Metabolism and pharmacokinetics of morphine in neonates: A review

Morphine is an agonist of the µ and k receptors, whose activation results in analgesia. Morphine-like agonists act through the µ opioid receptors to cause pain relief, sedation, euphoria and respiratory depression. Morphine is glucuronidated and sulfated at positions 3 and 6; the plasma concentration ratios correlate positively with birth weight, which probably reflects increased liver weight with increasing birth weight. Moreover, morphine clearance correlates positively with gestational age and birth weight. Steady-state morphine plasma concentrations are achieved after 24-48 hours of infusion, but the glucuronide metabolite plasma concentrations do not reach steady state before 60 hours. The morphine-3-glucuronide metabolite has lower clearance, a shorter half-life and a smaller distribution volume compared with the morphine-6 metabolite, which is the most active morphine-like agonist. Ordinary doses cause constipation, urinary retention and respiratory depression. Neonatal pain relief may require a blood level of approximately 120 ng/ml, whereas lower levels (20-40 ng/ml) seem adequate for children. A bibliographic search was performed using the PubMed database and the keywords “morphine metabolism neonate” and “morphine pharmacokinetics neonate”. The initial and final cutoff points were January 1990 and September 2015, respectively. The results indicate that morphine is extensively glucuronidated and sulfated at positions 3 and 6, and that the glucuronidation rate is lower in younger neonates compared with older infants. Although much is known about morphine in neonates, further research will be required to ensure that recommended therapeutic doses for analgesia in neonates are evidence based.

Ibuprofen and indomethacin for the closure of the patent ductus arteriosus / Ibuprofen, indometacina e fechamento do canal arterial

The ductus arteriosus connects the pulmonary artery with the aorta and allows right ventricular blood to bypass the unexpanded lungs. In mature infants, the ductus arteriosus closes after birth. Patent ductus arteriosus occurs in 70% of preterm infants with a birth weight < 1,000 grams. Failure of the ductus arteriosus to close has been associated with intraventricular hemorrhage, necrotizing enterocolitis, bronchopulmonary dysplasia, periventricular leukomalacia, renal failure, and persistent pulmonary hypertension. The drugs used to treat the patent ductus arteriosus are ibuprofen and indomethacin which are potent non-selective inhibitors of cyclo-oxygenase (COX) and therefore inhibit prostaglandin E2 synthesis. Prostaglandin E2 relaxes smooth muscle and tends to inhibit the closure of the patent ductus arteriosus. Intravenous ibuprofen and indomethacin inhibit prostaglandin E2 synthesis and thereby close the patent ductus arteriosus with similar efficacy. Indomethacin reduces the blood flow velocity in kidneys, intestine and brain. Ibuprofen has less effect on blood flow velocity in these organs. There is a significant increase in serum creatinine after indomethacin administration but not after ibuprofen and infants treated with ibuprofen have higher creatinine clearance. Oliguria (urine output < 1 ml/kg/h) occurs more frequently with indomethacin than with ibuprofen. Indomethacin requires furosemide for urine output more often than ibuprofen. Ibuprofen reduces the risk of necrotizing enterocolitis and transient renal insufficiency and it is the drug of choice for closing the patent ductus arteriosus. Ibuprofen and indomethacin may be administered orally. In conclusion, intravenous ibuprofen and indomethacin close the patent ductus arteriosus at the same rate, but indomethacin is more toxic than ibuprofen.

