Joseph M. Scavone

Tolerance and Dependence in Neonates Sedated with Fentanyl during Extracorporeal Membrane Oxygenation

We undertook a retrospective chart review of 37 neonates who received fentanyl by continuous infusion while undergoing extracorporeal membrane oxygenation (ECMO) between May 1986 and October 1988. We quantified the doses of all sedatives utilized, determined the incidence of neonatal abstinence syndrome (NAS), and identified risk factors associated with NAS. We determined peak fentanyl infusion rate, mean fentanyl infusion rate, total fentanyl dose, and duration of ECMO therapy. NAS was observed in 21 of 37 neonates (57%). In both the NAS and non-NAS neonates, mean infusion rate increased steadily during ECMO therapy, from a mean of 11.6 +/- 6.9 (SD) micrograms.kg-1.h-1 on day 1 to a mean of 52.5 +/- 19.4 (SD) micrograms.kg-1.h-1 by day 8. Total fentanyl dose and duration of ECMO were significantly greater in neonates with NAS. We found that neonates with a total dose greater than 1.6 mg/kg or an ECMO duration greater than 5 days had a significantly greater incidence of NAS (chi-squared test, P less than 0.01 and P less than 0.005; odds ratios = 7.0 and 13.9, respectively). With multiple logistic regression, ECMO duration was found to be the most powerful predictor of the occurrence of NAS. We also measured plasma fentanyl concentrations in a separate group of 5 neonates receiving fentanyl by continuous infusion for sedation. Fentanyl concentrations increased steadily during the period of infusion, suggesting the development of tolerance to the sedating effects. We conclude that continuous administration of fentanyl for sedation is associated with the uniform development of tolerance and a significant incidence of dependence. Alternative approaches to sedation should be investigated.

Pharmacokinetic and electroencephalographic study of intravenous diazepam, midazolam, and placebo

Eleven healthy volunteers received a single intravenous dose of diazepam (0.15 mg/kg), midazolam (0.1 mg/kg), and placebo by 1‐minute infusion in a double‐blind, three‐way crossover study. Plasma concentrations were measured during 24 hours after dosage, and the electroencephalographic (EEG) power spectrum was simultaneously computed by fast‐Fourier transform to determine the percentage of total EEG amplitude occurring in the 13 to 30 Hz range. Both diazepam and midazolam had large volumes of distribution (1.2 and 2.3 L/kg, respectively), but diazepams half‐life was considerably longer (33 versus 2.8 hours) and its metabolic clearance lower (0.5 versus 11.0 ml/min kg) than those of midazolam. EEG changes were maximal at the end of the diazepam infusion and 5 to 10 minutes after midazolam infusion. Percent 13 to 30 Hz activity remained significantly above baseline until 5 hours for diazepam but only until 2 hours for midazolam. For both drugs, EEG effects were indistinguishable from baseline by 6 to 8 hours, suggesting that distribution contributes importantly to terminating pharmacodynamic action. The relationship of EEG change to plasma drug concentration indicated an apparent EC50 value of 269 ng/ml for diazepam as opposed to 35 ng/ml for midazolam. However, Emax values were similar for both drugs (+19.4% and + 21.3%, respectively).

Changes in the pharmacodynamic response to fentanyl in neonates during continuous infusion

Tolerance to opioid-induced sedation has been reported in neonates sedated with fentanyl by continuous infusion while undergoing extracorporeal membrane oxygenation. We undertook a prospective analysis of eight newborn infants sedated with fentanyl during extracorporeal membrane oxygenation therapy for respiratory failure. We recorded daily mean fentanyl infusion rate, measured serial plasma fentanyl concentrations, and documented the occurrence of spontaneous motor activity or respiratory effort. Mean fentanyl infusion rate increased steadily during the period of infusion from a mean of 9.2 +/- 1.9 (SEM) micrograms/kg per hour on day 1 to a mean of 21.9 +/- 4.5 micrograms/kg per hour by day 6. Mean plasma fentanyl concentrations increased steadily during the period of fentanyl infusion from 3.1 +/- 1.1 (SEM) ng/ml on day 1 to 13.9 +/- 3.2 ng/ml on day 6. All infants exhibited movement in response to gentle tactile stimulation throughout the period of infusion, and seven of eight infants manifested spontaneous movement of the extremities and eye opening. Our results indicate that when fentanyl is used for sedation in neonates, the plasma concentrations required for satisfactory sedation steadily escalate, possibly indicating the rapid development of tolerance to the sedating effects of fentanyl.

