The decidua is a specialized type of tissue that lines the uterus during pregnancy. It forms after the implantation of a fertilized egg (embryo) into the uterine lining, and it plays an important role in supporting the growth and development of the embryo and fetus.

The decidua is composed of several layers, including the decidual capsularis, which surrounds the embryo, and the decidual parietalis, which lines the rest of the uterus. The tissue is rich in blood vessels and contains a variety of immune cells that help to protect the developing fetus from infection.

During pregnancy, the decidua produces various hormones and growth factors that support the growth of the placenta, which provides nutrients and oxygen to the fetus. After the birth of the baby, the decidua is shed along with the placenta in a process called childbirth or parturition.

It's worth noting that abnormalities in the decidua can contribute to pregnancy complications such as preeclampsia, preterm labor, and miscarriage.

Pregnancy is a physiological state or condition where a fertilized egg (zygote) successfully implants and grows in the uterus of a woman, leading to the development of an embryo and finally a fetus. This process typically spans approximately 40 weeks, divided into three trimesters, and culminates in childbirth. Throughout this period, numerous hormonal and physical changes occur to support the growing offspring, including uterine enlargement, breast development, and various maternal adaptations to ensure the fetus's optimal growth and well-being.

Trophoblasts are specialized cells that make up the outer layer of a blastocyst, which is a hollow ball of cells that forms in the earliest stages of embryonic development. In humans, this process occurs about 5-6 days after fertilization. The blastocyst consists of an inner cell mass (which will eventually become the embryo) and an outer layer of trophoblasts.

Trophoblasts play a crucial role in implantation, which is the process by which the blastocyst attaches to and invades the lining of the uterus. Once implanted, the trophoblasts differentiate into two main layers: the cytotrophoblasts (which are closer to the inner cell mass) and the syncytiotrophoblasts (which form a multinucleated layer that is in direct contact with the maternal tissues).

The cytotrophoblasts proliferate and fuse to form the syncytiotrophoblasts, which have several important functions. They secrete enzymes that help to degrade and remodel the extracellular matrix of the uterine lining, allowing the blastocyst to implant more deeply. They also form a barrier between the maternal and fetal tissues, helping to protect the developing embryo from the mother's immune system.

Additionally, trophoblasts are responsible for the formation of the placenta, which provides nutrients and oxygen to the developing fetus and removes waste products. The syncytiotrophoblasts in particular play a key role in this process by secreting hormones such as human chorionic gonadotropin (hCG), which helps to maintain pregnancy, and by forming blood vessels that allow for the exchange of nutrients and waste between the mother and fetus.

Abnormalities in trophoblast development or function can lead to a variety of pregnancy-related complications, including preeclampsia, intrauterine growth restriction, and gestational trophoblastic diseases such as hydatidiform moles and choriocarcinomas.

The placenta is an organ that develops in the uterus during pregnancy and provides oxygen and nutrients to the growing baby through the umbilical cord. It also removes waste products from the baby's blood. The placenta attaches to the wall of the uterus, and the baby's side of the placenta contains many tiny blood vessels that connect to the baby's circulatory system. This allows for the exchange of oxygen, nutrients, and waste between the mother's and baby's blood. After the baby is born, the placenta is usually expelled from the uterus in a process called afterbirth.

Extraembryonic membranes are specialized structures that form around the developing embryo in utero and provide vital support and protection during fetal development. There are three main extraembryonic membranes: the amnion, the chorion, and the allantois.

The amnion is the innermost membrane that surrounds the embryo itself, forming a fluid-filled sac known as the amniotic cavity. This sac provides a protective cushion for the developing embryo and helps to regulate its temperature and moisture levels.

The chorion is the outermost of the extraembryonic membranes, and it forms the boundary between the developing fetus and the mother's uterine wall. The chorion contains blood vessels that exchange nutrients and waste products with the mother's circulation, allowing for the growth and development of the fetus.

The allantois is a small membranous sac that arises from the developing fetal gut and eventually becomes part of the umbilical cord. It serves as a reservoir for fetal urine and helps to exchange waste products between the fetal and maternal circulations.

Together, these extraembryonic membranes play a critical role in supporting fetal development and ensuring a healthy pregnancy.

The first trimester of pregnancy is defined as the period of gestational development that extends from conception (fertilization of the egg by sperm) to the end of the 13th week. This critical phase marks significant transformations in both the mother's body and the growing embryo/fetus.

