Zinc Phosphide Poisoning: From A to Z.

Zinc phosphide is a rodenticide that is used in agricultural, urban and industrial environments in México. After ingestion, it reacts with hydrochloric acid, hydrolyzing into phosphine. It causes cellular hypoxia via mitochondrial toxicity, resulting in multiple organ dysfunction and death. There is no antidote or specific treatment for zinc phosphide toxicity. We present the case of a 45-year-old female who ingested zinc phosphide with suicidal intent. On arrival at the emergency department, she had multisystemic disorders. Supportive care, decontamination and antidotal therapy were initiated. Subsequently, she evolved to clinical improvement with a resolution of the biochemical abnormalities of tissue hypoperfusion. She was discharged on day 7 without complications. In this review, we provide updated therapeutic options and discuss their specific pathophysiological basis.

Altered profile of plasma phospholipids in woman with recurrent pregnancy loss and recurrent implantation failure treated with lipid emulsion therapy.

BACKGROUND: Recurrent Pregnancy Loss (RPL) and Recurrent Implantation Failure (RIF) are highly heterogeneous condition and many of the mechanisms involved still require elucidation. The aim was to analyze the lipidomic profile in plasma of women with RPL and RIF before and after receiving the Lipid Emulsion Therapy (LET) containing 10% fish oil (SMOFlipid® 20%). METHODS: This study included twenty-six women with RPL or RIF from immunological or inflammatory causes, with elevated natural killer cell levels and divided into a Pregnancy Loss or a Live Birth group according to the outcome. The women received intravenous LET and sample collecting was done before the first, third and fifth dose of LET in the pregnant women. Ultra-performance liquid chromatography quadrupole time of flight mass spectrometry (UPLC-QTOF MS) and multivariate statistical methods were performed to evaluate the profile of phospholipids present in the women's plasma. RESULTS: An increase of phosphatidylcholines (PC) 40:8 and 36:5 levels with predominance of n6 polyunsaturated fatty acids (PUFA) was observed in plasma lipids of the Pregnancy Loss Group compared to Live Birth Group. We also observed an increase in the relative abundance of n3 PUFA-PC species (42:10 and 36:6) and LysoPC 15:0 with the long term use of LET. CONCLUSION: The greater availability of n3 PUFA in plasma of the pregnant women stemming from LET use can be considered advantageous regarding the alteration of the phospholipid profile and its postulated anti-inflammatory and immunomodulatory role.

Use of Intravenous Soybean and Fish Oil Emulsions in Pediatric Intestinal Failure-Associated Liver Disease: A Multicenter Integrated Analysis Report on Extrahepatic Adverse Events.

OBJECTIVE: To compare extrahepatic adverse events during fish oil lipid emulsion (FOLE) or soybean oil lipid emulsion (SOLE) treatment in children with intestinal failure-associated liver disease (IFALD). STUDY DESIGN: In this multicenter integrated analysis, bleeding, bronchopulmonary dysplasia (BPD), retinopathy of prematurity (ROP), infections, and signs of lipid emulsion intolerance were compared between FOLE recipients (1 g/kg/d) (n = 189) and historical controls who received SOLE (≤3 g/kg/d) (n = 73). RESULTS: When compared with SOLE recipients, FOLE recipients had a lower gestational age (30.5 vs 33.0 weeks; P = .0350) and higher baseline direct bilirubin (DB) (5.8 vs 3.0 mg/dL; P < .0001). FOLE recipients had a decreased incidence of bleeding (P < .0001), BPD (P < .001), ROP (P < .0156), bacterial and fungal infections (P < .0001), and lipid intolerance signs (P < .02 for all). Patients with bleeding vs patients without bleeding had higher baseline DB; the ORs for baseline DB (by mg/dL) and treatment (FOLE vs SOLE) were 1.20 (95% CI: 1.10, 1.31; P ≤ .0001) and 0.22 (95% CI: 0.11, 0.46; P ≤ .0001), respectively. In preterm infants, a higher BPD (P < .0001) and ROP incidence (P = .0071) was observed in SOLE recipients vs FOLE recipients. CONCLUSIONS: Children with IFALD who received FOLE had fewer extrahepatic adverse events, including a decreased incidence of bleeding, preterm comorbidities, and lipid intolerance signs compared with children with IFALD who received SOLE. TRIAL REGISTRATION CLINICALTRIALS.GOV: NCT00910104 and NCT00738101.

Fish Oil Emulsion Reduces Liver Injury and Liver Transplantation in Children with Intestinal Failure-Associated Liver Disease: A Multicenter Integrated Study.

OBJECTIVE: To compare the aspartate aminotransferase to platelet ratio index, liver transplantation, and mortality rates between children with intestinal failure-associated liver disease who received fish oil lipid emulsion (FOLE) or soybean oil intravenous lipid emulsion (SOLE). STUDY DESIGN: In this multicenter integrated analysis, FOLE recipients (1 g/kg/d) (n = 189) were compared with historical controls administered SOLE (≤3 g/kg/d) (n = 73). RESULTS: Compared with SOLE, FOLE recipients had a higher direct bilirubin level at baseline (5.8 mg/dL vs 3.0 mg/dL; P < .0001). Among FOLE recipients, 65% experienced cholestasis resolution vs 16% of SOLE recipients (P < .0001). The aspartate aminotransferase to platelet ratio index scores improved in FOLE recipients (1.235 vs 0.810 and 0.758, P < .02) but worsened in SOLE recipients (0.540 vs 2.564 and 2.098; P ≤ .0003) when baseline scores were compared with cholestasis resolution and end of study, respectively. Liver transplantation was reduced in FOLE vs SOLE (4% vs 12%; P = .0245). The probability of liver transplantation in relation to baseline direct or conjugated bilirubin (DB) was lower in FOLE vs SOLE recipients (1% vs 9% at DB of 2 mg/dL; 8% vs 35% at DB of 12.87 mg/dL; P = .0022 for both). Death rates were similar (FOLE vs SOLE: 10% vs 14% at DB of 2 mg/dL; 17% vs 23% at a DB of 12.87 mg/dL; P = .36 for both). CONCLUSIONS: FOLE recipients experienced a higher rate of cholestasis resolution, lower aspartate aminotransferase to platelet ratio index, and fewer liver transplants compared with SOLE. This study demonstrates that FOLE may be the preferred parenteral lipid emulsion in children with intestinal failure-associated liver disease when DB reaches 2 mg/dL. TRIAL REGISTRATION: Clinicaltrials.gov: NCT00910104 and NCT00738101.

