Abstract Background Isolation of human primary hepatocytes from tissue samples derived from therapeutic hepatectomy offers an important resource for a range of pharmacological and toxicology based experimental platforms, whilst simultaneously providing an opportunity to reduce the use of animal models. This study analysed the impact of a range of patient and operative derived variables on the yield and viability of isolated human primary hepatocytes. Method Excess hepatic tissue from resected liver parenchyma was sampled from consented patients undergoing major and minor hepatectomy for a range of oncological and non-oncological indications. Tissue dissociation and hepatocyte isolation was performed using a two-step collagenase perfusion procedure. Hepatocyte viability was calculated using the Trypan blue exclusion test while hepatocyte yield was calculated by the number of cells isolated divided by the tissue mass isolated from. Patient and operative variables were collected retrospectively from 25 patients in a prospectively maintained database. Results Samples from normal liver parenchyma achieved high hepatocyte viability and yields in all patients. Improved hepatoctye viability was associated with female sex, with a 2.9% increase in viability in samples from women (P<0.05). Patient age, BMI, operative indication, neo-adjuvant chemotherapy, as well as prolonged intra-operative Pringle time and blood loss did not significantly affect hepatocyte yield or viability, allowing use of primary human hepatocytes from a wide range of patients in a plethora of translational research experiments. Conclusion High levels of hepatocyte viability and yield are achievable across a broad range of patients, even in instances patients with high burdens of disease, prolonged Pringle time or higher levels of intra-operative blood loss. Tissue samples from consenting patients undergoing therapeutic liver resection provide an invaluable resource for various translational experimental platforms, including primary human hepatocytes. To date, more than 400 patients have donated tissue used in a range of basic science techniques, significantly reducing reliance on animal models.
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