During the first trimester, the fertilized egg implants into the uterine lining (implantation), initiating a series of complex interactions leading to the formation of the placenta - an organ essential for providing nutrients and oxygen to the developing fetus while removing waste products. Simultaneously, the embryo undergoes rapid cell division and differentiation, giving rise to various organs and systems. By the end of the first trimester, most major structures are present, although they continue to mature and grow throughout pregnancy.

The mother may experience several physiological changes during this time, including:
- Morning sickness (nausea and vomiting)
- Fatigue
- Breast tenderness
- Frequent urination
- Food aversions or cravings
- Mood swings

Additionally, hormonal shifts can cause various symptoms and prepare the body for potential changes in lactation, posture, and pelvic alignment as pregnancy progresses. Regular prenatal care is crucial during this period to monitor both maternal and fetal wellbeing, identify any potential complications early on, and provide appropriate guidance and support throughout the pregnancy.

Placentation is the process by which the placenta, an organ that provides nutrients and oxygen to the developing fetus and removes waste products, is formed and develops during pregnancy. It involves the attachment of the fertilized egg (embryo) to the uterine wall and the development of specialized structures that facilitate the exchange of gases, nutrients, and waste between the mother and the fetus.

In humans, placentation begins when the embryo implants into the endometrium, or the lining of the uterus, about 6-10 days after fertilization. The outer layer of the embryo, called the trophoblast, invades the endometrial tissue and forms a structure called the placenta.

The placenta consists of both maternal and fetal tissues. The fetal portion of the placenta is derived from the chorionic villi, which are finger-like projections that develop on the surface of the embryo and increase the surface area for exchange. The maternal portion of the placenta is made up of modified endometrial tissue called decidua.

The placenta grows and develops throughout pregnancy, providing a vital connection between the mother and fetus. Proper placentation is essential for a healthy pregnancy and fetal development. Abnormalities in placentation can lead to complications such as preeclampsia, preterm labor, and intrauterine growth restriction.

The uterus, also known as the womb, is a hollow, muscular organ located in the female pelvic cavity, between the bladder and the rectum. It has a thick, middle layer called the myometrium, which is composed of smooth muscle tissue, and an inner lining called the endometrium, which provides a nurturing environment for the fertilized egg to develop into a fetus during pregnancy.

The uterus is where the baby grows and develops until it is ready for birth through the cervix, which is the lower, narrow part of the uterus that opens into the vagina. The uterus plays a critical role in the menstrual cycle as well, by shedding its lining each month if pregnancy does not occur.

Chorionic villi are finger-like projections of the chorion, which is the outermost extraembryonic membrane in a developing embryo. These structures are composed of both fetal and maternal tissues and play a crucial role in the early stages of pregnancy by providing a site for exchange of nutrients and waste products between the mother and the developing fetus.

Chorionic villi contain fetal blood vessels that are surrounded by stromal cells, trophoblasts, and connective tissue. They are formed during the process of implantation, when the fertilized egg attaches to the uterine wall. The chorionic villi continue to grow and multiply as the placenta develops, eventually forming a highly vascular and specialized organ that supports fetal growth and development throughout pregnancy.

One important function of chorionic villi is to serve as the site for the production of human chorionic gonadotropin (hCG), a hormone that can be detected in the mother's blood and urine during early pregnancy. This hormone plays a critical role in maintaining pregnancy by signaling the corpus luteum to continue producing progesterone, which helps to prevent menstruation and support fetal growth.

Abnormalities in chorionic villi can lead to various pregnancy complications, such as miscarriage, stillbirth, or intrauterine growth restriction. For this reason, chorionic villus sampling (CVS) is a diagnostic procedure that may be performed during early pregnancy to obtain fetal cells for genetic testing and diagnosis of chromosomal abnormalities or other genetic disorders.

The chorion is the outermost fetal membrane that surrounds the developing conceptus (the embryo or fetus and its supporting structures). It forms early in pregnancy as an extraembryonic structure, meaning it arises from cells that will not become part of the actual body of the developing organism. The chorion plays a crucial role in pregnancy by contributing to the formation of the placenta, which provides nutrients and oxygen to the growing embryo/fetus and removes waste products.

One of the most important functions of the chorion is to produce human chorionic gonadotropin (hCG), a hormone that signals the presence of pregnancy and maintains the corpus luteum, a temporary endocrine structure in the ovary that produces progesterone during early pregnancy. Progesterone is essential for preparing the uterus for implantation and maintaining the pregnancy.

