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Implantation Period (implantation + period)
Selected AbstractsEph,ephrin A system regulates murine blastocyst attachment and spreadingDEVELOPMENTAL DYNAMICS, Issue 12 2006Haruko Fujii Abstract Although numerous adhesion molecules are expressed on mammalian endometrial epithelial cells, there have not been any studies of a mechanism to prevent premature attachment of the embryo. In this study, we examined the possible involvement of Eph,ephrin interaction, which can induce repulsive forces. In mice, Eph A1, A2, and A4 were expressed on endometrial epithelial cells and ephrin A1,4 on blastocysts. Reverse transcriptase-polymerase chain reaction showed that mRNA expression of ephrin A1,4 on embryos transiently decreased around the implantation period. Immunohistochemistry demonstrated that the expression of Eph A1 on endometrial epithelial cells and ephrin A1 and A3 expression on embryos decreased at implantation sites. Recombinant Eph A1 reacted with cell the surface of ephrin A-bearing trophectoderm cells. Attachment assays using Eph A1-coated dishes showed that blastocyst attachment was reversibly inhibited by Eph A1. These findings suggest an important role of the Eph,ephrin A system in regulating the initial embryo,maternal contact during the cross-talk period that precedes embryo implantation. Developmental Dynamics 235:3250,3258, 2006. © 2006 Wiley-Liss, Inc. [source] Bone healing performance of electrophoretically deposited apatite,wollastonite/chitosan coating on titanium implants in rabbit tibiaeJOURNAL OF TISSUE ENGINEERING AND REGENERATIVE MEDICINE, Issue 7 2009Smriti Sharma Abstract Bone healing of tibial defect in rabbit model was used to evaluate a composite coating of apatite,wollastonite/chitosan on titanium implant. This coating has been developed to overcome the shortcomings, such as implant loosening and lack of adherence, of uncoated titanium implant. An electrophoretic deposition technique was used to coat apatite,wollastonite/chitosan on titanium implants. The present study was designed to evaluate the bone response of coated as compared to uncoated titanium implants in an animal model. After an implantation period of 14 (group A), 21 (group B), 35 (group C) and 42 days (group D), the bone,implant interfaces and defect site healing was evaluated using radiography, scintigraphy, histopathology, fluorescence labeling and haematology. Radiography of defect sites treated with coated implants suggested expedited healing. Scintigraphy of coated implant sites indicated faster bone metabolism than uncoated implant sites. Histopathological examination and fluorescence labeling of bone from coated implant sites revealed higher osteoblastic activity and faster mineralization. Faster bone healing in the case of coated implant sites is attributed to higher cell adhesion on electrostatically charged chitosan surfaces and apatite,wollastonite-assisted mineralization at bone,implant interfaces. Haematological studies showed no significant differences in haemoglobin, total erythrocyte and leukocyte counts, done using one way-ANOVA, during the entire study period. Our results show that AW/chitosan-coated implants have the advantages of faster bone healing, increased mechanical strength and good bone,implant bonding. Copyright © 2009 John Wiley & Sons, Ltd. [source] Uterine secretion of ISP1 & 2 tryptases is regulated by progesterone and estrogen during pregnancy and the endometrial cycleMOLECULAR REPRODUCTION & DEVELOPMENT, Issue 3 2004Colleen M. O'Sullivan Abstract We have described two novel implantation serine proteinase (ISP) genes that are expressed during the implantation period. The ISP1 gene may encode the embryo-derived enzyme strypsin, which is necessary for blastocyst hatching in vitro and the initiation of invasion. The ISP2 gene, which encodes a related tryptase, is expressed in endometrial glands and is regulated by progesterone during the peri-implantation period. Based on similarities between ISP2 gene expression and that of a progesterone-regulated lumenal serine proteinase activity associated with lysis of the zona pellucida, we have suggested that the strypsin related protein, ISP2, may encode a zona lysin proteinase. Recently strypsin has also been found within uterine fluid, suggesting a second potential role in hatching. Consistently, we have discovered that ISP1 is also expressed in the uterine secretory gland at the time of hatching. In this study we demonstrate that both ISP1 and ISP2 are secreted together into the uterine lumen at peri-implantation, and that the appearance of ISP protein is regulated positively at the transcriptional level by progesterone and negatively at the