Effects of Thoracic Paravertebral Block on Postoperative Analgesia in Infants and Small Children undergoing Ultra-Fast Track Cardiac Anesthesia: A Randomized Controlled Trial.

OBJECTIVES: To assess whether a preoperative bilateral thoracic paravertebral block (TPVB) would improve postoperative analgesia in infants and small children undergoing open cardiac surgery in the protocol of an ultra-fast track cardiac anesthesia (UFTCA). DESIGN: A single-center, prospective, randomized, controlled study. SETTING: At a tertiary children's medical center. PARTICIPANTS: A total of 180 children undergoing cardiac surgery, aged 1 month to 3 years. INTERVENTIONS: Patients are allocated randomly to TPVB and parent- and/or nurse-controlled intravenous analgesia (PNCA) group (Group T) or PNCA group (Group P). MEASUREMENTS AND MAIN RESULTS: The primary outcome is the postoperative pain scores. The secondary outcome are intraoperative consumption of sufentanil, time to extubation, using of neostigmine, cumulative total and invalid PCA attempts in 24 and 48 hours after surgery, hospitalization characteristics, perioperative blood glucose, postoperative arterial oxygen partial pressure, arterial carbon dioxide partial pressure (PaCO2) and brain natriuretic peptide (BNP). The postoperative pain scores within 24 hours, intraoperative consumption of sufentanil, total, and invalid PCA attempts in 24 and 48 hours, perioperative blood glucose and BNP on the seventh day in Group T were all significantly lower than those in Group P (p < 0.001). The time to extubation, the use of neostigmine, and PaCO2 on the sixth hour, postoperatively, were significantly smaller in Group T than those in Group P (p < 0.05). There were no significant differences in the hospitalizations between the 2 groups. CONCLUSIONS: A combination of bilateral single dose TPVB and PNCA pain management is superior to a PNCA pain management alone in infants and small children undergoing open cardiac surgery and contributes to a rapid recovery with preferable perioperative outcomes in the protocol of UFTCA.

The effect of ultra-fast track cardiac anaesthesia in infants and toddlers: a randomised trial.

BACKGROUND: The usefulness of ultra-fast track cardiac anaesthesia may give great benefits to patients; however, its usefulness has not been completely evaluated in infants and toddlers, who are generally considered the most difficult group for ultra-fast track cardiac anaesthesia. METHOD: A total of 130 children were allocated randomly into to a ultra-fast track cardiac anaesthesia group (Group D) or a conventional anaesthesia group (Group C) (each n = 65). In Group D, dexmedetomidine was administrated at a dosage of 1 µg/kg/hour after induction. The patient- controlled intravenous analgesia was dexmedetomidine and sufentanil. In Group C, patients were infused with of the same volume of normal saline, and sufentanil alone for patient-controlled intravenous analgesia. The dosages of sufentanil, extubation time, haemodynamic parameters, postoperative hospitalisation conditions, pain and sedation scores, blood gas analysis, and inotropic scores were all recorded. RESULTS: The dosage of sufentanil (1.49 ± 0.05 vs. 3.81 ± 0.04 µg, p < 0.001) and extubation time (2.63 ± 0.52 vs. 436.60 ± 22.19 minutes, p < 0.001) in Group D were all significantly lower than those in Group C. Moreover, cardiac intensive care unit stay time, total hospital stay, hospitalisation costs, postoperative lactate levels, and inotropic scores were also significantly lower in Group D. CONCLUSIONS: Using of ultra-fast track cardiac anaesthesia in infants and toddlers is effective, it not only reduce the perioperative requirement for opioids and shorten the extubation time but also decreases the inotrope requirement and provide a better postoperative condition for young children.

Effectiveness of analgesia with hydromorphone hydrochloride for postoperative pain following surgical repair of structural congenital malformations in children: a randomized controlled trial.

