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Poor in utero growth and reduced b-cell compensation and high fasting glucose from childhood are harbingers of glucose intolerance in young Indians

Poor in utero growth and reduced b-cell compensation and high fasting glucose from childhood are harbingers of glucose intolerance in young Indians
Poor in utero growth and reduced b-cell compensation and high fasting glucose from childhood are harbingers of glucose intolerance in young Indians
OBJECTIVE India is a double world capital of early-life undernutrition and type 2 diabetes. We aimed to characterize life course growth and metabolic trajectories in those developing glucose intolerance as young adults in the Pune Maternal Nutrition Study (PMNS).
RESEARCH DESIGN AND METHODS PMNS is a community-based intergenerational birth cohort established in 1993, with serial information on parents and children through pregnancy, childhood, and adolescence. We compared normal glucose-tolerant and glucose-intolerant participants for serial growth, estimates of insulin sensitivity and secretion (HOMA and dynamic indices), and β-cell compensation accounting for prevailing insulin sensitivity.RESULTS At 18 years (N = 619), 37% of men and 20% of women were glucose intolerant (prediabetes n = 184; diabetes n = 1) despite 48% being underweight (BMI <18.5 kg/m2). Glucose-intolerant participants had higher fasting glucose from childhood. Mothers of glucose-intolerant participants had higher glycemia in pregnancy. Glucose-intolerant participants were shorter at birth. Insulin sensitivity decreased with age in all participants, and those with glucose intolerance had consistently lower compensatory insulin secretion from childhood. Participants in the highest quintile of fasting glucose at 6 and 12 years had 2.5- and 4.0-fold higher risks, respectively, of 18-year glucose intolerance; this finding was replicated in two other cohorts.
CONCLUSION Inadequate compensatory insulin secretory response to decreasing insulin sensitivity in early life is the major pathophysiology underlying glucose intolerance in thin rural Indians. Smaller birth size, maternal pregnancy hyperglycemia, and higher glycemia from childhood herald future glucose intolerance, mandating a strategy for diabetes prevention from early life, preferably intergenerationally.
1935-5548
Yajnik, Chittaranjan S.
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Bandopadhyay, S.
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Bhalerao, Aboli
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Bhat, Dattatray S.
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Phatak, Sanat B.
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Wagh, Rucha H.
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Yajnik, Pallavi
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Pandit, Anand N.
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Bhave, Sheila A.
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Coyaji, Kurus
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Kumaran, Kalyanaraman
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Osmond, Clive
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Fall, Caroline
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Yajnik, Chittaranjan S.
f5777038-bba7-49bd-80b9-be4e586eecf4
Bandopadhyay, S.
4389b429-f56c-4de4-aaa3-bb4c32f0bcc7
Bhalerao, Aboli
d8c1cc8c-e1d6-46e4-8351-4abd4b801878
Bhat, Dattatray S.
b3b571d2-72af-4d0f-8cfd-5ec82733147f
Phatak, Sanat B.
d83263fb-de08-4ebc-9b00-256a47dc84b1
Wagh, Rucha H.
1ad21721-25eb-4622-a181-338c46e8ace5
Yajnik, Pallavi
8e0944e6-3539-458e-9947-586745abe2ff
Pandit, Anand N.
1f7497a8-c229-42bd-84bb-179b874483a5
Bhave, Sheila A.
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Coyaji, Kurus
d3f9b218-ee36-4031-868d-5f6c41067932
Kumaran, Kalyanaraman
de6f872c-7339-4a52-be84-e3bbae707744
Osmond, Clive
2677bf85-494f-4a78-adf8-580e1b8acb81
Fall, Caroline
7171a105-34f5-4131-89d7-1aa639893b18

Yajnik, Chittaranjan S., Bandopadhyay, S., Bhalerao, Aboli, Bhat, Dattatray S., Phatak, Sanat B., Wagh, Rucha H., Yajnik, Pallavi, Pandit, Anand N., Bhave, Sheila A., Coyaji, Kurus, Kumaran, Kalyanaraman, Osmond, Clive and Fall, Caroline (2021) Poor in utero growth and reduced b-cell compensation and high fasting glucose from childhood are harbingers of glucose intolerance in young Indians. Diabetes Care, 44 (11). (doi:10.2337/dc20-3026).

Record type: Article

Abstract

OBJECTIVE India is a double world capital of early-life undernutrition and type 2 diabetes. We aimed to characterize life course growth and metabolic trajectories in those developing glucose intolerance as young adults in the Pune Maternal Nutrition Study (PMNS).
RESEARCH DESIGN AND METHODS PMNS is a community-based intergenerational birth cohort established in 1993, with serial information on parents and children through pregnancy, childhood, and adolescence. We compared normal glucose-tolerant and glucose-intolerant participants for serial growth, estimates of insulin sensitivity and secretion (HOMA and dynamic indices), and β-cell compensation accounting for prevailing insulin sensitivity.RESULTS At 18 years (N = 619), 37% of men and 20% of women were glucose intolerant (prediabetes n = 184; diabetes n = 1) despite 48% being underweight (BMI <18.5 kg/m2). Glucose-intolerant participants had higher fasting glucose from childhood. Mothers of glucose-intolerant participants had higher glycemia in pregnancy. Glucose-intolerant participants were shorter at birth. Insulin sensitivity decreased with age in all participants, and those with glucose intolerance had consistently lower compensatory insulin secretion from childhood. Participants in the highest quintile of fasting glucose at 6 and 12 years had 2.5- and 4.0-fold higher risks, respectively, of 18-year glucose intolerance; this finding was replicated in two other cohorts.
CONCLUSION Inadequate compensatory insulin secretory response to decreasing insulin sensitivity in early life is the major pathophysiology underlying glucose intolerance in thin rural Indians. Smaller birth size, maternal pregnancy hyperglycemia, and higher glycemia from childhood herald future glucose intolerance, mandating a strategy for diabetes prevention from early life, preferably intergenerationally.

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Accepted/In Press date: 6 September 2021
e-pub ahead of print date: 5 October 2021

Identifiers

Local EPrints ID: 452495
URI: http://eprints.soton.ac.uk/id/eprint/452495
ISSN: 1935-5548
PURE UUID: 89adc2f3-06d0-49f5-8134-52ced263b730
ORCID for Clive Osmond: ORCID iD orcid.org/0000-0002-9054-4655
ORCID for Caroline Fall: ORCID iD orcid.org/0000-0003-4402-5552

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Date deposited: 11 Dec 2021 11:20
Last modified: 17 Mar 2024 02:42

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Contributors

Author: Chittaranjan S. Yajnik
Author: S. Bandopadhyay
Author: Aboli Bhalerao
Author: Dattatray S. Bhat
Author: Sanat B. Phatak
Author: Rucha H. Wagh
Author: Pallavi Yajnik
Author: Anand N. Pandit
Author: Sheila A. Bhave
Author: Kurus Coyaji
Author: Clive Osmond ORCID iD
Author: Caroline Fall ORCID iD

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