原文：“胎儿期若暴露于母亲高血压、糖尿病、肥胖等不良环境中，其血管功能、代谢调控机制可能发生“程序性...

Gathering evidence

I’m collecting cohort studies from 2024-2025 to link maternal hypertension, diabetes, obesity with adult hypertension, diabetes, CVD risk. This involves assessing maternal GDM and preeclampsia's impact on offspring.

Gathering research

I’m piecing together recent cohort studies on maternal hypertension, diabetes, and obesity, linking them to adult offspring's cardiovascular and metabolic risks. This involves systematic web.run searches for up-to-date publications.

Evaluating study sources

I'm checking scholarly cohort studies, avoiding reviews or tabloid sources, and focusing on research from 2024-2025.

Refining search criteria

I'm adjusting the criteria to ensure the search results align closely with the desired cohort, specifically focusing on adult outcomes related to offspring hypertension from maternal preeclampsia.

Adjusting my strategy

Mapping out how to incorporate studies on childhood/adolescent exposure leading to increased BP and cardiometabolic risk, particularly focusing on outcomes in young adulthood (≤40).

Navigating research

I'm gathering info on adult outcomes well-suited for an advanced literature review, aiming for a solid grasp of cardiovascular disease links.

Searching for cohort studies

I'm looking for 2024-2025 cohort studies on adult outcomes, focusing on prenatal exposures like HDP, GDM, and obesity, particularly in young adults aged 18-30.

Examining adult hypertension

I’m thinking about how maternal preeclampsia might influence adult offspring's hypertension, especially in Norway's HUNT and ALSPAC cohorts. This leads me to explore potential links and outcomes.

Figuring out the year

I'm piecing together the year of the article "Risk of Adult Hypertension in Offspring From Pregnancies Complicated by Hypertensive Disorders" by checking the DOI and title.

Assessing accessibility
I'm thinking through the accessibility of the AHA Hypertension page in different formats.

Checking study timeframe

It's interesting to see that a hypertension study by Dines et al. from Sept 2023 might fit, though it’s slightly outside the 24-month strict window.

Adjusting my approach

I noticed a need to shift from focusing solely on 2024-2025 adult-outcome cohorts to include two-year cohorts that address early adulthood risks. This change aligns with the specified requirement for near two-year references.

Restructuring analysis

I’m rethinking our web search strategy for cohort evidence from 2024/2025, focusing on maternal hypertension, diabetes, and obesity linked to later health outcomes in offspring.

Identifying key studies

I found a 2025 study on maternal glucose levels and early adulthood metabolism. Next, I’m seeking a recent cohort study on offspring hypertension after maternal HDP. Progress is steady and focused.

Considering cohort relevance

OK, let me see. I’m evaluating recent cohort studies that align with obesity and hypertension exposures, while filtering out meta-analyses and review articles. This makes me think about their relevance and credibility.

Gathering insights

I'm synthesizing the 2025 Diabetologia cohort with 18-year outcomes and the "Frontiers Public Health" cohort from Chiang Mai. This offers a comprehensive look at maternal obesity's influence on adult cardiometabolic risk.

Assessing metabolic risk

Evaluating adult offspring body's impact on metabolic risk, with a focus on adiposity as a key factor. Considering future research on adulthood outcomes linked to prenatal preeclampsia, such as endothelial function and arterial stiffness.

Securing cohort data

I'm piecing together strong cohorts for 2024 and 2025, focusing on obesity-to-adult body composition and GDM/hyperglycemia follow-up. Hoping to find a 2024 or 2025 cohort for HDP and offspring adult risk.

Weighing references

I'm considering recent studies on GDM/hyperglycemia, childhood overweight, and maternal BMI's impact on offspring. Also, evaluating congenital heart defects and maternal obesity's effects on adult CVD risk. Progress is evident in exploring intricate connections and evaluating suitable sources.

Pulling together references

I'm gathering a small, curated list of nearly two-year references, including cohort studies like the HAPO Hong Kong 18-year follow-up and a Hypertension 2023 cohort study with detailed outcomes.

Consulting PubMed

I'm examining the PubMed entry, considering the title for a clearer understanding.

