Robert C. Caskey scite author profile

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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High ratio plasma resuscitation does not improve survival in pediatric trauma patients

Cannon

Johnson

Caskey

et al. 2017

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Mammalian Fetal Cardiac Regeneration After Myocardial Infarction Is Associated With Differential Gene Expression Compared With the Adult

Zgheib¹,

Allukian²,

Xu³

et al. 2014

The Annals of Thoracic Surgery

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Background In adults, MI results in a brisk inflammatory response, myocardium loss and scar formation. We have recently reported the first mammalian large animal model of cardiac regeneration following MI in fetal sheep. We hypothesize that the fetus ability to regenerate functional myocardium following MI is due to differential gene expression regulating the response to MI in the fetus compared to the adult. Methods MI was created in adult (n=4) or early gestation fetal (n=4) sheep. Tissue harvested after 3 or 30 days, RNA extracted for microarray, followed by PCA and global gene expression analysis for the gene ontology (GO) terms: “response to wounding”, “inflammatory response”, “extracellular matrix”, “cell cycle”, “cell migration”, “cell proliferation” and “apoptosis”. Results PCA demonstrated that the global gene expression pattern in adult infarcts was distinctly different from uninfarcted region at 3 days and remained different 30 days post-MI. In contrast, gene expression in the fetal infarct was different from the uninfarcted region at 3 days, but by 30 days it returned to a baseline expression pattern similar to the uninfarcted region. 3 days post-MI there was an increase in the expression of genes related to all GO terms in fetal and adult infarcts, but this increase was much more pronounced in adults. By 30 days, the fetal gene expression returned to baseline, whereas in the adult remained significantly elevated. Conclusions These data demonstrate that the global gene expression pattern is dramatically different in the fetal regenerative response to MI compared to the adult response and may partly be responsible for the regeneration.

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Modulation of the inflammatory response by increasing fetal wound size or interleukin‐10 overexpression determines wound phenotype and scar formation

Morris

Allukian

Herdrich

et al. 2014

Wound Repair Regeneration

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Wound size impacts the threshold between scarless regeneration and reparative healing in the fetus with increased inflammation showed in fetal scar formation. We hypothesized that increased fetal wound size increases pro-inflammatory and fibrotic genes with resultant inflammation and fibroplasia and that transition to scar formation could be reversed by overexpression of interleukin-10 (IL-10). To test this hypothesis, 2-mm and 8-mm dermal wounds were created in mid-gestation fetal sheep. A subset of 8-mm wounds were injected with a lentiviral vector containing the IL-10 transgene (n = 4) or vehicle (n = 4). Wounds were harvested at 3 or 30 days for histology, immunohistochemistry, analysis of gene expression by microarray, and validation with real-time polymerase chain reaction. In contrast to the scarless 2-mm wounds, 8-mm wounds showed scar formation with a differential gene expression profile, increased inflammatory cytokines, decreased CD45+ cells, and subsequent inflammation. Lentiviral-mediated overexpression of the IL-10 gene resulted in conversion to a regenerative phenotype with decreased inflammatory cytokines and regeneration of dermal architecture. In conclusion, increased fetal wounds size leads to a unique gene expression profile that promotes inflammation and leads to scar formation and furthermore, these results show the significance of attenuated inflammation and IL-10 in the transition from fibroplasia to fetal regenerative healing.

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Mesenchymal stem cells correct impaired diabetic wound healing by decreasing ECM proteolysis

Zgheib

Hodges

et al. 2017

Physiological Genomics

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Impaired diabetic wound healing is associated with a dermal extracellular matrix protein profile favoring proteolysis; within the healing diabetic wound, this is represented by an increase in activated matrix metalloproteinase (MMPs). Treatment of diabetic wounds with mesenchymal stem cells (MSCs) has been shown to improve wound healing; however, there has not yet been an assessment of their ability to correct dysregulation of MMPs in diabetic wounds. Furthermore, there has been no prior assessment of the role of microRNA29b (miR-29b), an inhibitory regulatory molecule that targets MMP-9 mRNA. Using in vitro models of fibroblast coculture with MSCs and in vivo murine wound healing models, we tested the hypothesis that MSCs correct dysregulation of MMPs in a microRNA-29b-dependent mechanism. In this study, we first demonstrated that collagen I and III protein content is significantly reduced in diabetic wounds, and treatment with MSCs significantly improves collagen I content in both nondiabetic and diabetic wounds. We then found that MMP-9 gene expression and protein content were significantly upregulated in diabetic wounds, indicating elevated proteolysis. Treatment with MSCs resulted in a decrease in MMP-9 gene expression and protein content level in diabetic wounds 3 and 7 days after wounding. Zymographic analysis indicated that MSC treatment also decreased the amount of activated MMP-9 present in diabetic wounds. Furthermore, miR-29b expression was inversely associated with MMP-9 gene expression; miR-29b expression was decreased in diabetic wounds and diabetic fibroblast. Following treatment of diabetic wounds with MSCs, as well as in diabetic fibroblasts cocultured with MSCs, miR-29b was significantly increased. These findings suggest a potential mechanism through which MSCs enhance diabetic wound healing by improving collagen I content in diabetic wounds through decreasing MMP-9 expression and increasing miR-29b expression.

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Robert C. Caskey

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

High ratio plasma resuscitation does not improve survival in pediatric trauma patients

Mammalian Fetal Cardiac Regeneration After Myocardial Infarction Is Associated With Differential Gene Expression Compared With the Adult

Modulation of the inflammatory response by increasing fetal wound size or interleukin‐10 overexpression determines wound phenotype and scar formation

Mesenchymal stem cells correct impaired diabetic wound healing by decreasing ECM proteolysis

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