Term Birth
Premature Birth
Birth Weight
Pregnancy
Infant, Low Birth Weight
Gestational Age
Infant, Small for Gestational Age
Pregnancy Outcome
Cohort Studies
Risk Factors
Birth Certificates
Multiple Birth Offspring
Immunology of term and preterm labor. (1/221)
During pregnancy there is an alteration in maternal immunity within the uterus where innate, proinflammatory immune responses are tightly regulated to prevent immunological rejection of the fetal allograft. Disruption of the delicate balance of cytokines by bacteria or other factors increases the production of proinflammatory cytokines at the maternal-fetal interface and activates the parturition mechanism prematurely. Despite years of searching, there is still no broadly effective strategy for preventing preterm labor and most therapies are directed at inhibiting myometrial contractions and improving neonatal outcome. Recent studies with progestins and interleukin-10 (IL-10), however, are showing promise in randomized clinical trials and animal studies. Furthermore, the identification of the Toll-like receptors as upstream mediators of inflammation may offer alternative therapeutic targets for preventing this common pregnancy complication. (+info)What is the most relevant standard of success in assisted reproduction? Is BESST (birth emphasizing a successful singleton at term) truly the best? (2/221)
There is much variability and no consensus on the definition of the most relevant outcome parameter after assisted reproduction technology (ART). Descriptive reports, such as annual statistics from national registries on the success of ART programmes, should present treatment success in terms of live birth per ovarian stimulation started, as this is the most relevant information for patients and doctors alike. Addressing concerns about the high rate of multiple pregnancies, rescaling the outcome of ART in large programmes and national audits to the singleton, live birth, might trigger a global change of attitude towards elective single embryo transfer in addition to any legal restrictions imposed. For clinical studies, the outcome measure will depend on the hypothesis tested, and investigators should remain free to choose the appropriate primary outcome measure. (+info)What is the most relevant standard of success in assisted reproduction? Should BESST really be the primary endpoint for assisted reproduction? (3/221)
A major problem in IVF procedures is a high rate of induced iatrogenic complications including multiple gestations. Until now, transfer of at least three embryos followed by the subsequent elective reduction of triplet or higher order gestations to twins, single embryo transfer (SET) with cryopreservation of the remaining embryos, as well as the application of SET in unstimulated cycles, serves to illustrate the diversity characterizing the worldwide effort of achievement of pregnancy that aims to avoid possible complications. The BESST (birth emphasizing a successful singleton at term) endpoint constitutes an interesting parameter imposing the safety of SET. However, the observed success rate (11.1%) requires elucidation of the specific pattern of endometrial behaviour around the implantation window as well as its involvement in the further support of gestation. Consequently, research has to focus primarily on the improvement of technical parameters to achieve an acceptable success rate during the IVF procedures as compared with spontaneous gestations. (+info)What is the most relevant standard of success in assisted reproduction? The next step to improving outcomes of IVF: consider the whole treatment. (4/221)
Changing the way in which successful IVF treatment is defined offers a tool to improve efficacy while reducing costs and complications of treatment. Crucial to this paradigm shift is the move away from considering outcomes in terms of the single IVF cycle, and towards the started IVF treatment as a whole. We propose the most informative end-point of success in IVF to be the term singleton birth rate per started IVF treatment (or per given time period) in the overall context of patient discomfort, complications and costs. These end-points are important not only for patients, but also for clinicians, health economists and policy makers. Such an approach would encourage the development of patient-friendly and cheaper stimulation protocols with less stress, discomfort and side effects. The combination of mild ovarian stimulation with single embryo transfer may provide the same overall pregnancy rate per total IVF treatment, achieved in the same amount of time for similar direct costs, but with reduced patient stress and discomfort, and the near complete elimination of multiple pregnancies. This would offer major health and indirect cost benefits. If IVF success rates were to be expressed in terms of delivery of a term single baby per IVF treatment (or in a given treatment period), the introduction of single embryo transfer on a large scale would be facilitated. (+info)Comparison of misoprostol and dinoprostone for elective induction of labour in nulliparous women at full term: a randomized prospective study. (5/221)