posttranscriptional level by estrogen. This negative regulation by estrogen may be overridden in pregnancy as ISP protein expression is restored during oil-induced decidualization. ISP1 and ISP2 proteins are also expressed in proestrous suggesting additional roles in the endometrial cycle. Mol. Reprod. Dev. 69: 252,259, 2004. © 2004 Wiley-Liss, Inc. [source] REVIEW ARTICLE: Immunological Modes of Pregnancy LossAMERICAN JOURNAL OF REPRODUCTIVE IMMUNOLOGY, Issue 6 2010Joanne Kwak-Kim Citation Kwak-Kim J, Park JC, Ahn HK, Kim JW, Gilman-Sachs A. Immunological modes of pregnancy loss. Am J Reprod Immunol 2010 During the implantation period, a significant portion of embryos are lost and eventually less than half of clinically established pregnancies end as full-term pregnancies without obstetrical complications. A significant portion of these pregnancy losses is associated with immune etiologies, including autoimmune and cellular immune abnormalities. Although an autoimmune etiology such as anti-phospholipid antibodies (APAs) has been reported to induce placental infarct and thrombosis at maternal,fetal interface, APAs induce inflammatory immune responses as well. Inflammatory immune responses, such as increased proportions of NK cells and Th1/Th2 cell ratios in peripheral blood are related to recurrent pregnancy losses and multiple implantation failures. Systemic and local inflammatory immune responses seem to be induced by activation of Toll-like receptors with infectious agents, fetal cell debris, or gonadotropin-releasing hormone agonist, etc. Cellular activation of T and NK cells leads to pro-inflammatory cytokine storm and consequently, placental infarction and thrombosis. Potential application of anti-inflammatory therapeutic agents for the prevention of pregnancy losses should be explored further. [source] Biology of the prolactin family in bovine placenta.ANIMAL SCIENCE JOURNAL, Issue 1 2006ABSTRACT The placenta produces various peptides and steroid hormones that regulate placental function and fetal growth. Prolactin-related proteins are peptides that are produced by the placenta and belong to the growth hormone/prolactin family, and have structural similarity to prolactin and placental lactogen. Although several prolactin-related protein genes have been detected in bovine placenta, their expression profiles and functions are not clear. The main difficulties in examining their biological function is the similarity between their genes and the lack of information about their proteins. Recently, molecular biology methods have been used to detect some new bovine prolactin-related proteins, and elucidate their biological functions. This review focuses on the structures, expression profiles and conceivable functions of prolactin-related proteins in bovine placenta. With respect to their expression profiles, bovine prolactin-related proteins fall into four groups: (i) those expressed around the implantation period; (ii) those that reach peak expression in the middle of gestation; (iii) those that increase with the progress of gestation, reaching a peak in late gestation; and (iv) those that reach a plateau in early gestation and are maintained at that level throughout gestation. Data indicate that bovine prolactin-related proteins have different biological roles in different periods of gestation. ,In situ monitoring suggests that bovine prolactin-related protein-I has a role in the attachment of trophoblast cells to endometrium during the early implantation period. [source] Histological evaluation of oral implants inserted with different surgical techniques into the trabecular bone of goatsCLINICAL ORAL IMPLANTS RESEARCH, Issue 4 2007Manal M. Shalabi Abstract Objective: The aim of this study was to investigate the influence of implant surface topography and surgical technique on bone response. Material and methods: For the experiment, 48 screw-designed implants were used with two different surface finishes, i.e. machined and ,blasted, etched'. The implants were inserted into the left and right medial femoral condyle of eight goats using three different surgical approaches: press-fit (implant diameter=implant bed diamete(r), undersized (implant bed diameter Genetic marking with the ,LNGFR-gene for tracing goat cells in bone tissue engineering,JOURNAL OF ORTHOPAEDIC RESEARCH, Issue 4 2004M. C. Kruyt Abstract The use of bone marrow derived stromal cells (BMSC's) for bone tissue engineering has gained much attention as an alternative for autologous bone grafting. Little is known however, about the survival and differentiation of the cells, especially in the clinical application. The aim of this study was to develop a method to trace goat BMSC's in vivo. We investigated