scholarly journals Induced Periosteum-Mimicking Membrane with Cell Barrier and Multipotential Stromal Cell (MSC) Homing Functionalities

2020 ◽  
Vol 21 (15) ◽  
pp. 5233
Author(s):  
Heather E. Owston ◽  
Katrina M. Moisley ◽  
Giuseppe Tronci ◽  
Stephen J. Russell ◽  
Peter V. Giannoudis ◽  
...  
Keyword(s):  
Cell Migration ◽  
Stromal Cells ◽  
Critical Size ◽  
Vascular System ◽  
Vessel Diameter ◽  
Electrospun Membrane ◽  
Current Management ◽  
Barrier Membrane ◽  
Free Surface Electrospinning

The current management of critical size bone defects (CSBDs) remains challenging and requires multiple surgeries. To reduce the number of surgeries, wrapping a biodegradable fibrous membrane around the defect to contain the graft and carry biological stimulants for repair is highly desirable. Poly(ε-caprolactone) (PCL) can be utilised to realise nonwoven fibrous barrier-like structures through free surface electrospinning (FSE). Human periosteum and induced membrane (IM) samples informed the development of an FSE membrane to support platelet lysate (PL) absorption, multipotential stromal cells (MSC) growth, and the prevention of cell migration. Although thinner than IM, periosteum presented a more mature vascular system with a significantly larger blood vessel diameter. The electrospun membrane (PCL3%-E) exhibited randomly configured nanoscale fibres that were successfully customised to introduce pores of increased diameter, without compromising tensile properties. Additional to the PL absorption and release capabilities needed for MSC attraction and growth, PCL3%-E also provided a favourable surface for the proliferation and alignment of periosteum- and bone marrow derived-MSCs, whilst possessing a barrier function to cell migration. These results demonstrate the development of a promising biodegradable barrier membrane enabling PL release and MSC colonisation, two key functionalities needed for the in situ formation of a transitional periosteum-like structure, enabling movement towards single-surgery CSBD reconstruction.

scholarly journals Assessment of novel surgical procedures using decellularised muscle and bioactive ceramic: a histological analysis

2021 ◽  
Vol 32 (9) ◽  
Author(s):  
Randa Alfotawi ◽  
Raeesa Ahmed ◽  
Muhammad Atteya ◽  
Amer Mahmood ◽  
Abdulazize Siyal ◽  
...  
Keyword(s):  
Bone Formation ◽  
Bone Regeneration ◽  
Stromal Cells ◽  
Critical Size ◽  
Maxillofacial Surgery ◽  
Calvarial Defect ◽  
Critical Size Defects ◽  
Bioactive Ceramic ◽  
Group 2

AbstractTissue regeneration and neovascularisation in cases of major bone loss is a challenge in maxillofacial surgery. The hypothesis of the present study is that the addition of resorbable bioactive ceramic Silica Calcium Phosphate Cement (SCPC) to Declluraized Muscle Scaffold (DSM) can expedite bone formation and maturation. Two surgical defect models were created in 18 nude transgenic mice. Group 1(n = 6), with a 2-mm decortication calvarial defect, was treated with a DSM/SCPC sheet over the corticated bone as an onlay then seeded with human Mesenchymal Stromal Cells hMSC in situ. In Group 2 (n = 6), a critical size (4 mm) calvarial defect was made and grafted with DSM/SCPC/in situ human bone marrow stromal cells (hMSCs). The control groups included Group 3 (n = 3) animals, with a 2-mm decortication defect treated with an onlay DSM sheet, and Group 4 (n = 3) animals, treated with critical size defect grafted with plain DSM. After 8 weeks, bone regeneration in various groups was evaluated using histology, immunohistochemistry and histomorphometry. New bone formation and maturation was superior in groups treated with DSM/SCPC/hMSC. The DMS/SCPC scaffold has the ability to augment and induce bone regeneration and neovascularisation in cases of major bone resorption and critical size defects.

Current Management of In Situ and Invasive Cervical Adenocarcinoma

2005 ◽  
Vol 1 (3) ◽  
pp. 185-196
Author(s):  
John Schorge ◽  
Shawna Bull ◽  
Jayanthi Lea
Keyword(s):  
Cervical Adenocarcinoma ◽  
Current Management

scholarly journals 3D-Bioprinting Strategies Based on In Situ Bone-Healing Mechanism for Vascularized Bone Tissue Engineering

Micromachines ◽  
2021 ◽  
Vol 12 (3) ◽  
pp. 287
Author(s):  
Ye Lin Park ◽  
Kiwon Park ◽  
Jae Min Cha
Keyword(s):  
Tissue Engineering ◽  
Bone Tissue Engineering ◽  
Bone Tissue ◽  
Bone Healing ◽  
Critical Size ◽  
Current Knowledge ◽  
3D Bioprinting ◽  
The Past ◽  
Regeneration Processes

