Lipid Emulsion And Isoflurane: The Quality Assessment of Anesthesia Parameters In Pigeons

An objective was to evaluate the efficacy of intravenous (IV) emulsified isoflurane formulation for maintenance of general anesthesia and to compare with IV lipid emulsion infusion with inhalation isoflurane in pigeons. The animals was total of 21 healthy, mature pigeons (Columba livia domestica), weighing 318 ± 13 g. Pigeons were anesthetized by emulsified isoflurane (treatment IΙΙ), inhalation isoflurane with IV lipid emulsion (treatment ΙΙ ), and inhalation isoflurane (treatment Ι) alone. Over 50 minutes, wing tone, toe pinch (pedal), and feather pluck reflex were tested every 10 minutes. Data was recorded at 10, 20 and 30 minutes for temperature (T), peripheral hemoglobin oxygen saturation (SpO2) heart rate (HR), and respiratory rate (fR). A scoring system was used to assess parameters related to anesthesia duration and depth. There were no significant differences in hemodynamic variables between the treatment Ι and treatments ΙΙ and IΙΙ, in treatments associated with fat emulsion have shown faster induction, longer anesthesia, more immobilization, and longer recovery time. Furthermore, in anesthesia depth percentages evaluation it was observed that emulsified isoflurane entered the anesthesia deep stage earlier and was removed immediately after discontinuation of administration.Administration of 8% v/v emulsified isoflurane IV was effective in anesthesia rapid induction, stability in depth of anesthesia, rapid withdrawal from anesthesia depth by discontinuation of the infusion, delayed recovery, cardiorespiratory and (T) stability.

Drug-Induced Hepatic Injury in Newborns and Children in Intensive Care Unit: A Retrospective Study of China

Purpose Drug-induced liver injury (DILI) is a common adverse reaction in the clinic; however, there are relatively few reports of DILI in critically ill newborns and children. Making use of the Pediatric Intensive Care database (PIC), this study identifies which drugs are related to DILI in neonates and children in China. Methods Using the PIC, we screened for patients whose liver was suspected of being injured by drugs during hospitalization. The medicine they used was then assessed by the Roussel Uclaf Causality Assessment Method (RUCAM). We also collated drug combinations that may affect CYP enzyme metabolism, which may be one of the mechanisms that lead to DILI. Results A total of 13,449 patients were assessed, of whom 77 newborns and 261 children were finally included. The main type of liver injury in neonates was mixed (83.1%), while children’s hepatic injury types were mostly distributed between hepatocellular (59.4%) and cholestatic (28.4%). In terms of the assessment by the RUCAM, in newborns, the drugs that were most considered to cause or associated with hepatic injury comprised medium and long chain fat emulsion (17%), sodium glycerophosphate (12%) and meropenem (9%); while omeprazole (11%), methylprednisolone sodium succinate (10%) and meropenem (8%) are the primary culprit of DILI in children. Drug combinations that may affect CYP enzyme metabolism frequently seen in neonates are omeprazole + budesonide (16.9%), dexamethasone + midazolam (10.4%) and midazolam + sildenafil (10.4%). In children, the commonly used drug combinations are fentanyl + midazolam (20.7%), ibuprofen + furosemide (18.4%) and diazepam + omeprazole (15.3%). Conclusions The drugs that have been found to have hepatotoxicity (meropenem, medium and long chain fat emulsion, ibuprofen.etc.) are also related to DILI in newborns and children. When giving these drugs to newborns and children, physicians need to be more cautious. Also, pay attention to the effect on CYP 450 enzymes when using multiple drugs at the same time.

Discrete-Impulse Energy Supply in Milk and Dairy Product Processing

The efficient use of supplied energy is the basis of the discrete-impulse energy supply (DIES) concept. In order to explore the possibility of using DIES to intensify the hydromechanical processes, the emulsification of milk fat (homogenization of milk, preparation of spreads) and, in particular, the processing of cream cheese masses, were studied. Whole non-homogenized milk, fat emulsions, and cream cheese mass were the object of investigation. To evaluate the efficiency of milk homogenization, the homogenization coefficient change was studied, which was determined by using the centrifugation method, as it is the most affordable and accurate one. To provide the proper dispersion of the milk emulsion, six treatment cycles must be carried out under the developed cavitation mode in a static-type apparatus, here resulting in a light grain-like consistency, and exhibiting the smell of pasteurized milk. The emulsions were evaluated according to the degree of destabilization, resistance and dispersion of the fat phase. On the basis of the obtained data with respect to the regularities of fat dispersion forming in the rotor-type apparatus, the proper parameters required to obtain technologically stable fat emulsion spreads, possessing a dispersion and stability similar to those of plain milk creams, were determined. It was determined that under the DIES, an active dynamic effect on the milk globules takes place. The rheological characteristics of cheese masses were evaluated on the basis of the effective change in viscosity. The effect of the mechanical treatment on the structure of the cheese masses was determined.

Convenience of Hgb-O detected by optical method in XN-series hematology analyzers in evaluating hemoglobin concentration in samples with chylous turbidity

The chylous turbidity of blood samples is one of the causes of false-high hemoglobin (Hgb) concentration measurements by the colorimetric method, which has been widely applied in hematology analyzers. In such cases, additional manual procedures are required to correct Hgb concentrations. We therefore examined the effectiveness of an optical method for measuring Hgb concentrations in samples with chylous turbidity using Hgb-O in the reticulocyte channel equipped in XN-series analyzers (Sysmex, Kobe, Japan). Hgb-O showed excellent basic performance, including linear correlation and invariability with sodium lauryl sulfate (SLS)-Hgb detected by the colorimetric method. In the analysis of samples from healthy volunteers supplemented with fat emulsion, chylous turbidity did not affect Hgb-O but SLS-Hgb, which was falsely increased according to the dose of fat emulsion. Actually, SLS-Hgb was falsely elevated in 34 of 40 chylous turbidity 3+ samples. The remaining 6 samples were measured in hematology analyzers where Hgb-O was inconsistent with SLS-Hgb in the internal quality control records. For these samples, the correction factors calculated from the internal quality control records could contribute to providing the corrected Hgb-O value. These findings suggested that the optical method was effective and convenient for accurately evaluating Hgb concentrations in samples with extremely chylous turbidity.