Literature DB >> 8310994

Severe or marginal iron deficiency affects spontaneous physical activity in rats.

J R Hunt1, C A Zito, J Erjavec, L K Johnson.   

Abstract

The influence of dietary iron on spontaneous activity was investigated in growing rats. Male rats weighing 97 +/- 10 g fed diets containing 4.6 (deficient), 19.9 (marginal), and 108.4 (adequate) mg Fe/kg diet for 8 wks had hemoglobin values of 52 +/- 6, 152 +/- 4, and 159 +/- 6 g/L, and liver nonheme iron concentrations of 0.79 +/- 0.24, 1.36 +/- 0.39, and 4.58 +/- 0.62 mumol/g, respectively. Body weights were affected only at the lowest iron intake. Diurnal activity was not reversed by iron status; all animals were more active during the dark cycle than the light cycle. Iron deficiency resulted in less time and frequency of horizontal, vertical, and stereotypic movements; less distance moved; and less frequent rotations. Movement speed of iron-deficient rats was faster during early iron deficiency. In the light, rats with marginal iron nutriture were generally more active than were iron-deficient or iron-adequate animals. In the dark, activity generally decreased with each reduction in dietary iron.

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Year:  1994        PMID: 8310994     DOI: 10.1093/ajcn/59.2.413

Source DB:  PubMed          Journal:  Am J Clin Nutr        ISSN: 0002-9165            Impact factor:   7.045


  13 in total

1.  Iron deficiency anemia in infancy exerts long-term effects on the tibialis anterior motor activity during sleep in childhood.

Authors:  Patricio Peirano; Cecilia Algarin; Rodrigo Chamorro; Mauro Manconi; Betsy Lozoff; Raffaele Ferri
Journal:  Sleep Med       Date:  2012-07-04       Impact factor: 3.492

2.  Severe postnatal iron deficiency alters emotional behavior and dopamine levels in the prefrontal cortex of young male rats.

Authors:  Yuan Li; Jonghan Kim; Peter D Buckett; Mark Böhlke; Timothy J Maher; Marianne Wessling-Resnick
Journal:  J Nutr       Date:  2011-10-19       Impact factor: 4.798

3.  The content of essential and toxic elements in the hair of the mane of the trotter horses depending on their speed.

Authors:  Valeriy Kalashnikov; Aleksandr Zajcev; Mihail Atroshchenko; Sergey Miroshnikov; Alexey Frolov; Oleg Zav'yalov; Liliya Kalinkova; Tatyana Kalashnikova
Journal:  Environ Sci Pollut Res Int       Date:  2018-05-24       Impact factor: 4.223

4.  Metal bashing: iron deficiency and manganese overexposure impact on peripheral nerves.

Authors:  Robyn M Amos-Kroohs; Vanina Usach; Gonzalo Piñero; Charles V Vorhees; Rocío Martinez Vivot; Paula A Soto; Michael T Williams; Patricia Setton-Avruj
Journal:  J Toxicol Environ Health A       Date:  2019-01-17

5.  Persistent neurochemical and behavioral abnormalities in adulthood despite early iron supplementation for perinatal iron deficiency anemia in rats.

Authors:  Barbara T Felt; John L Beard; Timothy Schallert; Jie Shao; J Wayne Aldridge; James R Connor; Michael K Georgieff; Betsy Lozoff
Journal:  Behav Brain Res       Date:  2006-05-19       Impact factor: 3.332

6.  Motor activity and intra-individual variability according to sleep-wake states in preschool-aged children with iron-deficiency anemia in infancy.

Authors:  R M Angulo-Barroso; P Peirano; C Algarin; N Kaciroti; B Lozoff
Journal:  Early Hum Dev       Date:  2013-09-14       Impact factor: 2.079

7.  Iron deficiency anemia in infancy is associated with altered temporal organization of sleep states in childhood.

Authors:  Patricio D Peirano; Cecilia R Algarín; Marcelo I Garrido; Betsy Lozoff
Journal:  Pediatr Res       Date:  2007-12       Impact factor: 3.756

8.  Developmental manganese exposure in combination with developmental stress and iron deficiency: Effects on behavior and monoamines.

Authors:  Robyn M Amos-Kroohs; Laurie L Davenport; Arnold Gutierrez; Jillian R Hufgard; Charles V Vorhees; Michael T Williams
Journal:  Neurotoxicol Teratol       Date:  2016-06-11       Impact factor: 3.763

9.  Iron-responsive olfactory uptake of manganese improves motor function deficits associated with iron deficiency.

Authors:  Jonghan Kim; Yuan Li; Peter D Buckett; Mark Böhlke; Khristy J Thompson; Masaya Takahashi; Timothy J Maher; Marianne Wessling-Resnick
Journal:  PLoS One       Date:  2012-03-30       Impact factor: 3.240

10.  Effects of developmental exposure to manganese and/or low iron diet: Changes to metal transporters, sucrose preference, elevated zero-maze, open-field, and locomotion in response to fenfluramine, amphetamine, and MK-801.

Authors:  Robyn M Amos-Kroohs; Colin P Bloor; Momina A Qureshi; Charles V Vorhees; Michael T Williams
Journal:  Toxicol Rep       Date:  2015
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