About The Drug Voluven aka Hydroxyethyl Starch in Sodium Chloride Injection
Find Voluven side effects, uses, warnings, interactions and indications. Voluven is also known as Hydroxyethyl Starch in Sodium Chloride Injection.
Voluven
About Voluven aka Hydroxyethyl Starch in Sodium Chloride Injection |
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What's The Definition Of The Medical Condition Voluven?Clinical Pharmacology CLINICAL PHARMACOLOGY Mechanism Of Action Voluven® contains hydroxyethyl starch in a colloidal solution which expands plasma volume when administered intravenously.
This effect depends on the mean molecular weight (130,000 daltons; range 110,000 – 150,000 daltons), the molar substitution by hydroxyethyl groups (0.4; range 0.38 – 0.45) on glucose units of the starch, the pattern of hydroxyethyl substitution (C2/C6 ratio) of approximately 9:1, and the concentration (6%), as well as the dosage and infusion rate.
Hydroxyethyl starch is a derivative of thin boiling waxy corn starch, which mainly consists of a glucose polymer (amylopectin) predominantly composed of α-1-4-connected glucose units with several α-1-6- branches.
Substitution of hydroxyethyl groups on the glucose units of the polymer reduces the normal degradation of amylopectin by α-amylase in the body.
The low molar substitution (0.4) is the main pharmacological determinant for the beneficial effects of Voluven® on pharmacokinetics, intravascular volume and hemodilution4.
To describe the molecular weight and molar substitution characteristics of the hydroxyethyl starch in Voluven®, the compound is designated as hydroxyethyl starch 130/0.4.
Pharmacodynamics After isovolemic exchange of blood with 500 mL of Voluven® in healthy volunteers, blood volume is maintained for at least 6 hours.
Pharmacokinetics The pharmacokinetic profile of hydroxyethyl starch is complex and largely dependent on its molar substitution as well as its molecular weight4.
When administered intravenously, molecules smaller than the renal threshold (60,000-70,000 daltons) are readily and rapidly excreted in the urine, while molecules with higher molecular weights are metabolized by plasma α-amylase prior to excretion via the renal route.
The mean in vivo molecular weight of Voluven® in plasma is 70,000 – 80,000 daltons immediately following infusion and remains above the renal threshold throughout the treatment period.
Following intravenous administration of 500 mL Voluven® to healthy volunteers, plasma levels of Voluven® remain at 75% of peak concentration at 30 minutes post-infusion and decrease to 14% at 6 hours post-infusion.
Plasma levels of Voluven® return to baseline levels 24 hours following infusion.
Plasma clearance, volume of distribution, and elimination half-life of Voluven® in healthy volunteers following IV administration of 500 mL were 31.4 mL/min, 5.9 liters, and 12 hours, respectively.
Approximately 62 % of Voluven® was excreted as hydroxyethyl starch molecules in urine within 72 hours.
The pharmacokinetics of Voluven® are similar following single and multiple dose administration.
No significant plasma accumulation occurred after daily administration of 500 mL of a 10% solution containing hydroxyethyl starch 130/0.4 over a period of 10 days.
Approximately 70% of Voluven® was excreted as hydroxyethyl starch molecules in urine within 72 hours.
Renal Impairment Following a single intravenous administration of Voluven® (500 mL) in subjects with varying degrees of renal dysfunction, the AUC and clearance of Voluven® increased by 73% and decreased by 42% in subjects, respectively, with creatinine clearance <50 mL/min as compared to subjects with creatinine clearance >50 mL/min.
However, terminal half-life and peak hydroxyethyl starch concentration were not affected by renal impairment.
Plasma levels of Voluven® returned to baseline levels 24 hours following infusion.
Approximately 59 % and 51 % of Voluven® were excreted as hydroxyethyl starch molecules in urine within 72 hours in subjects with creatinine clearance ≥30 mL/min and <30 mL/min, respectively5.
There are no data available on the use of Voluven® in subjects undergoing hemodialysis.
Pharmacokinetic data in patients with hepatic insufficiency or in pediatric or geriatric patients are not available.
Effects of gender or race on the pharmacokinetics of Voluven® have not been studied.
Animal Pharmacology And/Or Toxicology Toxicology Three-month repeat infusion toxicology studies were conducted in rats and dogs in which three groups of animals were administered daily intravenous infusion over three hours.
Dosing volumes of either 60 or 90 mL/kg body weight of hydroxyethyl starch 130/0.4 (10% solution) or 90 mL/kg 0.9% sodium chloride injection were studied.