BACKGROUND: The objective of this randomized prospective study was to compare the efficacy of 50 mcg vaginal misoprostol and 3 mg dinoprostone, administered every nine hours for a maximum of three doses, for elective induction of labor in a specific cohort of nulliparous women with an unfavorable cervix and more than 40 weeks of gestation. MATERIAL AND METHODS: One hundred and sixty-three pregnant women with more than 285 days of gestation were recruited and analyzed. The main outcome measures were time from induction to delivery and incidence of vaginal delivery within 12 and 24 hours. Admission rate to the neonatal intensive care unit within 24 hours post delivery was a secondary outcome. RESULTS: The induction-delivery interval was significantly lower in the misoprostol group than in the dinoprostone group (11.9 h vs. 15.5 h, p < 0.001). With misoprostol, more women delivered within 12 hours (57.5% vs. 32.5%, p < 0.01) and 24 hours (98.7% vs. 91.4%, p < 0.05), spontaneous rupture of the membranes occurred more frequently (38.8% vs. 20.5%, p < 0.05), there was less need for oxytocin augmentation (65.8% vs. 81.5%, p < 0.05) and fewer additional doses were required (7.5% vs. 22%, p < 0.05). Although not statistically significant, a lower Caesarean section (CS) rate was observed with misoprostol (7.5% vs. 13.3%, p > 0.05) but with the disadvantage of higher abnormal fetal heart rate (FHR) tracings (22.5% vs. 12%, p > 0.05). From the misoprostol group more neonates were admitted to the intensive neonatal unit, than from the dinoprostone group (13.5% vs. 4.8%, p > 0.05). One woman had an unexplained stillbirth following the administration of one dose of dinoprostone. CONCLUSIONS: Vaginal misoprostol, compared with dinoprostone in the regimens used, is more effective in elective inductions of labor beyond 40 weeks of gestation. Nevertheless, this is at the expense of more abnormal FHR tracings and more admissions to the neonatal unit, indicating that the faster approach is not necessarily the better approach to childbirth. (+info)Isolation of multipotent cells from human term placenta. (6/221)
Current sources of stem cells include embryonic stem cells (ESCs) and adult stem cells (ASCs). However, concerns exist with either source: ESCs, with their significant ethical considerations, tumorigenicity, and paucity of cell lines; and ASCs, which are possibly more limited in potential. Thus, the search continues for an ethically conducive, easily accessible, and high-yielding source of stem cells. We have isolated a population of multipotent cells from the human term placenta, a temporary organ with fetal contributions that is discarded postpartum. These placenta-derived multipotent cells (PDMCs) exhibit many markers common to mesenchymal stem cells--including CD105/endoglin/SH-2, SH-3, and SH-4--and they lack hematopoietic-, endothelial-, and trophoblastic-specific cell markers. In addition, PDMCs exhibit ESC surface markers of SSEA-4, TRA-1-61, and TRA-1-80. Adipogenic, osteogenic, and neurogenic differentiation were achieved after culturing under the appropriate conditions. PDMCs could provide an ethically uncontroversial and easily accessible source of multipotent cells for future experimental and clinical applications. (+info)Are the risk factors for SIDS different for preterm and term infants? (7/221)
BACKGROUND: Mortality from SIDS has declined since the recommendation that infants are not placed prone to sleep. SIDS mortality is higher in infants born preterm than those born at term. AIM: To determine if risk factors for SIDS are any different for preterm and term infants. METHODS: Mortality data over time were used to determine whether the reduction in SIDS mortality rates had occurred equally in term and preterm infants. Data from two New Zealand studies (a case-control study and a case-cohort study) were used to determine if any differences existed in risk factors for SIDS between term and preterm infants before and after the SIDS prevention campaign. RESULTS: SIDS mortality appears to have decreased by similar proportions in term and preterm infants. Risk factors for SIDS were similar in preterm and term infants, except for parity where there was a significant interaction. Increasing parity was a risk factor for SIDS in term infants but not preterm infants. CONCLUSION: SIDS rates have decreased at comparable rates in term and preterm infants, but preterm birth still remains a risk factor for SIDS. The magnitude of the odds ratios associated with modifiable risk factors were similar for both groups. There may however be a difference in risk associated with parity between term and preterm infants. The messages for risk factors for SIDS are applicable to mothers of preterm as well as term infants. (+info)Axial and radial diffusivity in preterm infants who have diffuse white matter changes on magnetic resonance imaging at term-equivalent age. (8/221)
