Umbilical Cord Blood Cells for Perinatal Brain Injury: The Right Cells at the Right Time?

McDonald, Courtney; Castillo‐Melendez, Margie; Penny, Tayla; Jenkin, Graham; Miller, Suzanne L.

doi:10.5772/66647

Cited by 6 publications

(4 citation statements)

References 145 publications

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“…The goal of UCB infusion for the treatment of neurological conditions is to provide immunomodulation and paracrine signaling to enhance cell survival in damaged tissues, encourage proliferation of progenitor cells and increase angiogenesis [2,6]. UCB has also been shown to protect against neuroinflammation by suppressing microglial activation and T-cell responses [7]. Notably, cells are proposed to be theoretically efficacious even when the recipient is immune-competent and not myeloablated [8].…”

Section: Introductionmentioning

confidence: 99%

Safety of allogeneic umbilical cord blood infusions for the treatment of neurological conditions: a systematic review of clinical studies

et al. 2022

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Background aims: Umbilical cord blood (UCB) infusion is being investigated as a treatment for a range of neurological conditions, primarily because of its potent immunomodulatory effects mediated via paracrine signaling. Although initial research mainly utilized autologous UCB, allogeneic samples from a sibling or unrelated donor have now become more common. With the use of allogeneic UCB, questions have arisen surrounding the necessity for human leukocyte antigen (HLA) matching, preparative regimens and immunosuppressant drugs. To investigate the safety of allogeneic UCB for the treatment of neurological conditions and the impact of HLA mismatching and immunosuppresion, the authors conducted a systematic review of the safety of allogeneic UCB infusion for neurological conditions. Methods: A systematic review of published and gray literature was conducted to investigate the safety of allogeneic UCB infusions for neurological conditions. Results: Authors identified 10 studies using allogeneic UCB to treat autism spectrum disorder, cerebral palsy, stroke, traumatic brain injury and various other conditions. A total of 361 participants (with at least 442 UCB infusions) received a range of HLA-matched/untyped allogeneic units and cell doses, with the majority not administered post-infusion immunosuppression. There were no reported serious adverse events definitely or probably related to the allogeneic UCB infusion, nor later potential complications such as graft-versushost disease or teratoma formation. Conclusions: Although variability between studies is high, the available data do not identify safety concerns with allogeneic UCB infusion for the treatment of neurological conditions, even with variable HLA matching or no immunosuppression.

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Section: Introductionmentioning

confidence: 99%

Safety of allogeneic umbilical cord blood infusions for the treatment of neurological conditions: a systematic review of clinical studies

et al. 2022

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“…However, this preclinical animal study is the first to show that human UCB cells are protective for white matter development specifically in response to an inflammatory insult. Human UCB contains a heterogeneous mix of stem and progenitor cells which together, and separately, act in an immunomodulatory, angiogenic, anti-apoptotic and trophic manner for neuroprotective benefits [8,15,20]. The cell types present in UCB include mesenchymal stromal cells, haematopoietic stem cells, endothelial progenitor cells, T regulatory cells, and monocyte-derived suppressor cells [17], with each of these cell types potentially moderating the effects of different injurious cascades, both systemically and in the brain.…”

Section: Discussionmentioning

confidence: 99%

“…Indeed, there are a number of clinical trials for the examination of UCB in infants and children with CP [15], and results to date support that UCB transplantation in children with established CP is associated with improved motor function with a low risk of adverse events [16]. A significant benefit for the use of UCB cells as a therapeutic intervention reflects the heterogeneous mix of stem cells and progenitor cells, which migrate to sites of injury, promote regeneration, and modulate inflammation [17].…”

Section: Introductionmentioning

confidence: 99%

Human Umbilical Cord Blood Therapy Protects Cerebral White Matter from Systemic LPS Exposure in Preterm Fetal Sheep

