Brain damage at birth from lack of oxygen puts babies at a greater risk of developing epilepsy, autism, dyspraxia, and cerebral palsy. Families may recover from the losses endured by them and their babies because of negligent medical professionals.
There is some evidence to suggest that brain damage caused by oxygen deprivation at birth may increase an infant's risk of developing disorders such as autism. A recent study in the US estimated that complications at birth may increase the risk of ASD in children by as much as 10%.
"Our study suggests that children exposed to certain perinatal complications, especially birth asphyxia and preeclampsia, were more likely to be diagnosed with ASD than those who were not exposed, even after adjusting for factors such as gestational age at birth and a mother's age, race and education," said study lead ...
Oxygen deprivation at birth is linked to a number of conditions that include cerebral palsy, and epilepsy. These babies can suffer from cognitive problems, intellectual deficiencies and developmental delays as they grow older, compared to babies who do not suffer from such oxygen deprivation.
There is not just one cause of ASD. There are many different factors that have been identified that may make a child more likely to have ASD, including environmental, biologic, and genetic factors.
Although the exact cause of autism is still unknown, there is evidence to suggest that genetics play a significant role. Since autism is less prevalent in females, autism was always thought to be passed down from the mother. However, research suggests that autism genes are usually inherited from the father.
During or before birth, some of the most common causes include insufficient blood flow from the placenta or low blood oxygen in the mother. After birth, common causes of oxygen deprivation include respiratory problems and low blood pressure in the newborn.
A lack of oxygen at birth has been connected with the development of numerous long-term disabilities, including: Cerebral Palsy. ADD/ADHD.
According to scientific studies, oxygen deprivation can result in mental impairment and developmental delays even at low levels, and is associated with a number of long-term conditions.
Prenatal exposure to air pollution or certain pesticides. Maternal obesity, diabetes, or immune system disorders. Extreme prematurity or very low birth weight.
Several risk factors present during pregnancy have been associated with autism. Some, like older parental age and use of antidepressants, have strong research support. Others, such as Tylenol (acetaminophen) use and exposure to environmental toxins, need more investigation.
Babies with mild or moderate asphyxia may recover fully. If the cells did not get enough oxygen for a longer time, a baby may have permanent injury. This could affect their brain, heart, lungs, kidneys, bowels or other organs.
If a baby's oxygen levels are too low, it can lead to a condition called hypoxia. Hypoxia is a condition in which the body tissues and organs are not getting enough oxygen. Hypoxia can cause a variety of problems, including organ damage, brain damage, and death.
Without oxygen, brain cells die, and a brain injury can occur. It can happen even when enough blood reaches the brain, such as when you breathe in smoke or carbon monoxide. Treatments can help people who have brain injuries from cerebral hypoxia. But no one can bring back dead brain cells or reverse a brain injury.
Generally, brain damage becomes possible after only 3 to 5 minutes without breathing. After 10 minutes, an infant may suffer serious brain damage. Any longer and there is a significant risk of death due to the lack of oxygen.
In the United States, prenatal genetic testing (PGT) for Autism Spectrum Disorders (ASD) is currently available via clinical genetic services. Such testing may inform parents about their unborn child's risk for ASD, prepare parents for the birth of an affected infant, and allow them to arrange for early interventions.
This led researchers to investigate the extent to which genetics contribute to the development of autism. Numerous studies, including twin studies and family studies, have estimated the heritability of autism to be around 80 to 90%, indicating that genetic factors play a substantial role in its etiology.
According to the CDC, the prevalence of autism in the United States is approximately 1 in 54 children. This means that the odds of having a child with autism are less than 2%.
While you can't prevent having a child with an autistic disorder, you can increase your odds of having a healthy baby by doing these lifestyle changes: Live healthy. Have regular check-ups, eat well-balanced meals, and exercise. Make sure you have good prenatal care, and take all recommended vitamins and supplements.
Depression isn't the only mental health factor that can influence pregnancy outcomes. High levels of stress during pregnancy may also be connected to autism in children. This connection appears to have the most impact when the parent experiences stress between weeks 25 and 28 of pregnancy.
Recent studies have shown that autism can be detected during pregnancy as early as the second trimester. Early detection of the disorder can help us to get prepared and treat the disease as early as possible.
Available evidence shows that autism tends to develop at an early age, meaning that a child born without autism is unlikely to “acquire” it when they are older. The best response to an autism diagnosis is to seek evidence-based autism treatment that can help the family adjust and the child thrive.
A routine prenatal ultrasound in the second trimester can identify early signs of Autism Spectrum Disorder (ASD), a new study by Ben-Gurion University of the Negev and Soroka Medical Center has found.