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Journal articles on the topic 'Non exercise activity thermogenesis-NEAT'

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Published: 4 June 2021
Last updated: 13 February 2022

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1

Levine, James A. "Non-Exercise Activity Thermogenesis (NEAT)." Nutrition Reviews 62 (July 2004): S82—S97. http://dx.doi.org/10.1111/j.1753-4887.2004.tb00094.x.

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2

Levine, James A. "Non-Exercise Activity Thermogenesis (NEAT)." Nutrition Reviews 62, no. 7 (2004): 82–97. http://dx.doi.org/10.1301/nr.2004.jul.s82-s97.

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3

Levine, James A. "Non-exercise activity thermogenesis (NEAT)." Best Practice & Research Clinical Endocrinology & Metabolism 16, no. 4 (2002): 679–702. http://dx.doi.org/10.1053/beem.2002.0227.

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4

Levine, James A. "Non-exercise activity thermogenesis." Proceedings of the Nutrition Society 62, no. 3 (2003): 667–79. http://dx.doi.org/10.1079/pns2003281.

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Non-exercise activity thermogenesis (NEAT) is the energy expended that is not from sleeping, eating or sports-like exercise. It ranges from the energy expended walking to work, typing, performing yard work, undertaking agricultural tasks and fidgeting. NEAT can be measured by one of two approaches. The first approach is to measure or estimate total NEAT. Here, total daily energy expenditure is measured and from it is subtracted BMR + thermic effect of food. The second is the factoral approach whereby the components of NEAT are quantified and total NEAT calculated by summing these components. T
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5

Scott, Haley M., Tess N. Tyton, and Craig A. Horswill. "OCCUPATIONAL SEDENTARY BEHAVIOR AND SOLUTIONS TO INCREASE NON-EXERCISE ACTIVITY THERMOGENESIS." Pensar en Movimiento: Revista de Ciencias del Ejercicio y la Salud 14, no. 2 (2016): 1–21. http://dx.doi.org/10.15517/pensarmov.v14i2.23644.

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As the prevalence of obesity rises worldwide, researchers pursue explanations for the phenomenon, particularly those relevant to energy expenditure. Non-exercise activity thermogenesis, or NEAT, has been identified as an inconspicuous but appreciable component of total daily energy expenditure. Demands of certain occupations discourage time for planned physical activity and clearly diminish NEAT, and thereby contribute to sedentary behaviors that underlie increased adiposity. Prolonged sitting during the workday has specifically been identified as a risk factor for obesity and chronic disease
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6

Chung, Nana, Jisu Kim, Hun-Young Park, et al. "Non-exercise Activity Thermogenesis(NEAT) as a Strategy to Increase Energy Expenditure." Korean Journal of Sport Studies 57, no. 5 (2018): 431–39. http://dx.doi.org/10.23949/kjpe.2018.09.57.5.31.

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7

Chung, Nana, Mi-Young Park, Jisu Kim, et al. "Non-exercise activity thermogenesis (NEAT): a component of total daily energy expenditure." Journal of Exercise Nutrition & Biochemistry 22, no. 2 (2018): 23–30. http://dx.doi.org/10.20463/jenb.2018.0013.

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8

Levine, James A., Mark W. Vander Weg, James O. Hill, and Robert C. Klesges. "Non-Exercise Activity Thermogenesis." Arteriosclerosis, Thrombosis, and Vascular Biology 26, no. 4 (2006): 729–36. http://dx.doi.org/10.1161/01.atv.0000205848.83210.73.

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9

Horswill, Craig A., Haley M. Scott, and Danel M. Voorhees. "Effect of a novel workstation device on promoting non-exercise activity thermogenesis (NEAT)." Work 58, no. 4 (2017): 447–54. http://dx.doi.org/10.3233/wor-172640.

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10

Levine, J. A., and C. M. Kotz. "NEAT - non-exercise activity thermogenesis - egocentric & geocentric environmental factors vs. biological regulation." Acta Physiologica Scandinavica 184, no. 4 (2005): 309–18. http://dx.doi.org/10.1111/j.1365-201x.2005.01467.x.

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11

Harris, Ann M., Leslie R. MacBride, Randal C. Foster, Shelly K. McCrady, and James A. Levine. "Does non-exercise activity thermogenesis contribute to non-shivering thermogenesis?" Journal of Thermal Biology 31, no. 8 (2006): 634–38. http://dx.doi.org/10.1016/j.jtherbio.2006.08.007.

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12

Silva, Analiza M., Pedro B. Júdice, Eliana V. Carraça, Neil King, Pedro J. Teixeira, and Luís B. Sardinha. "What is the effect of diet and/or exercise interventions on behavioural compensation in non-exercise physical activity and related energy expenditure of free-living adults? A systematic review." British Journal of Nutrition 119, no. 12 (2018): 1327–45. http://dx.doi.org/10.1017/s000711451800096x.