The chorion consists of two layers: an inner cytotrophoblast layer and an outer syncytiotrophoblast layer. The cytotrophoblast layer is made up of individual cells, while the syncytiotrophoblast layer is a multinucleated mass of fused cytotrophoblast cells. These layers interact with the maternal endometrium (the lining of the uterus) to form the placenta and facilitate exchange between the mother and the developing fetus.

In summary, the chorion is a vital extraembryonic structure in pregnancy that contributes to the formation of the placenta, produces hCG, and interacts with the maternal endometrium to support fetal development.

The endometrium is the innermost layer of the uterus, which lines the uterine cavity and has a critical role in the menstrual cycle and pregnancy. It is composed of glands and blood vessels that undergo cyclic changes under the influence of hormones, primarily estrogen and progesterone. During the menstrual cycle, the endometrium thickens in preparation for a potential pregnancy. If fertilization does not occur, it will break down and be shed, resulting in menstruation. In contrast, if implantation takes place, the endometrium provides essential nutrients to support the developing embryo and placenta throughout pregnancy.

Embryo implantation is the process by which a fertilized egg, or embryo, becomes attached to the wall of the uterus (endometrium) and begins to receive nutrients from the mother's blood supply. This process typically occurs about 6-10 days after fertilization and is a critical step in the establishment of a successful pregnancy.

During implantation, the embryo secretes enzymes that help it to burrow into the endometrium, while the endometrium responds by producing receptors for the embryo's enzymes and increasing blood flow to the area. The embryo then begins to grow and develop, eventually forming the placenta, which will provide nutrients and oxygen to the developing fetus throughout pregnancy.

Implantation is a complex process that requires precise timing and coordination between the embryo and the mother's body. Factors such as age, hormonal imbalances, and uterine abnormalities can affect implantation and increase the risk of miscarriage or difficulty becoming pregnant.

The amnion is the innermost fetal membrane in mammals, forming a sac that contains and protects the developing embryo and later the fetus within the uterus. It is one of the extraembryonic membranes that are derived from the outer cell mass of the blastocyst during early embryonic development. The amnion is filled with fluid (amniotic fluid) that allows for the freedom of movement and protection of the developing fetus.

The primary function of the amnion is to provide a protective environment for the growing fetus, allowing for expansion and preventing physical damage from outside forces. Additionally, the amniotic fluid serves as a medium for the exchange of waste products and nutrients between the fetal membranes and the placenta. The amnion also contributes to the formation of the umbilical cord and plays a role in the initiation of labor during childbirth.

Tubal pregnancy, also known as an ectopic pregnancy, is a type of pregnancy that occurs outside the uterus, usually in the fallopian tube. The fertilized egg implants and starts to develop in the tube instead of the uterine lining. This condition is not viable and can be life-threatening if not treated promptly.

The symptoms of a tubal pregnancy may include abdominal pain, vaginal bleeding, shoulder pain, dizziness or fainting, and pelvic discomfort or tenderness. If you suspect that you have a tubal pregnancy, it is important to seek medical attention immediately. Treatment options for tubal pregnancies include medication or surgery to remove the embryo and repair or remove the affected fallopian tube.

I'm sorry for any confusion, but the term "metrial gland" does not have a recognized medical definition. It seems there might be some misunderstanding or misspelling in your query. If you intended to ask about "mammary glands," which are the milk-producing organs found in female mammals, I would be happy to provide more information on those!

'Labor, Obstetric' refers to the physiological process that occurs during childbirth, leading to the expulsion of the fetus from the uterus. It is divided into three stages:

1. The first stage begins with the onset of regular contractions and cervical dilation and effacement (thinning and shortening) until full dilation is reached (approximately 10 cm). This stage can last from hours to days, particularly in nulliparous women (those who have not given birth before).
2. The second stage starts with complete cervical dilation and ends with the delivery of the baby. During this stage, the mother experiences strong contractions that help push the fetus down the birth canal. This stage typically lasts from 20 minutes to two hours but can take longer in some cases.
3. The third stage involves the delivery of the placenta (afterbirth) and membranes, which usually occurs within 15-30 minutes after the baby's birth. However, it can sometimes take up to an hour for the placenta to be expelled completely.