Observed toxicity following repeat infusion of hydroxyethyl starch is consistent with the oncotic properties of the solution resulting in hypervolemia in the animals.
There were no gender-related effects on toxicity following repeat administration of hydroxyethyl starch 130/0.4 in rats or dogs.
In reproduction studies in rats and rabbits, hydroxyethyl starch 130/0.4 (10% solution) had no teratogenic properties.
Embryolethal effects were observed in rabbits at 5 g/kg body weight/day.
In rats, bolus injection of this dose during pregnancy and lactation reduced body weight of offspring and induced developmental delays.
Signs of fluid overload were seen in the dams.
Hydroxyethyl starch 130/0.4 (10% solution) had no effect in studies assessing skin sensitization, antigenicity, and blood compatibility.
Pharmacology The pharmacodynamic effect of Voluven® was examined in a hemorrhagic shock model in conscious rats and a hemodilution model in dogs.
In both studies the control group received pentastarch (6% hydroxyethyl starch 200/0.5).
Voluven® was as effective as pentastarch in maintaining cardiopulmonary function during isovolemic hemodilution in beagle dogs.
In the three-hour follow-up period no additional administration of colloid was necessary.
There were no differences in long-term survival of rats after a single administration of Voluven® and pentastarch solutions following induced hemorrhagic shock (67% and 50% blood loss).
In the 67% induced bleeding group receiving Voluven® (N=6), the survival rate was 83% which is within the normal range for this type of experiment.
In the corresponding pentastarch group, survival was 100%.
Infusion of Ringer’s lactate resulted in a 50% survival rate after a 50% blood loss and a 0% survival after a 67% blood loss.
After multiple intravenous infusions of 0.7 g per kg body weight per day of 10% hydroxyethyl starch 130/0.4 or 10% hydroxyethyl starch 200/0.5 solution during 18 consecutive days, the plasma hydroxyethyl starch concentration in rats treated with hydroxyethyl starch 130/0.4 was lower compared to rats treated with hydroxyethyl starch 200/0.5.
Hydroxyethyl starch 130/0.4 was eliminated faster than hydroxyethyl starch 200/0.5.
In both groups, clear signs of hydroxyethyl starch tissue storage were detected in lymph nodes and spleen.
Numerous empty vacuoles in macrophages were observed.
Only minimal cellular vacuolization was found in the liver and kidney.
Histochemical differences between the groups were not observed.
A study with 10% radiolabeled 14C-hydroxyethyl starch 130/0.4 and 10% 14C- hydroxyethyl starch 200/0.5 solutions was carried out6.
In animals treated with hydroxyethyl starch 130/0.4, radioactivity decreased from 4.3% of the total administered dose (2.6 g hydroxyethyl starch 130/0.4 per animal) on day 3 to 0.65% on day 52.
In animals treated with hydroxyethyl starch 200/0.5, the 14C-activity decreased from 7.7% of the total administered dose (2.7 g hydroxyethyl starch 200/0.5 per animal) on day 3 to 2.45% on day 52.
These results confirm the faster elimination and lower persistence of hydroxyethyl starch 130/0.4 in tissue.
Clinical Studies Voluven® was studied in controlled clinical trials among adult and pediatric subjects undergoing various types of surgery (orthopedic, urologic, cardiac) in which hypovolemia is treated (pre-, intra-, and postoperative) or prevented (autologous blood donation, acute normovolemic hemodilution, hypervolemic hemodilution before cardiac surgery).
Adult subjects in intensive care units also were studied.
The safety and efficacy of Voluven® were compared to other colloidal plasma substitutes [pentastarch (6% hydroxyethyl starch 200/0.5), hetastarch (6% hydroxyethyl starch 450/0.7), gelatin solution or human serum albumin].
Perioperative fluid administration of Voluven® ranged from 500 to 4500 mL/day in surgical subjects, and cumulatively, from 6 to 66 L in intensive care subjects following traumatic brain injury.
Orthopedic Surgery Trial A prospective, controlled, randomized, double-blind, multi-center trial of 100 subjects undergoing elective orthopedic surgery was conducted in the US evaluating Voluven® (N=49) compared to hetastarch (6% hydroxyethyl starch in 0.9% sodium chloride injection) (N=51) for intraoperative volume replacement therapy7.
The primary efficacy variable, total volume of colloid solution required for intraoperative volume replacement therapy, was equivalent for the two treatment groups.
