Estudo micro-estrutural, histoquímico e imunoistoquímico da placenta de lhama (Lama guanicoe glama) / Microestructural, histochemistry, and inmunohistochemistry study of the llama´s placenta (Lama guanicoe glama)

David Montes Iturrizaga

09 December 2005

A placenta de lhama tem sido descrita como epitélio-corial, mas os estudos existentes não aprofundam nos aspectos microscópicos. Para detalhar as características microestruturais foram feitas observações ao microscópio de luz, eletrônico de varredura e de transmissão. Foram coletados 09 úteros grávidos em associação com as membranas fetais, entre 28 a 36 semanas de gestação. Parte do material foi fixado com solução de paraformaldeído 4% e emblocado em paraplast e historesina. Seções de 5µm foram submetidas a colorações de hematoxilina-eosina, Tricrômico de Masson, reações histoquímicas de PAS, Perl?s e fosfatase ácida, e imunohistoquímica para a detecção de uteroferrina. Fragmentos foram fixados com glutaraldeído 2,5%, para microscopia eletrônica de varredura e transmissão. Os resultados observados permitem classificar a placenta da lhama como corioalantóidea, difusa, pregueada, epitéliocorial e o feto esta recoberto pela membrana epidermal. O trofoblasto apresentou células de morfologia variada, desde cúbicas, arredondas até triangulares, com citoplasma contendo grânulos PAS+. Células binucleadas com citoplasma aumentado e núcleos arredondados, bem como células trofoblásticas gigantes com múltiplos núcleos, também foram observadas. As aréolas estavam preenchidas de material PAS positivo Observaram-se grande quantidade de vasos sangüíneos na interface materno-fetal, entre as células do epitélio uterino e ao arredor das projeções coriônicas, as quais eram ramificadas. O mesênquima com fibras colágenas em grande quantidade auxiliam no suporte das projeções coriônicas. Observou-se positividade as reações histoquímicas de PAS, Perl?s e fosfatase ácida, e imunohistoquímica de uteroferrina na interface materno fetal, mas com maior notoriedade no epitélio e lume das glândulas uterinas. Células trofoblásticas gigantes com 4 ou mais núcleos estavam nas projeções coriônicas, mostrando escassa ou nula reatividade histoquímica ao PAS, indicando funcionalidades diferentes das células trofoblásticas mono ou binucleadas. O alantóide estava conformado por uma camada única de células de diferentes alturas, sendo que na superfície destas observaram-se estruturas circulares e poliédricas. A membrana epidermal possui um epitélio estratificado plano de até sete camadas de células mono, bi ou trinucleadas. A alta vascularização das faces materna e fetal, a qual indica uma ótima troca de sustâncias entre ambas faces, e a alta atividade metabólica demonstrada nas glândulas uterinas revelam uma adaptação da gestação desta espécie habitante das altas altitudes da serra do Peru. / The placenta of the llama has been described like epitheliochorial, but existent researches don\'t study in depth microscopic aspects. In order to detail their ultrastructurals characteristics observations were made by light microscopy and scanning electron microscopy (SEM) and transmission electron microscopy (TEM). Samples of nine uteruses between 28 to 36 weeks of pregnancy were collected in association with fetal membranes. A part was fixed with of 4% paraformaldehyde solution and embedded either in paraffin or in glycol methacrylate resin. Sections of 5µm in thickness were stained with haematoxylin and eosin, Masson\'s trichrome staining and PAS (Perl`s and acid fosfatase, and inmunohistochemestry for uteroferrina detection. Another part was fixed with 2,5 % glutaraldehyde and post-fixed in 1% osmium tetroxide and processed for SEM. The trophoblast presented cells of morphology varied, since cubical, rounds off until triangular, with cytoplasm with granules PAS+. Binucleates cells with increased cytoplasm and spherical nucleus, as well as giant trophoblastics cells with multiple nucleus, had been also observed. Aréolas was filled of positive material PAS. Great amount of blood vessels are in the maternofetal interface, between the cells of uterine epithelium and around of the chorionic projections. Collagen fibers are observed in the mesenchymae and inside the chorionic projections. PAS positive reaction was observed in the materno-fetal interface, mane manifest in epithelium and lumen of uterine glands. Giant size trofoblastic cels of 4-7 or more nucleus were found in chorionich proyections, showing scarse or nule histochemistry reactivity, indicating different functionalities of different kind of mono or bi nucleated cells. The allantois is structured by an unique layer of different sizes cells, in their surface are circular and polyhedral structures, representing a morphological consideration from this type of function allantois cells. The epidermal membrane is formed by 7 or more layers of cells with one, two or three nucleus. The superficial layer present more smooth cells. The high vascularization of the maternal and fetal faces indicates an optimal interchange of substances between both. The collagen inside the chorionics projections serves as a support skeleton), and the high metabolic demonstrate activity in uterine glands, develope a pregnacy adaptation of these specie who lives in highs of Perú.

