Aida Kulo

Prospective assessment of short-term propylene glycol tolerance in neonates

Introduction Propylene glycol (PG) is an unintentional frequently administered solvent in neonates despite the fact that PG accumulation potentially results in hyperosmolarity, lactic acidosis and renal/hepatic toxicity. Methods Prospective evaluation of renal (diuresis, creatinaemia, sodium), metabolic (base excess, anion gap, lactate, bicarbonate) and hepatic (alanine transaminase, aspartate aminotransferase, direct bilirubinaemia) tolerance to PG in (pre)term neonates following intravenous administration of formulations (paracetamol, phenobarbital, digoxin) that contain PG. Observations from 48 h before up to 48 after the last PG administration were described and compared (paired analysis). Clinical characteristics and observations collected following intravenous PG-paracetamol administration were compared with a historical cohort of neonates in whom similar (renal, hepatic) observations during exposure to a mannitol-containing paracetamol formulation were collected. Results 5566 observations were collected in 69 neonates before, during and following median PG exposure of 34 mg/kg/24 h (range 14–252). Progressive postnatal adaptation in renal, metabolic and hepatic function was documented, unrelated to the PG exposure. In the subgroup of 40 cases treated with intravenous PG-paracetamol, observations on renal and hepatic function were similar to a historical cohort of published observations following exposure to intravenous mannitol-paracetamol. Conclusions Unintended PG administration (34 mg/kg/24 h) for a maximum of 48 h seems to be tolerated in (pre)term neonates and does not affect short-term postnatal adaptations. Further studies on PG disposition and the level of safe exposure to PG, including long-term safety data in neonates are needed.

Pharmacokinetics of paracetamol and its metabolites in women at delivery and post‐partum

AIM A recent report on intravenous (i.v.) paracetamol pharmacokinetics (PK) showed a higher total clearance in women at delivery compared with non-pregnant women. To describe the paracetamol metabolic and elimination routes involved in this increase in clearance, we performed a population PK analysis in women at delivery and post-partum in which the different pathways were considered. METHODS Population PK parameters using non-linear mixed effect modelling were estimated in a two-period PK study in women to whom i.v. paracetamol (2 g loading dose followed by 1 g every 6 h up to 24 h) was administered immediately following Caesarean delivery and in a subgroup of the same women to whom single 2 g i.v.loading dose was administered 10-15 weeks post-partum. RESULTS Population PK analysis was performed based on 255 plasma and 71 urine samples collected in 39 women at delivery and in eight of these 39 women 12 weeks post-partum. Total clearance was higher in women at delivery compared with 12th post-partum week (21.1 vs. 11.7 l h⁻¹) due to higher clearances to paracetamol glucuronide (11.6 vs. 4.76 l h⁻¹), to oxidative metabolites (4.95 vs. 2.77 l h⁻¹) and of unchanged paracetamol (1.15 vs. 0.75 l h⁻¹). In contrast, there was no difference in clearance to paracetamol sulphate. CONCLUSION The increased total paracetamol clearance at delivery is caused by a disproportional increase in glucuronidation clearance and a proportional increase in clearance of unchanged paracetamol and in oxidation clearance, of which the latter may potentially limit further dose increase in this patient group.

Does intravenous paracetamol administration affect body temperature in neonates

Introduction Intravenous paracetamol (actaminophen) has recently been registered for treatment of pain in neonates but the pharmacodynamics, including effects on body temperature, have not been reported. Methods A pooled analysis on body temperature recordings in neonates exposed to intravenous paracetamol was performed. Body temperature was recorded by skin probe and registered before and every 2 h following initiation of single or repeated intravenous paracetamol administration (up to 48 h). Repeated measures ANOVA and paired analysis were used to quantify differences following paracetamol exposure. Results The pooled analysis was based on 99 neonates (median weight 2.7 (range 0.5–5.4) kg, median postmenstrual age 37 (range 27–50) weeks). Based on observations in 93 normothermic (<37.8°C) neonates and six neonates with fever, it was documented that paracetamol administration does not affect body temperature in normothermic patients. In neonates with fever, the median decrease (−0.8°C) is most prominent in the first 2 h (p<0.01) following paracetamol administration with subsequent further normalisation. Conclusions Administration of intravenous paracetamol does not result in hypothermia in normothermic neonates. In those with fever, maximal temperature reduction is achieved within 2 h following paracetamol administration.

