TY - JOUR
T1 - Ex vivo dual perfusion of an isolated human placenta cotyledon
T2 - Towards protocol standardization and improved inter-centre comparability
AU - Schneider, Henning
AU - Albrecht, Christiane
AU - Ahmed, Mahmoud S.
AU - Broekhuizen, Michelle
AU - Aengenheister, Leonie
AU - Buerki-Thurnherr, Tina
AU - Danserf, A. H. Jan
AU - Gil, Sophie
AU - Hansson, Stefan R.
AU - Greupink, Rick
AU - Lewis, Rohan M.
AU - Markert, Udo R.
AU - Mathiesen, Line
AU - Powles-Glover, Nicola
AU - Wadsack, Christian
AU - Brownbill, Paul
PY - 2022
Y1 - 2022
N2 - Since the full development of the ex vivo dual perfusion model of the human placenta cotyledon, the technique has provided essential insight into how nutrients, lipids, gases, immunoglobulins, endocrine agents, pharma-ceuticals, chemicals, nanoparticles, micro-organisms and parasites might traverse the maternofetal barrier. Additionally, the model has been instrumental in gaining a better understanding of the regulation of vascular tone, endocrinology and metabolism within this organ. The human placenta is unique amongst species in its anatomy and transfer modalities. This orthologous diversity therefore requires an appropriate consideration of placental transfer rates of compounds, particles and micro-organisms specific to humans. Different research centres have adapted this model with a wide variation in perfusion parameters, including in the establishment of perfusion, perfusate composition, gassing regime, cannulation method, flow rates, perfused tissue mass, and also in the application of quality control measures. The requirement to harmonise and stan-dardise perfusion practice between centres is largely driven by the need to obtain consistency in our under -standing of placental function, but also in the qualification of the model for acceptance by regulatory agencies in drug and toxicology testing. A pilot study is proposed, aiming to describe how existing inter-centre variation in perfusion methodology affects placental metabolism, protein synthesis, oxygen consumption, the materno-fetal transfer of key molecular markers, and placental structure.
AB - Since the full development of the ex vivo dual perfusion model of the human placenta cotyledon, the technique has provided essential insight into how nutrients, lipids, gases, immunoglobulins, endocrine agents, pharma-ceuticals, chemicals, nanoparticles, micro-organisms and parasites might traverse the maternofetal barrier. Additionally, the model has been instrumental in gaining a better understanding of the regulation of vascular tone, endocrinology and metabolism within this organ. The human placenta is unique amongst species in its anatomy and transfer modalities. This orthologous diversity therefore requires an appropriate consideration of placental transfer rates of compounds, particles and micro-organisms specific to humans. Different research centres have adapted this model with a wide variation in perfusion parameters, including in the establishment of perfusion, perfusate composition, gassing regime, cannulation method, flow rates, perfused tissue mass, and also in the application of quality control measures. The requirement to harmonise and stan-dardise perfusion practice between centres is largely driven by the need to obtain consistency in our under -standing of placental function, but also in the qualification of the model for acceptance by regulatory agencies in drug and toxicology testing. A pilot study is proposed, aiming to describe how existing inter-centre variation in perfusion methodology affects placental metabolism, protein synthesis, oxygen consumption, the materno-fetal transfer of key molecular markers, and placental structure.
KW - Placenta
KW - Perfusion
KW - Transfer
KW - Function
KW - Regulatory
KW - Standardisation
KW - IN-VITRO
KW - OXYGEN-CONSUMPTION
KW - BLOOD-FLOW
KW - RELEASE
KW - PERMEABILITY
KW - DETERMINANT
KW - TRANSPORT
KW - ALBUMIN
KW - STRESS
KW - GASES
U2 - 10.1016/j.placenta.2022.05.003
DO - 10.1016/j.placenta.2022.05.003
M3 - Journal article
C2 - 35785693
VL - 126
SP - 83
EP - 89
JO - Placenta
JF - Placenta
SN - 0143-4004
ER -