Mean volume infused was 1613 ± 778 mL for Voluven® and 1584 ± 958.4 mL for hetastarch.
The ratio Voluven®/hetastarch was estimated as 1.024 with a 95% confidence interval (0.84, 1.25), which was included within the equivalence range of (0.55, 1.82) prespecified in the study protocol.
This indicated that Voluven® and hetastarch have similar efficacy as intraoperative volume replacement therapy in major orthopedic surgery.
A second objective of the trial was to show superiority for safety between Voluven® and hetastarch.
Four safety endpoints were prospectively defined and compared in a sequential manner (in order to preserve the type-1 error rate, i.e., observing a difference where none actually exists).
Per protocol, if there was no difference found between treatment arms for the first safety endpoint (EBL), the remaining endpoints were to be considered exploratory analyses requiring additional studies for confirmation.
[see ADVERSE REACTIONS in Clinical Trials] There was no statistically significant difference between the two treatment groups with respect to the secondary efficacy endpoints of hemodynamic stability, body temperature, hemodynamic parameters, blood pressure, central venous pressure, heart rate, fibrinogen and platelet count.
In addition to the US trial, three non-US trials were conducted with the primary objective of showing equivalency (based on mean difference rather than mean ratio as in the US study) between Voluven® and pentastarch in maintaining or restoring hemodynamic parameters.
The largest of the three trials (N=100) met the prespecified boundary (-500 mL, 500 mL), but the two smaller studies (N=52 and N=59) did not.
In exploratory analyses, the effect of Voluven® on coagulation parameters (von Willebrand factor, Factor VIII, and Ristocetin cofactor) was shown to be significantly lower than pentastarch at one or more time points (US and non-US trials).
These findings are consistent with the lower molar substitution, lower average molecular weight and narrower molecular weight distribution of Voluven® as compared to pentastarch resulting in a lower in vivo molecular weight and increased elimination from the circulation.
Severe Sepsis Trial A randomized, double-blind, multicenter study of subjects with severe sepsis ≥ 18 years old compared Voluven® (n=100) vs.
normal saline (n=96) infused over a maximum of 4 days for the treatment of hypovolemia9.
The primary endpoint was volume of study drug (mL) required to achieve initial hemodynamic stabilization (HDS), defined as MAP ≥ 65 mmHg, CVP 8-12 mmHg, urine output ≥ 2 mL/kg over 4 h, and central venous oxygen saturation ≥ 70% maintained for four hours with no increase in the infusion rate of vasopressors or inotropic support and ≤ 1 L of additional study drug administration.
Safety parameters included the incidence of acute renal failure, prospectively defined as need for renal replacement therapy (RRT) or doubling of baseline serum creatinine at some point during the 90-day observation period.
AKIN and RIFLE criteria also were evaluated.
Baseline characteristics for the two treatment arms were 24.0% vs.
18.8% for intra-abdominal sepsis, 53.0% vs.
60.4% for pulmonary sepsis, and 8.0% vs.
14.6% for urogenital sepsis, Voluven® vs.
normal saline, respectively.
Subjects achieving HDS (N=88 vs.
86) required less Voluven® compared to control: 1379 mL ± 886 (Voluven®) vs.
1709 ± 1164 mL (normal saline), representing a mean difference of 331 mL (95% confidence interval: -640 mL to -21 mL).
Less time was needed from start of study drug to achievement of HDS in the Voluven® group compared to the normal saline group (11.8 hours ± 10.1 hours vs.
14.3 hours ± 11.1 hours; mean ± SD).
A post hoc sensitivity analysis was performed to determine the number of subjects not achieving HDS as a result of a change made to the protocol definition of HDS after enrollment had commenced, i.e., from requiring all four hemodynamic criteria to requiring normalization of MAP and two of the three remaining hemodynamic criteria.
Approach 1 used the original definition of HDS for subjects enrolled prior to the protocol change and the revised definition of HDS for subjects enrolled subsequently; Approach 2 used the revised definition of HDS for all enrolled subjects.
More Voluven® subjects than control subjects were declared to have achieved HDS, although not all the requirements for HDS had been fulfilled (see Table 2).
