Criteria and challenges of the human placental perfusion ­ Data from a large series of perfusions.

Perfusion of human placental cotyledon has been used extensively to study transplacental transfer of endogenous and exogenous compounds. However, many challenges in the use of the method exist, including availability of placentas and complexity of the method itself. In Kuopio, Finland we have carried out human placental perfusions since 2005 using the same method with data now from over one hundred perfusions. This has allowed us to study whether the way of delivery, placental weight, and/or the length of pregnancy affect the two major criteria of a successful perfusion: volume loss (leak) from fetal to maternal circulation, and transplacental transfer of the reference compound antipyrine. The only statistically significant result was the reduction of the fetomaternal ratio of antipyrine by the placental age over 40 weeks (p=0.0004). The success criteria were not affected by the weight of the placenta or the way of delivery. There was no effect by the antipyrine concentration on antipyrine transfer. In vitro incubation with different concentrations of study compounds and different tubing materials could offer an easy way to study potentially reduced recovery due to binding to perfusion system.

Meta-analysis of data from human ex vivo placental perfusion studies on genotoxic and immunotoxic agents within the integrated European project NewGeneris.

In the E.U. integrated project NewGeneris, we studied placental transport of thirteen immunotoxic and genotoxic agents in three ex vivo placental perfusion laboratories. In the present publication, all placental perfusion data have been re-analyzed and normalized to make them directly comparable and rankable. Antipyrine transfer data differed significantly between the studies and laboratories, and therefore normalization of data was necessary. An antipyrine normalization factor was introduced making the variance significantly smaller within and between the studies using the same compound but performed in different laboratories. Non-normalized (regular) and normalized data showed a good correlation. The compounds were ranked according to their transplacental transfer rate using either antipyrine normalized AUC120 or transfer index (TI120(%)). Normalization generated a division of compounds in slow, medium and high transfer rate groups. The transfer rate differed slightly depending on the parameter used. However, compounds with passage similar to antipyrine which goes through the placenta by passive diffusion, and good recovery in media (no accumulation in the tissue or adherence to equipment) were highly ranked no matter which parameter was used. Antipyrine normalization resulted in the following ranking order of compounds according to AUC(120NORM) values: NDMA ≥ EtOH ≥ BPA ≥ IQ ≥AA ≥ GA ≥ PCB180 ≥ PhIP ≥ AFB1 > DON ≥ BP ≥ PCB52 ≥ TCDD. As the variance in all parameters within a study decreased after antipyrine normalization, we conclude that this normalization approach at least partially corrects the bias caused by the small methodological differences between studies.