteral nutrition should be as short as possible to reduce the infectious risk. Intrauterine growth restriction, hemodynamic and respiratory instability, and patent ductus arteriosus should be considered in advancing enteral feeds, but they must not translate into prolonged fasting, which can be equally dangerous. Clinicians should also keep in mind the risk of refeeding syndrome in case of high amino acid intake and inadequate electrolyte supply, closely monitoring them. Conversely, when preterm infants undergo surgery, nutritional strategies are still based on retrospective studies and opinions rather than on randomized controlled trials. Finally, this review also highlights how the use of adequately fortified human milk is strongly recommended, as it offers unique benefits for immune and gastrointestinal health and neurodevelopmental outcomes.

Systematic Review on Individualized Versus Standardized Parenteral Nutrition in Preterm Infants

The need for high quality evidence is recognized for optimizing practices of parenteral nutrition (PN). The purpose of the present systematic review is to update the available evidence and investigate the effect of standardized PN (SPN) vs. individualized PN (IPN) on protein intake, immediate morbidities, growth, and long-term outcome in preterm infants. A literature search was performed on articles published in the period from 1/2015 to 11/2022 in PubMed and Cochrane database for trials on parenteral nutrition in preterm infants. Three new studies were identified. All new identified trials were nonrandomized observational trials using historical controls. SPN may increase weight and occipital frontal circumference gain and lower the value of maximum weight loss. More recent trials suggest that SPN may easily increase early protein intake. SPN may reduce the sepsis incidence, but overall, no significant effect was found. There was no significant effect of standardization of PN on mortality or stage ≥2 necrotizing enterocolite (NEC) incidence. In conclusion SPN may improve growth through higher nutrient (especially protein) intake and has no effect on sepsis, NEC, mortality, or days of PN.

One-chamber and two-chamber parenteral nutrition admixtures for pediatric and adult patients: An evaluation of physico-chemical stability at room and cold temperature

OBJECTIVES

The aim of this study was to evaluate the physico-chemical stability of compounded total parenteral nutrition admixtures through peroxidation assay and ultraviolet-visible spectroscopy, high-performance liquid chromatography analysis, nuclear magnetic resonance spectrometry, pH meter, and dynamic light scattering.

METHODS

The present study considered parenteral nutrition (PN) admixtures for pediatric and adult patients. The admixtures were characterized by a high content of vitamins and trace elements. They were prepared in one- or two-chamber bags in the hospital pharmacy using an automatic compounding system in a sterile room with laminar airflow at different temperature conditions and light exposure. The experiment setup comprised fat emulsions, lipid-free PN solutions, and single-chamber bags before and after adding vitamins and trace elements. The stability at room temperature (+25°C) and cold temperature (+2-8°C) was assessed by various means.

RESULTS

Two-compartment admixtures, single-chamber bags, and all-in-one PN supplemented with vitamins and trace elements are stable up until 35, 9, and 7 d, respectively, when protected from light and stored at +2 to 8°C. Also, the supplemented single-chamber PN was found to be stable up to 48 h when stored at +25°C with light exposure.

CONCLUSIONS

The results obtained will help improve PN management at the compounding center and in hospital wards, because they allow for the extension of the validity time frame provided so far by the different formulations and, therefore, therapy scheduling over several days.

Compatibility of intravenous metronidazole with some all-in-one parenteral nutrition regimens

OBJECTIVES

Supplementation of parenteral nutrition (PN) admixtures with other parenteral drugs may be desired especially in the case of polypharmacy and limited vascular access. Metronidazole (MTZ) is administered in surgical and critically ill patients often requiring concomitant nutritional therapy in the form of parenteral nutrition. The aim of the study was to evaluate the possibility of the concomitant administration of MTZ with PN admixtures from one container.

METHODS

MTZ (1500 mg) was combined with six different PN admixtures and stored for 7 days before the simulation of administration. The mean droplet size (MDS) of the lipid emulsion, zeta potential, color, and pH of the tested samples were determined every 24 h. The content of MTZ was determined by the high-performance liquid chromatography method within the same time frames.

RESULTS

PN admixtures supplemented with MTZ were characterized by a pH range from 6.19 to 6.38 and zeta potential range from -21.6 mV to -8.8 mV. For all samples the pharmacopeial criteria for intravenously administered emulsions were met: The visual inspection showed no sign of emulsion destabilization or precipitation, and the MDS was <500 nm. The MTZ content remained >90% of the initial value throughout the whole study period.

