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	<title>infant gut microbiome Archives - Amazing Health Advances</title>
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		<title>Newly Identified Lipid in Breast Milk Might Reduce Cerebral Palsy in Infants</title>
		<link>https://amazinghealthadvances.net/newly-identified-lipid-in-breast-milk-might-reduce-cerebral-palsy-in-infants-8266/#utm_source=rss&#038;utm_medium=rss&#038;utm_campaign=newly-identified-lipid-in-breast-milk-might-reduce-cerebral-palsy-in-infants-8266</link>
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		<dc:creator><![CDATA[The AHA! Team]]></dc:creator>
		<pubDate>Tue, 10 Sep 2024 08:15:57 +0000</pubDate>
				<category><![CDATA[Archive]]></category>
		<category><![CDATA[Gut Health]]></category>
		<category><![CDATA[Women's Health]]></category>
		<category><![CDATA[babies]]></category>
		<category><![CDATA[breast milk]]></category>
		<category><![CDATA[breast milk antibodies]]></category>
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		<category><![CDATA[cerebral palsy]]></category>
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		<category><![CDATA[Duke Health]]></category>
		<category><![CDATA[infant gut microbiome]]></category>
		<category><![CDATA[infant health]]></category>
		<guid isPermaLink="false">https://amazinghealthadvances.net/?p=16223</guid>

					<description><![CDATA[<p>Duke Health &#8211; In animal studies, the fat molecule encourages stem cells to generate new cells that produce the brain’s white matter About 60,000 babies are born before 32 weeks&#8217; gestation in the United States every year, and 10% of them will develop cerebral palsy resulting from infections that damage nerve fibers deep in the brain called white matter. 60,000 babies are born before 32 weeks&#8217; gestation in the United States every year While it’s known that the white matter loss will lead to neurological deficits, there is currently no treatment to help these infants avoid the outcome. In experiments using neonatal mice, researchers at Duke Health have identified a fatty molecule in breast milk that triggers a process in which stem cells in the brain produce cells that create new white matter, reversing the injury. The study appears Aug. 3 in the journal Cell Stem Cell. Eric Benner, M.D., Ph.D., is the study’s corresponding author and is a distinguished assistant professor in the Department of Pediatrics at Duke University School of Medicine. Benner said further study in a clinical trial is needed, but the finding is promising. “Developing therapies for children &#8212; especially such medically fragile children &#8212; is very difficult to do because there are justifiably strict safety concerns,” Benner said. “The fact that this molecule is already found in something that is safe for premature babies – breast milk – is extremely encouraging. There are many types of fats in breast milk “It’s been known that fats in breast milk benefit a child’s brain development, but there are many types of fats in breast milk,” Benner said. “This work has identified a lipid molecule in breast milk that promotes white matter development. Now, we can begin to develop a therapy that isolates and delivers this lipid in a way that is safe for the unique challenges of these infants.” Benner is a neonatologist at Duke University and one of the co-founders of Tellus Therapeutics, a Duke spinout company developed with the help of the Duke University Office for Translation &#038; Commercialization to bring this therapy from the bench into the neonatal intensive care unit. The fatty molecule identified in the study will be administered intravenously to patients in an upcoming clinical trial. This is significant because many of the infants who are part of this vulnerable population also have gastrointestinal issues and cannot safely be given milk or medication by mouth. The lipid molecule enters the brain and binds with stem cells there, encouraging the stem cells to become or produce a type of cell called oligodendrocytes. The oligodendrocytes are like a hub that allow for the production of white matter in the central nervous system. This newly produced white matter in pre-term infants prevents the neurological damage that would otherwise impact the child’s ability to move – the hallmarks of cerebral palsy. “The timing of brain injury is extremely difficult to predict, thus a treatment that could be safely given to all preterm babies at risk would be revolutionary,” said Agnes Chao, M.D., a former fellow in the Division of Neonatology and first author of the paper. The timing of brain injury is extremely difficult to predict “As a neonatologist, I&#8217;m so excited that I may be able to offer a treatment to families with babies that are affected by preterm brain injury who would otherwise have no other options,” Chao said. In addition to Benner and Chao, study authors include Pavle Matak, Kelly Pegram, James Powers, Collin Hutson, Rebecca Jo, Laura Dubois, J. Will Thompson, P. Brian Smith, Jason R. Gibson, Noelle E. Younge, Blaire Rikard, Simon G. Gregory, Ronald N. Goldberg, Mari L Shinohara, Estefany Y. Reyes, Chunlei Liu. The study was funded by the National Institutes of Health (1R01NS114578, T32HD094671, K12HD043494, T32HD043728, R01AG070826, R01MH127104, P41EB015897, 1UL1-TR002553), Jean and George Brumley Jr. Neonatal Perinatal Research Institute, with additional support from the Duke Scholars Award from the School of Medicine, Duke University Center for In Vivo Microscopy, and the National Center for Advancing Translational Sciences. To read the original article click here.</p>
<p>The post <a href="https://amazinghealthadvances.net/newly-identified-lipid-in-breast-milk-might-reduce-cerebral-palsy-in-infants-8266/">Newly Identified Lipid in Breast Milk Might Reduce Cerebral Palsy in Infants</a> appeared first on <a href="https://amazinghealthadvances.net">Amazing Health Advances</a>.</p>