Obstetric labor is a complex process that requires careful monitoring and management by healthcare professionals to ensure the safety and well-being of both the mother and the baby.

Spontaneous abortion, also known as miscarriage, is the unintentional expulsion of a nonviable fetus from the uterus before the 20th week of gestation. It is a common complication of early pregnancy, with most miscarriages occurring during the first trimester. Spontaneous abortion can have various causes, including chromosomal abnormalities, maternal health conditions, infections, hormonal imbalances, and structural issues of the uterus or cervix. In many cases, the exact cause may remain unknown.

The symptoms of spontaneous abortion can vary but often include vaginal bleeding, which may range from light spotting to heavy bleeding; abdominal pain or cramping; and the passing of tissue or clots from the vagina. While some miscarriages occur suddenly and are immediately noticeable, others may progress slowly over several days or even weeks.

In medical practice, healthcare providers often use specific terminology to describe different stages and types of spontaneous abortion. For example:

* Threatened abortion: Vaginal bleeding during early pregnancy, but the cervix remains closed, and there is no evidence of fetal demise or passing of tissue.
* Inevitable abortion: Vaginal bleeding with an open cervix, indicating that a miscarriage is imminent or already in progress.
* Incomplete abortion: The expulsion of some but not all products of conception from the uterus, requiring medical intervention to remove any remaining tissue.
* Complete abortion: The successful passage of all products of conception from the uterus, often confirmed through an ultrasound or pelvic examination.
* Missed abortion: The death of a fetus in the uterus without any expulsion of the products of conception, which may be discovered during routine prenatal care.
* Septic abortion: A rare and life-threatening complication of spontaneous abortion characterized by infection of the products of conception and the surrounding tissues, requiring prompt medical attention and antibiotic treatment.

Healthcare providers typically monitor patients who experience a spontaneous abortion to ensure that all products of conception have been expelled and that there are no complications, such as infection or excessive bleeding. In some cases, medication or surgical intervention may be necessary to remove any remaining tissue or address other issues related to the miscarriage. Counseling and support services are often available for individuals and couples who experience a spontaneous abortion, as they may face emotional challenges and concerns about future pregnancies.

"Pregnancy proteins" is not a standard medical term, but it may refer to specific proteins that are produced or have increased levels during pregnancy. Two common pregnancy-related proteins are:

1. Human Chorionic Gonadotropin (hCG): A hormone produced by the placenta shortly after fertilization. It is often detected in urine or blood tests to confirm pregnancy. Its primary function is to maintain the corpus luteum, which produces progesterone and estrogen during early pregnancy until the placenta takes over these functions.

2. Pregnancy-Specific beta-1 Glycoprotein (SP1): A protein produced by the placental trophoblasts during pregnancy. Its function is not well understood, but it may play a role in implantation, placentation, and protection against the mother's immune system. SP1 levels increase throughout pregnancy and are used as a marker for fetal growth and well-being.

These proteins have clinical significance in monitoring pregnancy progression, detecting potential complications, and diagnosing certain pregnancy-related conditions.

Prolactin-Releasing Hormone (PRH), also known as Prolactin-Releasing Factor (PRF) or Prolactin-Stimulating Hormone (PSH), is a hypothalamic hormone that stimulates the release of prolactin from the anterior pituitary gland. It is a decapeptide, and its release is regulated by various factors such as stress, estrogen, dopamine, and thyroid-stimulating hormone (TSH). However, it's important to note that the primary regulatory hormone of prolactin secretion is dopamine, which inhibits prolactin release. PRH acts in opposition to dopamine to promote prolactin release.

Despite its identification and characterization, the physiological role of PRH remains unclear, as many studies have suggested that PRH may not be a necessary factor for prolactin secretion under normal conditions. More research is needed to fully understand the function and regulation of this hormone in the body.

The third trimester of pregnancy is the final stage of pregnancy that lasts from week 29 until birth, which typically occurs around the 40th week. During this period, the fetus continues to grow and mature, gaining weight rapidly. The mother's body also prepares for childbirth by dilating the cervix and producing milk in preparation for breastfeeding. Regular prenatal care is crucial during this time to monitor the health of both the mother and the developing fetus, as well as to prepare for delivery.