High Early Parenteral Lipid in Very Preterm Infants: A Randomized-Controlled Trial.

OBJECTIVE: To determine whether high early parenteral soybean oil lipid intake in very low birth weight (VLBW) infants in the first week after birth decreases the proportion of weight loss and subsequently the incidence of extrauterine growth restriction (EUGR). STUDY DESIGN: This was a randomized controlled trial of appropriate for gestational- ge VLBW infants. Lipid intake in the control group started at 0.5-1 g/kg per day and increased daily by 0.5-1 g/kg per day till reaching 3 g/kg per day. The intervention group was started on 2 g/kg per day that increased to 3 g/kg per day the following day. RESULTS: Of the 176 infants assessed for eligibility, 83 were included in the trial. Infants in the intervention group were started on lipid sooner (13.8 ± 7.8 vs 17.5 ± 7.8 hour; P = .03) and had higher cumulative lipid intake in the first 7 days of age (13.5 ± 4.2 vs 10.9 ± 3.5 g/kg per day; P = .03). Infants in the intervention group had a lower percentage of weight loss (10.4 vs 12.7%; P = .02). The mean triglyceride level was higher in the intervention group (1.91 ± 0.79 vs 1.49 ± 0.54 mmol/L; P = .01), however, hypertriglyceridemia was similar between the 2 groups. The incidence of EUGR was lower in the intervention group (38.6% vs 67.6%; P = .01). Head circumference z score was higher in the intervention group (-1.09 ± 0.96 vs -1.59 ± 0.98; P = .04). CONCLUSIONS: In VLBW infants, provision of a high early dose of parenteral lipid in the first week of age results in less weight loss and lower incidence of EUGR. TRIAL REGISTRATION: Clinicaltrials.gov: NCT03594474.

Compatibility of medications with intravenous lipid emulsions: Effects of simulated Y-site mixing.

PURPOSE: To determine the physical intravenous Y-site compatibility of 19 commonly used medications at pediatric concentrations with 3 different types of lipid emulsion. METHODS: Medications at commonly used pediatric concentrations were mixed in a 1:1 ratio with lipid emulsions (Intralipid, Nutrilipid, and Smoflipid) and incubated at room temperature for 4 hours to simulate Y-site administration. Each sample was then diluted with particle-free water and analyzed using the analytical technique of light obscuration recommended in United States Pharmacopeia (USP) general information chapter 729 (USP <729>). Physical compatibility was determined by measuring the percentage of fat residing in globules larger than 5 µm (PFAT5) per USP <729> recommendations. RESULTS: Most combinations tested were physically compatible based on USP <729> regulations. Incompatibilities differed for the different brands of lipid emulsion. The two combinations that met USP <729> criteria for physical incompatibility were cisatracurium 2 mg/mL with Intralipid and gentamicin 2 mg/mL with Smoflipid. CONCLUSION: Three different lipid emulsions were physically compatible at the Y site with the majority of medications tested. Data regarding Y-site compatibility for one lipid emulsion product cannot be safely extrapolated to another without additional testing.

Intravenous Fish Oil Monotherapy as a Source of Calories and Fatty Acids Promotes Age-Appropriate Growth in Pediatric Patients with Intestinal Failure-Associated Liver Disease.

OBJECTIVE: To compare growth in children with intestinal failure-associated liver disease (IFALD) who received a fish oil intravenous lipid emulsion (FOLE) to those who received a soybean oil intravenous lipid emulsion (SOLE). STUDY DESIGN: This multisite, retrospective study pair-matched FOLE (n = 82) to SOLE recipients (n = 41) using baseline serum direct bilirubin levels and postmenstrual age. Study subjects received open-label FOLE (1 g/kg/day) until IFALD resolved or parenteral nutrition was stopped. Historical control subjects received SOLE (up to 3 g/kg/day). Growth measures (changes in body weight, height/length, and head circumference), prealbumin, triglycerides, and glucose were compared between groups over time using the Wilcoxon rank-sum test. RESULTS: Although changes in all of the growth measures were similar for both groups (P > .05), FOLE recipients demonstrated an overall improved growth trajectory. After 28 weeks, FOLE recipients had a mean body weight within a z score range of -1 to 1 indicating age-appropriate growth. FOLE recipients consistently had higher prealbumin, lower triglyceride, and more normal glucose concentrations over time compared with SOLE recipients. CONCLUSIONS: Children with IFALD who received FOLE had similar growth and fewer metabolic abnormalities compared with those who received SOLE. TRIAL REGISTRATION: Clinicaltrials.gov: NCT00910104 and NCT00738101.

Uso de las emulsiones lipídicas en intoxicaciones por anestésicos locales y otras intoxicaciones: evidencia actual / Use of lipid emulsions in poisoning by local anesthetics and other poisonings: current evidence

Objetivo: realizar una revisión narrativa con la evidencia de la composición, mecanismo de acción e indicaciones para el uso de emulsiones lipídicas como antídoto, en la toxicidad por anestésicos locales y otras intoxicaciones. Métodos: se realizó una búsqueda bibliográfica en PubMed, Scielo y Lilacs usando las palabras claves "lipid emulsion", "therapy toxicology", "lipid therapy toxicology", "intravenous lipid therapy toxicology", "fat emulsion toxicology" "local anesthetic toxicity" y "lipid sink", identificando información relevante relacionada con su fisiopatología y su uso publicada entre 1960 y 2013. Resultados: las emulsiones lipídicas usualmente se han utilizado como suplemento nutricional, su uso también se aprobó para el tratamiento de la intoxicación por anestésicos locales como bupivacaína gracias a diferentes mecanismos de acción como: el efecto de inmersión lipídica, lipid flux y los efectos en el transporte de ácidos grasos en la mitocondria, entre otros. Aunque los resultados en intoxicaciones con beta-bloqueadores, bloqueadores de canales de calcio y antidepresivos tricíclicos han sido controversiales y no deben anteponerse al manejo tradicional, registros como el LIPAEMIC evidencian mejoría en resultados como escalas de coma Glasgow, algunas variables hemodinámicas y mayor sobrevida. Conclusiones: no existe una forma de predecir la respuesta a la terapia lipídica ni las consecuencias y hasta la fecha no deben reemplazar tratamientos que el médico considere apropiados para el manejo del paciente.