Table 2: Post Hoc Sensitivity Analysis Voluven (N=100) n (%) Normal saline (N=96) n (%) p-value Number of subjects without declaration of HDS 12 (12.0) 10 (10.4) 0.3628 Number of subjects without declaration of HDS plus number of subjects with HDS declared by Approach 1 25 (25.0) 18 (18.8) 0.1453 Number of subjects without declaration of HDS plus number of subjects with HDS declared by Approach 2 22 (22.0) 16 (16.7) 0.1725 The number of treatment emergent serious adverse events (SAEs) and number of treatment emergent SAEs leading to death in the Voluven® and normal saline treatment arms during the 90-day observation period were 53 vs.
44 and 38 vs.
32, respectively.
Acute kidney injury scores (AKIN and RIFLE classifications) were comparable between groups (see Table 3, below).
The number of subjects undergoing RRT was 21 vs.
11 for the 90-day observation period and 17 vs.
8 for the first 7 days of treatment.
Mean duration of RRT was 9.1 days in the Voluven® arm vs.
4.3 days in the normal saline arm.
Kaplan-Meier curves for time to RRT (Figure 1, below) showed a trend against Voluven® (p=0.06, logrank test) [see ADVERSE REACTIONS].
Table 3: Evaluation of Subjects According to the AKIN Classification Voluven(N=100) Normal saline(N=96) Worst AKIN Stage m n (%) m n (%) None 100 52 (52.0) 96 52 (54.2) AKIN Stage 1 100 21 (21.0) 96 21 (21.9) AKIN Stage 2 100 5 (5.0) 96 6 (6.3) AKIN Stage 3 100 22 (22.0) 96 17 (17.7) p-value of test for trend 0.5857 AKIN classification was based on serum creatinine values and renal replacement therapy.
Urine output criteria were ignored.
Percentages are based on the number of evaluable subjects (m), i.e., the number of subjects for whom an AKIN score could be determined.
Figure 1: Kaplan-Meier Curves for time to RRT In a randomized, controlled trial among a heterogeneous adult ICU population (N=7000) that included subjects with sepsis as well as trauma subjects and postoperative elective surgery subjects, Voluven® was compared against 0.9% NaCl for volume replacement therapy10.
The primary endpoint was death within 90 days.
Secondary endpoints included renal risk (RIFLE-R), injury (RIFLE-I) and failure (RIFLE-F) until day 7 of product exposure, and use of RRT within 90 days.
Mortality was not significantly different overall [597 of 3315 (18%) Voluven® subjects vs.
566 of 3336 (17%) control subjects; p=0.26] or in six pre-defined subgroups including patients with sepsis.
RIFLE-R occurred in 54% (Voluven®) and 57.3% (0.9% NaCl, p=0.007), RIFLE-I occurred in 34.6% and 38.0% of subjects (p=0.005) and RIFLE-F occurred in 10.4% and 9.2% of subjects (p=0.12), respectively.
RRT was used in 235 (7.0%) Voluven® subjects compared to 196 (5.8%) normal saline subjects (relative risk, 1.21; 95% CI, 1.00 to 1.45; p=0.04; p=0.05 after adjustment for baseline).
No loss of renal function or end stage renal disease (RIFLE-L and RIFLE-E) was reported.
[see ADVERSE REACTIONS in Clinical Trials] In another RCT performed in 804 severe sepsis patients using a different HES type, HES 130/0.42 in Ringer’s acetate injection (not approved in the U.S.), mortality rate in patients with severe sepsis treated with HES 130/0.42 was higher (relative risk, 1.17; 95% CI, 1.01 to 1.36; p=0.03), and the frequency of patients who received RRT was also higher (relative risk, 1.35; 95% CI, 1.01 to 1.80; p=0.04) compared to those who received modified acetated Ringer’s solution8.
[see ADVERSE REACTIONS in Clinical Trials]
Drug Description Find Lowest Prices on Voluven® (6% hydroxyethyl starch 130/0.4 in 0.9% sodium chloride) Injection WARNING MORTALITY RENAL REPLACEMENT THERAPY In critically ill adult patients, including patients with sepsis, use of hydroxyethyl starch (HES) products, including Voluven®, increases risk of Mortality Renal replacement therapy Do not use HES products, including Voluven®, in critically ill adult patients, including patients with sepsis.
DESCRIPTION Voluven® (6% hydroxyethyl starch 130/0.4 in 0.9% sodium chloride injection) is a clear to slightly opalescent, colorless to slightly yellow, sterile, non-pyrogenic, isotonic solution for intravenous administration using sterile equipment.
Each 100 mL of the solution contains: 6 g of Hydroxyethyl Starch 130/0.4 and 900 mg of Sodium Chloride USP in Water for Injection USP.