O canal arterial conecta a artéria pulmonar com a aorta e permite que o sangue oriundo do ventrículo direito evite passar pelos pulmões fetais não expandidos. Em recém-nascidos maduros, o canal arterial se fecha após o nascimento. A persistência do canal arterial ocorre em 70% dos recém-nascidos prematuros com peso de nascimento < 1.000 gramas. O não fechamento do canal arterial associa-se a hemorragia intraventricular, enterocolite necrosante, displasia bronco-pulmonar, leucomalacia periventricular, insuficiência renal e hipertensão pulmonar persistente. Os medicamentos utilizados para tratar a persistência do canal arterial são o ibuprofeno e a indometacina. Ambos são potentes inibidores não seletivos da ciclo-oxigenase e inibem a síntese de prostaglandina E2. Esta relaxa a musculature vascular lisa e tende a inibir o fechamento do canal arterial. O ibuprofeno e a indometacina inibem a síntese de prostaglandina E2 e favorecem o fechamento do canal arterial. A indometacina reduz a velocidade do fluxo sanguíneo renal, intestinal e cerebral. O Ibuprofeno tem efeito menor sobre a velocidade do fluxo de sangue nesses órgãos. Há um aumento significativo da creatinina sérica após a administração de indometacina, mas não após o ibuprofeno; por isso, recém-nascidos tratados com ibuprofeno têm maior depuração da creatinina. A oligúria ocorre mais frequentemente com a indometacina vs. ibuprofeno. A indometacina requer furosemida para a produção de urina mais frequentemente do que o ibuprofeno. O ibuprofeno reduz o risco de enterocolite necrotizante e de insuficiência renal transitória e é a droga de escolha para o fechamento do canal arterial patente. O ibuprofeno e a indometacina podem ser ministrados por via oral. Em conclusão, o ibuprofeno e a indometacina fecham o canal arterial patente com a mesma velocidade, mas a indometacina é mais tóxica.

Clinical pharmacology of gentamicin in neonates: regimen, toxicology and pharmacokinetics / Farmacologia clínica da gentamicina em neonatos: modalidades de uso, toxicologia e farmacocinética

Gentamicin is an aminoglycoside antibiotic. It kills bacteria by inhibiting protein synthesis and to some extent by lysing the cell envelope. Gentamicin is frequently the first choice drug because of its reliability, but also because of the long experience with its use. In combination with β-lactam antibiotics it is recommended for the treatment of sepsis or pneumonia and is active against P. aeruginosa, Enterobacter, Klebsiella and Serratia. However, gentamicin is ototoxic and nephrotoxic. The human mitochondrial genetic variant m.1555A > G has been reported to be an important cause of non-syndromic hereditary hearing dysfunction and may cause permanent hearing loss. Even short courses of gentamicin therapy in healty newborn infants can lead to abnormalities of auditory function. It is active against very resistant bacteria at peak concentrations (> 10 mg/l) that are high enough to be potentially toxic. For safe therapeutic efficacy, peak plasma concentrations of gentamicin should range from 4 to 10 mg/l; but trough concentrations, immediately before a new drug administration, must be lower that 2 mg/L to avoid toxic effects. Pharmacokinetic parameters vary considerably in infants. Half-life ranges from 5.4 to 10.0 hours, clearance 0.50 to 1.71 ml/h/kg and distribution volume from 0.4 to 0.7 l/kg. Preterm infants have a longer half-life than full-term infants. Thus, it is mandatory to monitor gentamicin serum concentrations whenever infants are treated for 48 hours or more.

A gentamicina é antibiótico do grupo dos aminoglicosídeos. Destrói bactérias por inibição de síntese proteica e, em certa medida, por lise do envelope celular. A gentamicina é a droga de primeira escolha por causa de sua atividade confiável e em virtude de longa experiência com seu uso. Em combinação com antibióticos β-lactâmicos é recomendada para o tratamento de septicemia ou pneumonia e é ativa contra P. aeruginosa, Enterobacter, Klebsiella e Serratia. No entanto, a gentamicina é ototóxica e nefrotóxica. A variante genética mitocondrial humana m.1555A > G é tida como importante causa de disfunção auditiva hereditária não-sindrômica e pode causar perda permanente da audição. Até mesmo procedimentos terapêuticos de gentamicina de curta duração em recém-nascidos sadios podem levar a anormalidades da função auditiva. É ativa contra algumas espécies de bactérias apenas em concentrações de pico (> 10 mg/l) que são suficientemente altas para produzirem efeitos tóxicos. A gentamicina deve cair a concentrações mínimas menores que 2 mg/l para evitar efeitos tóxicos. Para produzir efeitos terapêuticos, as concentrações plasmáticas máximas de gentamicina deve variar de 4 a 10 mg/l. Os parâmetros farmacocinéticos variam consideravelmente em lactentes. A meia-vida varia entre 5,4-10,0 horas, o "clearance" varia entre 0,50 e 1,71 ml/h/kg e volume de distribuição de 0,4-0,7 l/kg. Em prematuros a meia-vida é mais longa do que a de crianças nascidas a termo. Por esses motivos, sempre que lactentes são tratadas durante 48 horas ou mais, monitorizar as concentrações séricas de gentamicina é essencial.