Pharmacokinetics of a loading dose of intravenous paracetamol post caesarean delivery

BACKGROUND The postpartum period affects drug disposition, but data of intravenous paracetamol loading dose pharmacokinetics immediately following caesarean delivery have not yet been reported. METHODS Immediately following caesarean delivery, women received a 2-g loading dose of intravenous paracetamol. Plasma samples were collected at 1, 2, 4 and 6 h. Individual pharmacokinetics were calculated assuming a linear one-compartment model with instantaneous input and first-order output. Data were reported using median and range. RESULTS Twenty-eight patients undergoing caesarean delivery were recruited (age 31.5 [20-42] years, weight 79 [57-110] kg, body surface area 1.9 [1.5-2.4]m(2)). Median paracetamol plasma concentrations after 1, 2, 4 and 6 h were 22.5, 15.25, 7.9, and 3.9 mg/L respectively. Paracetamol clearance was 20.3 (11.8-62.8) L/h or 10.9 (7-23.8)L/hm(2), distribution volume 58.3 (42.9-156) L or 0.72 (0.52-1.56) L/kg. CONCLUSION Pharmacokinetics of intravenous paracetamol have been estimated following caesarean delivery. Although limited to a loading dose shortly after surgery, the results are clinically relevant since this is the first description in this patient population. These data provide evidence on which to base further integrated pharmacokinetic/pharmacodynamic studies in peripartum analgesia.

The amikacin research program: a stepwise approach to validate dosing regimens in neonates

ABSTRACT Introduction: For safe and effective use of antibacterial agents in neonates, specific knowledge on the pharmacokinetics (PK) and its covariates is needed. This necessitates a stepwise approach, including prospective validation. Areas covered: We describe our approach throughout almost two decades to improve amikacin exposure in neonates. A dosing regimen has been developed and validated using pharmacometrics, considering current weight, postnatal age, perinatal asphyxia, and ibuprofen use. This regimen has been developed based on clinical and therapeutic drug monitoring (TDM) data collected during routine care, and subsequently underwent prospective validation. A similar approach has been scheduled to quantify the impact of hypothermia. Besides plasma observations, datasets on deep compartment PK were also collected. Finally, the available literature on developmental toxicology (hearing, renal) of amikacin is summarized. Expert opinion: The amikacin model reflects a semi-physiological function for glomerular filtration. Consequently, this model can be used to develop dosing regimens for other aminoglycosides or to validate physiology-based pharmacokinetic models. Future studies should explore safety with incorporation of covariates like pharmacogenetics, biomarkers, and long-term outcomes. This includes a search for mechanisms of developmental toxicity. Following knowledge generation and grading the level of evidence in support of data, dissemination and implementation initiatives are needed.

Biochemical tolerance during low dose propylene glycol exposure in neonates: A formulation-controlled evaluation

Background and purpose of the studyPropylene glycol (PG) is a frequently co-administered solvent in formulations administered to neonates, but reports on its (in)tolerance are limited. We aimed to report on renal, metabolic and hepatic tolerance before, during and following intravenous (iv) PG-paracetamol exposure and compared these data with similar datasets reported in literature on neonates exposed to PG without paracetamol or paracetamol without PG.MethodsRenal (diuresis, creatinemia, sodium), metabolic (Base Excess, Anion Gap, lactate, bicarbonate) and hepatic (liver enzymes, bilirubinemia) indicators before, during and following iv paracetamol-PG exposure in neonates as included in the PARANEO (para cetamol in neo nates) study (intra-individual trends, ANOVA) were collected and analysed. Comparison with observations collected in cases exposed to either iv phenobarbital-PG or iv paracetamol-mannitol (inter-individual comparison, Mann Whitney-U test) were made.ResultsPG exposure (median 34.1 mg/kg/24 h) did not affect postnatal renal, metabolic and hepatic adaptations in 60 cases exposed to paracetamol-PG. These indicators were similar when compared to 29 cases exposed to phenobarbital-PG or 172 cases exposed to paracetamol-mannitol.Major conclusionBased on observations in 89 neonates, low dose PG exposure was tolerated well. Studies on PG pharmacokinetics and its covariates are needed to estimate the upper level of PG tolerance in neonates.

The impact of Caesarean delivery on paracetamol and ketorolac pharmacokinetics: a paired analysis.

Pharmacokinetics is a first, but essential step to improve population-tailored postoperative analgesia, also after Caesarean delivery. We therefore aimed to quantify the impact of caesarean delivery on the pharmacokinetics of intravenous (iv) paracetamol (2 g, single dose) and iv ketorolac tromethamine (30 mg, single dose) in 2 cohorts eachof 8 women at caesarean delivery and to compare these findings with postpartum to quantify intrapatient changes. We documented a higher median paracetamol clearance at delivery when compared to 10–15 weeks postpartum (11.7 to 6.4 L/h·m2, P < 0.01), even after correction for weight-related changes. Similar conclusions were drawn for ketorolac: median clearance was higher at delivery with a subsequent decrease (2.03 to 1.43 L/h·m2, P < 0.05) in postpartum (17–23 weeks). These differences likely reflect pregnancy- and caesarean-delivery-related changes in drug disposition. Moreover, postpartum paracetamol clearance was significantly lower when compared to estimates published in healthy young volunteers (6.4  versus  9.6 L/h·m2), while this was not the case for ketorolac (1.43  versus  1.48 L/h·m2). This suggests that postpartum is another specific status in young women that merits focused, compound-specific pharmacokinetic evaluation.