Pseudopregnancy, also known as pseudocyesis or phantom pregnancy, is a psychological condition where an individual (most commonly in women) believes they are pregnant when they are not. This belief is often accompanied by various physical symptoms such as weight gain, abdominal distention, and breast enlargement that mimic those of a genuine pregnancy, despite there being no actual fetal development. These symptoms are caused by the body's hormonal and physiological responses to the individual's strong belief of being pregnant. It is important to note that this condition is rare and can be resolved with proper medical evaluation, counseling, and support.

"Animal pregnancy" is not a term that is typically used in medical definitions. However, in biological terms, animal pregnancy refers to the condition where a fertilized egg (or eggs) implants and develops inside the reproductive tract of a female animal, leading to the birth of offspring (live young).

The specific details of animal pregnancy can vary widely between different species, with some animals exhibiting phenomena such as placental development, gestation periods, and hormonal changes that are similar to human pregnancy, while others may have very different reproductive strategies.

It's worth noting that the study of animal pregnancy and reproduction is an important area of biological research, as it can provide insights into fundamental mechanisms of embryonic development, genetics, and evolution.

Fetal resorption, also known as fetal demise or intrauterine fetal death, is a medical term that refers to the absorption of a nonviable fetus by the mother's body after its death in utero. This process typically occurs before the 20th week of gestation and may go unnoticed if it happens early in pregnancy.

During fetal resorption, the fetal tissue is broken down and absorbed by the mother's body, leaving no visible remains of the fetus. The placenta and other surrounding tissues may still be present, but they often undergo changes as well. In some cases, a small amount of fetal tissue may be expelled from the uterus during the resorption process.

The causes of fetal resorption can vary, including chromosomal abnormalities, maternal health conditions, infections, and environmental factors. It is essential to seek medical attention if a woman suspects fetal resorption or experiences any unusual symptoms during pregnancy, such as vaginal bleeding or decreased fetal movement, to ensure proper diagnosis and management.

Gestational age is the length of time that has passed since the first day of the last menstrual period (LMP) in pregnant women. It is the standard unit used to estimate the age of a pregnancy and is typically expressed in weeks. This measure is used because the exact date of conception is often not known, but the start of the last menstrual period is usually easier to recall.

It's important to note that since ovulation typically occurs around two weeks after the start of the LMP, gestational age is approximately two weeks longer than fetal age, which is the actual time elapsed since conception. Medical professionals use both gestational and fetal age to track the development and growth of the fetus during pregnancy.

Labor onset, also known as the start of labor, refers to the beginning of regular and coordinated uterine contractions that ultimately result in the delivery of a baby. This is usually marked by the presence of regular contractions that increase in intensity and frequency over time, along with cervical dilation and effacement (thinning and shortening of the cervix).

There are two types of labor onset: spontaneous and induced. Spontaneous labor onset occurs naturally, without any medical intervention, while induced labor onset is initiated by medical professionals using various methods such as medication or mechanical dilation of the cervix.

It's important to note that the onset of labor can be a challenging concept to define precisely, and different healthcare providers may use slightly different criteria to diagnose the start of labor.

Immunohistochemistry (IHC) is a technique used in pathology and laboratory medicine to identify specific proteins or antigens in tissue sections. It combines the principles of immunology and histology to detect the presence and location of these target molecules within cells and tissues. This technique utilizes antibodies that are specific to the protein or antigen of interest, which are then tagged with a detection system such as a chromogen or fluorophore. The stained tissue sections can be examined under a microscope, allowing for the visualization and analysis of the distribution and expression patterns of the target molecule in the context of the tissue architecture. Immunohistochemistry is widely used in diagnostic pathology to help identify various diseases, including cancer, infectious diseases, and immune-mediated disorders.

CD56 is a type of antigen that is found on the surface of certain cells in the human body. It is also known as neural cell adhesion molecule 1 (NCAM-1) and is a member of the immunoglobulin superfamily. CD56 antigens are primarily expressed on natural killer (NK) cells, a type of immune cell that plays a role in the body's defense against viruses and cancer.

CD56 antigens help NK cells recognize and bind to other cells in the body, such as infected or abnormal cells. This binding can trigger the NK cells to release chemicals that can kill the target cells. CD56 antigens also play a role in the development and function of NK cells, including their ability to communicate with other immune cells and coordinate an effective response to threats.

In addition to NK cells, CD56 antigens are also found on some subsets of T cells, another type of immune cell. In these cells, CD56 antigens help regulate the activation and function of the T cells.

Abnormalities in the expression of CD56 antigens have been associated with various diseases, including certain types of cancer and autoimmune disorders.

