The placenta is the center of the chronic disease universe

Over the past quarter century it has become clear that adult onset chronic diseases like heart disease and type 2 diabetes have their roots in early development. The report by David Barker and colleagues showing an inverse relationship between birthweight and mortality from ischemic heart disease wa...

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Veröffentlicht in:	American journal of obstetrics and gynecology 2015-10, Vol.213 (4), p.S14-S20
Hauptverfasser:	Thornburg, Kent L., PhD, Marshall, Nicole, MD
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Sprache:	eng
Schlagworte:	Animals Birth Weight Cardiovascular Diseases - etiology Chorioamnionitis - physiopathology Chronic Disease Female Fetal Development - physiology Glucocorticoids - metabolism Humans Male Obstetrics and Gynecology Organ Size Placenta - anatomy & histology Placenta - pathology Placenta - physiology Pregnancy Risk Factors Stress, Physiological - physiology
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creator	Thornburg, Kent L., PhD Marshall, Nicole, MD
description	Over the past quarter century it has become clear that adult onset chronic diseases like heart disease and type 2 diabetes have their roots in early development. The report by David Barker and colleagues showing an inverse relationship between birthweight and mortality from ischemic heart disease was the first clear-cut demonstration of fetal programming. Because fetal growth depends upon the placental capacity to transport nutrients from maternal blood, it has been a suspected causative agent since the original Barker reports. Epidemiological studies have shown that placental size and shape have powerful associations with offspring disease. More recent studies have shown that maternal phenotypic characteristics, such as body mass index and height, interact with placental size and shape to predict disease with much more precision than does birthweight alone. For example, among people in the Helsinki Birth Cohort, who were born during 1924–1944, the risk for acquiring colorectal cancer increased as the placental surface became longer and more oval. Among people in whom the difference between the length and breadth of the surface exceeded 6 cm, the hazard ratio for the cancer was 2.3 (95% CI 1.2–4.7, p=0.003) compared with those in whom there was no difference. Among Finnish men, the hazard ratio for coronary heart disease was 1.07 (1.02–1.13, P =0.01) per 1% increase in the placental weight/birthweight ratio. Thus, it appears that the ratio of birthweight to placental weight, known as placental efficiency, predicts cardiovascular risk as well. Babies born with placentas at the extremes of efficiency are more vulnerable for adult onset chronic diseases. Recent evidence suggests that placental growth patterns are sex specific. Boys’ placentas are, in general, more efficient than those made by girls. Another recent discovery is that the size, shape and efficiencies of the placenta can change over years of time with very narrow confidence limits. This suggests that the growth of the placenta within a population of women is strongly affected by their nutritional environment. Even though it is known that an individual placenta can expand to improve its nutrient acquisition capacity in the first 2/3 rd of gestation, the mechanisms by which placentas grow in response to a specific nutritional environment are not known. Discovering those mechanisms is the task of the current generation of scientists. While it may seem obvious that good nutrition is highly important
doi_str_mv	10.1016/j.ajog.2015.08.030
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The report by David Barker and colleagues showing an inverse relationship between birthweight and mortality from ischemic heart disease was the first clear-cut demonstration of fetal programming. Because fetal growth depends upon the placental capacity to transport nutrients from maternal blood, it has been a suspected causative agent since the original Barker reports. Epidemiological studies have shown that placental size and shape have powerful associations with offspring disease. More recent studies have shown that maternal phenotypic characteristics, such as body mass index and height, interact with placental size and shape to predict disease with much more precision than does birthweight alone. For example, among people in the Helsinki Birth Cohort, who were born during 1924–1944, the risk for acquiring colorectal cancer increased as the placental surface became longer and more oval. Among people in whom the difference between the length and breadth of the surface exceeded 6 cm, the hazard ratio for the cancer was 2.3 (95% CI 1.2–4.7, p=0.003) compared with those in whom there was no difference. Among Finnish men, the hazard ratio for coronary heart disease was 1.07 (1.02–1.13, P =0.01) per 1% increase in the placental weight/birthweight ratio. Thus, it appears that the ratio of birthweight to placental weight, known as placental