In addition, sodium hydroxide, USP, or Hydrochloric acid, USP, has been added to adjust the final pH so the final solution pH is 4.0 to 5.5.
The electrolyte composition is as follows (mEq/L): Sodium 154, Chloride 154.
The calculated osmolarity is 308 mOsmol/L.
The hydroxyethyl starch contained in Voluven® is a synthetic colloid for use in plasma volume replacement.
The chemical name of hydroxyethyl starch is poly(O-2-hydroxyethyl) starch.
The structural formula of hydroxyethyl starch is R = -H, -CH2CH2OH R1 = -H, -CH2CH2OH or glucose units Voluven® is packaged in 500 mL flexible plastic containers (freeflex®).
Freeflex® is a flexible container made from coextruded polyolefin and is free of PVC, plasticizers, adhesives or latex (Non-DEHP, Latex-free).
The freeflex® container offers an air-closed system and can be used with non-vented IV sets which prevent external air contamination.
Freeflex® is collapsible and can be used in emergency cases for pressure infusion.
Indications & Dosage INDICATIONS Voluven® (6% hydroxyethyl starch 130/0.4 in 0.9% sodium chloride injection) is indicated for the treatment and prophylaxis of hypovolemia in adults and children.
It is not a substitute for red blood cells or coagulation factors in plasma.
DOSAGE AND ADMINISTRATION Voluven® is administered by intravenous infusion only.
The daily dose and rate of infusion depend on the patient’s blood loss, on the maintenance or restoration of hemodynamics and on the hemodilution (dilution effect).
Voluven® can be administered repetitively over several days.
[see WARNINGS AND PRECAUTIONS] The initial 10 to 20 mL should be infused slowly, keeping the patient under close observation due to possible anaphylactoid reactions.
[see General WARNINGS AND PRECAUTIONS] Adult Dose Up to 50 mL of Voluven® per kg of body weight per day (equivalent to 3 g hydroxyethyl starch and 7.7 mEq sodium per kg of body weight).
This dose is equivalent to 3500 mL of Voluven® for a 70 kg patient.
Pediatric Dose The dosage in children should be adapted to the individual patient colloid needs, taking into account the disease state, as well as the hemodynamic and hydration status.
In 41 newborns to infants (< 2 years), a mean dose of 16 ± 9 mL/kg was administered.
In 31 children from 2 – 12 years of age a mean dose of 36 ± 11 mL/kg was administered.
The dose in adolescents > 12 is the same as the adult dose.
[see Pediatric Use] Directions Of Use for Voluven® Check the solution composition, lot number and expiry date, inspect the container for damage or leakage, if damaged do not use.
Identify the blue infusion (administration) port.
Use opening aid to remove over-wrap.
Break off the blue tamper-evident cover from the freeflex® infusion port.
Close roller clamp.
Insert the spike until the clear plastic collar of the port meets the shoulder of the spike.
Use a non-vented standard infusion set.
Close air inlet.
Hang the bag on the infusion stand.
Press drip chamber to get fluid level.
Prime infusion set.
Connect and adjust the flow rate.
Do not remove the freeflex® IV container from its overwrap until immediately before use.
Parenteral drug products should be inspected visually for particulate matter and discoloration prior to administration, whenever solution and container permit.
Do not administer unless the solution is clear, free from particles and the freeflex® IV container is undamaged.
Voluven® should be used immediately after insertion of the administration set.
Do not vent.
If administered by pressure infusion, air should be withdrawn or expelled from the bag through the medication/administration port prior to infusion.
Discontinue the infusion if an adverse reaction occurs.
It is recommended that administration sets be changed at least once every 24 hours.
For single use only.
Discard unused portion.
HOW SUPPLIED Doage Forms And Strengths 500 mL freeflex® flexible plastic intravenous solution container are available.
Each 100 mL contains 6 g hydroxyethyl starch 130/0.4 in isotonic sodium chloride injection.
Storage And Handling Voluven® (6% hydroxyethyl starch 130/0.4 in 0.9% sodium chloride injection) for intravenous infusion is supplied in the following primary container and carton sizes: Polyolefin bag (freeflex®) with overwrap: 500 mL Carton of 15 x 500 mL NDC 0409-1029-01 Carton of 20 x 500 mL NDC 0409-1029-02 Storage Store at 15° to 25°C (59° to 77°F).
Do not freeze.
REFERENCES Neff TA, Doelberg M, Jungheinrich C, et al.