Objective: To perform a narrative review with evidence of the composition mechanism of action and indications for the use of lipid emulsions as an antidote in local anesthetic toxicity and other poisonings. Methods: We performed a bibliographic research by using PubMed, Scielo and Lilacs using the keywords "lipid emulsion therapy toxicology", "lipid therapy toxicology", "intravenous lipid therapy toxicology", "fat emulsion toxicology" and "lipid sink", identifying relevant information related to, published between 1960 and 2013. Results: Lipid emulsions have been used as a nutritional supplement, its use is also approved for the treatment of poisoning by local anesthetics such as bupivacaine through different mechanisms of action such as: the effect of lipid sink, lipid flux and effects on transport fatty acids in mitochondria, among others. Although the results in other poisonings as beta-blockers, calcium channel blockers and tricyclics have been controversial and should not take precedence over traditional management. LIPAEMIC record show improved results as Glasgow coma scale, hemodynamic variables and survival. Conclusion: There is no way to predict the response to lipid therapy nor the consequences, and that's why until this day it should not replace any treatment that the physician considers appropriate for the management of his patient.

Pharmaconutrition: acute fatty acid modulation of circulating cytokines in elderly patients in the ICU.

BACKGROUND: Enteral supply of ω-3 polyunsaturated fatty acids has been used in an attempt to modulate inflammation and improve outcome in critically ill patients. However, enteral administration may be slow to change membrane composition and therefore may not be the best route to supply these fatty acids in patients with acute conditions. This study evaluated the effects of short-term intravenous (IV) administration of fish oil-based lipid emulsion (FLE) as pharmaconutrition on cytokine levels in critically ill elderly patients. METHODS: Enterally fed patients (n = 40; aged 60-80 years) were recruited in the first 48 hours of intensive care unit (ICU) admission. Fifteen patients received IV FLE (0.2 g/kg body weight) over 6 hours for 3 consecutive days, and 25 patients did not receive IV lipid (control). Samples were collected before and 24 hours and 72 hours after the third FLE infusion. Nutrient intakes, clinical parameters, and serum cytokine concentrations were measured. RESULTS: Compared with the control, FLE resulted in higher energy intake, lower serum tumor necrosis factor-α and interleukin (IL)-8 concentrations, and higher serum IL-10. These differences occurred around 7-9 days of ICU stay at the time of the patient's extubation. ICU stay, mortality, and markers of coagulation and liver function did not differ between groups. CONCLUSIONS: Short-term IV FLE modulates some inflammatory markers in critically ill elderly patients receiving enteral nutrition (EN), suggesting an anti-inflammatory effect. This may be a benefit and suggests a role for FLE administration as a supplement in elderly ICU patients receiving standard EN.

Respostas cardiorrespiratória e metabólica do propofol nas formulações em emulsão lipídica ou microemulsão em gatas / Cardiorespiratory and metabolic answer with microemulsion and lipid emulsion of propofol in cats

O presente estudo objetiva avaliar os efeitos cardiorrespiratórios e metabólicos do propofol em emulsão lipídica e microemulsão em gatas. Foram utilizadas 12 gatas, hígidas, adultas, alocadas em dois grupos: microemulsão (MICRO, n=6) e emulsão lipídica (EMU, n=6), os quais receberam propofol, na respectiva formulação, em dose suficiente para intubação. Em seguida, foram intubados, fornecendo-se oxigênio 100%, em sistema sem reinalação de gases. Ato contínuo, iniciou-se a infusão de propofol na dose de 0,3mg kg-1 min-1 durante 90 minutos. A dose necessária para indução foi de 9,5±1,3mg kg-1 e 10±1mg kg-1 para MICRO e EMU, respectivamente. Os valores de pressão arterial sistólica (PAS), pressão arterial média (PAM), pressão arterial diastólica (PAD) e pH foram menores, em todos os momentos, no EMU em relação ao MICRO; a f do EMU foi menor de T30 até T75 em relação ao MICRO. A PaCO2 do EMU foi maior de T15 até T90. Os tempos de extubação, decúbito esternal, deambulação e recuperação total foram de 40,6±30,7; 91±37,5; 134,5±54,5 e 169,1±55,4 minutos no MICRO e de 68,8±37,3; 133,3±85,3; 171,3±77,1 e 233,1±60,6 minutos no EMU, respectivamente. Houve aumento da enzima Alanina Aminotransferase de 12 às 72h no EMU e de 48 às 72h no MICRO. O propofol em microemulsão apresentou características clínicas de indução e manutenção, bem como efeitos metabólicos semelhantes à formulação em emulsão lipídica. A formulação em microemulsão proporcionou maior estabilidade cardiovascular e respiratória para indução e infusão contínua em gatas hígidas.

