Sunday, December 08, 2024

 WOMENS HEALTH


Mothers massively change their intestines during pregnancy and nursing



Scientists discover the molecular and structural principles of intestinal changes in pregnancy, critical for nutrient uptake and the health of babies



Medical University of Vienna



When women are pregnant and nurse their babies, their bodies change and various organs, such as the breasts or the immune system, are adapted to ensure the health of both mother and child. This happens throughout evolution in all mammals. An international research team led by Josef Penninger and Masahiro Onji, Medical University of Vienna, now reports the surprising finding that the intestine also changes completely in pregnant and nursing females, resulting in a doubling of the intestinal surface area and a striking structural reorganisation. The researchers also provide the first genetic and mechanistic evidence of how this intestinal epithelial expansion occurs in mothers, with direct implications for the transgenerational health of the babies. The study is being published in "Nature".

A multinational team led by Josef Penninger (MedUni Vienna, IMBA - Institute of Molecular Biotechnology, Vienna, University of British Columbia, Canada, Helmholtz Centre for Infection Research, Germany) observed that the intestinal villi reorganise during pregnancy and breastfeeding and significantly enlarge, doubling their surface area. The studies were carried out in genetically modified mice and intestinal organoids from mice and humans - self-organised three-dimensional tissues derived from stem cells in the intestine. Mechanistically, the researchers identified the RANK receptor/RANK ligand (RANK/RANKL) system as the key to the villous enlargement of the small intestine during reproduction, which is regulated by sex and lactation hormones. When mice were engineered to lack the RANK/RANKL system in the intestine, the villous expansion during pregnancy and breastfeeding was significantly impaired.

Fundamental importance for evolution
For decades, researchers have studied the RANK/RANKL system as a key facilitator of essential, evolutionarily conserved processes. The Penninger group has already identified key functions of the RANK/RANKL system in bone turnover, in the biology of the mammary gland, in breast cancer, and in immune tolerance in pregnancy, contributing to the development of drugs against bone loss used by millions of people and clinical trials for breast cancer prevention and cancer immunotherapies are underway. The researchers now discovered that these intestinal changes, which appear to be completely reversible when nursing is stopped, are important for proper feeding and nourishment of the babies. "Our study shows that the impairment of this intestinal expansion by the lack of the RANK/RANKL system during pregnancy changes the milk of the nursing mothers. This results in lower weights of the babies and transgenerational long-term metabolic consequences," states the lead author Masahiro Onji. "Mothers need to eat for themselves and their babies. These new studies provide for the first time a molecular and structural explanation of how and why the intestine changes to adapt to enhanced nutrient demand of mothers, which is probably the case in all pregnant and nursing mammals," adds study leader Josef Penninger.

How mothers adapt to the demands of pregnancy and breastfeeding remains a central question of evolution and human health. During this phase, female hormones influence multiple organs to control and change their structure and functions, which is crucial for the health of the mother and the development of the offspring. It was known that pregnant women have enhanced nutrient demands. However, this fundamental aspect has not been well studied until now: "By identifying the RANK/RANKL system as the driving force behind intestinal adaptation during pregnancy and lactation, our study contributes to a deeper understanding of biological processes that are of fundamental importance for evolution and human health", says Josef Penninger, summarising the impact of the findings.

This massive expansion is controlled by sex and pregnancy hormones, which change the stem cells in the gut via the RANK/RANKL system and then give the intestinal cell a survival signal to grow much larger. This growth then leads to a near doubling of the intestinal surface area, which also increases the molecular machinery for the uptake of sugar, protein, and fat, and even leads to a profound architectural change in the intestinal villi, which probably slows down the flow of food, again maximising the uptake of nutrients. Josef Penninger: "Our team has discovered an amazing new way how mother’s bodies change to keep babies healthy. Hardly anybody knew about this, apart from a few old studies that have largely been forgotten. We have also found that this system, via stem cells, can directly affect tumours in the intestine; maybe we can learn from pregnant and nursing mothers to reversibly rewire this system to develop new treatments and a better understanding of intestinal cancer or gut regeneration."