Repetitive large-dose infusion of the novel hydroxyethyl starch HES 130/0.4 in patients with severe head injury.
Anest Analg 2003; 96 (5): 1453–9.
Kozek-Langenecker S.
Effects of hydroxyethyl starch solutions on hemostasis.
Anesthesiology 2005; 103 (3): 654-60.
Standl T, Lochbuehler H, Galli C, et al.
HES 130/0.4 (Voluven®) or human albumin in children younger than 2 yr undergoing non-cardiac surgery.
A prospective, randomized, open label, multicentre trial.
Eur J Anaesthesiol 2008; 25(6): 437-45.
Jungheinrich C, Neff T.
Pharmacokinetics of hydroxyethyl starch.
Clin Pharmacokinetik 2005; 44 (7): 681-99.
Jungheinrich C, Scharpf R, Wargenau M, et al.
The pharmacokinetics and tolerability of an intravenous infusion of the new hydroxyethyl starch 130/0.4 (6%, 500 mL) in mild-to-severe renal impairment.
Anesth Analg 2002; 95 (3): 544 – 51.
Leuschner J, Opitz J, Winkler A, Scharpf R, Bepperling F.
Tissue storage of 14C-labeled hydroxyethyl starch (HES) 130/0.4 and HES 200/0.5 after repeated intravenous administration to rats.
Drugs R D 2003; 4 (6): 331-8.
Gandhi SD, Weiskopf RB, Jungheinrich C et al.
Volume replacement therapy during major orthopedic surgery using Voluven® (hydroxyethyl starch 130/0.4) or hetastarch.
Anesthesiology 2007; 106(6):1120-7.
Perner A, Haase N, Guttormsen AB, et al.
Hydroxyethyl Starch 130/0.4 versus Ringer’s Acetate in Severe Sepsis.
N Eng J Med 2012; 367(2): 124-34.
Guidet B, Martinet O, Boulain T, et al.
Assessment of hemodynamic efficacy and safety of 6% hydroxyethylstarch 130/0.4 versus 0.9% NaCl fluid replacement in patients with severe sepsis: The CRYSTMAS study.
Crit Care 2012; 16(3): R94.
Myburgh JA, Finfer S, Bellomo R, et al.
Hydroxyethyl starch or saline for fluid resuscitation in intensive care.
N Engl J Med 2012; 367(20): 1901-11.
Manufactured by: Distributed by: Fresenius Kabi Norge AS, P.O.
Box 430, NO-1753 Halden, Norway.
Revised: Oct 2013.
Medication Guide PATIENT INFORMATION Because this product is not used directly by patients, patient counseling or instructions for use by patients is not considered necessary.
Overdosage & Contraindications Side Effects & Drug Interactions SIDE EFFECTS Overall Adverse Reaction Profile Serious adverse reactions reported in clinical trials were increased mortality and need for renal replacement therapy in critically ill patients including sepsis.
The most common adverse reactions after administration of Voluven® occurring in more than 1% of patients are: pruritus (itching; ≥1% to <10%), elevation of serum amylase (≥1% to <10%; can interfere with the diagnosis of pancreatitis), and dilutional effects that may result in decreased levels of coagulation factors and other plasma proteins and in a decrease of hematocrit (≥1% to <10%).
Anaphylactoid reactions occur rarely in <0.1% after administration of hydroxyethyl starch solutions.
Disturbances of blood coagulation beyond dilution effects can occur rarely in <0.1% depending on the dosage with the administration of hydroxyethyl starch solutions2.
Adverse Reactions In Clinical Trials Because clinical trials are conducted under widely varying conditions, adverse reaction rates observed in the clinical trials of a drug cannot be directly compared to rates in the clinical trials of another drug or another patient population and may not reflect the rates observed in clinical practice.
During clinical development, a total of 899 subjects received the hydroxyethyl starch 130/0.4 drug substance contained in Voluven® at different concentrations (2%, 4%, 6%, or 10%) and at cumulative doses of several mL up to 66 L1.
Of these 899 subjects, 602 were exposed to Voluven® (i.e., 6% hydroxyethyl starch 130/0.4).
The mean duration of treatment with hydroxyethyl starch 130/0.4 was 3.7 ± 3.1 days, mean cumulative doses were 3185 ± 3498 mL, and the longest follow-up period was 90 days.
In 100 subjects undergoing elective orthopedic surgery Voluven® was administered in 49 subjects and hetastarch (6% hydroxyethyl starch in 0.9% sodium chloride injection) in 51 subjects for intraoperative volume replacement7.