The menstrual cycle is a series of natural changes that occur in the female reproductive system over an approximate 28-day interval, marking the body's preparation for potential pregnancy. It involves the interplay of hormones that regulate the growth and disintegration of the uterine lining (endometrium) and the release of an egg (ovulation) from the ovaries.

The menstrual cycle can be divided into three main phases:

1. Menstrual phase: The cycle begins with the onset of menstruation, where the thickened uterine lining is shed through the vagina, lasting typically for 3-7 days. This shedding occurs due to a decrease in estrogen and progesterone levels, which are hormones essential for maintaining the endometrium during the previous cycle.

2. Follicular phase: After menstruation, the follicular phase commences with the pituitary gland releasing follicle-stimulating hormone (FSH). FSH stimulates the growth of several ovarian follicles, each containing an immature egg. One dominant follicle usually becomes selected to mature and release an egg during ovulation. Estrogen levels rise as the dominant follicle grows, causing the endometrium to thicken in preparation for a potential pregnancy.

3. Luteal phase: Following ovulation, the ruptured follicle transforms into the corpus luteum, which produces progesterone and estrogen to further support the endometrial thickening. If fertilization does not occur within approximately 24 hours after ovulation, the corpus luteum will degenerate, leading to a decline in hormone levels. This drop triggers the onset of menstruation, initiating a new menstrual cycle.

Understanding the menstrual cycle is crucial for monitoring reproductive health and planning or preventing pregnancies. Variations in cycle length and symptoms are common among women, but persistent irregularities may indicate underlying medical conditions requiring further evaluation by a healthcare professional.

Interleukin-11 receptor alpha subunit (IL-11Rα) is a protein that forms part of the interleukin-11 (IL-11) receptor complex. IL-11 is a cytokine, a type of signaling molecule used for communication between cells. The IL-11 receptor complex consists of two subunits: IL-11Rα and glycoprotein 130 (gp130).

IL-11Rα is primarily expressed on the surface of hematopoietic stem cells, megakaryocytes, osteoblasts, and some epithelial cells. When IL-11 binds to the IL-11Rα subunit, it induces a conformational change that allows the gp130 subunit to be recruited, forming a high-affinity receptor complex. This interaction triggers a series of intracellular signaling events, primarily through the JAK/STAT (Janus kinase/signal transducer and activator of transcription) pathway, which ultimately regulates various cellular responses such as proliferation, differentiation, and survival.

IL-11 and its receptor complex play essential roles in several biological processes, including hematopoiesis (the formation of blood cells), osteogenesis (bone formation), and mucosal protection in the gastrointestinal tract. Dysregulation of this pathway has been implicated in various diseases, such as thrombocytopenia, bone disorders, and cancer.

Messenger RNA (mRNA) is a type of RNA (ribonucleic acid) that carries genetic information copied from DNA in the form of a series of three-base code "words," each of which specifies a particular amino acid. This information is used by the cell's machinery to construct proteins, a process known as translation. After being transcribed from DNA, mRNA travels out of the nucleus to the ribosomes in the cytoplasm where protein synthesis occurs. Once the protein has been synthesized, the mRNA may be degraded and recycled. Post-transcriptional modifications can also occur to mRNA, such as alternative splicing and addition of a 5' cap and a poly(A) tail, which can affect its stability, localization, and translation efficiency.

Vascular Endothelial Growth Factor (VEGF) is a type of protein that plays a crucial role in the formation of new blood vessels, a process known as angiogenesis. There are several different types of VEGF, and one of them is referred to as "endocrine-gland-derived VEGF" or "VEGF-E."

VEGF-E is specifically produced by certain endocrine glands, such as the pituitary gland, and it promotes the growth and proliferation of blood vessels. It does this by binding to and activating VEGF receptors on the surface of endothelial cells, which are the cells that line the interior surface of blood vessels.

VEGF-E has been studied as a potential therapeutic target for various medical conditions, including cancer, age-related macular degeneration, and diabetic retinopathy. However, more research is needed to fully understand its role in these diseases and to determine the safety and efficacy of VEGF-E-targeted therapies.

