Introduction of Effective N2‐Fixing Rhizobia1 Strains into the Soybean Plant by Use of Fungicide Resistance<sup>1</sup>

ObjectiveMesenchymal stem/stromal cells (MSC) were recently discovered in the human endometrium. These cells possess key stem cell properties and show promising results in small animal models when used for preclinical tissue engineering studies. A small number of surface markers have been identified that enrich for MSC from bone marrow and human endometrium, including the Sushi Domain-containing 2 (SUSD2; W5C5) and CD271 markers. In preparation for developing a large animal preclinical model for urological and gynecological tissue engineering applications we aimed to identify and characterise MSC in ovine endometrium and determine surface markers to enable their prospective isolation.Materials and MethodsOvine endometrium was obtained from hysterectomised ewes following progesterone synchronisation, dissociated into single cell suspensions and tested for MSC surface markers and key stem cell properties. Purified stromal cells were obtained by flow cytometry sorting with CD49f and CD45 to remove epithelial cells and leukocytes respectively, and MSC properties investigated.ResultsThere was a small population CD271+ stromal cells (4.5 ± 2.3%) in the ovine endometrium. Double labelling with CD271 and CD49f showed that the sorted CD271+CD49f- stromal cell population possessed significantly higher cloning efficiency, serial cloning capacity and a qualitative increased ability to differentiate into 4 mesodermal lineages (adipocytic, smooth muscle, chondrocytic and osteoblastic) than CD271-CD49f- cells. Immunolabelling studies identified an adventitial perivascular location for ovine endometrial CD271+ cells.ConclusionThis is the first study to characterise MSC in the ovine endometrium and identify a surface marker profile identifying their location and enabling their prospective isolation. This knowledge will allow future preclinical studies with a large animal model that is well established for pelvic organ prolapse research.

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New magnetic-resonance-imaging-visible poly(ε-caprolactone)-based polyester for biomedical applications

Blanquer¹,

Guillaume²,

Letouzey³

et al. 2012

Acta Biomaterialia

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Trans-vaginal cystocele repair using a tension-free polypropylene mesh: more than 5 years of follow-up

Letouzey

Deffieux

Gervaise

et al. 2010

European Journal of Obstetrics & Gynecology and Reproductiv

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Regional Variation in Tissue Composition and Biomechanical Properties of Postmenopausal Ovine and Human Vagina

et al. 2014

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ObjectiveThere are increasing numbers of reports describing human vaginal tissue composition in women with and without pelvic organ prolapse with conflicting results. The aim of this study was to compare ovine and human posterior vaginal tissue in terms of histological and biochemical tissue composition and to assess passive biomechanical properties of ovine vagina to further characterise this animal model for pelvic organ prolapse research.Study DesignVaginal tissue was collected from ovariectomised sheep (n = 6) and from postmenopausal women (n = 7) from the proximal, middle and distal thirds. Tissue histology was analyzed using Masson's Trichrome staining; total collagen was quantified by hydroxyproline assays, collagen III/I+III ratios by delayed reduction SDS PAGE, glycosaminoglycans by dimethylmethylene blue assay, and elastic tissue associated proteins (ETAP) by amino acid analysis. Young's modulus, maximum stress/strain, and permanent strain following cyclic loading were determined in ovine vagina.ResultsBoth sheep and human vaginal tissue showed comparable tissue composition. Ovine vaginal tissue showed significantly higher total collagen and glycosaminoglycan values (p<0.05) nearest the cervix. No significant differences were found along the length of the human vagina for collagen, GAG or ETAP content. The proximal region was the stiffest (Young's modulus, p<0.05), strongest (maximum stress, p<0.05) compared to distal region, and most elastic (permanent strain).ConclusionSheep tissue composition and mechanical properties showed regional differences along the postmenopausal vaginal wall not apparent in human vagina, although the absolute content of proteins were similar. Knowledge of this baseline variation in the composition and mechanical properties of the vaginal wall will assist future studies using sheep as a model for vaginal surgery.

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V. Letouzey

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Prevention of complications related to the use of prosthetic meshes in prolapse surgery: guidelines for clinical practice

Isolation and Characterisation of Mesenchymal Stem/Stromal Cells in the Ovine Endometrium

New magnetic-resonance-imaging-visible poly(ε-caprolactone)-based polyester for biomedical applications

Trans-vaginal cystocele repair using a tension-free polypropylene mesh: more than 5 years of follow-up

Regional Variation in Tissue Composition and Biomechanical Properties of Postmenopausal Ovine and Human Vagina

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