A randomized trial of pregabalin in patients with neuropathic pain due to spinal cord injury

Objective: To assess the efficacy and tolerability of pregabalin for the treatment of central neuropathic pain after spinal cord injury (SCI). Methods: Patients with chronic, below-level, neuropathic pain due to SCI were randomized to receive 150 to 600 mg/d pregabalin (n = 108) or matching placebo (n = 112) for 17 weeks. Pain was classified in relation to the neurologic level of injury, defined as the most caudal spinal cord segment with normal sensory and motor function, as above, at, or below level. The primary outcome measure was duration-adjusted average change in pain. Key secondary outcome measures included the change in mean pain score from baseline to end point, the percentage of patients with ≥30% reduction in mean pain score at end point, Patient Global Impression of Change scores at end point, and the change in mean pain-related sleep interference score from baseline to end point. Additional outcome measures included the Medical Outcomes Study–Sleep Scale and the Hospital Anxiety and Depression Scale. Results: Pregabalin treatment resulted in statistically significant improvements over placebo for all primary and key secondary outcome measures. Significant pain improvement was evident as early as week 1 and was sustained throughout the treatment period. Adverse events were consistent with the known safety profile of pregabalin and were mostly mild to moderate in severity. Somnolence and dizziness were most frequently reported. Conclusions: This study demonstrates that pregabalin is effective and well tolerated in patients with neuropathic pain due to SCI. Classification of evidence: This study provides Class I evidence that pregabalin, 150 to 600 mg/d, is effective in reducing duration-adjusted average change in pain compared with baseline in patients with SCI over a 16-week period (p = 0.003, 95% confidence interval = −0.98, −0.20).

Trazodone kinetics: Effect of age, gender, and obesity

Single 25 mg intravenous and 50 mg oral doses of trazodone were given to 43 healthy subjects, divided into young men and women (aged 18 to 40 years) and elderly men and women (aged 60 to 76 years). Among men, trazodone volume of distribution (Varea) was increased in elderly vs. young subjects (1.15 vs. 0.89 L/kg; P < 0.05), and clearance decreased (1.65 vs. 2.31 ml/min/kg; P < 0.05), thereby increasing elimination half‐life (t½) in elderly men (8.2 vs. 4.7 hours; P < 0.001). Varea in women was also increased in the elderly (1.5 vs. 1.27 L/kg; P < 0.02), causing increased t½ (7.6 vs. 5.9 hours; P < 0.05), but clearance was unrelated to age. Absolute bioavailability of oral trazodone averaged 70% to 90% and was unrelated to age or sex. In 23 obese subjects (mean weight 112 kg) vs. 23 matched control subjects of normal weight (mean 65 kg), Varea was greatly increased (162 vs. 67 L; 1.43 vs. 1.04 L/kg; P < 0.001) and was highly correlated with body weight (r = 0.91). Clearance was unchanged between groups (146 vs. 136 ml/min), but the increased Varea caused prolonged t½ in obese subjects (13.3 vs. 5.9 hours; P < 0.001). Reduced clearance of trazodone among elderly men may indicate a need for dosage reduction during chronic therapy. In obese individuals, choice of dosage during chronic treatment should be based on ideal rather than total body weight.

Pharmacokinetics of Diphenhydramine and a Demethylated Metabolite Following Intravenous And Oral Administration

Ten healthy volunteers received a single 50‐mg dose of diphenhydramine (DP) hydrochloride intravenously and orally on two separate occasions. Kinetics of DP and a major demethylated metabolite (DMDP) were determined from multiple plasma samples drawn during a 24‐ to 48‐hour period after dosage. Modification of a gas chromatographic (GC) technique allowed simultaneous quantitation of DP and DMDP. Mean kinetic variables for DP after intravenous (IV) dosage were: volume of distribution, 4.5 L/kg; elimination half‐life, 8.4 hours; clearance, 6.2 mL/min/kg. After oral DP administration, a peak plasma level of 66 ng/mL was reached 2.3 hours after dosage. Systemic availability was 72%, nearly identical to the predicted estimate (71%) based on clearance of IV DP relative to hepatic blood flow. Appearance of the metabolite, DMDP, mirrored disappearance of DP; the area under the plasma concentration‐time curve (AUC) for DMDP was highly correlated (r = .79, P < .05) with clearance of IV DP. However, metabolite AUC was significantly higher after oral as opposed to IV DP (218 vs 145 hr‐ng/mL, P < .05). Because DP and DMDP elute nearly identically on standard GC systems, methodologic modifications are needed to resolve them. Coelution of the two compounds could bias kinetic data based on plasma concentration presumed to be specific for intact DP.