The aim of the present study was to evaluate the cardiorespiratory and metabolic effects from lipid emulsion and microemulsion of propofol in cats. Twelve healthy adult cats were included, and divided into two groups: microemulsion group (MICRO, n=6) and lipid emulsion (EMU, n=6), where they received propofol in the respective formulation, in a dose sufficient for intubation. The animals were then intubated and provided with 100% oxygen through a non-rebreathing circuit. Immediately after, the infusion of propofol was initiated (0.3mg kg-1 min-1) and maintained for 90 minutes. The dose required for induction was 9.5±1.3mg kg-1 and 10±1mg kg-1 in MICRO and EMU, respectively. The SAP, MAP, DAP and pH values were lower in all moments in EMU when compared to MICRO; the RR in EMU was lower from T30 to T75 in comparison to MICRO. The paCO2 was greater in the EMU from T15 to T90. The times to extubation, sternal recumbency, ambulation and total recovery were 40.6±30.7, 91±37.5, 134.5±54.5 and 169.1±55.4 minutes in MICRO and 68.8±37.3, 133.3±85.3, 171.3±77.1 and 233.1±60.6 minutes in EMU, respectively. There was an increase of the enzyme alanine aminotransferase from 12 to 72 hours in EMU and in MICRO from 48 to 72 hours. The propofol in microemulsion presents clinical characteristics of induction and maintenance, and metabolic effects similar to the formulation in lipid emulsion. The microemulsion formulation provides a better cardiovascular and respiratory stability for induction and continuous infusion in healthy cats.

Evaluation of the clinical and cardiorespiratory effects of propofol microemulsion in dogs / Efeitos clínicos e cardiorespiratórios do propofol em microemulsão em cães

This research aimed to evaluate the clinical and cardiorespiratory effects of a propofol formulation with nanometer droplet diameter in dogs. Six adult healthy female dogs weighing 14.8±1.2kg were used in this study. Each dog received two treatments with a 15-day washout period. A microemulsion (MICRO) or lipid emulsion (EMU) of propofol was administered intravenously (IV) for induction and maintenance of anesthesia. Anesthesia was maintained with a constant rate infusion of propofol (0.4mg kg-1 minute-1). Cardiorespiratory variables were recorded before induction (baseline), immediately after and at 15-minute intervals for 90 minutes after treatment. Arterial blood samples were also taken for blood gas analysis, except at 45 and 75 minutes after induction. The mean arterial pressure decreased significantly during both treatments, while the cardiac index decreased significantly only in MICRO treatment. The time to extubation, sternal recumbency, ambulation and total recovery was similar in both treatments. Opisthotonos was observed in 33% of the animals in each treatment. The propofol microemulsion presented clinical and respiratory parameters similar to those obtained with the lipid emulsion commercially available, but had some significantly different hemodynamic characteristics when used for inducing and maintaining anesthesia. Based only in these results, no advantages are seen in the use of this new microemulsion.

Este estudo tem o objetivo de avaliar os efeitos clínicos e cardiorrespiratórios de uma formulação de propofol formada por nanopartículas, em cães. Para esse propósito, seis cães hígidos, adultos, fêmeas, com peso médio de 14,8±1,2kg foram utilizados. Cada cão recebeu dois tratamentos, sendo que entre estes foi permitido aos animais um período de washout de 15 dias. Os animais receberam propofol em microemulsão (MICRO) ou em emulsão lipídica (EMU) por via intravenosa (IV) para a indução e manutenção da anestesia. A anestesia foi mantida com velocidade de infusão constante (0,4mg kg-1 min-1). As variáveis cardiorrespiratórias foram mensuradas antes da indução (basal), imediatamente após a indução, e então a cada 15 minutos, durante 90 minutos. Amostras de sangue arterial também foram colhidas para análise de gases sanguíneos, exceto aos 45 e 75 minutos após a indução. A pressão arterial média diminuiu significativamente com a utilização de ambos os tratamentos, enquanto o índice cardíaco reduziu significativamente somente com o tratamento MICRO. O tempo necessário para extubação, decúbito esternal, deambulação e recuperação total foi semelhante em ambos os grupos. Opistótono foi observado em 33% dos animais em cada tratamento. A microemulsão de propofol apresentou parâmetros clínicos e respiratórios semelhantes àqueles obtidos com a emulsão lipídica comercialmente disponível, porém mostrou algumas características hemodinâmicas diferentes, quando utilizada para a indução e manutenção da anestesia. Com base somente nesses resultados, não são observadas vantagens na utilização da microemulsão.

Farmacocinética do propofol em nanoemulsão em gatos / Pharmacokinetic of propofol in nanoemulsion in cats

Os felinos são deficientes na biotransformação do propofol e os dados em relação à farmacocinética nessa espécie são escassos. O objetivo deste estudo foi determinar o perfil farmacocinético da infusão contínua de propofol em nanoemulsão juntamente com a emulsão lipídica em felinos. Utilizaram-se seis gatos sem raça definida (SRD), adultos, machos, castrados, com peso médio de 4,2±0,8kg, em estudo aleatório e de autocontrole. Os animais receberam 10mg kg-1 min-1 de propofol a 1% em emulsão lipídica (EMU) ou em nanoemulsão (NANO) durante 30 segundos e, imediatamente após, iniciou-se a infusão de 0,3 mg kg-1 min-1 da mesma formulação durante 60 minutos. Após 15 dias, receberam o mesmo tratamento com a formulação oposta. Amostras de 3mL de sangue venoso foram coletadas nos tempos 0 (basal), 2, 5, 10, 15, 30 e 60 minutos de infusão e aos 5, 10, 15, 30, 60, 90, 120, 180, 240, 360, 600 e 1440 minutos após o final da infusão. Os parâmetros farmacocinéticos foram determinados a partir da curva de decaimento da concentração plasmática versus tempo ao final da infusão. A análise estatística foi realizada através de ANOVA-RM com posterior teste t pareado entre os grupos. Não houve diferença entre as formulações em relação a todos os parâmetros. Os volumes de distribuição foram altos com Vdss de 23,23±12,30 litros kg-1 para a nanoemulsão e de 18,12±8,54 litros kg-1 para a emulsão lipídica. Os Cls foram baixos com um Cl central de 22,20±10,83mL kg-1 min-1 para a nanoemulsão e de 23,42±13,50mL kg-1 min-1 para emulsão lipídica. Conclui-se que a farmacocinética do propofol em gatos após infusão contínua caracteriza-se por uma ampla distribuição tecidual e uma lenta eliminação, com possível efeito cumulativo. A formulação em nanoemulsão apresenta características farmacocinéticas semelhantes às da emulsão lipídica.