A "missed abortion" is a medical term used to describe a pregnancy in which the fetus has died or failed to develop, but the products of conception (i.e., the placenta and gestational sac) remain in the uterus. This condition is also sometimes referred to as a "silent miscarriage" or "delayed miscarriage." In a missed abortion, there may be no symptoms or only very mild ones, such as vaginal bleeding or the passing of tissue. The diagnosis is typically made through an ultrasound exam that shows an empty gestational sac or a non-viable fetus. Treatment options include waiting for the body to expel the products of conception naturally, taking medication to induce expulsion, or undergoing a surgical procedure to remove the products of conception.

The myometrium is the middle and thickest layer of the uterine wall, composed mainly of smooth muscle cells. It is responsible for the strong contractions during labor and can also contribute to bleeding during menstruation or childbirth. The myometrium is able to stretch and expand to accommodate a growing fetus and then contract during labor to help push the baby out. It also plays a role in maintaining the structure and shape of the uterus, and in protecting the internal organs within the pelvic cavity.

Induced abortion is a medical procedure that intentionally terminates a pregnancy before the fetus can survive outside the womb. It can be performed either surgically or medically through the use of medications. The timing of an induced abortion is typically based on the gestational age of the pregnancy, with different methods used at different stages.

The most common surgical procedure for induced abortion is vacuum aspiration, which is usually performed during the first trimester (up to 12-13 weeks of gestation). This procedure involves dilating the cervix and using a vacuum device to remove the pregnancy tissue from the uterus. Other surgical procedures, such as dilation and evacuation (D&E), may be used in later stages of pregnancy.

Medical abortion involves the use of medications to induce the termination of a pregnancy. The most common regimen involves the use of two drugs: mifepristone and misoprostol. Mifepristone works by blocking the action of progesterone, a hormone necessary for maintaining pregnancy. Misoprostol causes the uterus to contract and expel the pregnancy tissue. This method is typically used during the first 10 weeks of gestation.

Induced abortion is a safe and common medical procedure, with low rates of complications when performed by trained healthcare providers in appropriate settings. Access to induced abortion varies widely around the world, with some countries restricting or prohibiting the practice entirely.

Pre-eclampsia is a pregnancy-related disorder, typically characterized by the onset of high blood pressure (hypertension) and damage to organs, such as the kidneys, after the 20th week of pregnancy. It is often accompanied by proteinuria, which is the presence of excess protein in the urine. Pre-eclampsia can lead to serious complications for both the mother and the baby if left untreated or unmanaged.

The exact causes of pre-eclampsia are not fully understood, but it is believed that placental issues, genetic factors, and immune system problems may contribute to its development. Risk factors include first-time pregnancies, history of pre-eclampsia in previous pregnancies, chronic hypertension, obesity, older age (35 or older), and assisted reproductive technology (ART) pregnancies.

Pre-eclampsia can progress to a more severe form called eclampsia, which is characterized by the onset of seizures. HELLP syndrome, another severe complication, involves hemolysis (breaking down of red blood cells), elevated liver enzymes, and low platelet count.

Early detection and management of pre-eclampsia are crucial to prevent severe complications. Regular prenatal care, including frequent blood pressure checks and urine tests, can help identify early signs of the condition. Treatment typically involves close monitoring, medication to lower blood pressure, corticosteroids to promote fetal lung maturity, and, in some cases, delivery of the baby if the mother's or baby's health is at risk.

Maternal-fetal exchange, also known as maternal-fetal transport or placental transfer, refers to the physiological process by which various substances are exchanged between the mother and fetus through the placenta. This exchange includes the transfer of oxygen and nutrients from the mother's bloodstream to the fetal bloodstream, as well as the removal of waste products and carbon dioxide from the fetal bloodstream to the mother's bloodstream.

The process occurs via passive diffusion, facilitated diffusion, and active transport mechanisms across the placental barrier, which is composed of fetal capillary endothelial cells, the extracellular matrix, and the syncytiotrophoblast layer of the placenta. The maternal-fetal exchange is crucial for the growth, development, and survival of the fetus throughout pregnancy.

Stromal cells, also known as stromal/stroma cells, are a type of cell found in various tissues and organs throughout the body. They are often referred to as the "connective tissue" or "supporting framework" of an organ because they play a crucial role in maintaining the structure and function of the tissue. Stromal cells include fibroblasts, adipocytes (fat cells), and various types of progenitor/stem cells. They produce and maintain the extracellular matrix, which is the non-cellular component of tissues that provides structural support and biochemical cues for other cells. Stromal cells also interact with immune cells and participate in the regulation of the immune response. In some contexts, "stromal cells" can also refer to cells found in the microenvironment of tumors, which can influence cancer growth and progression.