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		<title>Gut Flora Disruption in Infancy Linked to Autism &#038; ADHD</title>
		<link>https://amazinghealthadvances.net/gut-flora-disruption-in-infancy-linked-to-autism-adhd-8108/#utm_source=rss&#038;utm_medium=rss&#038;utm_campaign=gut-flora-disruption-in-infancy-linked-to-autism-adhd-8108</link>
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		<dc:creator><![CDATA[The AHA! Team]]></dc:creator>
		<pubDate>Thu, 09 May 2024 20:05:19 +0000</pubDate>
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		<category><![CDATA[bacteria in the gut]]></category>
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		<category><![CDATA[composition of gut bacteria]]></category>
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		<category><![CDATA[gut flora]]></category>
		<category><![CDATA[infant gut microbiome]]></category>
		<category><![CDATA[Nervous System]]></category>
		<guid isPermaLink="false">https://amazinghealthadvances.net/?p=15609</guid>

					<description><![CDATA[<p>Linköping University via News-Medical &#8211; Disturbed gut flora during the first years of life is associated with diagnoses such as autism and ADHD later in life. This is according to a study led by researchers at the University of Florida and Linköping University and published in the journal Cell. The study is the first forward-looking, or prospective, study to examine gut flora composition and a large variety of other factors in infants, in relation to the development of the children&#8217;s nervous system. The researchers have found many biological markers that seem to be associated with future neurological development disorders, such as autism spectrum disorder, ADHD, communication disorder and intellectual disability. &#8220;The remarkable aspect of the work is that these biomarkers are found at birth in cord blood or in the child&#8217;s stool at one year of age over a decade prior to the diagnosis,&#8221; says Eric W Triplett, professor at the Department of Microbiology and Cell Science at the University of Florida, USA, one of the researchers who led the study. 16,000 children born in 1997-1999, representing the general population, have been followed from birth into their twenties The study is part of the ABIS (All Babies in Southeast Sweden) study led by Johnny Ludvigsson at Linköping University. More than 16,000 children born in 1997-1999, representing the general population, have been followed from birth into their twenties. Of these, 1,197 children, corresponding to 7.3 percent, have been diagnosed with autism spectrum disorder, ADHD, communication disorder or intellectual disability. A large number of lifestyle and environmental factors have been identified through surveys conducted on several occasions during the children&#8217;s upbringing. For some of the children, the researchers have analysed substances in umbilical cord blood and bacteria in their stool at the age of one. &#8220;We can see in the study that there are clear differences in the intestinal flora already during the first year of life between those who develop autism or ADHD and those who don&#8217;t. We&#8217;ve found associations with some factors that affect gut bacteria, such as antibiotic treatment during the child&#8217;s first year, which is linked to an increased risk of these diseases,&#8221; says Johnny Ludvigsson, senior professor at the Department of Biomedical and Clinical Sciences at Linköping University, who led the study together with Eric W. Triplett. Children who had repeated ear infections during their first year of life had an increased risk of being diagnosed with a developmental neurological disorder later in life. It is probably not the infection itself that is the culprit, but the researchers suspect a link to antibiotic treatment. They found that the presence of Citrobacter bacteria or the absence of Coprococcus bacteria increased the risk of future diagnosis. One possible explanation may be that antibiotic treatment has disturbed the composition of the gut flora One possible explanation may be that antibiotic treatment has disturbed the composition of the gut flora in a way that contributes to neurodevelopmental disorders. The risk of antibiotic treatment damaging the gut flora and increasing the risk of diseases linked to the immune system, such as type 1 diabetes and childhood rheumatism, has been shown in previous studies. &#8220;Coprococcus and Akkermansia muciniphila have potential protective effects. These bacteria were correlated with important substances in the stool, such as vitamin B and precursors to neurotransmitters which play vital roles orchestrating signaling in the brain. Overall, we saw deficits in these bacteria in children who later received a developmental neurological diagnosis.&#8221; -Angelica Ahrens, Assistant Scientist in Eric Triplett&#8217;s research group at the University of Florida and first author of the study The present study also confirms that the risk of developmental neurological diagnosis in the child increases if the parents smoke. Conversely, breastfeeding has a protective effect, according to the study. In cord blood taken at the birth of children, the researchers analysed the amounts of various substances from the body&#8217;s metabolism, such as fatty acids and amino acids. They also measured some harmful substances that come from outside, such as nicotine and environmental toxins. They compared substances in the umbilical cord blood of 27 children diagnosed with autism with the same number of children without a diagnosis. Children who were later diagnosed had low levels of several important fats in the umbilical cord blood It turned out that children who were later diagnosed had low levels of several important fats in the umbilical cord blood. One of these was linolenic acid, which is needed for the formation of omega 3 fatty acids that are anti-inflammatory and have several other