BACKGROUND: Effective postoperative analgesia is needed to prevent the negative effects of postoperative pain on patient outcomes. To compare the effectiveness of hydromorphone hydrochloride and sufentanil, combined with flurbiprofen axetil, for postoperative analgesia in pediatric patients. METHODS: This prospective randomized controlled trial included 222 pediatric patients scheduled for repair of a structural congenital malformation under general anesthesia. Patients were randomized into 3 groups: hydromorphone hydrochloride 0.1 mg/kg (H1), hydromorphone hydrochloride 0.2 mg/kg; (H2) or sufentanil 1.5 µg/kg (S). Analgesics were diluted in 0.9% saline to 100 ml and infused continuously at a basic flow rate of 2 mL per h. The primary outcome measure was the Face, Legs, Activity, Cry, and Consolability (FLACC) pain score. Secondary outcomes included heart rate (HR), respiration rate (RR), SpO2, Ramsay sedation scores, scores on the Paediatric Anaesthesia Emergence Delirium (PAED) scale, adverse reactions, parent satisfaction with analgesia. RESULTS: The FLACC score was significantly lower in H1 and H2 groups compared to S. The Ramsay sedation score was significantly higher in H1 and H2 groups compared to S. Recovery time was shorter in H1 group compared to patients H2 group or S group. There were no significant differences in the PAED scale, HR, RR, SpO2, adverse reactions, satisfaction of parents with analgesia, or length and cost of hospital stay. CONCLUSIONS: Hydromorphone hydrochloride is a more effective analgesic than sufentanil for postoperative pain in pediatric patients following surgical repair of a structural congenital malformation, however, hydromorphone hydrochloride and sufentanil had similar safety profiles in this patient population. TRIAL REGISTRATION: Chinese Clinical Trial Register ChiCTR-INR-17013935). Clinical trial registry URL: Date of registration: December 14, 2017.

Intermediate-Temperature Creep Deformation and Microstructural Evolution of an Equiatomic FCC-Structured CoCrFeNiMn High-Entropy Alloy.

The tensile creep behavior of an equiatomic CoCrFeNiMn high-entropy alloy was systematically investigated over an intermediate temperature range (500-600 °C) and applied stress (140-400 MPa). The alloy exhibited a stress-dependent transition from a low-stress region (LSR-region I) to a high-stress region (HSR-region II). The LSR was characterized by a stress exponent of 5 to 6 and an average activation energy of 268 kJ mol-1, whereas the HSR showed much higher corresponding values of 8.9-14 and 380 kJ mol-1. Microstructural examinations on the deformed samples revealed remarkable dynamic recrystallization at higher stress levels. Dislocation jogging and tangling configurations were frequently observed in LSR and HSR at 550 and 600 °C, respectively. Moreover, dynamic precipitates identified as M23C6 or a Cr-rich σ phase were formed along grain boundaries in HSR. The diffusion-compensated strain rate versus modulus-compensated stress data analysis implied that the creep deformation in both stress regions was dominated by stress-assisted dislocation climb controlled by lattice diffusion. Nevertheless, the abnormally high stress exponents in HSR were ascribed to the coordinative contributions of dynamic recrystallization and dynamic precipitation. Simultaneously, the barriers imposed by these precipitates and severe initial deformation were referred to so as to increase the activation energy for creep deformation.

Ketamine modulates neural stem cell differentiation by regulating TRPC3 expression through the GSK3ß/ß-catenin pathway.

Ketamine, a popular anesthetic, is often abused by people for its hallucinogenic effect. Thus, the safety of ketamine in pediatric populations has been called into question for potential neurotoxic effects. However, ketamine also has neuroprotective effects in many brain injury models. The differentiation of neural stem cells (NSCs) was influenced significantly by ketamine, but the molecular mechanism is still unclear. NSCs were extracted from the hippocampi of postnatal day 1 rats and treated with ketamine to induce NSCs differentiation. Our results found that ketamine promoted neuronal differentiation of NSCs dose-dependently in a small dose range (P < 0.001). The main types of neurons from NSCs were cholinergic (51 ± 4 %; 95 % CI: 41-61 %) and glutamatergic neurons (34 ± 3 %; 95 % CI: 27-42 %). Furthermore, we performed RNA sequencing to promise a more comprehensive understanding of the molecules regulated by ketamine. Finally, we combined bioimaging and multiple molecular biology techniques to clarify that ketamine influences NSC differentiation by regulating transient receptor potential canonical 3 (TRPC3) expressions. Ketamine dramatically repressed TRPC3 expression (MD [95 % CI]=0.67 [0.40-0.95], P < 0.001) with a significant increase of phosphorylated glycogen synthase kinase 3ß (p-GSK3ß; MD [95 % CI]=1.00 [0.74-1.27], P < 0.001) and a decrease of ß-catenin protein expression (MD [95 % CI]=0.60 [0.32-0.89], P = 0.001), thereby promoting the differentiation of NSCs into neurons and inhibiting their differentiation into astrocytes. These results suggest that TRPC3 is necessary for ketamine to modulate NSC differentiation, which occurs partly via regulation of the GSK3ß/ß-catenin pathway.