The study was a close collaboration between the Medical University of Vienna, the Institute of Molecular Biotechnology of the Austrian Academy of Sciences in Vienna, the Life Sciences Institute in Vancouver, the Helmholtz Centre for Infection Research, Braunschweig, the Hubrecht Institute, Utrecht, and the Kiel University. Researchers from the University of Tokyo and the University of Cambridge also participated.

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Women pay for AI to boost mammogram findings



Radiological Society of North America
AI enhanced screening mammography. 

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AI enhanced screening mammography.

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Credit: Radiological Society of North America (RSNA) and DeepHealth




CHICAGO – More than a third of women across 10 health care practices chose to enroll in a self-pay, artificial intelligence (AI)-enhanced breast cancer screening program, and the women who enrolled were 21% more likely to have cancer detected, according to research being presented today at the annual meeting of the Radiological Society of North America (RSNA).

AI has shown great promise in mammography as a “second set of eyes” for radiologists providing decision support, risk prediction and other benefits. Despite its promise, AI is not yet reimbursed by insurance, which likely is slowing its adoption in the clinic. Some practices have elected to offer enhanced workflows enabled by AI at additional cost, much like what was done when digital breast tomosynthesis was originally deployed.

For the study, researchers investigated the impact of AI—including a safeguard review—as a self-pay option in screening mammography. A self-pay, AI-powered screening mammography program was offered to patients across 10 clinical practices, ranging from a few sites up to 64 sites at the largest practice. Women who enrolled had U.S. Food and Drug Administration-compliant AI software applied to their mammograms. An expert breast radiologist provided a third, safeguard review in cases where there was discordance between the first reviewer and the AI.

Out of the 747,604 women who underwent screening mammography over an initial 12-month period, the overall cancer detection rate was on average 43% higher for enrolled women than for unenrolled women. The pattern of a substantially higher cancer detection rate in enrolled women was observed at all 10 practices.

Further analysis attributed 21% of the increase in cancer detection to the AI program. The researchers credited the remaining 22% increase in detection to the fact that higher-risk patients chose to enroll more frequently.

“These data indicate that many women are eager to utilize AI to enhance their screening mammogram, and when AI is coupled with a safeguard review, more cancers are found,” said study senior author Gregory Sorensen, M.D., from DeepHealth Inc. in Somerville, Massachusetts.

The recall rate—the rate at which women were called back for additional imaging—was 21% higher for enrolled versus unenrolled women. Relatedly, the positive predictive value for cancer was 15% higher for the enrolled women, indicating that each recall resulted in more cancer diagnoses in the enrolled population.

“This is the first report on results from a program that provides an AI-powered enhanced review that patients can elect to enroll in,” said study lead author Bryan Haslam, Ph.D., from DeepHealth. “The AI-driven enhanced review program leverages AI in a novel workflow to ensure women with suspicious findings get expert level care that could help detect many more breast cancers early. The number of women electing for this program is now at 36% and growing, and the rate of cancer detection continues to be substantially higher for those women.”

In the future, the researchers hope to better quantify the benefit of the AI-driven safeguard review with prospective randomized controlled trials that would eliminate the self-selection bias and provide the highest level of evidence.

Co-authors are Leeann Louis, Ph.D., Jacqueline S. Holt, M.D., and Janet M. Storella, M.D.

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Note: Copies of RSNA 2024 news releases and electronic images will be available online at RSNA.org/press24.

RSNA is an association of radiologists, radiation oncologists, medical physicists and related scientists promoting excellence in patient care and health care delivery through education, research and technologic innovation. The Society is based in Oak Brook, Illinois. (RSNA.org)

For patient-friendly information on breast cancer screening, visit RadiologyInfo.org.

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