OBJECTIVE: Diffuse excessive high signal intensity (DEHSI) is observed in the majority of preterm infants at term-equivalent age on conventional MRI, and diffusion-weighted imaging has shown that apparent diffusion coefficient values are elevated in the white matter (WM) in DEHSI. Our aim was to obtain diffusion tensor imaging on preterm infants at term-equivalent age and term control infants to test the hypothesis that radial diffusivity was significantly different in the WM in preterm infants with DEHSI compared with both preterm infants with normal-appearing WM on conventional MRI and term control infants. METHODS: Diffusion tensor imaging was obtained on 38 preterm infants at term-equivalent age and 8 term control infants. Values for axial (lambda1) and radial [(lambda2 + lambda3)/2] diffusivity were calculated in regions of interest positioned in the central WM at the level of the centrum semiovale, frontal WM, posterior periventricular WM, occipital WM, anterior and posterior portions of the posterior limb of the internal capsule, and the genu and splenium of the corpus callosum. RESULTS: Radial diffusivity was elevated significantly in the posterior portion of the posterior limb of the internal capsule and the splenium of the corpus callosum, and both axial and radial diffusivity were elevated significantly in the WM at the level of the centrum semiovale, the frontal WM, the periventricular WM, and the occipital WM in preterm infants with DEHSI compared with preterm infants with normal-appearing WM and term control infants. There was no significant difference between term control infants and preterm infants with normal-appearing WM in any region studied. CONCLUSIONS: These findings suggest that DEHSI represents an oligodendrocyte and/or axonal abnormality that is widespread throughout the cerebral WM. (+info)A "term birth" is a medical term that refers to a delivery or pregnancy that has reached 37 weeks or more. It is the normal length of a full-term pregnancy and is considered a healthy and low-risk period for childbirth. Babies born at term have the best chance of being healthy and not experiencing any significant medical issues, compared to those born preterm (before 37 weeks) or postterm (after 42 weeks). The different types of term births are:
* Early Term: Between 37 weeks and 38 weeks, 6 days.
* Full Term: Between 39 weeks and 40 weeks, 6 days.
* Late Term: Between 41 weeks and 41 weeks, 6 days.
* Postterm: 42 weeks or later.
It is important to note that while a term birth is generally considered low-risk, there can still be variations in the health of babies born at different points within this range. For example, research has shown that babies born at 39 weeks have better outcomes than those born at 37 or 38 weeks. Therefore, it is always best to consult with a healthcare provider for individualized guidance and recommendations regarding pregnancy and childbirth.
A premature birth is defined as the delivery of a baby before 37 weeks of gestation. This can occur spontaneously or as a result of medical intervention due to maternal or fetal complications. Premature babies, also known as preemies, may face various health challenges depending on how early they are born and their weight at birth. These challenges can include respiratory distress syndrome, jaundice, anemia, issues with feeding and digestion, developmental delays, and vision problems. With advancements in medical care and neonatal intensive care units (NICUs), many premature babies survive and go on to lead healthy lives.
Birth weight refers to the first weight of a newborn infant, usually taken immediately after birth. It is a critical vital sign that indicates the baby's health status and is used as a predictor for various short-term and long-term health outcomes.
Typically, a full-term newborn's weight ranges from 5.5 to 8.8 pounds (2.5 to 4 kg), although normal birth weights can vary significantly based on factors such as gestational age, genetics, maternal health, and nutrition. Low birth weight is defined as less than 5.5 pounds (2.5 kg), while high birth weight is greater than 8.8 pounds (4 kg).