Lhama

Placenta

Trofoblasto

Uteroferrina

Llama

Placenta

Trophoblast

Uteroferrina

Maternal Obesity Induces a Pro-Inflammatory Uterine Immune Response Associated with Altered Utero-Placental Development and Adverse Fetal Outcomes

Tessier, Daniel

January 2015

Obese pregnant women have increased risk of a number of pregnancy complications, including poor maternal health, fetal growth restriction (FGR) and fetal demise. The success of pregnancy is dependent on precise regulation of the immune response within the utero-placental environment. Rats as a model for human related pregnancy complications are beginning to be widely used because of the similarities between these species in terms of trophoblast invasion and spiral artery remodeling. However our knowledge of immune cells and cytokine localization in the rat utero-placental tissue relating to these processes is limited. Therefore our first aim was to characterize the immune cell populations, such as uterine natural killer (uNK) cells, neutrophils and macrophages in the rat utero-placental unit at two crucial gestational ages relevant to trophoblast invasion and spiral artery remodeling, gestational day (GD) 15 and GD18. In addition, we characterized the cytokine distribution of TNFα, IFNγ and IL-10 in the utero-placental tissue at both above mentioned gestational ages. Our study has demonstrated co-localization of TNFα and IFNγ with uNK cells in the perivascular region of the spiral arteries in the rat mesometrial triangle. Neutrophils were localized at the maternal fetal interface and in the spiral artery lumen of the rat mesometrial triangle at both gestational ages. TNFα and IL-10 demonstrated a temporal change in the localization from GD15 to GD18 which coincides with the leading edge of trophoblast invasion into the mesometrial triangle. The results of the current study furthers our knowledge of the localization and temporal expression of uterine immune cells and relevant cytokines, and provides a base to research the function of these immune cells and cytokines during rat pregnancy as a model to study human pregnancy and complications related to immune functions. Since obesity is associated with a peripheral and systemic pro-inflammatory state in humans, our second objective was to investigate whether maternal obesity could alter the utero-placental and systemic immune response in the rats. To characterize maternal obesity induced changes in uterine immune state we used pregnant rats fed a control diet (normal weight; CD) or a high fat diet (obese; HFD) at GD15 and GD18. We performed immunohistochemistry to localize TNFα and IL-10, and quantified the levels of TNFα, IL-1β and IL-10 in the uterine tissue by immunoassay. To assess the systemic immune state, circulating levels of pro-inflammatory cytokine MCP-1 were assessed by immunoassay. We demonstrated an increased concentration of the pro-inflammatory marker TNFα and a reduced anti-inflammatory IL-10-positive cell distribution in the rat mesometrial triangle in response to a HFD. In addition increased circulating MCP-1 was observed in the HFD-fed dams at both gestation ages. HFD induced obesity in our rat model leads to an increase in uterine and systemic pro-inflammatory markers. These markers have demonstrated the potential to alter utero-placental development. Pregnancy complications such as FGR and fetal demise have been shown to be associated with impaired placental development as a result of altered trophoblast invasion and aberrant maternal spiral artery remodeling. Therefore, our third aim was to compare these parameters between the CD-fed rats and HFD-fed rats at GD15 and GD18. Early trophoblast invasion was increased by approximately 2-fold in HFD-fed dams with a concomitant increase in the expression of matrix metalloproteinase-9 protein, a mediator of tissue remodeling and invasion. By late gestation reduced trophoblast invasion was observed in HFD-fed dams. Furthermore, we also observed in late gestation significantly higher levels of smooth muscle actin surrounding the uterine spiral arteries of HFD-fed dams, suggesting impaired spiral artery remodeling. We also determined the impact of human serum from obese mothers on trophoblast invasion. We compared the invasion of HTR-8/SVneo cells treated with pooled first-trimester serum from obese women with or without fetal growth restriction vs. cells treated with serum from normal-weight women with or without fetal growth restriction. First-trimester serum from obese pregnant women reduced invasion of the trophoblast cell line HTR8/SVneo compared to serum from normal-weight pregnant women. Taken together, the results of this study suggest that maternal obesity can negatively influence crucial utero-placental development processes resulting in the poor pregnancy outcomes and increased fetal demise. To summarize, the HFD increased the pro-inflammatory marker TNFα which was associated with altered trophoblast invasion profiles and impaired vascular remodeling. These disturbances in utero-placental development were also associated with decreased birth weights (indication of FGR) and increased rates of stillbirths in our obese rat model. In conclusion, we have made progress in defining the influence of maternal obesity (HFD) on utero-placental development. The importance of these studies is evident since FGR represents a leading cause of perinatal morbidity and mortality. Furthermore, FGR fetuses have an increased risk of becoming obese in their lifetime as a result of fetal programming, therefore resulting in the propagation of a transgenerational obesity cycle. Therefore by understanding the mechanisms by which maternal obesity influences utero-placental development leading to FGR, we may be able to impact short term morbidity and prevent the programming of obesity in future generations. In addition, characterization of maternal obesity’s influence on utero-placental development will also help in the search for therapeutics or intervention strategies to help optimize fetal growth and improve pregnancy outcomes in obese women.