CONCLUSIONS

Results showed the physicochemical compatibility and stability of PN admixtures supplemented with MTZ at the dose of 1500 mg. Such formulations can be stored at a temperature of 5°C for up to 7 d before administration to the patient.

Safe Practice of Y-Site Drug Administration: The Case of Colistin and Parenteral Nutrition

A serious problem in everyday clinical practice is the co-administration of drugs using the same infusion line. Potential complications of co-administration of incompatible drugs include precipitation in the infusion line or central venous catheter leading to its occlusion. Administration of precipitate and large lipid droplets into the venous system may lead to the embolization of capillaries and local or systemic inflammatory reactions, with the consequences of venous thrombosis, chronic venous insufficiency, and even pulmonary embolism. The co-administration of drugs must always be confirmed and clearly defined. The study aimed to determine the interaction between colistin (COL) in the dose used during intermittent hemodialysis and five different ready-to-use PN admixtures (PN) (Kabiven, Smofkabiven, Olimel N9E, Nutriflex Lipid Special, and Nutriflex Omega Special). COL-PN compatibilities were tested by comparing physicochemical properties (pH, zeta potential, lipid emulsion particle size) of COL and PN at three time points: immediately after sample preparation, after ten minutes, and after four hours. No changes in the visual inspection were observed. Both PN without COL and COL-PN samples remained white, homogeneous oil-in-water emulsions with no signs of phase separation, precipitation, or color change. There were no significant changes in pH, and the mean droplet diameter remained below the acceptance limit of 500 nm. The zeta potential and osmolality of COL-PN samples ranged from -21.4 to -7.22 mV and from 567 to 1304 mOsm/kg, respectively. The COL does not influence the physical stability of studied PN admixtures. The co-infusion of COL with Kabiven, Nutriflex Lipid Special, Olimel N9E, Nutriflex Omega Special, and Smofkabiven is possible in the dose used during intermittent hemodialysis.

[Neonatal parenteral nutrition formulation: where are we?]

Introduction

Introduction: the introduction of parenteral nutrition in preterm infants has meant a major advance in their prognosis, being the last few years very fruitful in terms of publication of guidelines in this area. Objectives: to know the formulation and preparation procedures of neonatal parenteral nutrition (NPN) in Spanish hospitals. Methods: a multi-centre survey was conducted in Pharmacy Services on the aforementioned processes. Results: fifty-five hospitals met inclusion criteria. Electronic prescription systems were use by 51 %, 65.5 % always formulated individually, while 34.4 % had predesigned formulas. Tricameral preparations were used by 13.0 %. In 52.7 % of cases, first day nutrition was prepared on demand, starting before 8 hours of life in 88.1 % of cases. Inorganic phosphate was the first option in 10.4 %, vitamins, trace elements and zinc were added daily in 92.7 %, 90.9 % and 70.9 % of cases, respectively. NPN including lipids in the same bag was formulated by 45.4 % of the hospitals, compared to 34.5 % where it was administered separately in all cases. In 50.9 % of hospitals they never added heparin to their NPN. The 89.1 % used photoprotected bags. The stability of the admixture varied from 24 hours to 15 days. Conclusion: the elaboration of the PPN in Spain is subject to great variability. There is controversy regarding the use of heparin and ternary mixtures, which is reflected in the variability of clinical practice.

Development, Validation, and Stability Assessment Application of RP-HPLC-DAD Method for Quantification of Ampicillin in Total Parenteral Nutrition Admixtures

BACKGROUND

The administration of total parenteral nutrition (TPN) is a common procedure in intensive care units, where the concomitant use of other intravenous medication is frequently needed. One of the particularly dangerous complications for neurosurgical patients is meningitis, for which high doses of ampicillin (AMP) are used. In such cases, the addition of AMP to TPN admixtures would be a desirable procedure. Thus, the AMP determination method in TPN admixture was developed and validated.

METHODS

An isocratic HPLC analysis was performed on a LiChrospher C18 end-capped column (250 mm, 4.6 mm, 5 µm) with a C18 pre-column (LiChrospher 100, 4 mm, 5 µm). The flow rate was 1.0 mL min^-1 and the detection wavelength was 230 nm. System suitability parameters, such as capacity factor, numbers of the theoretical plate, asymmetry factor, as well as validation parameters, including method precision, accuracy, linearity, selectivity, and robustness, were set up.