Piecing together hypertension risk

Including the 2023 Hypertension Dines et al., and linking maternal obesity to offspring CVD/hypertension. Considering AJOG 2024 on early adolescence CVH metrics.

Evaluating maternal outcomes

I'm examining AJOG 2025 cohort data to understand how maternal HDP or GDM affects offspring's early adolescence CV health. Also, I'm considering additional relevant studies to ensure a comprehensive review.

Evaluating sources

I'm balancing citations from Hypertension and examining news commentary for supporting evidence. It’s interesting to see how each source's credibility and specificity plays a role.

Evaluating evidence

I'm digging into HAPO FUS and JAMA NO 2022 data, focusing on maternal gestational C-peptide, offspring insulin measures, and maternal obesity. Exploring potential UI elements for added clarity.

Finalizing references

I'm concluding the manuscript with a comprehensive list of recent cohort studies on maternal and offspring health, ensuring clarity and relevance through the use of web.run citation format.

Detailing the assignment

I’m numbering references and positioning web.run citations at the end of each paragraph for clarity and credibility. This method ensures precise and organized citation throughout the manuscript.

Reasoned for 4m 23s

Seeking recent insights

I’m gathering data on postmenopausal women’s hypertension and metabolic risks for 2024-2025. Potential sources include UK Biobank analyses and 2024 JAMA Cardiology or European Heart Journal papers.

Taking a closer look

OK, let's delve into the Heart article from BMJ Heart, published in 2024, to see if it specifically tackles postmenopausal long-term estrogen deficiency and its cardiovascular implications.

Evaluating access options

I'm thinking through how to replace the URL in our Citavi database entry due to access issues. Opening an HTML page instead of a PDF might work better.

Tracking hypertension trends

2024 study links earlier menopause to CVD, but also points to persistent BP elevation and metabolic issues post-menopause.

Gathering insights I’m piecing together info on age groups for cumulative BP and considering a 2024 study on metabolic syndrome’s link to CVD in postmenopausal women.

Examining metabolic links

I'm mapping out relationships between cumulative metabolic issues and metabolic syndrome severity. This involves postmenopausal women and specific cardiovascular events, adding depth to our understanding.

Researching outcomes

I’m gathering recent peer-reviewed articles on postmenopausal women to link estrogen deficiency to cardiovascular outcomes. Progressing towards a longitudinal cohort study for clear, relevant data.

Pulling together context

OK, let me see. Let me pull together the Korean NHIS 2023/2024 cohort to tackle cumulative metabolic risk exposure. Looking at primary cohort studies, remember to correct any misrepresentations.

Focusing on specific cohorts

OK, let me see. This article highlights the need for cohorts of postmenopausal women with metabolic syndrome and cardiovascular events, to avoid including young adult data.

Tracking references

I'm gathering credible 2024-2025 cohort or registry studies, such as "Age of menopause and CVD" 2024 and "Korean nationwide cohort early menopause and stroke/MI risk" 2025.

Gathering evidence

OK, let's focus on postmenopausal estrogen deficiency, persistent hypertension, and cumulative metabolic issues, and their link to increased hypertension-related complications.

Hormonal shifts and health

OK, let me see. Postmenopausal women experience hormonal changes that raise stroke risk. Insulin resistance might be involved in this.

Weighing the options
Considering the use of JAMA Network Open 2024/2025 or UK Biobank 2024 for examining menopausal status and atherosclerotic CVD.

Gathering evidence

I'm noting various studies to support the association of estrogen deficiency with increased stroke risk in postmenopausal women, such as UK Biobank 2023 and Heart 2024.

Assessing cumulative BP

I’m thinking about the evidence for cumulative blood pressure (BP) and metabolic abnormalities, particularly their association with cardiovascular disease (CVD) risk in postmenopausal women.

Bulking up

OK, let me see. This study shows that hypertensive and diabetic postmenopausal women have about 2.4 times the cardiovascular disease risk compared to low-risk groups. Also, rising blood pressure linked to more heart disease and stroke cases.