Low birth weight babies are at a higher risk for various medical complications, including respiratory distress syndrome, jaundice, infections, and developmental delays. High birth weight babies may face challenges with delivery, increased risk of obesity, and potential metabolic issues later in life. Regular prenatal care is essential to monitor fetal growth and ensure a healthy pregnancy and optimal birth weight for the baby.
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.
A newborn infant is a baby who is within the first 28 days of life. This period is also referred to as the neonatal period. Newborns require specialized care and attention due to their immature bodily systems and increased vulnerability to various health issues. They are closely monitored for signs of well-being, growth, and development during this critical time.
Low birth weight is a term used to describe babies who are born weighing less than 5 pounds, 8 ounces (2,500 grams). It's often defined as a birth weight of 2,499 grams or less. This can be further categorized into very low birth weight (less than 1,500 grams) and extremely low birth weight (less than 1,000 grams). Low birth weight is most commonly caused by premature birth, but it can also be caused by growth restriction in the womb. These babies are at risk for numerous health complications, both in the short and long term.
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.
Small for Gestational Age (SGA) is a term used in pediatrics to describe newborn infants who are smaller in size than expected for the number of weeks they have been in the womb. It is typically defined as a baby whose weight is below the 10th percentile for its gestational age. SGA can be further classified into two categories: constitutionally small (also known as physiologically small) and pathologically small. Constitutionally small infants are those who are genetically predisposed to being smaller, while pathologically small infants have a growth restriction due to factors such as placental insufficiency, maternal hypertension, or chromosomal abnormalities.
It is important to note that SGA is not the same as premature birth. Premature babies are those born before 37 weeks of gestation, regardless of their size. However, a baby can be both premature and SGA.
Pregnancy outcome refers to the final result or status of a pregnancy, including both the health of the mother and the newborn baby. It can be categorized into various types such as:
1. Live birth: The delivery of one or more babies who show signs of life after separation from their mother.
2. Stillbirth: The delivery of a baby who has died in the womb after 20 weeks of pregnancy.
3. Miscarriage: The spontaneous loss of a pregnancy before the 20th week.
4. Abortion: The intentional termination of a pregnancy before the fetus can survive outside the uterus.
5. Ectopic pregnancy: A pregnancy that develops outside the uterus, usually in the fallopian tube, which is not viable and requires medical attention.
6. Preterm birth: The delivery of a baby before 37 weeks of gestation, which can lead to various health issues for the newborn.
7. Full-term birth: The delivery of a baby between 37 and 42 weeks of gestation.
8. Post-term pregnancy: The delivery of a baby after 42 weeks of gestation, which may increase the risk of complications for both mother and baby.
The pregnancy outcome is influenced by various factors such as maternal age, health status, lifestyle habits, genetic factors, and access to quality prenatal care.
A premature infant is a baby born before 37 weeks of gestation. They may face various health challenges because their organs are not fully developed. The earlier a baby is born, the higher the risk of complications. Prematurity can lead to short-term and long-term health issues, such as respiratory distress syndrome, jaundice, anemia, infections, hearing problems, vision problems, developmental delays, and cerebral palsy. Intensive medical care and support are often necessary for premature infants to ensure their survival and optimal growth and development.
The birth rate is the number of live births that occur in a population during a specific period, usually calculated as the number of live births per 1,000 people per year. It is an important demographic indicator used to measure the growth or decline of a population over time. A higher birth rate indicates a younger population and faster population growth, while a lower birth rate suggests an older population and slower growth.
The birth rate can be affected by various factors, including socioeconomic conditions, cultural attitudes towards childbearing, access to healthcare services, and government policies related to family planning and reproductive health. It is also influenced by the age structure of the population, as women in their reproductive years (typically ages 15-49) are more likely to give birth.