RESULTS

The method was shown to be linear, precise, accurate, specific, and robust, and it can be used for the quantitative analysis of AMP in TPN admixtures.

CONCLUSIONS

The degradation of AMP in the TPN admixtures occurred according to first order kinetics. The degradation rate was high and dependent on the composition of the mixture and the storage conditions (t_0.5 varied from 142.44 h to 300.45 h).

In vitro compatibility studies of vancomycin with ready-to-use parenteral nutrition admixtures for safer clinical practice

BACKGROUND & AIMS

A co-infusion of parenteral nutrition (PN) and other drugs is often necessary in patients with a limited number of vascular access sites. This practice increases the risk of interaction between drugs and PN admixtures that may be manifested as drug precipitation or lipid emulsion destabilization. The present study aimed to determine the compatibility between vancomycin (VMC) and five ready-to-use PN admixtures utilized worldwide (Kabiven, Nutriflex Lipid Special, Olimel N9E, Nutriflex Omega Special, and Smofkabiven) in order to assess the possibility of their co-administration via Y-sites.

METHODS

VMC and PN admixtures were mixed at three volume ratios (1:1, 1.5:1, and 3:1) and potential interactions were examined using visual inspection, pH and osmolality measurements, as well as particle size and zeta potential determination. The analyses were conducted immediately after sample preparation and after 4 h of storage.

RESULTS

The PN admixtures were characterized by the pH in the range from 5.44 to 6.23, the osmolality in the range from 1169 ± 3 mOsm/kg H₂O to 1929 ± 6 mOsm/kg H₂O. The zeta potential of the PN admixtures was between -12.97 ± 0.86 mV and -4.55 ± 0.45 mV. The particle size, expressed as mean droplet diameter (MDD) ranged from 226.8 ± 4.2 nm to 281.6 ± 6.3 nm. The addition of VMC to PN admixtures caused a decrease in the pH, osmolality, and zeta potential. The MDD values for all samples were below 500 nm, except VMC-Olimel N9E at the volume ratio 1:1 (v/v), for which MDD = 805 nm. The presence of lipid particles exceeded the size of 4000 nm was observed for VMC-Olimel N9E and VMC-Smofkabiven.

CONCLUSIONS

We suggest that a simultaneous administration of VMC with PN admixtures containing olive oil should be avoided. As we established, this type of emulsion is less stable and tends to form agglomerates when combined with VMC. However, as demonstrated in our study, when it is necessary to co-administer VMC with PN admixtures, this is possible with Kabiven, Nutriflex Lipid Special, and Nutriflex Omega Special at volume ratios of 1:1, 1.5:1, and 3:1.

Effect of Lipid Emulsion on Stability of Ampicillin in Total Parenteral Nutrition

Background: Ampicillin (AMP) is frequently administered parenterally in critically ill patients with meningitis or endocarditis. Many of them require parallel infusion of total parenteral nutrition (TPN) admixtures. The aim of the study was to determine the physicochemical stability of AMP in TPN admixtures. Methods: AMP was added to two formulations of TPN admixtures differing in the lipid emulsion (Lipofundin^® MCT/LCT 20% or LIPIDem^®). Samples were stored at 4 ± 1 °C with light protection, and at 25 ± 1 °C with and without light protection to assess the impact of temperature and light on formulation stability. Every 24 h the pH, zeta potential, mean droplet diameter (MDD) of a lipid emulsion, and AMP concentration using HPLC method were determined. The assessment of stability and compatibility of TPN admixtures with vitamins and trace elements was carried out immediately after preparation and after 24 h of storage. Results: The addition of AMP as well as vitamins and trace elements to the TPN admixtures did not affect their physical stability. An increase in the pH value of approx. 0.6 and reduction of zeta potential were observed. The MDD of the lipid emulsions was below the limit of 500 nm (dynamic light scattering (DLS) method) and no fat droplets greater than 525 nm were observed (light diffraction (LD) method). The content of AMP after the first 24 h was within the acceptable limit of 90% for TPN admixtures stored at 4 ± 1 °C and 25 ± 1 °C with light protection. Conclusions: The results showed that co-administration of AMP in the same bag with TPN admixture at the tested dose is possible when used ex tempore and with light protection.