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| Premature infants have a high probability of brain damage . Researchers have now found biomarkers of early brain damage, and the results suggest that bacteria in the gut of premature babies may play a key role . They found that the excessive development of the gastrointestinal tract caused by Klebsiella is related to the increase of certain immune cells and nerve damage in premature infants . The research is an inter-university collaboration project jointly led by the Vienna Medical University and the University of Vienna to investigate the microbiome and its significance to human health . In addition, researchers will continue to follow up on children as a group, because how the children’s motor and cognitive skills develop will only become apparent after a few years . Research expert Angelika Berger explained, “Our goal is to understand how this early development of the gut-immune-brain axis works for a long time. The parents of the children have given great support to our research, and we are very grateful for this. " The study monitored a total of 60 premature babies who were born before 28 weeks of gestation and weighed less than 1 kg . The team used the latest research methods to examine the microbiome through methods such as 16S rRNA gene sequencing, and analyzed blood and stool samples, brainwave recordings, and MRI images of the baby's brain . The data suggests that the overgrowth of Klebsiella and the associated increase in T cell levels can exacerbate brain damage . David Seki, the first author of the study, "The gut microbiota-an important collection of hundreds of bacteria, fungi, viruses, and other microorganisms-is in a balanced state in healthy people . However, especially in premature babies, the immune system and The microbiome has not yet fully developed and is likely to undergo changes. These changes may have a negative impact on the brain . Through research, researchers have been able to identify certain patterns in the microbiome and immune response that are clearly related to brain damage. This pattern often occurs before the brain develops, which shows that we can make good use of this critical time window to prevent or even avoid brain damage in premature infants. . Source: https:// |
Disclaimer: This article only represents the author's personal views and has nothing to do with China Probiotics.
com
.
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Premature infants have a high probability of brain damage
.
Researchers have now found biomarkers of early brain damage, and the results suggest that bacteria in the gut of premature babies may play a key role
.
They found that the excessive development of the gastrointestinal tract caused by Klebsiella is related to the increase of certain immune cells and nerve damage in premature infants
.
The research is an inter-university collaboration project jointly led by the Vienna Medical University and the University of Vienna to investigate the microbiome and its significance to human health
.
In addition, researchers will continue to follow up on children as a group, because how the children’s motor and cognitive skills develop will only become apparent after a few years
.
Research expert Angelika Berger explained, “Our goal is to understand how this early development of the gut-immune-brain axis works for a long time.
The parents of the children have given great support to our research, and we are very grateful for this.
"
The study monitored a total of 60 premature babies who were born before 28 weeks of gestation and weighed less than 1 kg
.
The team used the latest research methods to examine the microbiome through methods such as 16S rRNA gene sequencing, and analyzed blood and stool samples, brainwave recordings, and MRI images of the baby's brain
.
The data suggests that the overgrowth of Klebsiella and the associated increase in T cell levels can exacerbate brain damage
.
David Seki, the first author of the study, "The gut microbiota-an important collection of hundreds of bacteria, fungi, viruses, and other microorganisms-is in a balanced state in healthy people
.
However, especially in premature babies, the immune system and The microbiome has not yet fully developed and is likely to undergo changes.
These changes may have a negative impact on the brain
.
Through research, researchers have been able to identify certain patterns in the microbiome and immune response that are clearly related to brain damage.
This pattern often occurs before the brain develops, which shows that we can make good use of this critical time window to prevent or even avoid brain damage in premature infants.
.
Source: https://
Disclaimer: This article only represents the author's personal views and has nothing to do with China Probiotics.
com
.
The originality and the text and content stated in the article have not been verified by this site.
This site does not make any guarantee or commitment to the authenticity, completeness, and timeliness of this article, all or part of the content, and the text.
Please readers for reference only, and please Verify the relevant content yourself
.
Copyright Notice
1.
Some of the reprinted articles on this site are not original, and the copyright and liability belong to the original author
.
2.
All reprinted articles, links and pictures on this website are for the purpose of conveying more information, and clearly indicate the source and author.
Media or individuals who do not want to be reprinted can contact us for infringement information that can provide sufficient evidence , Bio149 will be deleted within 12 hours after confirmation
.
3.
Users are welcome to post original articles to 86371366@qq.
com, and publish them to the homepage after review.
