Your search keyword '"Lawrence, Kendall M"' showing total 4 results

1. Premature Lambs Exhibit Normal Mitochondrial Respiration after Long-Term Extrauterine Support.

Author

Rossidis, Avery C., Angelin, Alessia, Lawrence, Kendall M., Baumgarten, Heron D., Kim, Aimee G., Mejaddam, Ali Y., Coons, Barbara E., Hartman, Heather A., Hwang, Grace, Monos, Stylianos, Peranteau, William H., Davey, Marcus G., Murdock, Deborah, Wallace, Douglas C., Flake, Alan W., Rossidis, Avery C, Lawrence, Kendall M, Baumgarten, Heron D, Kim, Aimee G, and Mejaddam, Ali Y

Subjects

PREMATURE infants, MITOCHONDRIAL physiology, CELL respiration, ECTOPIC pregnancy, GESTATIONAL age

Abstract

Background: In an effort to mitigate the major morbidities and mortality associated with extreme prematurity, we have developed an EXTrauterine Environment for Neonatal Development (EXTEND) designed to provide physiologic support of extremely premature infants.Objectives: We have previously shown that long-term, physiologic support of premature fetal lambs is possible with EXTEND, but in this study, we sought to demonstrate bioenergetic equipoise at the tissue level.Methods: Four premature fetal lambs were delivered by hysterotomy at gestational ages (GA) of 105-107 days (term ∼145 days), cannulated via the umbilical vessels, and transitioned to support on EXTEND for 3-4 weeks. Five control fetuses were age-matched to the GA of experimental fetuses at the time of study end (128-134 days GA) and immediately sacrificed after hysterotomy. Mitochondria were isolated from the heart, liver, kidney, and skeletal muscle of fetuses at the time of sacrifice, and oxygen consumption rates (OCRs) were measured.Results: There were no differences in basal mitochondrial OCR between EXTEND and control fetuses for heart, kidney, or skeletal muscle. For liver, the basal OCR was higher in EXTEND fetuses compared to controls. There were no differences in physiologic maximal OCR or reserve capacity for any tissue analyzed.Conclusions: Fetal lambs supported by EXTEND demonstrate physiologic mitochondrial function as evidenced by adequate basal and physiologic maximal cellular respiration as well as preserved reserve capacity. [ABSTRACT FROM AUTHOR]

Published

2019

2. Erythropoietin Prevents Anemia and Transfusions in Extremely Premature Lambs Supported by an EXTrauterine Environment for Neonatal Development (EXTEND).

Author

Mejaddam, Ali Y., Hornick, Matthew A., McGovern, Patrick E., Baumgarten, Heron D., Lawrence, Kendall M., Rossidis, Avery C., Hwang, Grace, Young, Kathleen, Abdulmalik, Osheiza, Partridge, Emily A., Peranteau, William H., Davey, Marcus G., Flake, Alan W., Mejaddam, Ali Y, Hornick, Matthew A, McGovern, Patrick E, Baumgarten, Heron D, Lawrence, Kendall M, Rossidis, Avery C, and Partridge, Emily A

Subjects

ERYTHROPOIETIN, ANEMIA, LAMBS, HEMATOCRIT, RETICULOCYTES, ANEMIA prevention, ANIMALS, DRUG design, CLINICAL drug trials, NEONATAL intensive care, OXYGEN, SHEEP

Abstract

Background: We recently developed an EXTrauterine Environment for Neonatal Development (EXTEND) that provides physiologic support for premature lambs. Here, we assess the efficacy of exogenous erythropoietin (EPO) to prevent anemia and transfusions on EXTEND.Materials and Methods: Lambs were cannulated at 0.7 gestation and supported on EXTEND for up to 4 weeks. The lambs were divided into three groups: (1) No EPO, (2) Low EPO (300 U kg-1 per day), and (3) High EPO (800 U kg-1 per day). Daily hematocrit and weekly complete blood count were assessed.Results: The mean percentage change in hematocrit from baseline was significantly different between the groups (No EPO -23.6 ± 7.8% vs. Low EPO -16.6 ± 6.4% vs. High EPO +2.6 ± 6.6%; p = 0.02). This occurred despite a greater median number of blood transfusions in the No EPO group (5 vs. 1 vs. 0; p = 0.02). EPO administration was associated with a higher mean corpuscular volume (MCV; p < 0.01) and reticulocyte count (p = 0.02). The High EPO group was comparable to in utero control fetuses with respect to hematocrit (p = 0.49), MCV (p = 0.24), and reticulocyte count (p = 0.68).Conclusions: EPO (800 U kg-1 per day) prevents anemia, eliminates transfusions, and restores normal red blood cell indices in premature lambs supported by EXTEND. [ABSTRACT FROM AUTHOR]

Published

2019

3. Chronically Hypoxic Fetal Lambs Supported by an Extra-Uterine Device Exhibit Mitochondrial Dysfunction and Elevations of Hypoxia Inducible Factor 1-Alpha.