Obesity

Pregnancy

Inflammation

Spiral artery remodeling

Trophoblast invasion

Expressão tecido específica do fator de inibição de migração de macrófagos (Mif) na interface materno fetal em camundongos / Tissue specific expression of macrophage migration inhibitory factor (Mif) at the mouse maternal fetal interface

Miriam Rubio Faria

18 January 2010

Neste estudo caracterizamos a expressão de Mif nas células trofoblásticas (CT), placentárias e decidua (D) na gestação em camundongos.A imunolocalização foi realizada nos dias de gestação(dg) 7,5, 10,5, 13,5 e 17,5.Com cones ectoplacentários e placentas fetais (PL) realizou-se ensaios de Western blotting e qRT-PCR nos mesmos dg.D foram submetidas a qPCR.Aos 7,5 dg as CT gigantes e D apresentaram imunomarcação.Dos 10,5 ao 17,5 dg o Mif concentrou-se nas CTG e no espongiotrofoblasto.Na D, a imunomarcação foi menor que aos 7,5 dg.A expressão protéica na PL aumentou do 7,5 dg para o 10,5 dg (p=0,005) e para o 13,5 dg (p=0.03).A maior expressão gênica foi em 10,5 dg e diferente em 13,5 dg (p=0,048) e 17,5 dg (p=0,009).Na D, a maior expressão gênica foi em 7,5 dg e diferente dos 10,5 (0,012) e 13,5 (0,032) dg.O aumento da expressão de Mif na PL coincide com a organização em quatro camadas e com o início da circulação fetal.Esta distribuição temporal e tecido-específica sugere o MIF como modulador no início da placentação ou na sua adaptação ao ambiente uterino / The goal of this study was to characterize Mif expression by trophoblast (TC),fetal placenta (FP) and decidua (D) during mouse pregnancy.Mif was immunolocalized at TC and D on gestation days (gd) 7.5, 10.5, 13.5 and 17.5.Ectoplacental cones (EC) and FP were used for Western blotting and qPCR.D were also used for qRT-PCR.On gd 7.5,DC and TC giant (TGC) showed strong reactivity.On gds 10.517.5,were concentrated in TGC and spongiotrophoblast cells. D reactivity was weaker than 7.5 gd.Protein expression at FP increased from gd 7.5 to 10.5 (p=0.005) and to 13.5 (p=0.03).Higher mRNA expression was found on gd 10.5 and was different from gds 13.5 (p=0.048) and 17.5 (p=0.009).At D on gd 7.5 was greater than those on gds 10.5 (0,012) and 13.5 (0,032).The up-regulation of Mif coincides with the stage that placenta assumes its four-layered organization and the fetal blood circulation begins,This temporal tissue-specific distribution and expression data suggests that Mif may play a modulator role in the onset of placentation or in it adaptation to the uterine environment