It's worth noting that while the birth rate is an important indicator of population growth, it does not provide a complete picture of fertility rates or demographic trends. Other measures, such as the total fertility rate (TFR), which estimates the average number of children a woman would have during her reproductive years, are also used to analyze fertility patterns and population dynamics.
A cohort study is a type of observational study in which a group of individuals who share a common characteristic or exposure are followed up over time to determine the incidence of a specific outcome or outcomes. The cohort, or group, is defined based on the exposure status (e.g., exposed vs. unexposed) and then monitored prospectively to assess for the development of new health events or conditions.
Cohort studies can be either prospective or retrospective in design. In a prospective cohort study, participants are enrolled and followed forward in time from the beginning of the study. In contrast, in a retrospective cohort study, researchers identify a cohort that has already been assembled through medical records, insurance claims, or other sources and then look back in time to assess exposure status and health outcomes.
Cohort studies are useful for establishing causality between an exposure and an outcome because they allow researchers to observe the temporal relationship between the two. They can also provide information on the incidence of a disease or condition in different populations, which can be used to inform public health policy and interventions. However, cohort studies can be expensive and time-consuming to conduct, and they may be subject to bias if participants are not representative of the population or if there is loss to follow-up.
Medical Definition:
"Risk factors" are any attribute, characteristic or exposure of an individual that increases the likelihood of developing a disease or injury. They can be divided into modifiable and non-modifiable risk factors. Modifiable risk factors are those that can be changed through lifestyle choices or medical treatment, while non-modifiable risk factors are inherent traits such as age, gender, or genetic predisposition. Examples of modifiable risk factors include smoking, alcohol consumption, physical inactivity, and unhealthy diet, while non-modifiable risk factors include age, sex, and family history. It is important to note that having a risk factor does not guarantee that a person will develop the disease, but rather indicates an increased susceptibility.
Birth order is a term that refers to the sequence in which a person is born in their family, specifically in relation to their siblings. It is used in psychology and sociology to describe the various personality traits, behaviors, and developmental milestones that have been associated with being the firstborn, middle child, youngest child, or an only child.
For example, some studies suggest that firstborn children tend to be more responsible, achievement-oriented, and socially dominant than their younger siblings, while later-born children may be more easygoing, adventurous, and rebellious. However, it's important to note that these patterns are not universal and can be influenced by a variety of factors, including family size, spacing between siblings, gender, parenting style, and individual temperament.
Overall, birth order is just one factor among many that contribute to a person's development and identity, and should not be used as a definitive predictor of their traits or behaviors.
A birth certificate is an official document that serves as legal proof of a person's birth and provides important information about the individual, including their full name, date and place of birth, sex, parents' names, and other identifying details. In medical terms, a birth certificate may be used to establish a patient's identity, age, and other relevant demographic information.
Birth certificates are typically issued by the government agency responsible for vital records in the jurisdiction where the individual was born, such as a state or county health department. They are considered legal documents and are often required for various purposes, such as enrolling in school, applying for a passport, or obtaining government benefits.
It is important to note that birth certificates may be amended or corrected if there are errors or discrepancies in the information they contain. In some cases, individuals may also need to obtain certified copies of their birth certificate from the appropriate government agency in order to provide proof of their identity or other personal information.
Birth intervals refer to the length of time between the birth of one child and the conception of the next child. It is the duration from the delivery of one baby to the initiation of the pregnancy that results in another birth. This interval is an essential measure in reproductive health, as it can impact the health and well-being of both the mother and the children.
The World Health Organization (WHO) recommends a minimum birth interval of 24 months between pregnancies to reduce the risk of adverse maternal and perinatal outcomes. Shorter birth intervals are associated with increased risks for preterm birth, low birth weight, small for gestational age, and neonatal mortality. Additionally, short birth intervals can also negatively affect the mother's health, increasing the risk of maternal depletion syndrome, which may lead to nutritional deficiencies, anemia, and fatigue.
Birth intervals are influenced by various factors, including cultural norms, socioeconomic status, access to family planning services, and individual preferences. Encouraging longer birth intervals through improved access to family planning resources and education can contribute to better maternal and child health outcomes.