Effects of surfactants on preterm infant lungs / Efeitos de surfactantes nos pulmões de recém-nascidos prematuros

Lack of surfactant is the commonest cause of death in preterm infants. Their lungs may contain as little as 10 mg/ kg of surfactant at birth, a tenth of the amount normally found at term. Surfactants (animal origin or synthetic) can reduce mortality by 40% in infants with less than 30 weeks of gestation. Poractant is the surfactant derived from minced porcine lungs, Beractant from minced bovine lungs. Bronchoalveolar lavage with diluted poractant is effective in mechanically ventilated term infants with severe acute respiratory distress syndrome due to meconium aspiration syndrome. Nebulized surfactant and mask airway surfactant do not require intubation. Alternatively, surfactant may be administered via a thin catheter during spontaneous breathing. In conclusion, surfactants reduce the mortality in preterm infants.

RESUMO A falta de surfactante é a causa mais comum de morte em recém-nascidos prematuros. Os pulmões podem conter apenas 10% da quantidade encontrada a termo. Surfactantes (de origem animal ou sintética) podem reduzir a mortalidade em até 40% em crianças com menos de 30 semanas de gestação. O poractante é o surfactante derivado de pulmões suínos, o beractante e o calfactante derivam de pulmões bovinos. A lavagem bronco-alveolar com poractante diluído é eficaz em crianças nascidas a termo e sob ventilação mecânica com síndrome da angústia respiratória aguda grave secund´ria a aspiração de mecônio. Surfactante por nebulização e máscara de vias aéreas não necessitam de intubação. Como alternativa, o surfactante pode ser administrado através de um cateter fino durante a respiração espontânea. Em conclusão, os surfactantes reduzem a mortalidade em recém-nascidos prematuros.

Clinical pharmacology of methadone in neonates and in their mothers. A review / Farmacologia clínica da metadona em neonatos e suas mães: revisão

The outstanding properties of methadone are its analgesic activity, its efficacy by oral route, its extended duration of action in suppressing of withdrawal symptoms in physically dependent individuals, and its tendency to show persistent effects with repeated administration. The analgesic activity of methadone, a racemate, is almost entirely the result of its R-methadone content. Respiratory depression is the chief hazard associated with methadone, and its peak respiratory depressant effects typically occur later, and persist for longer than its peak analgesic effect, particularly in the early dosing period. Methadone undergoes extensive metabolism in the liver and the major metabolic pathway is N-demethylation by CYP3A4 and CYP2B6. There is a remarkable interindividual variability in the rate of methadone metabolism. Mothers with opioid addiction are often placed on methadone before delivery in an attempt to reduce illicit opioid usage. Methadone is useful because it can be taken orally, only requires one or two daily doses and has a long-lasting effect. Weaning should not be attempted during pregnancy and, because of increased clearance, the dose of methadone may need to be increased in the last 3 months of pregnancy. Significant positive correlations were found for umbilical cord methadone concentrations, methadone mean daily dose, mean dose during the third trimester, and methadone cumulative daily dose. In conclusion, umbilical cord methadone concentrations were correlated to methadone dose. A total of 55-94% of infants born to opioid-dependent mothers in US show signs of opioid withdrawal. Methadone is useful to avoid use of opioid illicit drugs.

