Miniaturization: The Clue to Clinical Application of the Artificial Placenta

Schoberer, Mark; Arens, Jutta; Erben, Aileen; Ophelders, Daan; Jellema, Reint K.; Kramer, Boris W.; Bruse, Jan L.; Brouwer, Petra de; Schmitz‐Rode, Thomas; Steinseifer, Ulrich; Orlikowsky, Thorsten

doi:10.1111/aor.12146

Cited by 21 publications

(25 citation statements)

References 9 publications

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“…A pumpless circuit powered by the fetal heart is not a new concept and has been the initial approach taken by many investigators232425444546. The advantages include simplicity, absence of pump-induced haemolysis and the potential for at least some autoregulation of circuit blood flow.…”

Section: Discussionmentioning

confidence: 99%

“…The disadvantages of pumpless systems include cardiac failure due to afterload imbalance if the circuit/oxygenator has supraphysiologic resistance, or the potential for high-output cardiac failure if the oxygenator has subphysiologic resistance. Most attempts have been limited by subphysiologic circuit flows and rapid haemodynamic decompensation despite the use of vasopressor support and other measures24254446. Recently, Miura et al 45.…”

Section: Discussionmentioning

confidence: 99%

“…In addition, all other access sites require an operative procedure on the fetus for both insertion and removal of cannulas, require stabilization of cannulas to avoid catastrophic decannulation events and raise concern for compromise of blood flow to the brain or other structures, depending upon the vessel utilized. While many investigators have utilized the umbilical vessels, most have placed their cannulas into the central vasculature to avoid umbilical vascular spasm7811121314152324254546. This is possible in sheep or goats, but not possible and would likely be hazardous for arterial cannula placement in the human fetus due to the tortuous course of the umbilical arteries and the large cannulas required.…”

Section: Discussionmentioning

confidence: 99%

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An extra-uterine system to physiologically support the extreme premature lamb

et al. 2017

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In the developed world, extreme prematurity is the leading cause of neonatal mortality and morbidity due to a combination of organ immaturity and iatrogenic injury. Until now, efforts to extend gestation using extracorporeal systems have achieved limited success. Here we report the development of a system that incorporates a pumpless oxygenator circuit connected to the fetus of a lamb via an umbilical cord interface that is maintained within a closed ‘amniotic fluid' circuit that closely reproduces the environment of the womb. We show that fetal lambs that are developmentally equivalent to the extreme premature human infant can be physiologically supported in this extra-uterine device for up to 4 weeks. Lambs on support maintain stable haemodynamics, have normal blood gas and oxygenation parameters and maintain patency of the fetal circulation. With appropriate nutritional support, lambs on the system demonstrate normal somatic growth, lung maturation and brain growth and myelination.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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An extra-uterine system to physiologically support the extreme premature lamb

et al. 2017

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“…Although the umbilical arteries comprise the most physiological conduit for extracorporeal support of the preterm neonate, attempts to cannulate the umbilical vessels for 'artificial placenta' inflow over the past 50 years have produced limited and progressively declining driving pressures and inadequate circuit flows. Researchers have employed several strategies aiming to circumvent the inherent spasticity of umbilical vessels, such as using continuous paralytics to minimize flow-limiting movement, inserting umbilical cannulas to the depth of the abdominal aorta and incorporating pumps to augment flow, often avoiding the umbilical arteries altogether (Callaghan et al 1965;Alexander et al 1968;Zapol et al 1969;Unno et al 1993;Awad et al 1995;Sakata et al 1998;Pak et al 2002;Reoma et al 2009;Miura et al 2012;Schoberer et al 2014;Bryner et al 2015;Miura et al 2015). Although many of these approaches have supported long-term extra-uterine runs in premature animal models, none have achieved physiological 'placental' flows.…”

Section: Discussionmentioning

confidence: 99%

“…Over the past 50 years, vascular access has been an obstacle for groups developing 'artificial placenta' technology, with long-term support generally limited by insufficient circuit flows and, ultimately, subphysiological oxygen delivery (Callaghan et al 1965;Alexander et al 1968;Zapol et al 1969;Unno et al 1993;Awad et al 1995;Sakata et al 1998;Pak et al 2002;Reoma et al 2009;Miura et al 2012;Schoberer et al 2014;Bryner et al 2015;Miura et al 2015). As our system evolved, we experimented with three distinct AV cannulation strategies: carotid artery/jugular vein (CA/JV), carotid artery/umbilical vein (CA/UV) and umbilical artery (×2)/umbilical vein (UA/UV).…”

Section: Introductionmentioning

confidence: 99%

Umbilical cannulation optimizes circuit flows in premature lambs supported by the EXTra‐uterine Environment for Neonatal Development (EXTEND)

Hornick¹,

Davey²,

Partridge³

et al. 2018

The Journal of Physiology

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EXTEND (EXTra-uterine Environment for Neonatal Development) is a novel system that promotes physiological development by maintaining the premature lamb in a sterile fluid environment and providing gas exchange via a pumpless arteriovenous oxygenator circuit. During the development of EXTEND, different cannulation strategies evolved with the aim of improving circuit flow. The present study examines how different cannulation strategies affect EXTEND circuit haemodynamics in extreme premature lambs. Seventeen premature lambs were cannulated at gestational ages 105-117 days (term 145-150 days) and supported on EXTEND for up to 4 weeks. Experimental groups were distinguished by cannulation strategy: carotid artery outflow and jugular vein inflow (CA/JV; n = 4), carotid artery outflow and umbilical vein inflow (CA/UV; n = 5) and double umbilical artery outflow and umbilical vein inflow (UA/UV; n = 8). Circuit flows and pressures were measured continuously. As we transitioned from CA/JV to CA/UV to UA/UV cannulation, mean duration of circuit run and weight-adjusted circuit flows increased (P < 0.001) and the frequency of flow interruptions declined (P < 0.05). Umbilical vessels generally accommodated larger-bore cannulas, and cannula calibre was directly correlated with circuit pressures and indirectly correlated with flow:pressure ratio (a measure of post-membrane resistance). We conclude that UA/UV cannulation in fetal lambs on EXTEND optimizes circuit flow dynamics and flow stability and also supports circuit flows that closely approximate normal placental flow.

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Artificial placenta and womb technology: Past, current, and future challenges towards clinical translation

et al. 2020

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Extreme prematurity remains a major cause of neonatal mortality and severe long‐term morbidity. Current neonatal care is associated with significant morbidity due to iatrogenic injury and developmental immaturity of extreme premature infants. A more physiologic approach, replacing placental function and providing a womb‐like environment, is the foundational principle of artificial placenta (AP) and womb (AW) technology. The concept has been studied during the past 60 years with limited success. However, recent technological advancements and a greater emphasis on mimicking utero‐placental physiology have improved the success of experimental models, bringing the technology closer to clinical translation. Here, we review the rationale for and history of AP and AW technology, discuss the challenges that needed to be overcome, and compare recent successful models. We conclude by outlining some remaining challenges to be addressed on the path towards clinical translation and opportunities for future research.

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Miniaturization: The Clue to Clinical Application of the Artificial Placenta

Cited by 21 publications

References 9 publications

An extra-uterine system to physiologically support the extreme premature lamb

An extra-uterine system to physiologically support the extreme premature lamb

Umbilical cannulation optimizes circuit flows in premature lambs supported by the EXTra‐uterine Environment for Neonatal Development (EXTEND)

Artificial placenta and womb technology: Past, current, and future challenges towards clinical translation

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