Mean infusion volumes were 1613 ± 778 mL for Voluven® and 1584 ± 958 mL for hetastarch.
Adverse reactions observed in at least 1% of subjects: In the orthopedic surgery trial conducted in the US, no significant differences in serious adverse reactions were noted overall between the two treatment arms.
A possible relationship to Voluven® was reported in five cases among three subjects (aPTT elevated, PT prolonged, wound hemorrhage, anemia, pruritus).
A possible relationship to hetastarch was reported in five subjects (three cases of coagulopathy; two cases of pruritus).
The three coagulopathy cases in the hetastarch group were serious and occurred in subjects receiving more than the labeled ceiling dose (20 mL/kg), which is known to increase the risk of bleeding, whereas no serious coagulopathy occurred in the Voluven® group.
Since EBL for the two treatment arms was not statistically different (95% confidence interval included unity), the difference observed for Factor VIII (see Table 1, below) must be interpreted with caution.
An exploratory analysis of total erythrocyte volume transfused (8.0 mL/kg vs.
13.8 mL/kg, Voluven® vs.
hetastarch, respectively) must also be viewed with caution.
Table 1: Safety Variables for the Orthopedic Surgery Trial conducted in the US Mean Ratio VOLUVEN / Hetastarch Variable VOLUVENN=49 HetastarchN=51 Estimate 95% Cl Calculated red blood cell loss [L]* 1.17 1.31 0.910 [0.720; 1.141] Factor VIII [%]* 100.5 81.4 1.244 [1.000; 1.563] von Willebrand factor [%]* 97.7 88.7 1.128 [0.991; 1.285] Fresh frozen plasma [mL]* 72 144 0.723 [0.000; 2.437] *Exploratory analyses A safety profile of Voluven® at least as favorable as for pentastarch was also demonstrated in studies where Voluven® was administered at doses higher (up to 50 mL/kg or 3 g/kg) than for pentastarch (up to 33 mL/kg or 2 g/kg) in clinical settings where large or repetitive doses were administered.
Three randomized controlled trials (RCTs) followed critically ill adult patients treated with different HES products for 90 days.
One trial (N=804) in severe sepsis patients using an HES product not licensed in the U.S.
reported increased mortality (relative risk, 1.17; 95% CI, 1.01 to 1.36; p=0.03) and RRT (relative risk, 1.35; 95% CI, 1.01 to 1.80; p=0.04) in the HES treatment arm8.
Another trial (N=196) using Voluven® in severe sepsis patients reported no difference in mortality (relative risk, 1.20; 95% CI, 0.83 to 1.74; p=0.33) and a trend for RRT (relative risk, 1.83; 95% CI, 0.93 to 3.59; p=0.06) in HES patients9.
A third trial (N=7000) using Voluven® in a heterogeneous population of critically ill patients admitted to the ICU reported no difference in mortality (relative risk, 1.06; 95% CI, 0.96 to 1.18; p=0.26) but increased use of RRT (relative risk, 1.21; 95% CI, 1.00 to 1.45; p=0.04) in HES patients10.
Postmarketing Experience Because adverse reactions are reported voluntarily post-approval from a population of uncertain size, it is not always possible to reliably estimate the frequency or establish a causal relationship to product exposure.
Among the very rarely occurring serious adverse drug reactions in patients treated with Voluven®, anaphylactic/anaphylactoid/hypersensitivity reactions or hypotension/shock/circulatory collapse were most frequently reported.
The following adverse reactions have been identified and reported during the post-approval use of different HES products in critically ill adult patients, including patients with sepsis: Mortality Renal: need for renal replacement therapy.
DRUG INTERACTIONS The safety and compatibility of other additives have not been established.
Warnings & Precautions WARNINGS Included as part of the "PRECAUTIONS" Section PRECAUTIONS Anaphylactoid Reactions Anaphylactoid reactions (mild influenza-like symptoms, bradycardia, tachycardia, bronchospasm, non-cardiac pulmonary edema) have been reported with solutions containing hydroxyethyl starch.
If a hypersensitivity reaction occurs, administration of the drug should be discontinued immediately and the appropriate treatment and supportive measures should be undertaken until symptoms have resolved.
[see ADVERSE REACTIONS] Renal Dysfunction Avoid use in patients with pre-existing renal dysfunction.
Discontinue use of Voluven® at the first sign of renal injury.