Citocinas

Endométrio

Gravidez

Placenta

Trofoblasto

Cytokines

Endometrium

Placenta

Pregnancy

Trophoblast

IPSC-derived trophoblasts: a novel model for infections at the maternal fetal interface

Wang, Jennifer

08 June 2020

BACKGROUND: The placenta is a multifunctional organ whose primary functions are to nourish and protect the fetus throughout gestation. The immune response of the placenta plays an important part in gestational outcome. Microbial infection during pregnancy can be detrimental to both maternal health and fetal development, increasing the risk for miscarriage, preterm birth, and congenital abnormalities. However, evaluating immunological response has been an on-going challenge for scientists and clinicians due to the complexity of the maternal-fetal interface. Research has been done to understand the mechanisms by which pathogens activate placental immune response, but our understanding is still lacking in many areas due to the dynamic changes that occur in immunology over the gestational timeline. The primary challenge faced by researchers is the availability of placental tissue, which is limited by donors and their finite viability in culture once harvested. Additionally, legal restrictions placed on fetal-tissue research have severely limited advancement in the field. Human induced pluripotent stem cells (hiPSCs) present a unique tool to study the differentiation of trophoblasts and maternal-placental immunology without the need of fetal tissue. OBJECTIVE: The goal of this project is to develop an in vitro model for studying placental immunology and pathogenesis using human induced pluripotent stem cell (hiPSC)-derived trophoblasts. Our aim is to report a robust protocol for producing hiPSC-derived trophoblasts and to characterize them against primary trophoblasts using both gene and protein expression detection techniques. Successful modeling of human trophoblasts would allow us the unique opportunity to investigate the cellular interface between the maternal and fetal systems without needing to isolate primary human trophoblasts. Once we produce and fully characterize several hiPSC cell clones from multiple normal individuals, we will demonstrate the use of these cells as a model for infections at the maternal-fetal interface by exposing them to viral pathogens known to target the placenta. METHODS: Earlier publications have reported the differentiation of embryonic stem cells into trophoblasts in culture by using bone morphogenetic protein-4 in conjunction with inhibitors of activin A and FGF2-signaling (BMP4/A83-01/PD173074; BAP-treatment). We applied this approach to hiPSC lines from two different lineage origins and characterized the outcome against known trophoblast markers. We also developed a novel approach to maintain proliferative trophoblast stem cells in culture long term. Two viral pathogens, a recombinant vesicular stomatitis virus strain engineered to express a green fluorescent protein (rVSV-GFP) and a strain of Zika virus (ZIKV-PRVABC59), were used to determine if it is possible to infect hiPSC-derived trophoblasts in culture. RESULTS: Using this approach, hiPSC readily differentiate into trophoblasts by day 8 of culture. These cells demonstrate formation of multinuclear syncytium, invasive capacities, and secretion of placental hormones. Further characterization using quantitative real-time PCR and immunofluorescent staining indicates that these cells express a number of trophoblast markers at levels comparable to those expressed by primary first-trimester trophoblasts. We were also able to maintain a putative CT population which retains the capacity to double and give rise to terminal cell types. HiPSC-derived trophoblasts infected with rVSV-GFP and ZIKV-PRVABC59 tested positive for viral infection by 72 hours post-infection (HPI), demonstrating the use of these cells as an in vitro model for studying placental pathogens at the maternal-fetal interface. / 2022-06-08T00:00:00Z

Medicine

Cytotrophoblast

Fetomaternal organ

hiPSC

iPSC

Placenta

Trophoblast

Impaired Wnt5a signaling in extravillous trophoblasts: Relevance to poor placentation in early gestation and subsequent preeclampsia / 絨毛外栄養膜細胞におけるWnt5aシグナルの低下は妊娠初期の胎盤形成に影響し妊娠高血圧腎症の原因となり得る