Birth injuries refer to damages or injuries that a baby suffers during the birthing process. These injuries can result from various factors, such as mechanical forces during delivery, medical negligence, or complications during pregnancy or labor. Some common examples of birth injuries include:
1. Brachial plexus injuries: Damage to the nerves that control movement and feeling in the arms and hands, often caused by excessive pulling or stretching during delivery.
2. Cephalohematoma: A collection of blood between the skull and the periosteum (the membrane covering the bone), usually caused by trauma during delivery.
3. Caput succedaneum: Swelling of the soft tissues of the baby's scalp, often resulting from pressure on the head during labor and delivery.
4. Fractures: Broken bones, such as a clavicle or skull fracture, can occur due to mechanical forces during delivery.
5. Intracranial hemorrhage: Bleeding in or around the brain, which can result from trauma during delivery or complications like high blood pressure in the mother.
6. Perinatal asphyxia: A lack of oxygen supply to the baby before, during, or immediately after birth, which can lead to brain damage and other health issues.
7. Subconjunctival hemorrhage: Bleeding under the conjunctiva (the clear membrane covering the eye), often caused by pressure on the head during delivery.
8. Spinal cord injuries: Damage to the spinal cord, which can result in paralysis or other neurological issues, may occur due to excessive force during delivery or medical negligence.
It's important to note that some birth injuries are unavoidable and may not be a result of medical malpractice. However, if a healthcare provider fails to provide the standard of care expected during pregnancy, labor, or delivery, they may be held liable for any resulting injuries.
Medical definitions of "Multiple Birth Offspring" refer to two or more children born to the same mother during one single pregnancy and childbirth. The most common forms of multiple birth offspring are twins (two babies), triplets (three babies), quadruplets (four babies), and so on.
The occurrence of multiple birth offspring is influenced by several factors, including genetics, maternal age, the use of fertility treatments, and other medical conditions. Multiple birth offspring may be identical (monozygotic) or fraternal (dizygotic), depending on whether they developed from a single fertilized egg or from separate eggs.
Multiple birth offspring often face unique health challenges, such as preterm birth, low birth weight, and developmental delays, due to the limited space and resources available in the womb. As a result, they may require specialized medical care and attention both during and after pregnancy.
Maternal age is a term used to describe the age of a woman at the time she becomes pregnant or gives birth. It is often used in medical and epidemiological contexts to discuss the potential risks, complications, and outcomes associated with pregnancy and childbirth at different stages of a woman's reproductive years.
Advanced maternal age typically refers to women who become pregnant or give birth at 35 years of age or older. This group faces an increased risk for certain chromosomal abnormalities, such as Down syndrome, and other pregnancy-related complications, including gestational diabetes, preeclampsia, and cesarean delivery.
On the other end of the spectrum, adolescent pregnancies (those that occur in women under 20 years old) also come with their own set of potential risks and complications, such as preterm birth, low birth weight, and anemia.
It's important to note that while maternal age can influence pregnancy outcomes, many other factors – including genetics, lifestyle choices, and access to quality healthcare – can also play a significant role in determining the health of both mother and baby during pregnancy and childbirth.
Congenital abnormalities, also known as birth defects, are structural or functional anomalies that are present at birth. These abnormalities can develop at any point during fetal development, and they can affect any part of the body. They can be caused by genetic factors, environmental influences, or a combination of both.
Congenital abnormalities can range from mild to severe and may include structural defects such as heart defects, neural tube defects, and cleft lip and palate, as well as functional defects such as intellectual disabilities and sensory impairments. Some congenital abnormalities may be visible at birth, while others may not become apparent until later in life.
In some cases, congenital abnormalities may be detected through prenatal testing, such as ultrasound or amniocentesis. In other cases, they may not be diagnosed until after the baby is born. Treatment for congenital abnormalities varies depending on the type and severity of the defect, and may include surgery, therapy, medication, or a combination of these approaches.