Cats are deficient in the metabolism of propofol and the data on the pharmacokinetics in this species are scarce. The aim of this study was to determine the pharmacokinetic profile of continuous infusion of propofol in lipid emulsion and compare with the nanoemulsion formulation, in cats. Domestic cats, short hair, adults, male, castrated, weighting 4.2±0.8kg in a randomized and self control trial were used. The animals received 10mg kg-1 of 1% propofol in lipid emulsion or nanoemulsion for 30 seconds and immediately after that, a continuous rate infusion of 0.3mg kg-1 min-1 of the same formulation was administered for 60 minutes. After 15 days the cats received the same treatment with the opposite formulation. Samples of 3mL of venous blood were collected by a central venous catheter inserted in the jugular vein at 0 (baseline), 2, 5, 10, 15, 30, and 60 minutes of infusion and at 5, 10, 15, 30, 60, 90, 120, 180, 240, 360, 600 and 1440 minutes after the end of the infusion. The pharmacokinetic parameters were determined from the decay curve of plasma concentration versus time at the end of the infusion. Statistical analysis was performed using RM-ANOVA with subsequent paired t-test between groups. There was no difference between the formulations with respect to all parameters. The volumes of distribution were high with Vdss of 23.23±12.30 liters kg-1 for the nanoemulsion and 18.12±8.54 liters kg-1 for lipid emulsion. The Cls were low with a Cl central to 22.20±10.83mL kg-1 min-1 for the nanoemulsion and 23.42±13.50mL kg-1 min-1 for lipid emulsion. The conclusion is that the pharmacokinetics of propofol in cats after infusion is characterized by a broad tissue distribution and a slow elimination, with possible cumulative effect. The formulation nanoemulsion has pharmacokinetic properties similar to the lipid emulsion.

Farmacocinética do propofol em nanoemulsão em gatos

Cats are deficient in the metabolism of propofol and the data on the pharmacokinetics in this species are scarce. The aim of this study was to determine the pharmacokinetic profile of continuous infusion of propofol in lipid emulsion and compare with the nanoemulsion formulation, in cats. Domestic cats, short hair, adults, male, castrated, weighting 4.2±0.8kg in a randomized and self control trial were used. The animals received 10mg kg-1 of 1% propofol in lipid emulsion or nanoemulsion for 30 seconds and immediately after that, a continuous rate infusion of 0.3mg kg-1 min-1 of the same formulation was administered for 60 minutes. After 15 days the cats received the same treatment with the opposite formulation. Samples of 3mL of venous blood were collected by a central venous catheter inserted in the jugular vein at 0 (baseline), 2, 5, 10, 15, 30, and 60 minutes of infusion and at 5, 10, 15, 30, 60, 90, 120, 180, 240, 360, 600 and 1440 minutes after the end of the infusion. The pharmacokinetic parameters were determined from the decay curve of plasma concentration versus time at the end of the infusion. Statistical analysis was performed using RM-ANOVA with subsequent paired t-test between groups. There was no difference between the formulations with respect to all parameters. The volumes of distribution were high with Vdss of 23.23±12.30 liters kg-1 for the nanoemulsion and 18.12±8.54 liters kg-1 for lipid emulsion. The Cls were low with a Cl central to 22.20±10.83mL kg-1 min-1 for the nanoemulsion and 23.42±13.50mL kg-1 min-1 for lipid emulsion. The conclusion is that the pharmacokinetics of propofol in cats after infusion is characterized by a broad tissue distribution and a slow elimination, with possible cumulative effect. The formulation nanoemulsion has pharmacokinetic properties similar to the lipid emulsion.

Os felinos são deficientes na biotransformação do propofol e os dados em relação à farmacocinética nessa espécie são escassos. O objetivo deste estudo foi determinar o perfil farmacocinético da infusão contínua de propofol em nanoemulsão juntamente com a emulsão lipídica em felinos. Utilizaram-se seis gatos sem raça definida (SRD), adultos, machos, castrados, com peso médio de 4,2±0,8kg, em estudo aleatório e de autocontrole. Os animais receberam 10mg kg-1 min-1 de propofol a 1% em emulsão lipídica (EMU) ou em nanoemulsão (NANO) durante 30 segundos e, imediatamente após, iniciou-se a infusão de 0,3 mg kg-1 min-1 da mesma formulação durante 60 minutos. Após 15 dias, receberam o mesmo tratamento com a formulação oposta. Amostras de 3mL de sangue venoso foram coletadas nos tempos 0 (basal), 2, 5, 10, 15, 30 e 60 minutos de infusão e aos 5, 10, 15, 30, 60, 90, 120, 180, 240, 360, 600 e 1440 minutos após o final da infusão. Os parâmetros farmacocinéticos foram determinados a partir da curva de decaimento da concentração plasmática versus tempo ao final da infusão. A análise estatística foi realizada através de ANOVA-RM com posterior teste t pareado entre os grupos. Não houve diferença entre as formulações em relação a todos os parâmetros. Os volumes de distribuição foram altos com Vdss de 23,23±12,30 litros kg-1 para a nanoemulsão e de 18,12±8,54 litros kg-1 para a emulsão lipídica. Os Cls foram baixos com um Cl central de 22,20±10,83mL kg-1 min-1 para a nanoemulsão e de 23,42±13,50mL kg-1 min-1 para emulsão lipídica. Conclui-se que a farmacocinética do propofol em gatos após infusão contínua caracteriza-se por uma ampla distribuição tecidual e uma lenta eliminação, com possível efeito cumulativo. A formulação em nanoemulsão apresenta características farmacocinéticas semelhantes às da emulsão lipídica.

