Consequences of Low Neonatal Iron Status Due to Maternal Diabetes Mellitus on Explicit Memory Performance in Childhood

Riggins, Tracy; Miller, Neely C.; Bauer, Patricia J.; Georgieff, Michael; Nelson, Charles A.

doi:10.1080/87565640903265145

Cited by 94 publications

(91 citation statements)

References 57 publications

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“…In relation to memory tasks, poor performance by infants born to gestational diabetes mothers in auditory recognition memory at birth, 26 visual recognition memory at 6 months, 27 cross-modal memory at 8 months, 28 and delayed recall at 12 months, 29 as well as lower performance on immediate recall and delayed recall on tasks with high memory demands at 3½ years of age, 30 have all been reported previously. A recent study that included only gestational diabetes children reported lower performance at 6 months on recognition memory assessed by a Visual Habituation paradigm, but not on short memory at 60 months.…”

Section: Discussionmentioning

confidence: 80%

Neuropsychological Impairment in School-Aged Children Born to Mothers With Gestational Diabetes

et al. 2015

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The aim of this study was to determine whether school-aged children born to mothers with gestational diabetes show delays in their neuropsychological development. Several key neuropsychological characteristics of 32 children aged 7 to 9 years born to mothers with gestational diabetes were examined by comparing their performance on cognitive tasks to that of 28 children aged 8 to 10 years whose mothers had glucose levels within normal limits during pregnancy. The gestational diabetes group showed low performance on graphic, spatial, and bimanual skills and a higher presence of soft neurologic signs. Lower scores for general intellectual level and the working memory index were also evident. Our results suggest that gestational diabetes is associated with mild cognitive impairment.

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Section: Discussionmentioning

confidence: 80%

Neuropsychological Impairment in School-Aged Children Born to Mothers With Gestational Diabetes

et al. 2015

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“…In contrast to adults, however, early life ID populations continue to demonstrate wide-ranging learning and memory deficits following iron repletion. For example, 3.5-yold children who had been iron deficient at birth exhibited impaired recall memory during elicited imitation tasks and their degree of learning and memory impairment was directly correlated to the degree of ID at birth (8). At 5 y of age, children who were born with low iron stores showed decreased language development, fine motor skills, and tractability relative to children with normal iron stores at birth (22).…”

Section: Current State Of Knowledgementioning

confidence: 97%

“…In humans, early life ID (i.e. late gestation through 2-3 y of age) results in learning and memory deficits that persist beyond the period of ID despite prompt iron treatment (7)(8)(9), findings supported by rodent models of early ID anemia (IDA) (10,11). There are at least 2 types of memory: declarative (or explicit) and nondeclarative (or implicit) (12).…”

Section: Introductionmentioning

confidence: 97%

The Role of Iron in Learning and Memory

Fretham

Carlson

Georgieff

2011

Advances in Nutrition

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198

147

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Iron deficiency (ID) is the most common nutrient deficiency, affecting 2 billion people and 30% of pregnant women and their offspring. Early life ID affects at least 3 major neurobehavioral domains, including speed of processing, affect, and learning and memory, the latter being particularly prominent. The learning and memory deficits occur while the infants are iron deficient and persist despite iron repletion. The neural mechanisms underlying the short- and long-term deficits are being elucidated. Early ID alters the transcriptome, metabolome, structure, intracellular signaling pathways, and electrophysiology of the developing hippocampus, the brain region responsible for recognition learning and memory. Until recently, it was unclear whether these effects are directly due to a lack of iron interacting with important transcriptional, translational, or post-translational processes or to indirect effects such as hypoxia due to anemia or stress. Nonanemic genetic mouse models generated by conditionally altering expression of iron transport proteins specifically in hippocampal neurons in late gestation have led to a greater understanding of iron's role in learning and memory. The learning deficits in adulthood likely result from interactions between direct and indirect effects that contribute to abnormal hippocampal structure and plasticity.

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“…While diabetes mellitus during pregnancy confers multiple risks to fetal neurodevelopment besides iron deficiency (e.g., hypoglycemia and hypoxia), these factors were controlled for in this series of studies [40]. In 3.5-year-olds whose neonatal ID had resolved, those with lower serum ferritin concentrations at birth had poorer immediate, delayed, and working memory [41]. * Indeed, the poorness of their performance was directly related to their degree of neonatal ID.…”

Section: Observational Studies Of Fetal/neonatal Idmentioning

confidence: 99%

Striking While the Iron is Hot: Understanding the Biological and Neurodevelopmental Effects of Iron Deficiency to Optimize Intervention in Early Childhood

Doom

Georgieff

2014

Curr Pediatr Rep

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Prenatal and early postnatal iron deficiency (ID) is associated with long-term neurobiological alterations and disruptions in cognitive, social, and behavioral development. Early life ID is particularly detrimental as this is a period of rapid neurodevelopment. Even after iron supplementation, cognitive and social disruptions often persist in formerly iron deficient individuals. Observational studies of the acute and long-term effects of early life ID yield different results based on the timing of ID. Further, intervention studies demonstrate some improvement for certain domains but still show residual effects years later, which are dependent on the timing of ID and treatment. This review will cover the effects of ID during infancy and early childhood on brain structure and function, cognition, and behavior in relation to preclinical models of ID and sensitive periods of human brain development.

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Consequences of Low Neonatal Iron Status Due to Maternal Diabetes Mellitus on Explicit Memory Performance in Childhood

Cited by 94 publications

References 57 publications

Neuropsychological Impairment in School-Aged Children Born to Mothers With Gestational Diabetes

Neuropsychological Impairment in School-Aged Children Born to Mothers With Gestational Diabetes

The Role of Iron in Learning and Memory

Striking While the Iron is Hot: Understanding the Biological and Neurodevelopmental Effects of Iron Deficiency to Optimize Intervention in Early Childhood

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