Confirming citation sources

I’m gathering information on citing sources like the Public Health 2025 article. It seems acceptable, but I’m considering more references, such as Kailuan 2024 for blood pressure.

Piecing together options

I’m exploring ways to include in-text citations from the blocked resource with caution, or I could search for the mentioned 2024 study on arterial stiffness and menopause.

Evaluating CVD connections

I'm mapping out the links between menopause, arterial stiffness, and hypertension complications, such as stroke and MI, using UK Biobank and 2024 articles.

Evaluating key research

I’m reading a select pair of high-quality studies from 2024-2025, focusing on menopause-related cardiovascular disease risks. Progress is steady, and I’m noting hazard ratios in one study.

Confirmed results

OK, let's see. We've nailed down explicit numeric results for incidence and HR by age group. Considering references on arterial stiffness in postmenopausal women and CKD risk in postmenopausal hypertensive women.

Examining cardiovascular risks

I'm gathering insights from studies on how early menopause might link to higher cardiovascular disease risks. The data, including hazard ratios, will be reviewed from the provided PDF. Let's explore this connection.

Arranging citations

I’m organizing relevant citations to complete the submission, ensuring they are recent and original, and integrating key findings to support the application's arguments.

Crafting structured sections

I'm finalizing structured sections with citations, focusing on hormone deficiency, elevated BP, and metabolic abnormalities, including specific cohort details and key results.

Reasoned for 3m 55s

Scanning academic resources

I’m gathering original research on how parental genetic background impacts fetal BP regulation and metabolic phenotype, focusing on 2024-2025 studies. Progressing through cohort, GWAS, Mendelian, and placental methylation research is key.

Pinpointing the link

I'm digging into research on how parental genetic background and PRS directly influence fetal or offspring blood pressure or metabolic phenotype, including examining epigenetic mechanisms.

Starting with an issue

Noting a rate limit on OUP journal, I am pulling together a search for "polygenic risk score associated with blood pressure in children 2024" to find alternatives.

Pinpointing key terms

Hm, that's interesting. I’m tweaking my search by focusing on "genetic nurture" and "transmitted and non-transmitted alleles." Considering Kong et al.'s 2018 work, I’m curious about newer studies on parental influence.

Investigating longitudinal data

I'm curious about the blood pressure (BP) polygenic risk score (PRS) association from early childhood. Considering epigenetic mechanisms like placenta methylation and their links to BP or metabolic outcomes.

Piecing together data

I'm examining various studies from 2024 and 2025 to confirm cross-lifespan associations, genomic architecture, and epigenetic mechanisms linking parental genetic background, focusing on blood pressure risk and offspring metabolic phenotypes.

Examining epigenetic influences

I’m mapping out epigenetic links to blood pressure and metabolic risk, focusing on placental methylation and DNA methylation, while cautious of including outdated references.

Analyzing epigenetic links

I'm piecing together parental PRS and placenta methylation, then examining genetic risk's influence on epigenetic marks, specifically meQTLs, to understand their control over blood pressure and vasculature.

Mapping genetic links

I'm exploring genetics' role in placental methylation, birthweight, adult diseases, and metabolic traits, like sugar and lipid levels. Coinciding colocalizations offer valuable mechanistic insights.

Investigating genetic influences

I'm gathering insights on how parental genetic factors and epigenetics shape childhood blood pressure and metabolic traits, from early genetic risks to placental epigenetic markers.

Pulling together key research
I'm gathering original clinical papers, excluding reviews, on epigenetics, metabolic risk, and blood pressure. Each reference enriches our understanding with new findings.

Examining alternatives

He’s considering a DOAJ link to replace the current one.

Accessing the article

I’m preparing to review the study from Nature Communications on sex-differentiated placental methylation and gene expression, focusing on their link to birthweight and adult disease.

Inspecting regional medical research

I'm curious about the 2025 Pediatric Research for placental eGA and adolescent SBP.

Pulling up the study

I'm opening the Int J Mol Sci 2024 research on the effect size of "3.6 mmHg per 1-week eGA acceleration in males" to get detailed insights.

Consulting the data

OK, let me see. I’m gathering details about early childhood in the Eur J Prev Cardiol paper through alt text on Europe PMC.