Over the past decades, a number of bone tissue engineering (BTE) approaches have been developed to address substantial challenges in the management of critical size bone defects. Although the majority of BTE strategies developed in the laboratory have been limited due to lack of clinical relevance in translation, primary prerequisites for the construction of vascularized functional bone grafts have gained confidence owing to the accumulated knowledge of the osteogenic, osteoinductive, and osteoconductive properties of mesenchymal stem cells and bone-relevant biomaterials that reflect bone-healing mechanisms. In this review, we summarize the current knowledge of bone-healing mechanisms focusing on the details that should be embodied in the development of vascularized BTE, and discuss promising strategies based on 3D-bioprinting technologies that efficiently coalesce the abovementioned main features in bone-healing systems, which comprehensively interact during the bone regeneration processes.

scholarly journals Multi-pronged approach to human mesenchymal stromal cells senescence quantification with a focus on label-free methods

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Weichao Zhai ◽  
Jerome Tan ◽  
Tobias Russell ◽  
Sixun Chen ◽  
Dennis McGonagle ◽  
...  
Keyword(s):  
Flow Cytometry ◽  
Mesenchymal Stromal Cells ◽  
Stromal Cells ◽  
Preclinical Model ◽  
Label Free ◽  
Current Standard ◽  
Differentiation Potential ◽  
Human Mesenchymal Stromal Cells ◽  
Endogenous Fluorophores

AbstractHuman mesenchymal stromal cells (hMSCs) have demonstrated, in various preclinical settings, consistent ability in promoting tissue healing and improving outcomes in animal disease models. However, translation from the preclinical model into clinical practice has proven to be considerably more difficult. One key challenge being the inability to perform in situ assessment of the hMSCs in continuous culture, where the accumulation of the senescent cells impairs the culture’s viability, differentiation potential and ultimately leads to reduced therapeutic efficacies. Histochemical $$\upbeta $$ β -galactosidase staining is the current standard for measuring hMSC senescence, but this method is destructive and not label-free. In this study, we have investigated alternatives in quantification of hMSCs senescence, which included flow cytometry methods that are based on a combination of cell size measurements and fluorescence detection of SA-$$\upbeta $$ β -galactosidase activity using the fluorogenic substrate, C$${_{12}}$$ 12 FDG; and autofluorescence methods that measure fluorescence output from endogenous fluorophores including lipopigments. For identification of senescent cells in the hMSC batches produced, the non-destructive and label-free methods could be a better way forward as they involve minimum manipulations of the cells of interest, increasing the final output of the therapeutic-grade hMSC cultures. In this work, we have grown hMSC cultures over a period of 7 months and compared early and senescent hMSC passages using the advanced flow cytometry and autofluorescence methods, which were benchmarked with the current standard in $$\upbeta $$ β -galactosidase staining. Both the advanced methods demonstrated statistically significant values, (r = 0.76, p $$\le $$ ≤ 0.001 for the fluorogenic C$${_{12}}$$ 12 FDG method, and r = 0.72, p $$\le $$ ≤ 0.05 for the forward scatter method), and good fold difference ranges (1.120–4.436 for total autofluorescence mean and 1.082–6.362 for lipopigment autofluorescence mean) between early and senescent passage hMSCs. Our autofluroescence imaging and spectra decomposition platform offers additional benefit in label-free characterisation of senescent hMSC cells and could be further developed for adoption for future in situ cellular senescence evaluation by the cell manufacturers.

Focal cellular origin and regulation of interstitial collagenase (matrix metalloproteinase-1) are related to menstrual breakdown in the human endometrium

1996 ◽  
Vol 109 (8) ◽  
pp. 2151-2160 ◽  
Author(s):  
I. Kokorine ◽  
E. Marbaix ◽  
P. Henriet ◽  
Y. Okada ◽  
J. Donnez ◽  
...  
Keyword(s):  
Stromal Cells ◽  
Steroid Receptors ◽  
Progesterone Receptors ◽  
Human Endometrium ◽  
Functional Layer ◽  
Cellular Origin ◽  
Matrix Metalloproteinase 1 ◽  
Essential Enzyme ◽  
Interstitial Collagenase

Recent studies suggest that interstitial collagenase (MMP-1) is an essential enzyme in the early events leading to menstruation. This study analyses its cellular origin, regulation and relation to extracellular matrix breakdown in the human endometrium, both in cultured and non-cultured samples. The source of MMP-1 was identified by in situ hybridization and by immunohistochemistry on serial sections. This was compared with the immunolocalization of other MMPs, steroid receptors, macrophages, and laminin. In non-cultured endometrium, MMP-1 was only expressed during the perimenstrual period. It was either restricted to superficial foci of stromal cells or extended towards the entire functional layer. MMP-1 expression remarkably correlated with matrix breakdown, as assessed by silver staining, and was prominent at the periphery of shedding fragments and along some arterioles. In cultured non-menstrual explants, MMP-1 expression was induced within two days after deprivation of sex steroids. Both in cultured and non-cultured samples, progesterone receptors were not detectable in epithelial cells at foci of MMP-1 expression. The same stromal cells could synthesize MMP-1, MMP-2 (gelatinase A) and MMP-3 (stromelysin-1), as well as laminin, and did not correspond to macrophages. In conclusion, MMP-1 is focally expressed in stromal cells of the functional layer of the endometrium, when and where steroid receptors disappear, and especially where tissue breakdown is prominent. These observations point to an essential role for MMP-1 in the early stages of menstruation.