Continue to monitor renal function in hospitalized patients for at least 90 days as use of RRT has been reported up to 90 days after administration of HES products.
Coagulopathy Monitor the coagulation status of patients undergoing open heart surgery in association with cardiopulmonary bypass as excess bleeding has been reported with HES solutions in this population.
Discontinue use of Voluven® at the first sign of coagulopathy.
Fluid Equilibrium Avoid fluid overload; adjust dosage in patients with cardiac or renal dysfunction.
Fluid status and rate of infusion should be assessed regularly during treatment, especially in patients with cardiac insufficiency or severe kidney dysfunction.
In cases of severe dehydration, a crystalloid solution should be given first.
Generally, sufficient fluid should be administered in order to avoid dehydration.
Monitoring: Laboratory Tests Clinical evaluation and periodic laboratory determinations are necessary to monitor fluid balance, serum electrolyte concentrations, kidney function, acid-base balance, and coagulation parameters during prolonged parenteral therapy or whenever the patient’s condition warrants such evaluation.
Monitor liver function in patients receiving HES products, including Voluven®.
Interference With Laboratory Tests Elevated serum amylase levels may be observed temporarily following administration of the product and can interfere with the diagnosis of pancreatitis.
At high dosages the dilutional effects may result in decreased levels of coagulation factors and other plasma proteins and a decrease in hematocrit.
Nonclinical Toxicology Carcinogenesis, Mutagenesis, Impairment Of Fertility Long-term studies in animals to evaluate the carcinogenic potential of Voluven® have not been performed.
No mutagenic effects were observed with hydroxyethyl starch 130/0.4 10% solution in the following tests on mutagenic activity: Salmonella typhimurium reverse mutation assay (in vitro), mammalian cells in the in vitro gene mutation assay, assessment of the clastogenic activity in cultured human peripheral lymphocytes (in vitro), bone marrow cytogenetic test in Sprague-Dawley rats.
Fertility studies on directly exposed animals have not been performed.
Use In Specific Populations Pregnancy Pregnancy Category C.
Voluven® has been shown to cause embryocidal or other adverse effects in rats and rabbits when given in doses 1.7 times the human dose.
The type of hydroxyethyl starch present in Voluven® had no teratogenic properties in rats or rabbits.
At 5 g/kg of body weight per day, administered as a bolus injection, fetal retardations and embryolethal effects were observed in rats and rabbits, respectively.
In rats, a bolus injection of this dose during pregnancy and lactation reduced body weight of offspring and induced developmental delays.
All adverse effects were seen exclusively at maternal toxic doses due to fluid overload.
[see Animal Pharmacology and/or Toxicology, Toxicology] Fertility studies on directly exposed animals have not been conducted.
There are no adequate and well-controlled studies in pregnant women.
Voluven® should be used during pregnancy only if the potential benefit justifies the potential risk to the fetus.
Labor And Delivery Information on the use of Voluven® during labor or delivery is unknown.
Use if clearly needed.
Nursing Mothers It is not known whether this drug is excreted in human milk.
Because many drugs are excreted in human milk, caution should be exercised when Voluven® is administered to a nursing woman.
Pediatric Use In one trial, newborns and infants < 2 years of age undergoing elective surgery were randomized to receive Voluven® (N=41) or 5% albumin (N=41).
The mean dose of Voluven® administered was 16 ± 9 mL/kg.
In an additional trial, children from 2 – 12 years of age undergoing cardiac surgery were randomized to receive Voluven® (N=31) or 5% albumin (N=30).
The mean dose administered was 36 ± 11 mL/kg.
Use of Voluven® in adolescents > 12 years is supported by evidence from adequate and wellcontrolled studies of Voluven® in adults.
Dosage in children should be adapted to individual patient colloid needs, taking into account underlying disease, hemodynamics and hydration status.
[see Pediatric Dose] Geriatric Use Of the total number of subjects in clinical studies of Voluven® (N= 471), 32% were ≥ 65 years old while 7% were ≥ 75 years old.
No overall differences in safety or effectiveness were observed between these subjects and younger subjects, and other reported clinical experience has not identified differences in responses between the elderly and younger patients, but greater sensitivity of some older individuals cannot be ruled out.
Renal Impairment Voluven® is mainly excreted by the kidneys, and the risk of adverse reactions to this drug may be greater in patients with impaired renal function.
Volume status, infusion rate, and urine output should be closely monitored.
Because elderly patients are more likely to have decreased renal function, care should be taken in dose selection.
[see Pharmacokinetics]
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