Author

Rossidis, Avery C., Baumgarten, Heron D., Lawrence, Kendall M., McGovern, Patrick E., Mejaddam, Ali Y., Li, Haiying, Hwang, Grace, Young, Kathleen, Peranteau, William H., Davey, Marcus G., Gaynor, J. William, Flake, Alan W., Rossidis, Avery C, Baumgarten, Heron D, Lawrence, Kendall M, McGovern, Patrick E, Mejaddam, Ali Y, Peranteau, William H, Davey, Marcus G, and Gaynor, J William

Subjects

MITOCHONDRIAL pathology, MEMBRANE potential measurement, FETAL anoxia, FETAL development, PHYSIOLOGICAL transport of oxygen, ANIMALS, BIOLOGICAL transport, FETAL malnutrition, PROTEINS, SHEEP

Abstract

Introduction: We have recently developed an extra-uterine environment for neonatal development (EXTEND) capable of supporting premature fetal lambs and have been able to replicate hypoxic in utero conditions by controlling fetal oxygen delivery. In this study, we investigated the fetal mitochondrial response to hypoxia.Methods: Eight premature fetal lambs were delivered via hysterotomy and transitioned to extra-uterine support for 3 weeks. The lambs were divided into 2 groups: normoxic fetuses which maintained physiologic oxygen delivery and hypoxic fetuses in which oxygen delivery was significantly reduced. Control fetuses were delivered via hysterotomy but not cannulated. Measurements of mitochondrial membrane potential (MMP) were performed in peripheral blood mononuclear cells.Results: There were no significant differences in MMP between normoxic EXTEND fetuses and controls. Hypoxic fetuses had significantly more depolarized mitochondria compared to normoxic fetuses overall, and these changes were specifically appreciated in weeks 1 and 2, but not by week 3. Hypoxic fetuses had significantly elevated levels of HIF-1α compared to normoxic fetuses in the first 2 weeks.Discussion: Normoxic fetal lambs supported by EXTEND demonstrate normal mitochondrial function as evidenced by equivalent membrane potentials compared to control fetuses. Hypoxic fetuses exhibit mitochondrial dysfunction, though they do show evidence of adaptation after 3 weeks of hypoxic exposure. [ABSTRACT FROM AUTHOR]

Published

2019

4. A Rabbit Model for Optimization of Amniotic Fluid Components in the EXTrauterine Environment for Newborn Development (EXTEND) System.

Author

Baumgarten, Heron D., Hartman, Heather A., Butt, Zoya, Ozawa, Katsusuke, Rossidis, Avery C., Lawrence, Kendall M., Kim, Aimee G., Davey, Marcus, and Flake, Alan W.

Subjects

AMNIOTIC liquid, FETAL development, PREMATURE infants, ELECTROLYTE solutions, BACTERIAL colonies, BIOLOGICAL models, BODY weight, ANIMAL experimentation, RABBITS, INTESTINES

Abstract

In this model article, we present a protocol for continuous amniotic fluid exchange in rabbits using a novel system to test the effects of growth factor-deficient, artificial amniotic fluid on bowel development.Background: Ideally, the EXTrauterine Environment for Neonatal Development (EXTEND) will provide physiologic support to the extreme premature infant. An important component of that environment is the amniotic fluid. Thus, we developed an animal model to study the growth factors found within amniotic fluid and inform design of a synthetic fluid to optimize fetal development.Methods: We designed a model of amniotic fluid exchange within the pregnant rabbit, continuously removing the natural fluid from around 2 fetuses per doe and replacing it with a physiologic electrolyte solution during the final 100 h of gestation. Two fetuses from the contralateral uterine horn were used as sham-operated controls. Thirty-eight fetuses were analyzed, 19 in each group. We analyzed the fetal growth and bowel development.Results: Ultrasound after 100 h of exchange showed equivalent fluid volumes, p = 0.63. Cultures were negative for bacterial colonization. Final fluid protein concentrations were 11.6% that of control fluid (mean 1,451 ± 224.2 vs. 12,491 ± 849.2 μg/mL). There was no significant difference in fetal growth, with experimental weights 91.4% of control weights, p = 0.07. Fetal bowel weights (90.1%, p = 0.16) and lengths (94.2%, p = 0.49) were also not significantly less compared to controls. There was no significant difference in villous height or crypt depth measurements between the groups, and absorptive capacity of the bowel was not different between groups, p = 0.44.Conclusion: This animal model allows for manipulation of the components of amniotic fluid. Marked reduction of natural amniotic fluid proteins during gestation does not appear to significantly impair fetal growth or bowel development. Further work with this model will assess the importance of amniotic fluid components for normal development to inform design of a synthetic fluid for use during EXTEND. [ABSTRACT FROM AUTHOR]

Published

2020