efficiency, predicts cardiovascular risk as well. Babies born with placentas at the extremes of efficiency are more vulnerable for adult onset chronic diseases. Recent evidence suggests that placental growth patterns are sex specific. Boys’ placentas are, in general, more efficient than those made by girls. Another recent discovery is that the size, shape and efficiencies of the placenta can change over years of time with very narrow confidence limits. This suggests that the growth of the placenta within a population of women is strongly affected by their nutritional environment. Even though it is known that an individual placenta can expand to improve its nutrient acquisition capacity in the first 2/3 rd of gestation, the mechanisms by which placentas grow in response to a specific nutritional environment are not known. Discovering those mechanisms is the task of the current generation of scientists. 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The report by David Barker and colleagues showing an inverse relationship between birthweight and mortality from ischemic heart disease was the first clear-cut demonstration of fetal programming. Because fetal growth depends upon the placental capacity to transport nutrients from maternal blood, it has been a suspected causative agent since the original Barker reports. Epidemiological studies have shown that placental size and shape have powerful associations with offspring disease. More recent studies have shown that maternal phenotypic characteristics, such as body mass index and height, interact with placental size and shape to predict disease with much more precision than does birthweight alone. For example, among people in the Helsinki Birth Cohort, who were born during 1924–1944, the risk for acquiring colorectal cancer increased as the placental surface became longer and more oval. Among people in whom the difference between the length and breadth of the surface exceeded 6 cm, the hazard ratio for the cancer was 2.3 (95% CI 1.2–4.7, p=0.003) compared with those in whom there was no difference. Among Finnish men, the hazard ratio for coronary heart disease was 1.07 (1.02–1.13, P =0.01) per 1% increase in the placental weight/birthweight ratio. Thus, it appears that the ratio of birthweight to placental weight, known as placental efficiency, predicts cardiovascular risk as well. Babies born with placentas at the extremes of efficiency are more vulnerable for adult onset chronic diseases. Recent evidence suggests that placental growth patterns are sex specific. Boys’ placentas are, in general, more efficient than those made by girls. Another recent discovery is that the size, shape and efficiencies of the placenta can change over years of time with very narrow confidence limits. This suggests that the growth of the placenta within a population of women is strongly affected by their nutritional environment. Even though it is known that an individual placenta can expand to improve its nutrient acquisition capacity in the first 2/3 rd of gestation, the mechanisms by which placentas grow in response to a specific nutritional environment are not known. Discovering those mechanisms is the task of the current generation of scientists. While it may seem obvious that good nutrition is highly important for women who are pregnant because it supports optimal placentation and fetal development, more research is needed to determine the mechanisms by which maternal nutrition, placenta growth and fetal health are related.</description><subject>Animals</subject><subject>Birth Weight</subject><subject>Cardiovascular Diseases - etiology</subject><subject>Chorioamnionitis - physiopathology</subject><subject>Chronic Disease</subject><subject>Female</subject><subject>Fetal Development - physiology</subject><subject>Glucocorticoids - metabolism</subject><subject>Humans</subject><subject>Male</subject><subject>Obstetrics and Gynecology</subject><subject>Organ Size</subject><subject>Placenta - anatomy & histology</subject><subject>Placenta - pathology</subject><subject>Placenta - physiology</subject><subject>Pregnancy</subject><subject>Risk Factors</subject><subject>Stress, Physiological - physiology</subject><issn>0002-9378</issn><issn>1097-6868</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kd1q3DAQhUVJaTZpX6AXxS9gdyTZ-gkhEJakKQR60fR6kOVRVq5jL9LuQt4-NtuGthe9EgfNOTPzDWMfOVQcuPrcV66fHisBvKnAVCDhDVtxsLpURpkTtgIAUVqpzSk7y7lfpLDiHTsVqhamtvWKXTxsqNgOztO4c0XMxW7Wi6BUTOGoNmkaoy-6mMllKvZjPFDK9J69DW7I9OHXe85-3N48rO_K-29fvq6v70tfa70rXc2l1dKYpmlMIK6VtzxQq0JrySkfAtecrDG2JVlr5XzdSdU4aEUAHbg8Z1fH3O2-faJuGS65AbcpPrn0jJOL-PfPGDf4OB2wbqxU3M4B4hjg05RzovDq5YALSexxIYkLSQSDM8nZ9OnPrq-W3-jmgstjAc27HyIlzD7S6KmLifwOuyn-P__qH7sf4ozZDT_pmXI_7dM4U0WOWSDg9-V4yyl5A2CsAvkCvSeacw</recordid><startdate>20151001</startdate><enddate>20151001</enddate><creator>Thornburg, Kent L., PhD</creator><creator>Marshall, Nicole, MD</creator><general>Elsevier Inc</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>5PM</scope></search><sort><creationdate>20151001</creationdate><title>The