Ujita, Mari

23 May 2019

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第21953号 / 医博第4495号 / 新制||医||1037(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 柳田 素子, 教授 斎藤 通紀, 教授 近藤 玄 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Early placentation

Extravillous trophoblast

Preeclampsia

Spiral artery remodeling

Wnt5a

490

Zc3h13: A Master Regulator of Epitranscriptomic Landscape during Early Development

Chirathivat, Napon

January 2021

Mouse epiblast stem cells (EpiSC) are pluripotent cells derived of the epiblast of post-implantation blastocysts that can self-renew indefinitely in culture, display lineage-restricted differentiation, and appear to closely resemble human embryonic stem cells (ESC). Despite significant advances in the last decade, the precise molecular mechanisms and many master regulator (MR) genes underlying stem cell self-renewal, pluripotency, interactions with surrounding cells, and lineage-specific differentiation still remain elusive. The goal of this thesis is to address these gaps of knowledge using a systematic approach to identify novel MR genes and functionally validate them using genetically modified mouse models.In order to elucidate MR genes that control understudied biological processes, previous work in the Shen lab have computationally reconstructed the regulatory network of EpiSC and interrogated the EpiSC interactome with pluripotency signatures of EpiSC lines. One MR gene of interest from the previous analysis is ZC3H13, which encodes a protein that has been previously shown to be a crucial for N6-methyladenosine modification in RNA (m⁶A). This suggests a novel connection between m⁶A epitranscriptional modifications and primed state pluripotency. In my thesis research, I have shown that Zc3h13 is essential for proper trophoblast lineage differentiation and the importance of m6A modifications in early embryonic development. Using two Zc3h13 knockout mouse lines, I have found that Zc3h13 null embryos are embryonic lethal at the peri-implantation stage due to a failure to implant into the uterus. In vitro outgrowth analysis revealed a lack of trophoblast giant cells in Zc3h13 null outgrowths, and the lack of enlarged nuclei in the Zc3h13 null outgrowth suggests a failure in endoreduplication. Immunofluorescence analysis of Zc3h13 null blastocysts showed that the trophectoderm cells of Zc3h13 null blastocyst expressed trophectoderm specific factors at abnormal levels, indicating a severe dysregulation of the trophectoderm regulatory network. To elucidate the effects of Zc3h13 knockout on pluripotency, I also performed a detailed immunofluorescence analysis of Zc3h13 null inner cell mass (ICM), which expressed pluripotency factors at normal levels. However, Zc3h13 null blastocysts were less efficient at generating ESC lines and the Zc3h13 KO ESC generated were morphologically abnormal. Dot blot and mass spectrometry analysis showed that Zc3h13 KO ESC had a dramatically lower level of m⁶A modification, suggesting a connection between m6A epitranscriptional modification and endoreduplication. Interestingly, chimera and teratoma analysis showed that while Zc3h13 KO ESC can contribute to derivatives of the three primary lineages, Zc3h13 KO ESC has a bias towards neuroectoderm differentiation. In this thesis, I have shown the importance of m6A transcriptional regulation in trophoblast giant cell differentiation. Taken together, my studies can help further the understanding of the biological functions of m⁶A modifications as well as the relationship between transcriptional regulation and cell fate transition. My work highlights another level of gene regulation through epitranscriptional modification and the importance of the epitranscriptomic landscape in cell fate transition and development.

Developmental biology

Stem cells--Research

Mice

Blastocyst

Trophoblast

Genetic regulation

Studies on induction of pluripotency in bovine somatic cells and generation of induced pluripotent stem cells / ウシ体細胞の多能性誘導と人工多能性幹細胞株の樹立に関する研究

Kawaguchi, Takamasa

23 May 2016

京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第19899号 / 農博第2182号 / 新制||農||1043(附属図書館) / 学位論文||H28||N5003(農学部図書室) / 32976 / 京都大学大学院農学研究科応用生物科学専攻 / (主査)教授 今井 裕, 教授 久米 新一, 教授 廣岡 博之 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM

iPS cells

cattle

pluripotency

trophoblast

genetically modified animals

piggyBac

610

CD9 suppresses human extravillous trophoblast invasion / CD9はヒト絨毛外栄養膜細胞の浸潤を抑制する

Matsumoto, Hisanori

24 July 2017

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第20606号 / 医博第4255号 / 新制||医||1023(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 羽賀 博典, 教授 篠原 隆司, 教授 近藤 玄 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