Enhanced Bioavailability of Triazolam Following Sublingual Versus Oral Administration

The rate and extent of the absorption of triazolam following sublingual and oral administration were evaluated in this study. Eight healthy volunteers received triazolam 0.5 mg in a commercially available tablet, by sublingual and oral routes on two occasions in random sequence. Plasma triazolam concentrations during 24 hours after each dose were measured by electron‐capture gas‐liquid chromatography. The mean total area under the curve for sublingual administration was significantly larger than that following oral dosage (28.9 vs 22.6 ng‐hr/mL, P < .025). The peak plasma concentration after sublingual dosage was also higher than after oral administration (4.7 vs 3.9 ng/mL, P < .1). No significant differences between sublingual and oral administration were found for the elimination half‐life of triazolam (4.1 vs 3.7 hr) and the time of peak concentration (1.22 vs 1.25 hr) after dose. Thus, the bioavailability of triazolam after sublingual administration is increased by an average of 28% compared with oral administration of the same dose, possibly because first‐pass extraction is bypassed. Clinical effects of triazolam may likewise be enhanced by sublingual dosage.

Pharmacokinetics and Pharmacodynamics of Diphenhydramine 25 mg in Young and Elderly Volunteers

Thirty‐seven young and elderly male and female volunteers 21 to 76 years of age received a single 25‐mg oral dose of diphenhydramine or matching placebo in a double‐blind, randomized, two‐way crossover study. Plasma diphenhydramine concentrations, self‐ratings of sedation, mood, and autonomic effects, performance on the digit‐symbol substitution test (DSST), and heart rate were determined for 24 hours after administration. Information acquisition and recall were tested at 2.5 and 24 hours after administration. Age and gender did not significantly influence diphenhydramine peak plasma concentration, time of peak concentration, elimination half‐life, area under the plasma concentration curve, or apparent oral clearance. Effects on psychomotor performance, sedation, mood, and memory did not differ between diphenhydramine and placebo in either group. Thus, the pharmacokinetics of single 25‐mg oral doses of diphenhydramine are not influenced by age or gender. This dose of diphenhydramine produces essentially undetectable pharmacodynamic effects in both the young and elderly.

Patient phenotyping in clinical trials of chronic pain treatments: IMMPACT recommendations.

Abstract There is tremendous interpatient variability in the response to analgesic therapy (even for efficacious treatments), which can be the source of great frustration in clinical practice. This has led to calls for “precision medicine” or personalized pain therapeutics (ie, empirically based algorithms that determine the optimal treatments, or treatment combinations, for individual patients) that would presumably improve both the clinical care of patients with pain and the success rates for putative analgesic drugs in phase 2 and 3 clinical trials. However, before implementing this approach, the characteristics of individual patients or subgroups of patients that increase or decrease the response to a specific treatment need to be identified. The challenge is to identify the measurable phenotypic characteristics of patients that are most predictive of individual variation in analgesic treatment outcomes, and the measurement tools that are best suited to evaluate these characteristics. In this article, we present evidence on the most promising of these phenotypic characteristics for use in future research, including psychosocial factors, symptom characteristics, sleep patterns, responses to noxious stimulation, endogenous pain-modulatory processes, and response to pharmacologic challenge. We provide evidence-based recommendations for core phenotyping domains and recommend measures of each domain.

Metronidazole Impairs Clearance of Phenytoin but Not of Alprazolam or Lorazepam

Healthy volunteers received single doses of either phenytoin (300 mg IV), alprazolam (1 mg orally) or lorazepam (2 mg IV) on two occasions in random sequence. One of the two trials was a control; for the other trial, subjects ingested metronidazole, 250 mg three times daily beginning 4 days prior to and continuing for the duration of each kinetic study. Compared with control, metronidazole significantly prolonged phenytoin half‐life (23 versus 16 hours, P < .02) and reduced its clearance (.28 versus .33 mL/min/kg, P < .005), known to depend on aromatic hydroxylation. However, metronidazole did not significantly alter kinetic variables for either alprazolam (metabolized by aliphatic hydroxylation) or lorazepam (metabolized by glucuronide conjugation). Thus, metronidazole has the capacity to impair the clearance of certain oxidatively metabolized drugs, but there is no apparent way to predict which drugs will be so influenced.