Evaluation of the clinical and cardiorespiratory effects of propofol microemulsion in dogs

This research aimed to evaluate the clinical and cardiorespiratory effects of a propofol formulation with nanometer droplet diameter in dogs. Six adult healthy female dogs weighing 14.8±1.2kg were used in this study. Each dog received two treatments with a 15-day washout period. A microemulsion (MICRO) or lipid emulsion (EMU) of propofol was administered intravenously (IV) for induction and maintenance of anesthesia. Anesthesia was maintained with a constant rate infusion of propofol (0.4mg kg-1 minute-1). Cardiorespiratory variables were recorded before induction (baseline), immediately after and at 15-minute intervals for 90 minutes after treatment. Arterial blood samples were also taken for blood gas analysis, except at 45 and 75 minutes after induction. The mean arterial pressure decreased significantly during both treatments, while the cardiac index decreased significantly only in MICRO treatment. The time to extubation, sternal recumbency, ambulation and total recovery was similar in both treatments. Opisthotonos was observed in 33% of the animals in each treatment. The propofol microemulsion presented clinical and respiratory parameters similar to those obtained with the lipid emulsion commercially available, but had some significantly different hemodynamic characteristics when used for inducing and maintaining anesthesia. Based only in these results, no advantages are seen in the use of this new microemulsion.

Este estudo tem o objetivo de avaliar os efeitos clínicos e cardiorrespiratórios de uma formulação de propofol formada por nanopartículas, em cães. Para esse propósito, seis cães hígidos, adultos, fêmeas, com peso médio de 14,8±1,2kg foram utilizados. Cada cão recebeu dois tratamentos, sendo que entre estes foi permitido aos animais um período de washout de 15 dias. Os animais receberam propofol em microemulsão (MICRO) ou em emulsão lipídica (EMU) por via intravenosa (IV) para a indução e manutenção da anestesia. A anestesia foi mantida com velocidade de infusão constante (0,4mg kg-1 min-1). As variáveis cardiorrespiratórias foram mensuradas antes da indução (basal), imediatamente após a indução, e então a cada 15 minutos, durante 90 minutos. Amostras de sangue arterial também foram colhidas para análise de gases sanguíneos, exceto aos 45 e 75 minutos após a indução. A pressão arterial média diminuiu significativamente com a utilização de ambos os tratamentos, enquanto o índice cardíaco reduziu significativamente somente com o tratamento MICRO. O tempo necessário para extubação, decúbito esternal, deambulação e recuperação total foi semelhante em ambos os grupos. Opistótono foi observado em 33% dos animais em cada tratamento. A microemulsão de propofol apresentou parâmetros clínicos e respiratórios semelhantes àqueles obtidos com a emulsão lipídica comercialmente disponível, porém mostrou algumas características hemodinâmicas diferentes, quando utilizada para a indução e manutenção da anestesia. Com base somente nesses resultados, não são observadas vantagens na utilização da microemulsão.

Respostas cardiorrespiratória e metabólica do propofol nas formulações em emulsão lipídica ou microemulsão em gatas

The aim of the present study was to evaluate the cardiorespiratory and metabolic effects from lipid emulsion and microemulsion of propofol in cats. Twelve healthy adult cats were included, and divided into two groups: microemulsion group (MICRO, n=6) and lipid emulsion (EMU, n=6), where they received propofol in the respective formulation, in a dose sufficient for intubation. The animals were then intubated and provided with 100% oxygen through a non-rebreathing circuit. Immediately after, the infusion of propofol was initiated (0.3mg kg-1 min-1) and maintained for 90 minutes. The dose required for induction was 9.5±1.3mg kg-1 and 10±1mg kg-1 in MICRO and EMU, respectively. The SAP, MAP, DAP and pH values were lower in all moments in EMU when compared to MICRO; the RR in EMU was lower from T30 to T75 in comparison to MICRO. The paCO2 was greater in the EMU from T15 to T90. The times to extubation, sternal recumbency, ambulation and total recovery were 40.6±30.7, 91±37.5, 134.5±54.5 and 169.1±55.4 minutes in MICRO and 68.8±37.3, 133.3±85.3, 171.3±77.1 and 233.1±60.6 minutes in EMU, respectively. There was an increase of the enzyme alanine aminotransferase from 12 to 72 hours in EMU and in MICRO from 48 to 72 hours. The propofol in microemulsion presents clinical characteristics of induction and maintenance, and metabolic effects similar to the formulation in lipid emulsion. The microemulsion formulation provides a better cardiovascular and respiratory stability for induction and continuous infusion in healthy cats.

O presente estudo objetiva avaliar os efeitos cardiorrespiratórios e metabólicos do propofol em emulsão lipídica e microemulsão em gatas. Foram utilizadas 12 gatas, hígidas, adultas, alocadas em dois grupos: microemulsão (MICRO, n=6) e emulsão lipídica (EMU, n=6), os quais receberam propofol, na respectiva formulação, em dose suficiente para intubação. Em seguida, foram intubados, fornecendo-se oxigênio 100%, em sistema sem reinalação de gases. Ato contínuo, iniciou-se a infusão de propofol na dose de 0,3mg kg-1 min-1 durante 90 minutos. A dose necessária para indução foi de 9,5±1,3mg kg-1 e 10±1mg kg-1 para MICRO e EMU, respectivamente. Os valores de pressão arterial sistólica (PAS), pressão arterial média (PAM), pressão arterial diastólica (PAD) e pH foram menores, em todos os momentos, no EMU em relação ao MICRO; a f do EMU foi menor de T30 até T75 em relação ao MICRO. A PaCO2 do EMU foi maior de T15 até T90. Os tempos de extubação, decúbito esternal, deambulação e recuperação total foram de 40,6±30,7; 91±37,5; 134,5±54,5 e 169,1±55,4 minutos no MICRO e de 68,8±37,3; 133,3±85,3; 171,3±77,1 e 233,1±60,6 minutos no EMU, respectivamente. Houve aumento da enzima Alanina Aminotransferase de 12 às 72h no EMU e de 48 às 72h no MICRO. O propofol em microemulsão apresentou características clínicas de indução e manutenção, bem como efeitos metabólicos semelhantes à formulação em emulsão lipídica. A formulação em microemulsão proporcionou maior estabilidade cardiovascular e respiratória para indução e infusão contínua em gatas hígidas.

