Search results
Results From The WOW.Com Content Network
Occasionally, during pregnancy, there is a single umbilical artery (SUA) present in the umbilical cord, as opposed to the usual two. [1] This is sometimes also called a two-vessel umbilical cord, or two-vessel cord. Approximately, this affects between 1 in 100 and 1 in 500 pregnancies, making it the most common umbilical abnormality.
Features secondary to VACTERL components are frequent enough to be considered an extension of VACTERL. These include: single umbilical artery, ambiguous genitalia, abdominal wall defects, diaphragmatic hernia, intestinal and respiratory anomalies, and oligohydramnios sequence defects. [4] [8] Cardiac defects are thought to fit in this category. [4]
The most prevalent defect in about 1% of fetuses' umbilical region is a single umbilical artery. [30] When a single umbilical artery is found, more tests are run including a detailed ultrasound to detect any other developmental abnormalities that may be the result of the single artery, genetic deviation, or other causes.
A number of abnormalities can affect the umbilical cord, which can cause problems that affect both mother and child: [15] Umbilical cord compression can result from, for example, entanglement of the cord, [ 16 ] a knot in the cord, [ 16 ] or a nuchal cord , [ 16 ] (which is the wrapping of the umbilical cord around the fetal neck) [ 17 ] but ...
The umbilical arteries are actually the anterior division of the internal iliac arteries, and retain part of this function after birth. [3] The umbilical arteries are one of two arteries in the human body, that carry deoxygenated blood, the other being the pulmonary arteries. The pressure inside the umbilical artery is approximately 50 mmHg. [4]
The fetal circulation is composed of the placenta, umbilical blood vessels encapsulated by the umbilical cord, heart and systemic blood vessels. A major difference between the fetal circulation and postnatal circulation is that the lungs are not used during the fetal stage resulting in the presence of shunts to move oxygenated blood and ...
This can cause decreased or acute cessation of blood flow, decreased cardiac output, and pulmonary complications in the newborn. [2] The elongated, exposed vessels in lower velamentous cord insertion cases are more readily compressed by the fetus, hence there is an even greater risk of non-reassuring fetal heart rate pattern and emergency ...
PPHN can range from mild to severe disease. In the most severe form, infants experience severe hypoxemia resulting in cardiac and pulmonary complications. [4] As a result of low oxygen levels, infants with PPHN are at an increased risk of developing complications, such as asphyxia, chronic lung disease, neurodevelopment issues, and death. [5]