Natural Killer (NK) cells are a type of lymphocyte, which are large granular innate immune cells that play a crucial role in the host's defense against viral infections and malignant transformations. They do not require prior sensitization to target and destroy abnormal cells, such as virus-infected cells or tumor cells. NK cells recognize their targets through an array of germline-encoded activating and inhibitory receptors that detect the alterations in the cell surface molecules of potential targets. Upon activation, NK cells release cytotoxic granules containing perforins and granzymes to induce target cell apoptosis, and they also produce a variety of cytokines and chemokines to modulate immune responses. Overall, natural killer cells serve as a critical component of the innate immune system, providing rapid and effective responses against infected or malignant cells.

The medical definition of "Habitual Abortion" refers to a woman who has three or more consecutive pregnancies that end in spontaneous miscarriages before 20 weeks of gestation. The cause of habitual abortions can be difficult to determine and may involve genetic, anatomical, hormonal, or immune system factors. Treatment is often aimed at addressing any underlying issues that may be contributing to the recurrent miscarriages. It's important to note that the terminology has changed over time and the term "recurrent pregnancy loss" is now more commonly used in place of "habitual abortion".

In situ hybridization (ISH) is a molecular biology technique used to detect and localize specific nucleic acid sequences, such as DNA or RNA, within cells or tissues. This technique involves the use of a labeled probe that is complementary to the target nucleic acid sequence. The probe can be labeled with various types of markers, including radioisotopes, fluorescent dyes, or enzymes.

During the ISH procedure, the labeled probe is hybridized to the target nucleic acid sequence in situ, meaning that the hybridization occurs within the intact cells or tissues. After washing away unbound probe, the location of the labeled probe can be visualized using various methods depending on the type of label used.

In situ hybridization has a wide range of applications in both research and diagnostic settings, including the detection of gene expression patterns, identification of viral infections, and diagnosis of genetic disorders.

Placental circulation refers to the specialized circulatory system that develops during pregnancy to allow for the exchange of nutrients, oxygen, and waste products between the mother's blood and the fetal blood in the placenta. The placenta is a highly vascular organ that grows within the uterus and is connected to the developing fetus via the umbilical cord.

In the maternal side of the placenta, the spiral arteries branch into smaller vessels called the intervillous spaces, where they come in close contact with the fetal blood vessels within the villi (finger-like projections) of the placenta. The intervillous spaces are filled with maternal blood that flows around the villi, allowing for the exchange of gases and nutrients between the two circulations.

On the fetal side, the umbilical cord contains two umbilical arteries that carry oxygen-depleted blood from the fetus to the placenta, and one umbilical vein that returns oxygenated blood back to the fetus. The umbilical arteries branch into smaller vessels within the villi, where they exchange gases and nutrients with the maternal blood in the intervillous spaces.

Overall, the placental circulation is a crucial component of fetal development, allowing for the growing fetus to receive the necessary oxygen and nutrients to support its growth and development.

HLA-G antigens are a type of human leukocyte antigen (HLA) class Ib molecule that plays a crucial role in the immune system. HLA molecules are responsible for presenting pieces of proteins from inside the cell to the surface, where they can be recognized by the immune system's T-cells.

HLA-G antigens are primarily expressed in fetal tissues, including trophoblast cells that make up the placenta, and are involved in protecting the fetus from rejection by the mother's immune system during pregnancy. They have also been found to have immunosuppressive effects in other contexts, such as in cancer and transplantation.

HLA-G antigens are highly polymorphic, meaning that there are many different variations or "alleles" of the HLA-G gene that can be inherited from each parent. These genetic differences can affect the structure and function of the HLA-G molecule and may have implications for disease susceptibility and immune responses.

An abortifacient agent is a substance or drug that causes abortion by inducing the uterus to contract and expel a fetus. These agents can be chemical or herbal substances, and they work by interfering with the implantation of the fertilized egg in the uterine lining or by stimulating uterine contractions to expel the developing embryo or fetus.

Examples of abortifacient agents include misoprostol, mifepristone, and certain herbs such as pennyroyal, tansy, and black cohosh. It is important to note that the use of abortifacient agents can have serious health consequences, including infection, bleeding, and damage to the reproductive system. Therefore, it is essential to consult with a healthcare provider before using any abortifacient agent.