Peer Review #1 of "Minimum infusion rate and adrenocortical function after continuous infusion of the novel etomidate analog ET-26-HCl in rats (v0.2)"

Background Because etomidate induces prolonged adrenal suppression, even following a single bolus, its use as an infused anesthetic is limited. Our previous study indicated that a single administration of the novel etomidate analog methoxyethyletomidate hydrochloride (ET-26-HCl) shows little suppression of adrenocortical function. The aims of the present study were to (1) determine the minimum infusion rate of ET-26-HCl and compare it with those for etomidate and cyclopropyl-methoxycarbonylmetomidate (CPMM), a rapidly metabolized etomidate analog that is currently in clinical trials and (2) to evaluate adrenocortical function after a continuous infusion of ET-26-HCl as part of a broader study investigating whether this etomidate analog is suitable for long infusion in the maintenance of anesthesia. Method The up-and-down method was used to determine the minimum infusion rates for ET-26-HCl, etomidate and CPMM. Sprague-Dawley rats (n = 32) were then randomly divided into four groups: etomidate, ET-26-HCl, CPMM, and vehicle control. Rats in each group were infused for 60 min with one of the drugs at its predetermined minimum infusion rate. Blood samples were drawn initially and then every 30 min after drug infusion to determine the adrenocorticotropic hormone-stimulated concentration of serum corticosterone as a measure of adrenocortical function. Results The minimum infusion rates for etomidate, ET-26-HCl and CPMM were 0.29, 0.62, and 0.95 mg/kg/min, respectively. Compared with controls, etomidate decreased serum corticosterone, as expected, whereas serum corticosterone concentrations following infusion with the etomidate analogs ET-26-HCl or CPMM were not significantly different from those in the control group. Conclusion The corticosterone concentrations tended to be reduced for the first hour following ET-26-HCl infusion (as compared to vehicle infusion); however, this reduction did not reach statistical significance. Thus, further studies are warranted examining the practicability of using ET-26-HCl as an infused anesthetic.

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Pharmacokinetics of Continuous Infusion Therapy of Factor VIII Concentrates in Hemophilia A Patients with Inhibitors,

Blood ◽

10.1182/blood.v118.21.3320.3320 ◽

2011 ◽

Vol 118 (21) ◽

pp. 3320-3320

Author(s):

Katsumi Nishiya ◽

Ichiro Tanaka ◽

Keiji Nogami ◽

Kenichi Ogiwara ◽

Koji Yada ◽

...

Keyword(s):

Factor Viii ◽

Continuous Infusion ◽

Infusion Rate ◽

Hemophilia A ◽

Conflicts Of Interest ◽

High Titer ◽

Infusion Therapy ◽

Target Level ◽

Ci Therapy ◽

The Difference

Abstract Abstract 3320 Continuous infusion (CI) of factor VIII (FVIII) concentrates is aimed at maintaining a steady hemostatic level of FVIII activity (FVIII:C) in hemophilia A patients during various surgeries. However, there are few reports that mentioned the difference of pharmacokinetics of CI therapy in hemophilia A patients with inhibitors. We investigated the relationship between the FVIII:C levels and the rate of CI, and the difference of clearance (CL) and volume of distribution (Vd) of FVIII in hemophilia A patients with/without inhibitors. 8 severe hemophilia A patients without inhibitors (arthroscopic synovectomy; 4 cases, total knee arthroplasty; 2 cases, total nephrectomy; 1 case, partial hepatectomy; 1 case), 3 patients with low-titer (2.0–2.9 BU) inhibitors and 3 patients with high-titer (6.0–9.0 BU) inhibitors (insertion or removal of a central venous access device), were enrolled in this study between 2005 and 2010. According to the Japanese guideline for hemophilia treatment, we should do CI therapy to keep target level 80–100% for 5–10 days for joint surgery and other major surgeries. An initial bolus infusion (BI) of FVIII concentrates was administered to achieve this level prior to CI. In addition, we have to neutralize the inhibitors by FVIII concentrates in case of the patients with inhibitors. FVIII:C was measured using one-stage clotting assays and FVIII inhibitor assays were performed using the Bethesda method. All therapy was conducted after obtaining fully informed consent. The median FVIII:C level after BI was 120.2% (range: 90–150) in the patients without inhibitors, 72.0% (range: 68–160) with low-titer inhibitors, and 20.0% (range: 9.4–30) with high-titer inhibitors, respectively. The target level of FVIII:C was adjusted to approximately 100%. The initial infusion rate was 3.7 U/kg/hr (range: 2.2–5.0), 8.3 U/kg/hr (range: 8.0–8.5) and 18.5 U/kg/hr (range: 15–22), respectively. After adjustment for the target level, the final infusion rate decreased to 2.6 U/kg/hr (range: 1.5–5.4), 4.7 U/kg/hr (range: 3.0–5.6) and 8.0 U/kg/hr (range: 7.0–9.0), respectively. CL was 2.3 ml/hr/kg (range: 1.5–3.9), 4.0 ml/hr/kg (range: 2.3–5.1) and 9.3 ml/hr/kg (range: 9.0–9.6), respectively. Vd was 0.04 L/kg (range: 0.031–0.047), 0.18 L/kg (range: 0.12–0.29) and 1.54 L/kg (range: 0.95–2.43), respectively. No unexpected safety concerns associated with CI, such as thrombosis, was identified during the study. On CI therapy, we could keep target level of the patients without inhibitors and with low-titer inhibitors easier than those with high-titer inhibitors. One of the reason is that CL and Vd in patients with inhibitors are higher than those in patients without inhibitors. CI with appropriate monitoring of FVIII:C level and concerning CL and Vd forms a safe method for perioperative care in hemophilia A patients with inhibitors. Disclosures: No relevant conflicts of interest to declare.

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