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. 2020 Jul;66(7):796-802.
doi: 10.1097/MAT.0000000000001077.

Tidal Flow Perfusion for the Artificial Placenta: A Paradigm Shift

Jacqueline C Kading  1 Mark W Langley  1 Gergely Lautner  2 Mark M P Jeakle  1 John M Toomasian  1 Taylor L Fegan  1 Rachel A Pfannes  1 Samantha C Toor  1 Mary A Reiber  1 Peter R Kordell  3 Marie S Cornell  1 Robert H Bartlett  1 Alvaro Rojas-Pena  1 George B Mychaliska  1
Affiliations

Tidal Flow Perfusion for the Artificial Placenta: A Paradigm Shift

Jacqueline C Kading et al. ASAIO J. 2020 Jul.

Abstract

The modalities of vascular access for the extracorporeal artificial placenta (AP) have undergone many iterations over the past decade. We hypothesized that single lumen cannulation (SLC) of the jugular vein using tidal flow extracorporeal life (ECLS) support is a feasible alternative to venovenous (VV) umbilical-jugular cannulation and double lumen cannulation (DLC) and can maintain fetal circulation, stable hemodynamics, and adequate gas exchange for 24 hours. After in vitro evaluation of the tidal flow system, six preterm lambs at estimated gestational age 118-124 days (term 145 days) were delivered and underwent VV-ECLS. Three were supported using DLC and three with SLC utilizing tidal flow AP support. Hemodynamics, circuit flow, and gas exchange were monitored. Target fetal parameters were as follows: mean arterial pressure 40-60 mmHg, heart rate 140-240 beats per minute (bpm), SatO2% 60-80%, PaO2 25-50 mmHg, PaCO2 30-55 mmHg, oxygen delivery >5 ml O2/dl/kg/min, and circuit flow 100 ± 25 ml/kg/min. All animals survived 24 hours and maintained fetal circulation with stable hemodynamics and adequate gas exchange. Parameters of the tidal flow group were comparable with those of DLC. Single lumen jugular cannulation using tidal flow is a promising vascular access strategy for AP support. Successful miniaturization holds great potential for clinical translation to support extremely premature infants.

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Figures

Figure 1:
Figure 1:
In-vitro tidal flow ECLS system
Figure 2:
Figure 2:
In-vivo tidal flow schematic
Figure 3:
Figure 3:
Sample plot of instantaneous flow and tidal volumes from in-vitro testing
Figure 4:
Figure 4:
Turbulence in ¼ ‘‘ tubing connected to 5-Fr cannula
Figure 5:
Figure 5:
Mean gas exchange parameters for DLC and Tidal Flow experiments
Figure 6:
Figure 6:
Mean circuit flow for DLC and Tidal Flow experiments
Figure 7:
Figure 7:
Mean hemodynamics for DLC and Tidal Flow experiments
See this image and copyright information in PMC

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