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AbstractNon-exercise physical activity (NEPA) and/or non-exercise activity thermogenesis (NEAT) reductions may occur from diet and/or exercise-induced negative energy balance interventions, resulting in less-than-expected weight loss. This systematic review describes the effects of prescribed diet and/or physical activity (PA)/exercise on NEPA and/or NEAT in adults. Studies were identified from PubMed, web-of-knowledge, Embase, SPORTDiscus, ERIC and PsycINFO searches up to 1 March 2017. Eligibility criteria included randomised controlled trials (RCT), randomised trials (RT) and non-randomised
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13

Levine, James A., Mark W. Vander Weg, and Robert C. Klesges. "Increasing Non-Exercise Activity Thermogenesis: A NEAT Way to Increase Energy Expenditure in Your Patients." Obesity Management 2, no. 4 (2006): 146–51. http://dx.doi.org/10.1089/obe.2006.2.146.

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14

Jaspers, Jan. "Overgewicht en Non-Exercise Activity Thermogenesis." Psychologie en Gezondheid, jaargang 2007 35, no. 3 (2007): 104. http://dx.doi.org/10.1007/bf03071775.

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15

Malaeb, Samar, Claudio Esteban Perez-Leighton, Emily E. Noble, and Charles Billington. "A “NEAT” Approach to Obesity Prevention in the Modern Work Environment." Workplace Health & Safety 67, no. 3 (2018): 102–10. http://dx.doi.org/10.1177/2165079918790980.

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Increased prevalence of obesity may be due to an increase of being sedentary at work. Increasing non-exercise activity thermogenesis (NEAT) using walking workstations may increase total physical activity and promote a leaner physical body composition (or phenotype). The purpose of this study was to test whether walking slowly during work was sufficient to promote a leaner phenotype by increasing physical activity in sedentary desk workers without inducing compensation or a decrease in activity or energy expenditure during the nonworking hours. We conducted a prospective cohort study using a wi
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16

Jung, Won-Sang, Hun-Young Park, Sung-Woo Kim, Jisu Kim, Hyejung Hwang, and Kiwon Lim. "Prediction of non-exercise activity thermogenesis (NEAT) using multiple linear regression in healthy Korean adults: a preliminary study." Physical Activity and Nutrition 25, no. 1 (2021): 23–29. http://dx.doi.org/10.20463/pan.2021.0004.

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17

Teske, J. A., C. J. Billington, and C. M. Kotz. "Neuropeptidergic Mediators of Spontaneous Physical Activity and Non-Exercise Activity Thermogenesis." Neuroendocrinology 87, no. 2 (2008): 71–90. http://dx.doi.org/10.1159/000110802.

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18

Lerner, M., D. Schwarzfuchs, I. Shelef, et al. "OP011 NON-EXERCISE ACTIVITY THERMOGENESIS (NEAT) IS ASSOCIATED WITH INCREASED RESTING ENERGY EXPENDITURE, INCREASED SUPERFICIAL SUBCUTANEOUS FAT AND DECREASED VISCERAL FAT." Clinical Nutrition 32 (September 2013): S5. http://dx.doi.org/10.1016/s0261-5614(13)60013-8.

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19

Srivali, Narat, Meghna P. Mansukhani, Virend K. Somers, Shelly McCrady-Spitzer, James Levine, and Sean M. Caples. "Non-exercise activity thermogenesis in obstructive sleep apnea: a pilot study." Sleep Medicine 59 (July 2019): 119. http://dx.doi.org/10.1016/j.sleep.2018.12.008.

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20

Tang, Jiangqi, Yulyu Yeh, Michael Scarchilli, and K. L. Catherine Jen. "Desk Jockey: A Device to Increase Non-Exercise Activity Thermogenesis in Adults." Physical Activity and Health 4, no. 1 (2020): 62–75. http://dx.doi.org/10.5334/paah.53.

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21

Novak, C. M., M. Zhang, and J. A. Levine. "Neuromedin U in the Paraventricular and Arcuate Hypothalamic Nuclei Increases Non-Exercise Activity Thermogenesis." Journal of Neuroendocrinology 18, no. 8 (2006): 594–601. http://dx.doi.org/10.1111/j.1365-2826.2006.01454.x.

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22

Bartelt, Alexander, and Scott B. Widenmaier. "Proteostasis in thermogenesis and obesity." Biological Chemistry 401, no. 9 (2020): 1019–30. http://dx.doi.org/10.1515/hsz-2019-0427.