placenta is the center of the chronic disease universe</title><author>Thornburg, Kent L., PhD ; Marshall, Nicole, MD</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c477t-a413973885558fe176c91feb6fb9ea6cff171e9889be3476ac4d365a0b2f07f13</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2015</creationdate><topic>Animals</topic><topic>Birth Weight</topic><topic>Cardiovascular Diseases - etiology</topic><topic>Chorioamnionitis - physiopathology</topic><topic>Chronic Disease</topic><topic>Female</topic><topic>Fetal Development - physiology</topic><topic>Glucocorticoids - metabolism</topic><topic>Humans</topic><topic>Male</topic><topic>Obstetrics and Gynecology</topic><topic>Organ Size</topic><topic>Placenta - anatomy & histology</topic><topic>Placenta - pathology</topic><topic>Placenta - physiology</topic><topic>Pregnancy</topic><topic>Risk Factors</topic><topic>Stress, Physiological - physiology</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Thornburg, Kent L., PhD</creatorcontrib><creatorcontrib>Marshall, Nicole, MD</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>American journal of obstetrics and gynecology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Thornburg, Kent L., PhD</au><au>Marshall, Nicole, MD</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>The placenta is the center of the chronic disease universe</atitle><jtitle>American journal of obstetrics and gynecology</jtitle><addtitle>Am J Obstet Gynecol</addtitle><date>2015-10-01</date><risdate>2015</risdate><volume>213</volume><issue>4</issue><spage>S14</spage><epage>S20</epage><pages>S14-S20</pages><issn>0002-9378</issn><eissn>1097-6868</eissn><abstract>Over the past quarter century it has become clear that adult onset chronic diseases like heart disease and type 2 diabetes have their roots in early development. The report by David Barker and colleagues showing an inverse relationship between birthweight and mortality from ischemic heart disease was the first clear-cut demonstration of fetal programming. Because fetal growth depends upon the placental capacity to transport nutrients from maternal blood, it has been a suspected causative agent since the original Barker reports. Epidemiological studies have shown that placental size and shape have powerful associations with offspring disease. More recent studies have shown that maternal phenotypic characteristics, such as body mass index and height, interact with placental size and shape to predict disease with much more precision than does birthweight alone. For example, among people in the Helsinki Birth Cohort, who were born during 1924–1944, the risk for acquiring colorectal cancer increased as the placental surface became longer and more oval. Among people in whom the difference between the length and breadth of the surface exceeded 6 cm, the hazard ratio for the cancer was 2.3 (95% CI 1.2–4.7, p=0.003) compared with those in whom there was no difference. Among Finnish men, the hazard ratio for coronary heart disease was 1.07 (1.02–1.13, P =0.01) per 1% increase in the placental weight/birthweight ratio. Thus, it appears that the ratio of birthweight to placental weight, known as placental efficiency, predicts cardiovascular risk as well. Babies born with placentas at the extremes of efficiency are more vulnerable for adult onset chronic diseases. Recent evidence suggests that placental growth patterns are sex specific. Boys’ placentas are, in general, more efficient than those made by girls. Another recent discovery is that the size, shape and efficiencies of the placenta can change over years of time with very narrow confidence limits. This suggests that the growth of the placenta within a population of women is strongly affected by their nutritional environment. Even though it is known that an individual placenta can expand to improve its nutrient acquisition capacity in the first 2/3 rd of gestation, the mechanisms by which placentas grow in response to a specific nutritional environment are not known. Discovering those mechanisms is the task of the current generation of scientists. While it may seem obvious that good nutrition is highly important for women who are pregnant because it supports optimal placentation and fetal development, more research is needed to determine the mechanisms by which maternal nutrition, placenta growth and fetal health are related.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>26428494</pmid><doi>10.1016/j.ajog.2015.08.030</doi><oa>free_for_read</oa></addata></record>
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subjects	Animals Birth Weight Cardiovascular Diseases - etiology Chorioamnionitis - physiopathology Chronic Disease Female Fetal Development - physiology Glucocorticoids - metabolism Humans Male Obstetrics and Gynecology Organ Size Placenta - anatomy & histology Placenta - pathology Placenta - physiology Pregnancy Risk Factors Stress, Physiological - physiology
title	The placenta is the center of the chronic disease universe
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