The copyright and liability belong to the sender
.
Premature infants have a high probability of brain damage
.
Researchers have now found biomarkers of early brain damage, and the results suggest that bacteria in the gut of premature babies may play a key role
.
They found that the excessive development of the gastrointestinal tract caused by Klebsiella is related to the increase of certain immune cells and nerve damage in premature infants
.
The research is an inter-university collaboration project jointly led by the Vienna Medical University and the University of Vienna to investigate the microbiome and its significance to human health
.
In addition, researchers will continue to follow up on children as a group, because how the children’s motor and cognitive skills develop will only become apparent after a few years
.
Research expert Angelika Berger explained, “Our goal is to understand how this early development of the gut-immune-brain axis works for a long time.
The parents of the children have given great support to our research, and we are very grateful for this.
"
The study monitored a total of 60 premature babies who were born before 28 weeks of gestation and weighed less than 1 kg
.
The team used the latest research methods to examine the microbiome through methods such as 16S rRNA gene sequencing, and analyzed blood and stool samples, brainwave recordings, and MRI images of the baby's brain
.
The data suggests that the overgrowth of Klebsiella and the associated increase in T cell levels can exacerbate brain damage
.
David Seki, the first author of the study, "The gut microbiota-an important collection of hundreds of bacteria, fungi, viruses, and other microorganisms-is in a balanced state in healthy people
.
However, especially in premature babies, the immune system and The microbiome has not yet fully developed and is likely to undergo changes.
These changes may have a negative impact on the brain
.
Through research, researchers have been able to identify certain patterns in the microbiome and immune response that are clearly related to brain damage.
This pattern often occurs before the brain develops, which shows that we can make good use of this critical time window to prevent or even avoid brain damage in premature infants.
.
Source: https://
Disclaimer: This article only represents the author's personal views and has nothing to do with China Probiotics.
com
.
The originality and the text and content stated in the article have not been verified by this site.
This site does not make any guarantee or commitment to the authenticity, completeness, and timeliness of this article, all or part of the content, and the text.
Please readers for reference only, and please Verify the relevant content yourself
.
Copyright Notice
1.
Some of the reprinted articles on this site are not original, and the copyright and liability belong to the original author
.
2.
All reprinted articles, links and pictures on this website are for the purpose of conveying more information, and clearly indicate the source and author.
Media or individuals who do not want to be reprinted can contact us for infringement information that can provide sufficient evidence , Bio149 will be deleted within 12 hours after confirmation
.
3.
Users are welcome to post original articles to 86371366@qq.
com, and publish them to the homepage after review.
The copyright and liability belong to the sender
.
Premature infants have a high probability of brain damage
.
Researchers have now found biomarkers of early brain damage, and the results suggest that bacteria in the gut of premature babies may play a key role
.
They found that the excessive development of the gastrointestinal tract caused by Klebsiella is related to the increase of certain immune cells and nerve damage in premature infants
.
The research is an inter-university collaboration project jointly led by the Vienna Medical University and the University of Vienna to investigate the microbiome and its significance to human health
.
In addition, researchers will continue to follow up on children as a group, because how the children’s motor and cognitive skills develop will only become apparent after a few years
.
Research expert Angelika Berger explained, “Our goal is to understand how this early development of the gut-immune-brain axis works for a long time.
The parents of the children have given great support to our research, and we are very grateful for this.
" The study monitored a total of 60 premature babies who were born before 28 weeks of gestation and weighed less than 1 kg
.
The team used the latest research methods to examine the microbiome through methods such as 16S rRNA gene sequencing, and analyzed blood and stool samples, brainwave recordings, and MRI images of the baby's brain
.
The data suggests that the overgrowth of Klebsiella and the associated increase in T cell levels can exacerbate brain damage
.
David Seki, the first author of the study, "The gut microbiota-an important collection of hundreds of bacteria, fungi, viruses, and other microorganisms-is in a balanced state in healthy people
.
However, especially in premature babies, the immune system and The microbiome has not yet fully developed and is likely to undergo changes.
These changes may have a negative impact on the brain
.
Through research, researchers have been able to identify certain patterns in the microbiome and immune response that are clearly related to brain damage.
This pattern often occurs before the brain develops, which shows that we can make good use of this critical time window to prevent or even avoid brain damage in premature infants.
.
Source: https://
