Experimental Ovine Model of Primary Venous Valve Incompetence: A Pilot Study

Background: Fetal repair of myelomeningocele (MMC) with placental mesenchymal stromal cells (PMSCs) rescues ambulation in the ovine model up to 48 h postnatally. Outcomes past 48 h are unknown as MMC lambs have not been survived past this timepoint. Objective: We aimed to survive lambs for 6 months following the fetal repair of MMC with PMSCs. Methods: Fetal MMC lambs were repaired with PMSCs. Lambs received either no additional treatment or postnatal bracing and physical therapy (B/PT). Motor function was assessed with the sheep locomotor rating (SLR). Lambs with an SLR of 15 at birth were survived for 6 months or until a decline in SLR less than 15, whichever came first. All lambs underwent a perimortem MRI. Results: The lambs with no postnatal treatment (n = 2) had SLR declines to 7 and 13 at 29 and 65 days, respectively, and were euthanized. These lambs had a spinal angulation of 57° and 47°, respectively. The B/PT lamb (n = 1) survived for 6 months with a sustained SLR of 15 and a lumbar angulation of 42°. Conclusion: Postnatal physical therapy and bracing counteracted the inherent morbidity of the absent paraspinal muscles in the ovine MMC model allowing for survival and maintenance of rescued motor function of the prenatally treated lamb up to 6 months.

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Stereological Lung Parameters After Fetoscopic Abdominal Decompression of Congenital Diaphragmatic Hernia in an Ovine Model: A Pilot Study

Journal of Laparoendoscopic & Advanced Surgical Techniques ◽

10.1089/lap.2020.0954 ◽

2021 ◽

Author(s):

Robert Bergholz ◽

Felipe Fromm ◽

Andreas Meinzer ◽

Christian Muehlfeld ◽

Michael Boettcher ◽

...

Keyword(s):

Pilot Study ◽

Congenital Diaphragmatic Hernia ◽

Diaphragmatic Hernia ◽

Ovine Model ◽

Abdominal Decompression

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Use of Acellular Fish Skin for Dura Repair in an Ovine Model: A Pilot Study

Open Journal of Modern Neurosurgery ◽

10.4236/ojmn.2015.54021 ◽

2015 ◽

Vol 05 (04) ◽

pp. 124-136

Author(s):

Hilmar Kjartansson ◽

Ingvar Hakon Olafsson ◽

Sigurbergur Karason ◽

Hjalti Thorisson ◽

Baldur Tumi Baldursson ◽

...

Keyword(s):

Pilot Study ◽

Fish Skin ◽

Ovine Model

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Successful Development of a Fetal Ovine Model for Esophagus Tissue Engineering

Journal of Neonatal Surgery ◽

10.21699/jns.v7i3.758 ◽

2018 ◽

Vol 7 (3) ◽

pp. 33

Author(s):

Amulya K Saxena ◽

Herwig Ainoedhofer ◽

Piotr Soltysiak

Keyword(s):

Tissue Engineering ◽

Pilot Study ◽

Clinical Applications ◽

Large Animal ◽

Ovine Model ◽

Collagen Scaffolds ◽

Successful Development ◽

Large Animal Models ◽

Ovine Fetal

In esophagus tissue engineering, large animal models need to be developed to generate tissues of substantive size that can be applied in the future for clinical applications. The ovine fetal model has been successfully developed in this pilot study for esophagus tissue generation. Fetus (n = 5) was operated between the 120 and 125 days of gestation (term 140 days) with a longitudinal neck incision through which the esophagus was exposed. Full-thickness esophagus biopsies were obtained after which an end-to-end anastomosis was performed. Organoid units isolated from biopsies were seeded on collagen scaffolds to create tubular constructs which were implanted into the fetal omentum. The fetuses were returned and the pregnancy continued. There was no mortality and all five lambs were delivered at term. “Rudimentary” tissue engineered esophagus was generated using the omentum as an in situ bioreactor. The ovine fetal model for esophagus tissue engineering could successfully be established in this pilot study.

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Some quantitative applications of vascular corrosion casting

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100124094 ◽

1992 ◽

Vol 50 (1) ◽

pp. 738-739

Author(s):

Fred E. Hossler

Keyword(s):

Blood Vessels ◽

Nuclear Orientation ◽

Three Dimensional ◽

Surrounding Tissue ◽

Confocal Laser ◽

Corrosion Casting ◽

Venous Valve ◽

Casting Technique ◽

Low Viscosity ◽

Quantitative Measurements

Preparation of replicas of the complex arrangement of blood vessels in various organs and tissues has been accomplished by infusing low viscosity resins into the vasculature. Subsequent removal of the surrounding tissue by maceration leaves a model of the intricate three-dimensional anatomy of the blood vessels of the tissue not obtainable by any other procedure. When applied with care, the vascular corrosion casting technique can reveal fine details of the microvasculature including endothelial nuclear orientation and distribution (Fig. 1), locations of arteriolar sphincters (Fig. 2), venous valve anatomy (Fig. 3), and vessel size, density, and branching patterns. Because casts faithfully replicate tissue vasculature, they can be used for quantitative measurements of that vasculature. The purpose of this report is to summarize and highlight some quantitative applications of vascular corrosion casting. In each example, casts were prepared by infusing Mercox, a methyl-methacrylate resin, and macerating the tissue with 20% KOH. Casts were either mounted for conventional scanning electron microscopy, or sliced for viewing with a confocal laser microscope.

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