effects in the brain. The same group also had higher levels than the control group of a PFAS substance, a group of substances used as flame retardants and shown to negatively affect the immune system in several different ways. PFAS substances can enter the body via drinking water, food and the air we breathe. It is not certain that the relationships that the research team found in the Swedish children can be generalised to other populations, but these issues need to be studied in other groups as well. Another question is whether gut flora imbalance is a triggering factor or whether it has occurred as a result of underlying factors, such as diet or antibiotics. However, even when the researchers accounted for risk factors that might affect the gut flora, they found that the link between future diagnosis remained for many of the bacteria. This indicates that some of the differences in gut flora between children with and without future diagnosis are not explained by such risk factors. The research is at an early stage and more studies are needed, but the discovery that many biomarkers for future developmental neurological disorders can be observed at an early age opens up the possibility of developing screening protocols and preventive measures in the long term. The study has been funded with support from, among others, JDRF, Horizon Europe, Barndiabetesfonden (the Swedish Child Diabetes Foundation), Forte and the Swedish Research Council. Source: Linköping University Journal reference: Ahrens, A. P., et al. (2024). Infant microbes and metabolites point to childhood neurodevelopmental disorders. Cell. doi.org/10.1016/j.cell.2024.02.035. To read the original article click here.</p>
<p>The post <a href="https://amazinghealthadvances.net/gut-flora-disruption-in-infancy-linked-to-autism-adhd-8108/">Gut Flora Disruption in Infancy Linked to Autism &#038; ADHD</a> appeared first on <a href="https://amazinghealthadvances.net">Amazing Health Advances</a>.</p>
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		<title>Beneficial Bacteria Can Be Restored to C-Section Babies at Birth</title>
		<link>https://amazinghealthadvances.net/beneficial-bacteria-can-be-restored-to-c-section-babies-at-birth-7388/#utm_source=rss&#038;utm_medium=rss&#038;utm_campaign=beneficial-bacteria-can-be-restored-to-c-section-babies-at-birth-7388</link>
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		<dc:creator><![CDATA[AHA Publisher]]></dc:creator>
		<pubDate>Tue, 22 Jun 2021 07:00:47 +0000</pubDate>
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		<category><![CDATA[C-section]]></category>
		<category><![CDATA[cesarian section]]></category>
		<category><![CDATA[gut microbiome]]></category>
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		<category><![CDATA[human microbiota]]></category>
		<category><![CDATA[infant gut microbiome]]></category>
		<category><![CDATA[infants]]></category>
		<category><![CDATA[restoring gut bacteria]]></category>
		<guid isPermaLink="false">https://amazinghealthadvances.net/?p=11963</guid>

					<description><![CDATA[<p>Rutgers University-New Brunswick via Newswise &#8211; New Brunswick, N.J. (June 17, 2021) – Babies born by cesarean section don’t have the same healthy bacteria as those born vaginally, but a Rutgers-led study for the first time finds that these natural bacteria can be restored.  The study appears in the journal Med. The human microbiota consists of trillions of bacteria, viruses, fungi and other microorganisms – some beneficial, some harmful &#8212; that live in and on our bodies. Women naturally provide these pioneer colonizers to their babies’ sterile bodies during labor and birth, helping their immune system to develop. But antibiotics and C-sections disturb this passing of microbes and are related to increased risks of obesity, asthma and metabolic diseases. The researchers followed 177 babies from four countries over the first year of their lives &#8212; 98 were born vaginally and 79 were born by C-section, 30 of which were swabbed with a maternal vaginal gauze right after birth. Lab analysis showed that the microbiota of the C-section babies swabbed with their mother’s vaginal fluids was close to that of vaginally born babies. Also, the mother’s vaginal microbiomes on the day of birth were similar to other areas of their bodies (gut, mouth and skin), showing that maternal vaginal fluids help to colonize bacteria across their babies’ bodies. This was the first large observational study to show that restoring a C-section baby’s natural exposure to maternal vaginal microbes at birth normalizes the microbiome development during their first year of life. The researchers said the next step is conducting randomized clinical trials to determine if the microbiota normalization translates into disease protection. “Further research is needed to determine which bacteria protect against obesity, asthma and allergies, diseases with underlying inflammation,” said senior author Maria Gloria Dominguez Bello, a professor in the Department of Biochemistry and Microbiology in the School of Environmental and Biological Sciences at Rutgers University-New Brunswick. “Our results support the hypothesis that acquiring maternal vaginal microbes normalizes microbiome development in the babies.” According to the World Health Organization, C-section is needed in about 15 percent of births to avoid risking the life of the mother or child, but in many countries such as in Brazil, the Dominican Republic, Iran and China, C-section is performed in more than 70% of urban births. To read the original article click here.</p>
<p>The post <a href="https://amazinghealthadvances.net/beneficial-bacteria-can-be-restored-to-c-section-babies-at-birth-7388/">Beneficial Bacteria Can Be Restored to C-Section Babies at Birth</a> appeared first on <a href="https://amazinghealthadvances.net">Amazing Health Advances</a>.</p>
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