Attenuation of retinal endothelial cell migration and capillary morphogenesis in the absence of bcl-2

2008 ◽  
Vol 294 (6) ◽  
pp. C1521-C1530 ◽  
Author(s):  
Shuji Kondo ◽  
Yixin Tang ◽  
Elizabeth A. Scheef ◽  
Nader Sheibani ◽  
Christine M. Sorenson
Keyword(s):  
Cell Migration ◽  
Vascular System ◽  
Ex Vivo ◽  
Vascular Development ◽  
Critical Role ◽  
Endothelial Cell Migration ◽  
Cellular Functions ◽  
Capillary Morphogenesis ◽  
Angiogenesis Assay ◽  
Ischemic Retinopathy

Apoptosis plays a critical role during development and in the maintenance of the vascular system. B-cell leukemia lymphoma 2 (bcl-2) protects endothelial cells (EC) from apoptosis in response to a variety of stimuli. Previous work from this laboratory demonstrated attenuation of postnatal retinal vascular development and retinal neovascularization during oxygen-induced ischemic retinopathy in bcl-2-deficient (bcl-2−/−) mice. To gain further insight into the function of bcl-2 in the endothelium, we isolated retinal EC from bcl-2+/+ and bcl-2−/− mice. Retinal EC lacking bcl-2 demonstrated reduced cell migration, tenascin-C expression, and adhesion to vitronectin and fibronectin. The bcl-2−/− retinal EC also failed to undergo capillary morphogenesis in Matrigel. In addition, using an ex vivo angiogenesis assay, we observed reduced sprouting from aortic rings grown in culture from bcl-2−/− mice compared with bcl-2+/+ mice. Furthermore, reexpression of bcl-2 was sufficient to restore migration and capillary morphogenesis defects observed in bcl-2−/− retinal EC. Mechanistically, bcl-2−/− cells expressed significantly less endothelial nitric oxide synthase, an important downstream effecter of proangiogenic signaling. This may be attributed to increased oxidative stress in the absence of bcl-2. In fact, incubation of retinal EC or aortic rings from bcl-2−/− mice with the antioxidant N-acetylcysteine rescued their capillary morphogenesis and sprouting defects. Thus, bcl-2-mediated cellular functions play important roles not only in survival but also in proangiogenic phenotype of EC with a significant impact on vascular development and angiogenesis.

Current Management of Ductal Carcinoma In Situ (DCIS)

2014 ◽  
pp. 175-185
Author(s):  
Adam I. Riker ◽  
Barbara L. Krueger ◽  
Jami Walloch
Keyword(s):  
Ductal Carcinoma In Situ ◽  
Carcinoma In Situ ◽  
Ductal Carcinoma ◽  
Current Management

scholarly journals Histological and morphometric aspects of ridge preservation with a moldable, in situ hardening bone graft substitute

2013 ◽  
Vol 65 (2) ◽  
pp. 429-437 ◽  
Author(s):  
M. Jurisic ◽  
Milica Manojlovic-Stojanoski ◽  
M. Andric ◽  
V. Kokovic ◽  
Vesna Danilovic ◽  
...  
Keyword(s):  
Porous Scaffold ◽  
Calcium Phosphates ◽  
Case Series ◽  
Bone Graft Substitute ◽  
Ridge Preservation ◽  
Woven Bone ◽  
Barrier Membrane ◽  
Morphometric Analyses ◽  
Implant Therapy

Biphasic calcium phosphates (BCP) are widely used in alveolar ridge regeneration as a porous scaffold for new bone formation. The aim of this case series was to evaluate the regenerative effect of the combination of BCP and polylactide-co-glycolide (PLGA) which can serve as a barrier membrane during bone regeneration. The study included five patients. Four months into the healing period, bone samples were collected for histological and morphometric analyses. The results of morphometric analysis showed that newly formed bone represented 32.2 ? 6.8% of the tissue, 31.9 ? 8.9% was occupied by residual graft and 35.9 ? 13.5% by soft tissue. Active osteogenesis was seen around the particles of the graft. The particles were occupied mostly by immature woven bone and connective tissue. The quality and quantity of newly formed bone, after the use of BCP/PLGA for ridge preservation, can be adequate for successful implant therapy after tooth extraction.

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