Respostas cardiorrespiratória e metabólica do propofol nas formulações em emulsão lipídica ou microemulsão em gatas

The aim of the present study was to evaluate the cardiorespiratory and metabolic effects from lipid emulsion and microemulsion of propofol in cats. Twelve healthy adult cats were included, and divided into two groups: microemulsion group (MICRO, n=6) and lipid emulsion (EMU, n=6), where they received propofol in the respective formulation, in a dose sufficient for intubation. The animals were then intubated and provided with 100% oxygen through a non-rebreathing circuit. Immediately after, the infusion of propofol was initiated (0.3mg kg-1 min-1) and maintained for 90 minutes. The dose required for induction was 9.5±1.3mg kg-1 and 10±1mg kg-1 in MICRO and EMU, respectively. The SAP, MAP, DAP and pH values were lower in all moments in EMU when compared to MICRO; the RR in EMU was lower from T30 to T75 in comparison to MICRO. The paCO2 was greater in the EMU from T15 to T90. The times to extubation, sternal recumbency, ambulation and total recovery were 40.6±30.7, 91±37.5, 134.5±54.5 and 169.1±55.4 minutes in MICRO and 68.8±37.3, 133.3±85.3, 171.3±77.1 and 233.1±60.6 minutes in EMU, respectively. There was an increase of the enzyme alanine aminotransferase from 12 to 72 hours in EMU and in MICRO from 48 to 72 hours. The propofol in microemulsion presents clinical characteristics of induction and maintenance, and metabolic effects similar to the formulation in lipid emulsion. The microemulsion formulation provides a better cardiovascular and respiratory stability for induction and continuous infusion in healthy cats.

O presente estudo objetiva avaliar os efeitos cardiorrespiratórios e metabólicos do propofol em emulsão lipídica e microemulsão em gatas. Foram utilizadas 12 gatas, hígidas, adultas, alocadas em dois grupos: microemulsão (MICRO, n=6) e emulsão lipídica (EMU, n=6), os quais receberam propofol, na respectiva formulação, em dose suficiente para intubação. Em seguida, foram intubados, fornecendo-se oxigênio 100%, em sistema sem reinalação de gases. Ato contínuo, iniciou-se a infusão de propofol na dose de 0,3mg kg-1 min-1 durante 90 minutos. A dose necessária para indução foi de 9,5±1,3mg kg-1 e 10±1mg kg-1 para MICRO e EMU, respectivamente. Os valores de pressão arterial sistólica (PAS), pressão arterial média (PAM), pressão arterial diastólica (PAD) e pH foram menores, em todos os momentos, no EMU em relação ao MICRO; a f do EMU foi menor de T30 até T75 em relação ao MICRO. A PaCO2 do EMU foi maior de T15 até T90. Os tempos de extubação, decúbito esternal, deambulação e recuperação total foram de 40,6±30,7; 91±37,5; 134,5±54,5 e 169,1±55,4 minutos no MICRO e de 68,8±37,3; 133,3±85,3; 171,3±77,1 e 233,1±60,6 minutos no EMU, respectivamente. Houve aumento da enzima Alanina Aminotransferase de 12 às 72h no EMU e de 48 às 72h no MICRO. O propofol em microemulsão apresentou características clínicas de indução e manutenção, bem como efeitos metabólicos semelhantes à formulação em emulsão lipídica. A formulação em microemulsão proporcionou maior estabilidade cardiovascular e respiratória para indução e infusão contínua em gatas hígidas.

Evaluation of the clinical and cardiorespiratory effects of propofol microemulsion in dogs

This research aimed to evaluate the clinical and cardiorespiratory effects of a propofol formulation with nanometer droplet diameter in dogs. Six adult healthy female dogs weighing 14.8±1.2kg were used in this study. Each dog received two treatments with a 15-day washout period. A microemulsion (MICRO) or lipid emulsion (EMU) of propofol was administered intravenously (IV) for induction and maintenance of anesthesia. Anesthesia was maintained with a constant rate infusion of propofol (0.4mg kg-1 minute-1). Cardiorespiratory variables were recorded before induction (baseline), immediately after and at 15-minute intervals for 90 minutes after treatment. Arterial blood samples were also taken for blood gas analysis, except at 45 and 75 minutes after induction. The mean arterial pressure decreased significantly during both treatments, while the cardiac index decreased significantly only in MICRO treatment. The time to extubation, sternal recumbency, ambulation and total recovery was similar in both treatments. Opisthotonos was observed in 33% of the animals in each treatment. The propofol microemulsion presented clinical and respiratory parameters similar to those obtained with the lipid emulsion commercially available, but had some significantly different hemodynamic characteristics when used for inducing and maintaining anesthesia. Based only in these results, no advantages are seen in the use of this new microemulsion.

Este estudo tem o objetivo de avaliar os efeitos clínicos e cardiorrespiratórios de uma formulação de propofol formada por nanopartículas, em cães. Para esse propósito, seis cães hígidos, adultos, fêmeas, com peso médio de 14,8±1,2kg foram utilizados. Cada cão recebeu dois tratamentos, sendo que entre estes foi permitido aos animais um período de washout de 15 dias. Os animais receberam propofol em microemulsão (MICRO) ou em emulsão lipídica (EMU) por via intravenosa (IV) para a indução e manutenção da anestesia. A anestesia foi mantida com velocidade de infusão constante (0,4mg kg-1 min-1). As variáveis cardiorrespiratórias foram mensuradas antes da indução (basal), imediatamente após a indução, e então a cada 15 minutos, durante 90 minutos. Amostras de sangue arterial também foram colhidas para análise de gases sanguíneos, exceto aos 45 e 75 minutos após a indução. A pressão arterial média diminuiu significativamente com a utilização de ambos os tratamentos, enquanto o índice cardíaco reduziu significativamente somente com o tratamento MICRO. O tempo necessário para extubação, decúbito esternal, deambulação e recuperação total foi semelhante em ambos os grupos. Opistótono foi observado em 33% dos animais em cada tratamento. A microemulsão de propofol apresentou parâmetros clínicos e respiratórios semelhantes àqueles obtidos com a emulsão lipídica comercialmente disponível, porém mostrou algumas características hemodinâmicas diferentes, quando utilizada para a indução e manutenção da anestesia. Com base somente nesses resultados, não são observadas vantagens na utilização da microemulsão.

