Faculty Bibliography

Alfentanil, a short-acting lipophilic opioid, is used for labor analgesia and cesarean section and may cause neonatal depression. However, direct placental alfentanil transfer has not been studied. We measured placental alfentanil transfer and uptake during in vitro perfusion. Placenta lobules from healthy parturients were perfused with biophase at pH 7.4, 95%:5% O2:CO2. Maternal to fetal (MTF, n = 10) and fetal to maternal (FTM, n = 10) transfer were examined during perfusion with alfentanil 10 ng/mL, antipyrine, and creatinine for 1 h. Thereafter, both MTF and FTM placentas were assayed for alfentanil content (n = 3), or perfused with biophase for 1 h to determine drug washout and then assayed for alfentanil content (n = 3). After the 1 h washout, the remaining MTF placentas (n = 4) were then perfused MTF with high-dose alfentanil 1000 ng/mL to assess saturability of placental transfer. The remaining FTM placentas (n = 4) were then perfused with alfentanil 10 ng/mL in the MTF direction to verify that the same alfentanil transfer characteristics found between placentas were valid when the direction of drug transfer was reversed in the same placenta. Alfentanil was rapidly transferred (< 5 min) across the placenta both MTF and FTM. During MTF transfer, fetal effluent reached a plateau at 2.2 ng/mL between 35 and 55 min, and was unmeasurable 30 min into washout. During FTM transfer, maternal effluent reached a plateau at 1.9 ng/mL at 25-45 min, and was absent after 20-45 min of washout.(ABSTRACT TRUNCATED AT 250 WORDS)

Inadequate control of postoperative pain remains a major clinical problem. A reliable method of providing long-lasting postoperative analgesia with a single dose would be very useful. We synthesized a liposomal morphine formulation and compared it to free morphine with regard to duration of analgesia in the mouse. Analgesia was assessed after intraperitoneal injection using the tail-flick test. The systemic toxicity after administration of liposomal and free morphine was compared. The release rate of morphine from liposomes in vitro was also evaluated. The lethal intraperitoneal dose of free morphine in 50% of mice (LD50) was 400 mg/kg. The maximum safe (non-lethal) dose of free morphine was 130 mg/kg. The highest dose of liposomal morphine administered (1650 mg/kg) did not cause death in any animal. Duration of analgesia was significantly prolonged with the highest dose of liposomal morphine (21.5 +/- 5.3 h) compared to the maximum safe dose of free morphine (3.7 +/- 0.75 h), P < 0.01. In vitro experiments showed a slow release rate of morphine from the liposome depot. Prolonged analgesia and decreased systemic toxicity for liposomal morphine are explained by sustained release of morphine from the liposomal depot. These results suggest that liposomal narcotic formulations may provide prolonged analgesia with single-dose administration

Local anesthetic partition coefficients correlate with drug potencies in vitro, but in vivo data have not always complimented in vitro results. Despite extensive studies on intrathecal anesthetic action, whether there is correlation between the partition coefficient and local anesthetic potency has not been addressed. Mice (n = 150) were randomly allocated into 15 groups. Intrathecal injections of etidocaine (E), tetracaine (T), bupivacaine (B), lidocaine (L), or procaine (P) were administered and analgetic effect was measured using tail-flick (TF) test. Concentration-response regressions were constructed for each drug; EC50 values were calculated and compared at 95% confidence intervals. The EC50 values between E (0.017%), T (0.019%), and B (0.012%) were not significantly variant. The EC50 of L (0.098%) and P (0.229%) were significantly different from each other and from E, T, and B. The EC50 values were converted to ED50 in nmols. Relative anesthetic potency, defined as the inverse value of ED50 of drug was 23:16:15:2.4:1 for B, E, T, L, and P, respectively. ED50 showed high correlation (R = 0.978) with partition coefficients of local anesthetics. This study implies that the partition coefficient is a predictor of intrathecal local anesthetic potency. We suggest that the mouse model is reliable for evaluation of intrathecal local anesthetic action

BACKGROUND AND OBJECTIVES. Currently available local anesthetics have relatively limited duration of action and some may cause severe systemic toxicity. An ultralong lasting local anesthetic would be useful to produce prolonged intraoperative anesthesia and extended postoperative analgesia. The goal of this study was to synthesize a sustained release local anesthetic formulation that would produce prolonged sensory block and decrease the possibility of systemic toxicity. METHODS. The effect of liposomes containing 1.1% bupivacaine on duration of sensory block of the mouse tail was compared with equivalent concentrations of bupivacaine with and without epinephrine. Analgesia was assessed using the tail flick test. Systemic toxicity (LD50) was assessed after intraperitoneal injection and in vitro release rates were compared by dialysis technique for liposomal and plain bupivacaine. RESULTS. Sensory block was significantly prolonged with liposomal bupivacaine (130 +/- 38 minutes) compared to plain bupivacaine (46 +/- 11 minutes, P < .01) or bupivacaine with epinephrine (81 +/- 28 minutes, P < .05). The LD50 was significantly lower for plain bupivacaine (61 mg/kg, 95% confidence intervals 47-79) than for liposomal bupivacaine (291 mg/kg, 95% confidence intervals 201-422). The time to 50% in vitro release through a dialysis membrane for liposomal bupivacaine (28 +/- 9 minutes) was markedly prolonged compared to plain bupivacaine (7 +/- 1 minutes). CONCLUSIONS. This study shows that liposomal encapsulation of bupivacaine significantly prolongs duration of action and greatly decreases systemic toxicity of the drug. These findings may be promising for the future production of formulations of ultralong lasting local anesthetics with enhanced efficacy and safety

