Hydroxyethyl starch

Hydroxyethyl starch (HES/HAES), sold under the brand name Voluven among others, is a nonionic starch derivative, used as a volume expander in intravenous therapy. The use of HES on critically ill patients is associated with an increased risk of death and kidney problems. Hydroxyethyl starch (HES/HAES), sold under the brand name Voluven among others, is a nonionic starch derivative, used as a volume expander in intravenous therapy. The use of HES on critically ill patients is associated with an increased risk of death and kidney problems. HES is a general term and can be sub-classified according to average molecular weight, molar substitution, concentration, C2/C6 ratio and Maximum Daily Dose. The European Medicines Agency commenced in June 2013 the process of agreeing to reduced indications which was completed in October 2013. The process of full withdrawal in the EU is expected to complete in 2018. An intravenous solution of hydroxyethyl starch is used to prevent shock following severe blood loss caused by trauma, surgery, or other problem. It however appears to have greater risk of a poor outcome compared to other intravenous solutions and may increase the risk of death. HES can cause anaphylactoid reactions: hypersensitivity, mild influenza-like symptoms, slow heart rate, fast heart rate, spasms of the airways, and non-cardiogenic pulmonary edema. It is also linked to a decrease in hematocrit and disturbances in blood clotting. One liter of 6% solution (Hespan) reduces factor VIII level by 50% and will prolong the aPTT and will also decrease vWF. A coagulation effect of hetastarch administration is direct movement into fibrin clots and a dilutional effect on serum. Hetastarch may lead to platelet dysfunction by causing a reduction in the availability of glycoprotein IIb-IIIa on platelets. HES derivatives have been demonstrated to have increased rates of acute kidney failure and need for renal replacement therapy and to decrease long-term survival when used alone in cases of severe sepsis compared with Ringer lactate solution. The effects were tested on HES 130kDa/0.42 in people with severe sepsis; analysis showed increased rates of kidney failure and increased mortality when compared to LR. It has been recommended that, since medium-MW HES solutions may be associated with harm, these solutions should not be used routinely for patients with septic shock. During 2010/11 a large number of research papers associated with a single author were retracted for ethical reasons, and this may affect clinical guidelines referring to HES preparations prepared before this date.