Farmacocinética do propofol em nanoemulsão em gatos

Cats are deficient in the metabolism of propofol and the data on the pharmacokinetics in this species are scarce. The aim of this study was to determine the pharmacokinetic profile of continuous infusion of propofol in lipid emulsion and compare with the nanoemulsion formulation, in cats. Domestic cats, short hair, adults, male, castrated, weighting 4.2±0.8kg in a randomized and self control trial were used. The animals received 10mg kg-1 of 1% propofol in lipid emulsion or nanoemulsion for 30 seconds and immediately after that, a continuous rate infusion of 0.3mg kg-1 min-1 of the same formulation was administered for 60 minutes. After 15 days the cats received the same treatment with the opposite formulation. Samples of 3mL of venous blood were collected by a central venous catheter inserted in the jugular vein at 0 (baseline), 2, 5, 10, 15, 30, and 60 minutes of infusion and at 5, 10, 15, 30, 60, 90, 120, 180, 240, 360, 600 and 1440 minutes after the end of the infusion. The pharmacokinetic parameters were determined from the decay curve of plasma concentration versus time at the end of the infusion. Statistical analysis was performed using RM-ANOVA with subsequent paired t-test between groups. There was no difference between the formulations with respect to all parameters. The volumes of distribution were high with Vdss of 23.23±12.30 liters kg-1 for the nanoemulsion and 18.12±8.54 liters kg-1 for lipid emulsion. The Cls were low with a Cl central to 22.20±10.83mL kg-1 min-1 for the nanoemulsion and 23.42±13.50mL kg-1 min-1 for lipid emulsion. The conclusion is that the pharmacokinetics of propofol in cats after infusion is characterized by a broad tissue distribution and a slow elimination, with possible cumulative effect. The formulation nanoemulsion has pharmacokinetic properties similar to the lipid emulsion.

Os felinos são deficientes na biotransformação do propofol e os dados em relação à farmacocinética nessa espécie são escassos. O objetivo deste estudo foi determinar o perfil farmacocinético da infusão contínua de propofol em nanoemulsão juntamente com a emulsão lipídica em felinos. Utilizaram-se seis gatos sem raça definida (SRD), adultos, machos, castrados, com peso médio de 4,2±0,8kg, em estudo aleatório e de autocontrole. Os animais receberam 10mg kg-1 min-1 de propofol a 1% em emulsão lipídica (EMU) ou em nanoemulsão (NANO) durante 30 segundos e, imediatamente após, iniciou-se a infusão de 0,3 mg kg-1 min-1 da mesma formulação durante 60 minutos. Após 15 dias, receberam o mesmo tratamento com a formulação oposta. Amostras de 3mL de sangue venoso foram coletadas nos tempos 0 (basal), 2, 5, 10, 15, 30 e 60 minutos de infusão e aos 5, 10, 15, 30, 60, 90, 120, 180, 240, 360, 600 e 1440 minutos após o final da infusão. Os parâmetros farmacocinéticos foram determinados a partir da curva de decaimento da concentração plasmática versus tempo ao final da infusão. A análise estatística foi realizada através de ANOVA-RM com posterior teste t pareado entre os grupos. Não houve diferença entre as formulações em relação a todos os parâmetros. Os volumes de distribuição foram altos com Vdss de 23,23±12,30 litros kg-1 para a nanoemulsão e de 18,12±8,54 litros kg-1 para a emulsão lipídica. Os Cls foram baixos com um Cl central de 22,20±10,83mL kg-1 min-1 para a nanoemulsão e de 23,42±13,50mL kg-1 min-1 para emulsão lipídica. Conclui-se que a farmacocinética do propofol em gatos após infusão contínua caracteriza-se por uma ampla distribuição tecidual e uma lenta eliminação, com possível efeito cumulativo. A formulação em nanoemulsão apresenta características farmacocinéticas semelhantes às da emulsão lipídica.

Nuevas emulsiones lipídicas enriquecidas con omega-3: beneficios reales en nutrición parenteral / New lipid emulsions enriched with omega-3: Is there a real benefit on parenteral nutrition?

Total parenteral nutrition allows nutritional supports for patients who are not able to receive oral intake or enteral nutrition. Fatty acids are administrated as lipid emulsions and a lower inflammatory cytokine level has been described after administration of Omega-3. This could be a benefit for critical patients by a potential antiinflamatory and immunomodulation effect. Also, for patients with respiratory distress syndrome, the lower cytokine effect may directly affect pulmonary vessels by vasodilatation and consequently improve respiratory function. Different studies have shown positive clinical outcomes after Omega-3 administration, while other studies have failed to demonstrate significant results. Mechanisms involved with this possible immunomodulation by fish oil are well known, although further research is necessary to clarify the clinical relevance of these mechanisms.

La nutrición parenteral es la técnica de soporte nutricional por vía endovenosa a pacientes que no pueden alimentarse por vía enteral u oral. El aporte de lípidos se realiza a través de emulsiones lipídicas, que poseen diferentes ácidos grasos. Se ha descrito que la administración de ácidos grasos Omega-3 determina una disminución de citoquinas proinflamatorias a nivel plasmático, lo cual supondría beneficios en los pacientes críticos mediante una posible modulación de la respuesta inflamatoria e inmunológica. Además, en los pacientes con distress respiratorio agudo, la disminución de citoquinas proinflamatorias ejercería un efecto directo sobre el lecho vascular pulmonar estableciendo una mejoría de la función respiratoria. Los estudios clínicos son contradictorios respecto a si la suplementación con Omega-3 se asocia con resultados clínicos favorables en forma significativa. Existe gran avance en el conocimiento de los mecanismos involucrados en la posible inmunomodulación que se le atribuye al aceite de pescado, pero futuras investigaciones son necesarias para elucidar la relevancia clínica de estos mecanismos.