Paton

Allison

et al. 2018

Dev Neurosci

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Background: Infants born preterm following exposure to in utero inflammation/chorioamnionitis are at high risk of brain injury and life-long neurological deficits. In this study, we assessed the efficacy of early intervention umbilical cord blood (UCB) cell therapy in a large animal model of preterm brain inflammation and injury. We hypothesised that UCB treatment would be neuroprotective for the preterm brain following subclinical fetal inflammation. Methods: Chronically instrumented fetal sheep at 0.65 gestation were administered lipopolysaccharide (LPS, 150 ng, 055:B5) intravenously over 3 consecutive days, followed by 100 million human UCB mononuclear cells 6 h after the final LPS dose. Controls were administered saline instead of LPS and cells. Ten days after the first LPS dose, the fetal brain and cerebrospinal fluid were collected for analysis of subcortical and periventricular white matter injury and inflammation. Results: LPS administration increased microglial aggregate size, neutrophil recruitment, astrogliosis and cell death compared with controls. LPS also reduced total oligodendrocyte count and decreased mature myelinating oligodendrocytes. UCB cell therapy attenuated cell death and inflammation, and recovered total and mature oligodendrocytes, compared with LPS. Conclusions: UCB cell treatment following inflammation reduces preterm white matter brain injury, likely mediated via anti-inflammatory actions.

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“…Umbilical cord blood (UCB) cell therapy is emerging as an exciting and highly promising neuroprotective strategy for neonatal morbidities such as preterm brain injury. UCB cells are enriched with multiple stem and progenitor cell types – each possessing synergistic pleiotropic properties that offer cellular and tissue protection [ 1 ]. The protective properties of UCB cells are likely to be mediated by the paracrine secretion of cytokines, chemokines and growth factors [ 2 ], resulting in immunomodulatory effects [ 3 ].…”

Section: Introductionmentioning

confidence: 99%

Early administration of umbilical cord blood cells following brief high tidal volume ventilation in preterm sheep: a cautionary tale

Tran,

Penny,

Chan

et al. 2024

J Neuroinflammation

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Background Umbilical cord blood (UCB) cells are a promising treatment for preterm brain injury. Access to allogeneic sources of UCB cells offer the potential for early administration to optimise their therapeutic capacities. As preterm infants often require ventilatory support, which can contribute to preterm brain injury, we investigated the efficacy of early UCB cell administration following ventilation to reduce white matter inflammation and injury. Methods Preterm fetal sheep (0.85 gestation) were randomly allocated to no ventilation (SHAM; n = 5) or 15 min ex utero high tidal volume ventilation. One hour following ventilation, fetuses were randomly allocated to i.v. administration of saline (VENT; n = 7) or allogeneic term-derived UCB cells (24.5 ± 5.0 million cells/kg; VENT + UCB; n = 7). Twenty-four hours after ventilation, lambs were delivered for magnetic resonance imaging and post-mortem brain tissue collected. Arterial plasma was collected throughout the experiment for cytokine analyses. To further investigate the results from the in vivo study, mononuclear cells (MNCs) isolated from human UCB were subjected to in vitro cytokine-spiked culture medium (TNFα and/or IFNγ; 10 ng/mL; n = 3/group) for 16 h then supernatant and cells collected for protein and mRNA assessments respectively. Results In VENT + UCB lambs, systemic IFNγ levels increased and by 24 h, there was white matter neuroglial activation, vascular damage, reduced oligodendrocytes, and increased average, radial and mean diffusivity compared to VENT and SHAM. No evidence of white matter inflammation or injury was present in VENT lambs, except for mRNA downregulation of OCLN and CLDN1 compared to SHAM. In vitro, MNCs subjected to TNFα and/or IFNγ displayed both pro- and anti-inflammatory characteristics indicated by changes in cytokine (IL-18 & IL-10) and growth factor (BDNF & VEGF) gene and protein expression compared to controls. Conclusions UCB cells administered early after brief high tidal volume ventilation in preterm fetal sheep causes white matter injury, and the mechanisms underlying these changes are likely dysregulated responses of the UCB cells to the degree of injury/inflammation already present. If immunomodulatory therapies such as UCB cells are to become a therapeutic strategy for preterm brain injury, especially after ventilation, our study suggests that the inflammatory state of the preterm infant should be considered when timing UCB cells administration.

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Umbilical Cord Blood Cells for Perinatal Brain Injury: The Right Cells at the Right Time?

Cited by 6 publications

References 145 publications

Safety of allogeneic umbilical cord blood infusions for the treatment of neurological conditions: a systematic review of clinical studies

Safety of allogeneic umbilical cord blood infusions for the treatment of neurological conditions: a systematic review of clinical studies

Human Umbilical Cord Blood Therapy Protects Cerebral White Matter from Systemic LPS Exposure in Preterm Fetal Sheep

Early administration of umbilical cord blood cells following brief high tidal volume ventilation in preterm sheep: a cautionary tale

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