As mais importantes propriedades da metadona são sua atividade analgésica, a sua eficácia por via oral, a sua prolongada acão supressora de sintomas de abstinência em indivíduos fisicamente dependentes e a persistência de seus efeitos com administração repetida. A actividade analgésica de metadona, um racemato, é quase inteiramente o resultado do seu teor de R-metadona. A depressão respiratória é o principal risco associado a seu uso, e o pico de depressão respiratória normalmente ocorre tardiamente e persiste após o fim de seu efeito analgésico especialmente durante as fases iniciais de seu uso terapêutico. A metadona é metabolizada no fígado e a principal via metabólica é a N-desmetilação por CYP3A4 e CYP2B6. Há uma variabilidade interindividual notável em relação à sua taxa de metabolisacão. Mães com dependência de opiáceos são frequentemente colocadas em terapêutica com metadona antes do parto, na tentativa de reduzir o uso de opiáceos ilícitos. A metadona é útil porque pode ser tomada por via oral, só precisa de uma ou duas doses diárias e tem efeito de longa duração. O desmame não deve ser executado durante a gravidez; por causa do aumento da depuração, a dose de metadona pode precisar ser aumentada nos últimos três meses de gravidez. Correlações positivas significativas foram encontradas para a metadona entre os seguintes parâmetros: concentrações no cordão umbilical, dose média diria, dose durante o terceiro trimestre, e dose diária média cumulativa. Em conclusão, as concentrações de cordão umbilical de metadona foram correlacionados com a dose de metadona. Entre 55% e 94% dos recém-nascidos de mães dependentes de opiáceos nos Estados Unidos mostram sinais de abstinência a opiáceos. A metadona é útil para evitar o uso de drogas ilícitas opióides.

Clinical pharmacokinetics of vancomycin in the neonate: a review

Neonatal sepsis is common and is a major cause of morbidity and mortality. Vancomycin is the preferred treatment of several neonatal staphylococcal infections. The aim of this study was to review published data on vancomycin pharmacokinetics in neonates and to provide a critical analysis of the literature. A bibliographic search was performed using PubMed and Embase, and articles with a publication date of August 2011 or earlier were included in the analysis. Vancomycin pharmacokinetic estimates, which are different in neonates compared with adults, also exhibit extensive inter-neonatal variability. In neonates, several vancomycin dosing schedules have been proposed, mainly based on age (i.e., postmenstrual and postnatal), body weight or serum creatinine level. Other covariates [e.g., extracorporeal membrane oxygenation (ECMO), indomethacin or ibuprofen, and growth restriction] of vancomycin pharmacokinetics have been reported in neonates. Finally, vancomycin penetrates cerebrospinal fluid (range = 7-42%). Renal function drives vancomycin pharmacokinetics. Because either age or weight is the most relevant covariate of renal maturation, these covariates should be considered first in neonatal vancomycin dosing guidelines and further adjusted by renal dysfunction indicators (e.g., ECMO and ibuprofen/indomethacin). In addition to the prospective validation of available dosing guidelines, future studies should focus on the relevance of therapeutic drug monitoring and on the value of continuous vancomycin administration in neonates.

Pharmacokinetics of cephalosporins in the neonate: a review

The aim of this work was to review the published data on the pharmacokinetics of cephalosporins in neonates to provide a critical analysis of the literature as a useful tool for physicians. The bibliographic search was performed for articles published up to December 3, 2010, using PubMed. In addition, the book Neofax: A Manual of Drugs Used in Neonatal Care by Young and Mangum was consulted. The cephalosporins are mainly eliminated by the kidneys, and their elimination rates are reduced at birth. As a consequence, clearance is reduced and t1/2 is more prolonged in the neonate than in more mature infants. The neonate's substantial body water content creates a large volume of distribution (Vd) of cephalosporins, as these drugs are fairly water soluble. Postnatal development is an important factor in the maturation of the neonate, and as postnatal age proceeds, the clearance of cephalosporins increases. The maturation of the kidney governs the pharmacokinetics of cephalosporins in the infant. Clearance and t1/2 are influenced by development, and this must be taken into consideration when planning a cephalosporin dosage regimen for the neonate.