E
E. Monaco
Researcher at University of Illinois at Urbana–Champaign
Publications - 27
Citations - 564
E. Monaco is an academic researcher from University of Illinois at Urbana–Champaign. The author has contributed to research in topics: Stem cell & Mesenchymal stem cell. The author has an hindex of 11, co-authored 27 publications receiving 514 citations. Previous affiliations of E. Monaco include Oregon State University.
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Strategies for regeneration of the bone using porcine adult adipose-derived mesenchymal stem cells.
TL;DR: Data is examined that provides strong support for the clinical translation of ASC for bone regeneration and the use of scaffolds in combination with ASC and growth factors provides a valuable tool for guided bone regeneration, especially for complex anatomic defects.
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Binding patterns of bovine seminal plasma proteins A1/A2, 30 kDa and osteopontin on ejaculated sperm before and after incubation with isthmic and ampullary oviductal fluid.
TL;DR: Interactions of BSP A1/A2 and 30 kDa and osteopontin with the sperm membrane undergo modifications dictated by the oviductal fluid, suggesting that OPN participates in sperm-oocyte interaction, affecting fertilization and early embryonic development.
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Transcriptomics comparison between porcine adipose and bone marrow mesenchymal stem cells during in vitro osteogenic and adipogenic differentiation.
TL;DR: The transcriptome of ASC and BMSC, respectively isolated from subcutaneous adipose tissue and femur of 3 adult pigs, during in vitro osteogenic and adipogenic differentiation for up to four weeks indicated that the transcriptsome of the two MSC is relatively similar across the conditions studied.
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Cryopreservation of in vitro matured buffalo (Bubalus bubalis) oocytes by minimum volumes vitrification methods
TL;DR: Vitrification significantly decreased blastocyst yield, regardless of both the method employed and the presence or absence of cumulus cells.
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Adipose-Derived Mesenchymal Stem Cells Enhance Healing of Mandibular Defects in the Ramus of Swine
S. M. Wilson,Michael S. Goldwasser,Sherrie G. Clark,E. Monaco,Massimo Bionaz,Walter L. Hurley,Sandra L. Rodriguez-Zas,Liang Feng,Zaneta Dymon,Matthew B. Wheeler +9 more
TL;DR: Results from this animal model provide evidence that the injection of ASC locally into a bone defect or systemically can accelerate the healing of bone.