Capturing summary
I'm noting the conclusion lines and emphasizing the importance of credible citations like the DOI and PRS's associations with BP differences from early life.

Locating relevant studies

I’m gauging BP-related PRS for children in "ALSPAC" and finding cardiometabolic PRS for child BMI in 2025's "Nature Medicine" to link weight trajectory predictions.

Setting the foundation

I’m mapping out references to support the genetic influence on metabolic phenotypes from early life, including BP PRS in children and placenta epigenetic markers.

Incorporating key studies

I’m adding the Eur J Prev Cardiol 2024 study for BP PRS and early child BP. Considering a JAMA Cardiology study for BP PRS in youth.

Citing relevant research

I’m pulling together citations from the Eur J Prev Cardiol 2024, exploring genetic and epigenetic transmission, and linking placental eQTL to genetic control in East Asian populations.

Noting key research

I’m gathering citations and summarizing studies on eQTL and meQTL, focusing on placenta genetic regulation, imprinting effects, and key results from Nature Communications 2025.

Focusing on genetic links

I’m gathering references on BP PRS, placenta-specific eQTLs, cold blood DNAm, and adolescent BP connections with placental epigenetics. Crafting a concise Chinese summary next.

Reasoned for 3m 44s

Piecing together guidelines

I'm gathering info on lower BP targets during pregnancy to ensure fetal perfusion, considering CHAP and ISSHP guidelines for best practices.

Enhancing with updates

Including recent meta-analyses and guidelines (2023-2024) to solidify the knowledge base with current scientific insights. This approach shows a commitment to providing up-to-date and comprehensive information.

Searching through guidelines

I'm piecing together research on ensuring uteroplacental blood flow by avoiding diastolic blood pressure (DBP) lower than 80, as recommended by ACOG and NICE.

Setting antihypertensive guidelines

I'm unpacking antihypertensive therapy boundaries, suggesting no sustained systolic pressure below 110 mm Hg or diastolic pressure under 70 mm Hg to avoid fetal perfusion issues.

Noting the references

Checking NICE guidelines for the lower limit in hypertension treatment to avoid overtreatment and fetal perfusion issues.

Evaluating target limits

I’m examining the established target of diastolic blood pressure at 85 mmHg or below to avoid severe maternal hypertension and support fetal oxygenation.

Consulting medical guidelines

NICE guideline advises against reducing below 110/70 or symptomatic hypotension. ISSHP target is 85 mmHg. CHIPS trial and CHAP trial show 85 mmHg is safe for outcomes. The PLOS One 2023 study indicates persistent hypotension is not linked to SGA.

Revisiting maternal hypotension

I’m pulling together evidence on persistent maternal hypotension and its link to SGA. BMJ 2004 hints at this, while PLoS One 2023 suggests otherwise. The 2021 AJOG MFM analysis might provide clarity.

Pinpointing the location
I’m gathering info on the article's location and consulting PubMed for additional sources.

Gathering evidence

Starting with 2021 and 2023 papers, bearing in mind the mixed findings. Guidelines suggest maintaining DBP around 85 mmHg.

Consulting guidelines

I’m piecing together ESH 2023, NICE NG133, ISSHP 2021, RCT CHIPS, and RCT CHAP to determine the safe lower blood pressure threshold to ensure fetal perfusion.

Compiling references

I’m gathering citations from recent guidelines and studies, ensuring precision and relevance to form a comprehensive list of sources for the final answer. This includes RCTs, cohort studies, and notable guidelines.

Piecing together

I’m gathering info from Elsevier and MDPI, ensuring the understanding of uteroplacental circulation's pressure dependence. This supports the guideline to avoid reducing maternal diastolic BP to ensure fetal perfusion.

Analyzing HTML formatting
I’m pulling up the NEJM summary page to analyze its HTML structure and elements.

Confirming guidelines

I’m mapping out international guidelines on blood pressure targets and lower boundaries for gestational hypertension, focusing on avoiding diastolic blood pressure below 80 mmHg to ensure fetal perfusion.

Reasoned for 5m 41s