CD9

Extravillous trophoblast

Invasion

Oxygen concentration

Vascular remodeling

490

The Implications of Delta-9-tetrahydrocannabinol on Localized Immune and Hormonal Responses Mediated by Trophoblasts of the Human Placenta

Gurm, Harmeet

January 2021

Over the approximate nine months of its intrauterine existence, the development of the fetus is supported by the human placenta. This transient organ is central to pregnancy success as it facilitates maternal-fetal exchange, immunological tolerance, and hormone production. Villous trophoblasts mediate placental formation by engaging in a continuous turnover process of proliferation, differentiation, fusion, and apoptosis. In doing so, cytotrophoblasts and syncytiotrophoblasts maintain the integrity of the outer placental lining known as the syncytium. Exposure to drugs, however, can compromise placental establishment, which can in turn adversely impact pregnancy and fetal health. Specifically, cannabis is widely used by women of reproductive age and during pregnancy. While maternal cannabis use is linked to poor outcomes such as preterm birth and neurodevelopmental delays in exposed children, the underlying mechanisms are not well-defined. First, we characterized a functionally relevant cell line to model differentiation and fusion. In a comparison of the BeWo and BeWo b30 cell lines, our findings demonstrated that both models similarly undergo fusion. We then explored the implications of exposure to delta-9- tetrahydrocannabinol (∆9-THC) on the immunological roles of villous trophoblasts. We observed that cytotrophoblast differentiation and fusion were associated with localized inflammation due to elevated interleukin-2 (IL-2) and tumour necrosis factor-alpha (TNF-α) but inhibited interleukin-4 (IL-4) and interleukin-10 (IL-10) production. ∆9-THC exposure impaired this T helper 1/2 cytokine balance through decreased IL-2 and TNF-α as well as increased IL-4 and IL-10 levels. Subsequently, we investigated the effects of ∆9-THC in TNF-α- and IL-10-dominant environments, to represent inflammatory and immunomodulatory microenvironments, respectively. Coincident with inflammation, ∆9-THC attenuated trophoblast fusion and the biosynthesis of steroid hormones, progesterone and cortisol, through perturbed cytochrome P450 regulation. This thesis ultimately lays a foundation for understanding how cannabis use during pregnancy may compromise the fusogenic, immune and endocrine functions of villous trophoblasts in the placenta. / Thesis / Master of Science (MSc) / The human placenta is a pregnancy-specific organ that supports the health of the mother- to-be and fetus. Stem cells known as cytotrophoblasts undergo differentiation and fusion to support the establishment of the syncytium, which creates a boundary that separates the maternal and fetal circulations. In the case of cannabis consumption during pregnancy, its biologically active components can travel to the placenta, cross the syncytium, and enter fetal blood. Our primary objective was to determine how cannabis exposure can impact the formation and maintenance of the syncytium. While maternal use has been linked to short- and long-term consequences for child health, existing research lacks a complete understanding of the underlying mechanisms. We demonstrate that cannabis exposure alters the production of important immune and hormonal factors during cytotrophoblast fusion, which may play a role in mediating poor placental development. Ultimately, it is critical to explore the implications of cannabis use for female reproductive health due to a rising trend in its use.

Placenta

Pregnancy

Trophoblast

Th1/Th2 cytokines

Delta-9-tetrahydrocannabinol

Capturing human trophoblast development with naive pluripotent stem cells in vitro / ナイーブ型多能性幹細胞を用いたヒト栄養膜細胞発生の再現

Io, Shingo

24 November 2021

京都大学 / 新制・課程博士 / 博士(医学) / 甲第23569号 / 医博第4783号 / 新制||医||1054(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授 川口 義弥, 教授 篠原 隆司, 教授 近藤 玄 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

placenta

trophoblast

human pluripotent stem cells

early pregnancy

implantation

490