It is the intravascular and not the initial (in vitro) molecular weight that determines the properties of HES. Especially after repeated administration, a high degree of hydroxyethyl substitution leads to an accumulation of macromolecules that affect hemorrheologic measures and the coagulation system just as adversely as high-molecular-weight starch does. Depending on the degree of substitution, medium-molecular-weight starches can have widely differing properties.
SummaryInitially, hydroxyethyl starch (HES) was only characterized by its in vitro molecular weight (MW). This is not sufficient because HES is degraded in vivo. One relevant parameter that predicts the rate of enzymatic breakdown is the degree of substitution, a measure of the average number of hydroxyethyl groups per glucose unit. The higher this degree of substitution, the slower the break-down. In addition, because the glucose units can be substituted at carbon 2,3 and 6, different substitution patterns are possible. They are classified by their C2/C6 hydroxyethylation ratio. A higher C2/C6 ratio results in less metabolism of the starch in vivo and results in a larger in vivo MW. This in turn affects therapy, because the larger the in vivo MW, the longer is the duration of the volume effect of HES.Of particular importance is the fact that HES with a high in vivo MW affects factor VIII/von Willebrand factor which can lead to an acquired von Willebrand syndrome. During a 10-day volume therapy with a medium-MW HES 200, a form that is difficult to metabolize, we observed an 80% drop in factor VIII/von Willebrand factor. Therapy with a medium-MW HES 200, a form that is easily degraded, and therapy with a low-MW HES 70 did not result in a relevant decline of factor VIII/von Willebrand factor.This explains why hemorrhagic complications have been observed repeatedly in the United States after therapy with HES infusions, some of them lethal. In the United States high-MW HES 480 which is difficult to degrade is most frequently used and results in a larger in vivo MW and subsequent decrease in factor VIII/von Willebrand factor levels. In Europe, medium-MW HES 200 that is easily degraded and low-MW HES 70 are preferred. In the future, HES should be characterized by the in vivo, not the in vitro MW.
Fourteen patients with different types of von Willebrand disease (vWD) having acute bleeds or elective surgery were treated with Immunate(sound recording copyright sign), a double-virus inactivated factor VIII/von Willebrand factor (FVIII/vWF) concentrate. The concentrate was applied as a bolus or via continuous infusion. FVIII activity (FVIIIc), vWF antigen (vWF:Ag), ristocetin cofactor activity (vWF:RCo), collagen binding activity (vWF:CB), activated partial thromboplastin time (aPTT), and von Willebrand multimers (vW-multimers) were monitored for 48 hours. Pharmacokinetic analyses were performed. The clinical efficacy was rated excellent or good. Bleeding complications occurred in 3 patients due to an additional FXIII deficiency in one patient, to a surgically induced bleed in another patient, and a rather short substitution period in the third patient. There were no serious adverse experiences. One patient showed a phlebitic reaction at the site of venous access after more than 100 hours of continuous infusion, requiring a change to application via bolus.
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