We have compared the duration of motor block produced by four local anaesthetics administered into a chronically implanted subarachnoid catheter in rabbits. Each group (n = 6) received four different doses of amethocaine, bupivacaine, lignocaine or procaine, and the duration of the resulting motor block was assessed. Dose-response curves were plotted for each drug. As a measure of activity of the anaesthetics, we used the dose of each drug required to produce block of 60-min duration (D60 min) and the correlation between D60 min and different drug properties was examined. An inverse linear correlation (r = 0.995; P < 0.01) was observed between log D60 min and the log of the partition coefficient of the local anaesthetics. No correlation was found between the effect and degree of protein binding, pKa or molecular weight. These results suggest that, in spinal anaesthesia, the partition coefficient could be used as a predictor of the duration of anaesthetic action

BACKGROUND AND OBJECTIVES. The purpose of this study was to compare the effects of thoracic and lumbar epidural morphine on pulmonary function and analgesia after thoracotomy for pulmonary resection. METHODS. Twenty-seven patients were randomized into two groups to receive either thoracic or lumbar epidural morphine as needed for postoperative analgesia. Postoperative pain was assessed hourly on a 10-cm visual analog scale (VAS), and epidural morphine was administered in 3 mg doses for a VAS score > 2 cm. Patients underwent pulmonary function tests (forced vital capacity, forced expiratory volume at 1 second, peak expiratory flow) preoperatively, and 24 hours postoperatively. Results were expressed as mean +/- 1 SE and analyzed using Student's t-test and Student-Newman-Keuls test at p < 0.05. RESULTS. Twenty patients completed the study (n = 10 per group). Patients in the thoracic group required 3.1 +/- 0.4 injections to a total morphine dose of 11.9 +/- 1.4 mg during the first 24 hours postoperatively, and those in the lumbar group required 4.7 +/- 0.4 doses to a total 24-hour morphine dose of 16.4 +/- 1.2 mg (p < 0.05). Median hourly VAS scores were similar in both groups. Postoperative pulmonary function decreased in both groups without intergroup differences. CONCLUSIONS. The authors conclude that thoracic epidural morphine administration in patients after thoracotomy results in decreased morphine requirements and the same degree of analgesia as does lumbar administration

We used the tail flick test to quantify duration of local anesthetic-induced conduction block in the mouse. Using a baseline tail flick latency (TFL) between 1.0 and 2.5 sec, sensory block was considered present if TFL was > or = 4 sec. Two 20-microL local anesthetic injections were made on opposite sides of the tail base. TFL was tested every 10 min, and local block duration was interpreted as the time to return of TFL to < 4 sec. We tested three different concentrations of procaine (1%, 2%, and 4%), tetracaine (0.125%, 0.5%, and 1%), and lidocaine (0.5%, 1%, and 2%) with and without epinephrine. The testing method could discriminate between the duration of the various local anesthetic concentrations used. For the 1% concentrations, the duration of sensory block was 2 +/- 4 min (S.D.) for procaine, 20 +/- 10 min for lidocaine, 40 +/- 10 min for tetracaine, and 66 +/- 15 min for lidocaine with epinephrine. We found this to be a simple and reliable means of assessing local anesthetic conduction block in the mouse

The purpose of this study was to develop a reliable model to independently quantify motor and sensory block produced by local anesthetics. The sciatic nerve was blocked in 52 rats by injecting 0.2 mL of 0.125%, 0.25%, 0.5%, or 0.75% bupivacaine (n = 13 for each concentration). Accurate needle placement was achieved using a nerve stimulator at 0.2 mA and 1 Hz. Ten control rats received 0.9% saline (n = 5) or sham nerve stimulation (n = 5). Motor block was assessed by measuring hindpaw grip strength with a dynamometer. Sensory block was determined by measuring hindpaw withdrawal latency from radiant heat. The intensity of both motor and sensory block measured at 30-min intervals was plotted against time until full recovery to obtain the area under the curve. Intergroup comparisons using analysis of variance showed increasing area under the curve with increasing concentrations of bupivacaine for motor blocks (P < 0.05 for all intergroup comparisons except 0.5% vs 0.75%) and sensory blocks (P < 0.05 for all intergroup comparisons). Normal saline or sham nerve stimulation did not result in any motor or sensory block