retroviral genetic marking, which allows stable expression of the label with cell division. Goat BMSC's were subjected to an amphotropic envelope containing a MoMuLV-based vector expressing the human low affinity nerve growth factor receptor (,LNGFR). Labeling efficiency and effect on the cells were analyzed. Furthermore, transduced cells were seeded onto porous ceramic scaffolds, implanted subcutaneously in nude mice and examined after successive implantation periods. Flow cytometry indicated a transduction efficiency of 40,60%. Immunohistochemistry showed survival and subsequent bone formation of the gene-marked cells in vivo. Besides, marked cells were also found in cartilage and fibrous tissue. These findings indicate the maintenance of the precursor phenotype following gene transfer as well as the ability of the gene to be expressed following differentiation. We conclude that retroviral gene marking with ,LNGFR is applicable to trace goat BMSC's in bone tissue engineering research. © 2003 Orthopaedic Research Society. Published by Elsevier Ltd. All rights reserved. [source] An In Vivo Study of the Host Response to Starch-Based Polymers and Composites Subcutaneously Implanted in RatsMACROMOLECULAR BIOSCIENCE, Issue 8 2005Alexandra P. Marques Abstract Summary: Implant failure is one of the major concerns in the biomaterials field. Several factors have been related to the fail but in general these biomaterials do not exhibit comparable physical, chemical or biological properties to natural tissues and ultimately, these devices can lead to chronic inflammation and foreign-body reactions. Starch-based biodegradable materials and composites have shown promising properties for a wide range of biomedical applications as well as a reduced capacity to elicit a strong reaction from immune system cells in vitro. In this work, blends of corn starch with ethylene vinyl alcohol (SEVA-C), cellulose acetate (SCA) and polycaprolactone (SPCL), as well as hydroxyapatite (HA) reinforced starch-based composites, were investigated in vivo. The aim of the work was to assess the host response evoked for starch-based biomaterials, identifying the presence of key cell types. The tissues surrounding the implant were harvested together with the material and processed histologically for evaluation using immunohistochemistry. At implant retrieval there was no cellular exudate around the implants and no macroscopic signs of an inflammatory reaction in any of the animals. The histological analysis of the sectioned interface tissue after immunohistochemical staining using ED1, ED2, CD54, MHC class II and ,/, antibodies showed positively stained cells for all antibodies, except for ,/, for all the implantation periods, where it was different for the various polymers and for the period of implantation. SPCL and SCA composites were the materials that stimulated the greatest cellular tissue responses, but generally biodegradable starch-based materials did not induce a severe reaction for the studied implantation times, which contrasts with other types of degradable polymeric biomaterials. [source] Effect of surface roughness and calcium phosphate coating on the implant/bone responseCLINICAL ORAL IMPLANTS RESEARCH, Issue 4 2000Tohru Hayakawa The influence of surface roughness and calcium phosphate (Ca-P) coating on the bone response of titanium implants was investigated. Four types of titanium implants, i.e. as-machined, grit blasted, as-machined with Ca-P sputter coating, and grit blasted with Ca-P sputter coating, were prepared. The Ca-P sputter-coating, produced by using the RF magnetron sputter technique, was rapid heat-treated with infrared radiation at 600°C. These implants were inserted into the left and right femoral condyles and the left and right tibial diaphyses of the rabbits. After implantation periods of 2 and 12 weeks, the bone,implant interface was evaluated histologically and histomorphometrically. Histological evaluation revealed no new bone formation around different implant materials after 2 weeks of implantation. After 12 weeks, bone healing was almost completed. For both tibial and femoral implants, Ca-P coated implants always showed a higher amount of bone contact than either of the non-coated implants. On the other hand, surface roughness improved only the response to implants inserted into the tibial diaphysis. On the basis of these findings, we concluded that 1) deposition of a sputtered Ca-P coating on an implant has a beneficial effect on the bone response to this implant during the healing phase, and 2) besides implant surface conditions the bone response is also determined by local implant site conditions. [source]
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