Pharmacokinetics of intravenous ketorolac following caesarean delivery

BACKGROUND Drug disposition is altered by pregnancy and the peripartum period but data on intravenous ketorolac pharmacokinetics following caesarean delivery have not been previously reported. METHODS At the end of caesarean delivery, women received an intravenous bolus of ketorolac tromethamine 30 mg (immediate postpartum, Group IP). Plasma samples were collected at 1, 2, 4, 6 and 8h. A similar pharmacokinetic study was repeated in a subgroup of these women 4-5 months after delivery (late postpartum, Group LP) and in a group of unrelated, healthy non-pregnant female volunteers (controls, Group C). A non-compartmental linear disposition model was applied to analyse individual ketorolac time-concentration profiles. Results at delivery were compared with controls using unpaired or paired statistics as appropriate. Covariates of pharmacokinetic estimates at delivery were examined. RESULTS Thirty-nine women were studied at caesarean delivery, of whom eight were re-evaluated 4-5 months later. In addition, eight volunteers were studied. Clearance in Group IP was higher compared to Groups LP and C (2.11 vs. 1.43 and 1.07 L/h·m(2) respectively, P<0.05). Volume of distribution was also increased in Group IP compared to Groups LP and C (0.24 vs. 0.16 and 0.17 L/kg respectively, P<0.05). No significant covariates of pharmacokinetic estimates, including gestational age, preterm vs. term, twin vs. singleton and maternal co-morbidity, were seen in Group IP. CONCLUSIONS Ketorolac clearance and distribution volume are significantly increased following caesarean delivery. These data provide pharmacokinetic estimates on which to base studies on post caesarean analgesia.

Amikacin pharmacokinetics to optimize dosing in neonates with perinatal asphyxia treated with hypothermia

ABSTRACT Aminoglycoside pharmacokinetics (PK) is expected to change in neonates with perinatal asphyxia treated with therapeutic hypothermia (PATH). Several amikacin dosing guidelines have been proposed for treating neonates with (suspected) septicemia; however, none provide adjustments for cases of PATH. Therefore, we aimed to quantify the differences in amikacin PK between neonates with and without PATH to propose suitable dosing recommendations. Based on amikacin therapeutic drug monitoring data collected retrospectively from neonates with PATH, combined with a published data set, we assessed the impact of PATH on amikacin PK by using population modeling. Monte Carlo and stochastic simulations were performed to establish amikacin exposures in neonates with PATH after dosing according to the current guidelines and according to proposed model-derived dosing guidelines. Amikacin clearance was decreased 40.6% in neonates with PATH, with no changes in volume of distribution. Simulations showed that increasing the dosing interval by 12 h results in a decrease in the percentage of neonates reaching toxic trough levels (>5 mg/liter), from 40 to 76% to 14 to 25%, while still reaching efficacy targets compared to the results of current dosing regimens. Based on this study, a 12-h increase in the amikacin dosing interval in neonates with PATH is proposed to correct for the reduced clearance, yielding safe and effective exposures. As amikacin is renally excreted, further studies into other renally excreted drugs may be required, as their clearance may also be impaired.

Estradiol and Weight Are Covariates of Paracetamol Clearance in Young Women

Aim: Paracetamol clearance differs between pregnant and non-pregnant women and between women with or without specific oral contraceptives (OCs). However, an association between female sex hormones and paracetamol clearance has never been explored. Methods: In total, 49 women at delivery, 8 female control subjects without OC use, historical data of 14 women taking OCs, and 15 postpartum observations with and without OCs were pooled to explore covariates of paracetamol clearance. All received a single intravenous 2-gram paracetamol dose, and blood samples were collected up to 6 h after dosing. High-performance liquid chromatography was used to quantify paracetamol. The area under the curve to time infinity (AUC0-∞) was determined and clearance (l/h·m2) was calculated by dose/ AUC0-∞. In addition, estradiol and progesterone were quantified by ELISA with electro-chemiluminescence. Results: Median paracetamol clearance at delivery was significantly higher when compared to postpartum or non-pregnant women (11.9 vs. 6.42 and 8.4 l/h·m2, at least p < 0.05), while an association between paracetamol clearance and estradiol was observed (R = 0.494, p < 0.0001). In non-pregnant subjects, there was no impact of OC exposure on paracetamol clearance. Multiple regression revealed a linear association (Radj = 0.41, p < 0.001) between paracetamol clearance and weight (p = 0.0462) and estradiol (p < 0.0001). Conclusion: Estradiol and weight in part explain the variation in paracetamol clearance in young women.