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Accumulation of hydroxyethyl starch in human and animal tissues: a systematic review

Wiedermann, C J and Joannidis, M

Intensive Care Medicine (2014) 40: 160–170

DOI: 10.1007/s00134-013-3156-9

Abstract

PURPOSE: To systematically review clinical and preclinical data on hydroxyethyl starch (HES) tissue storage. METHODS: MEDLINE (PubMed) was searched and abstracts were screened using defined criteria to identify articles containing original data on HES tissue accumulation. RESULTS: Forty-eight studies were included: 37 human studies with a total of 635 patients and 11 animal studies. The most frequent indication for fluid infusion was surgery accounting for 282 patients (45.9%). HES localization in skin was shown by 17 studies, in kidney by 12, in liver by 8, and in bone marrow by 5. Additional sites of HES deposition were lymph nodes, spleen, lung, pancreas, intestine, muscle, trophoblast, and placental stroma. Among major organs the highest measured tissue concentration of HES was in the kidney. HES uptake into intracellular vacuoles was observed by 30 min after infusion. Storage was cumulative, increasing in proportion to dose, although in 15% of patients storage and associated symptoms were demonstrated at the lowest cumulative doses (0.4 g kg(-1)). Some HES deposits were extremely long-lasting, persisting for 8 years or more in skin and 10 years in kidney. Pruritus associated with HES storage was described in 17 studies and renal dysfunction in ten studies. In one included randomized trial, HES infusion produced osmotic nephrosis-like lesions indicative of HES storage (p = 0.01) and also increased the need for renal replacement therapy (odds ratio, 9.50; 95% confidence interval, 1.09-82.7; p = 0.02). The tissue distribution of HES was generally similar in animals and humans. CONCLUSIONS: Tissue storage of HES is widespread, rapid, cumulative, frequently long-lasting, and potentially harmful.

Citation

Wiedermann, C. J., & Joannidis, M. (2014). Accumulation of hydroxyethyl starch in human and animal tissues: a systematic review. Intensive Care Medicine, 40(2), 160–170. https://doi.org/10.1007/s00134-013-3156-9 Animals, Humans, Tissue Distribution, Emergency medicine, Hydroxyethyl Starch Derivatives, Hydroxyethyl Starch Derivatives/pharmacokinetics, Intensive care, Plasma Substitutes, Plasma Substitutes/pharmacokinetics

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