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AbstractThe proper production, degradation, folding and activity of proteins, proteostasis, is essential for any cellular function. From single cell organisms to humans, selective pressures have led to the evolution of adaptive programs that ensure proteins are properly produced and disposed of when necessary. Environmental factors such as temperature, nutrient availability, pathogens as well as predators have greatly influenced the development of mechanisms such as the unfolded protein response, endoplasmic reticulum-associated protein degradation and autophagy, working together in concert to
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23

Novak, C. M., and J. A. Levine. "Central Neural and Endocrine Mechanisms of Non-Exercise Activity Thermogenesis and Their Potential Impact on Obesity." Journal of Neuroendocrinology 19, no. 12 (2007): 923–40. http://dx.doi.org/10.1111/j.1365-2826.2007.01606.x.

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24

Hamasaki, Hidetaka, Hidekatsu Yanai, Shuichi Mishima, et al. "Correlations of non-exercise activity thermogenesis to metabolic parameters in Japanese patients with type 2 diabetes." Diabetology & Metabolic Syndrome 5, no. 1 (2013): 26. http://dx.doi.org/10.1186/1758-5996-5-26.

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25

Cheval, Boris, Philippe Sarrazin, and Luc Pelletier. "Impulsive Approach Tendencies towards Physical Activity and Sedentary Behaviors, but Not Reflective Intentions, Prospectively Predict Non-Exercise Activity Thermogenesis." PLoS ONE 9, no. 12 (2014): e115238. http://dx.doi.org/10.1371/journal.pone.0115238.

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26

Hamasaki, H., Y. Kawashima, and H. Yanai. "The association between hand grip strength and non-exercise activity thermogenesis in patients with type 2 diabetes." Diabetes & Metabolism 43, no. 3 (2017): 284–86. http://dx.doi.org/10.1016/j.diabet.2016.09.010.

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27

Hammoudeh, Samer, Abdulbari Bener, Mahmoud Zirie, et al. "The effect of non-exercise activity thermogenesis on subjects with metabolic syndrome - a proof of concept study in Qatar." Qatar Medical Journal 2013, no. 1 (2013): 3. http://dx.doi.org/10.5339/qmj.2013.3.

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28

Hamasaki, Hidetaka, Hidekatsu Yanai, Masafumi Kakei, Osamu Ezaki, and Mitsuhiko Noda. "Non-exercise activity thermogenesis is associated with markers for diabetic microangiopathy in Japanese female patients with type 2 diabetes." International Journal of Cardiology 168, no. 5 (2013): 4836–37. http://dx.doi.org/10.1016/j.ijcard.2013.07.004.

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29

Isobe, Yuki, Masaru Sakurai, Yuki Kita, et al. "Fat‐free mass and calf circumference as body composition indices to determine non‐exercise activity thermogenesis in patients with diabetes." Journal of Diabetes Investigation 7, no. 3 (2015): 352–58. http://dx.doi.org/10.1111/jdi.12421.

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30

Salazar, Juan, Clímaco Cano, José L. Pérez, et al. "Role of Dietary Polyphenols in Adipose Tissue Browning: A Narrative Review." Current Pharmaceutical Design 26, no. 35 (2020): 4444–60. http://dx.doi.org/10.2174/1381612826666200701211422.

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Lifestyle modifications such as energy restriction and increased physical activity are highly effective in the management of obesity. However, adherence to these therapeutic approaches is poor. On the other hand, synthetic drugs used for obesity control are plagued by adverse effects. Despite these failures, adipose tissue is still an attractive therapeutic target for novel molecules, and thus, the characterisation of new and safer anti-obesity drugs is of significant interest. For this reason, in recent years, phenolic constituents of diverse plants have drawn much attention due to their heal
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31

Webber, Jonathan. "Energy balance in obesity." Proceedings of the Nutrition Society 62, no. 2 (2003): 539–43. http://dx.doi.org/10.1079/pns2003256.

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The current epidemic of human obesity implies that whilst energy balance appears to be regulated, the extent of this regulatory process is being overwhelmed in large numbers of the population by environmental changes. Clearly, the shift towards positive energy balance reflects both alterations in energy intake and decreases in physical activity. Increased energy intake and, in particular, the rising proportion of energy from fat is linked with obesity. However, on a population level reduced levels of activity probably play the predominant role. It is apparent that individual susceptibility to
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32

Levine, James A. "Nonexercise activity thermogenesis (NEAT): environment and biology." American Journal of Physiology-Endocrinology and Metabolism 286, no. 5 (2004): E675—E685. http://dx.doi.org/10.1152/ajpendo.00562.2003.

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Nonexercise activity thermogenesis (NEAT) is the energy expended for everything that is not sleeping, eating, or sports-like exercise. It includes the energy expended walking to work, typing, performing yard work, undertaking agricultural tasks, and fidgeting. NEAT can be measured by one of two approaches. The first is to measure or estimate total NEAT. Here, total daily energy expenditure is measured, and from it “basal metabolic rate-plus-thermic effect of food” is subtracted. The second is the factoral approach, whereby the components of NEAT are quantified, and total NEAT is calculated by
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33

Alzoughool, Foad, Mohammad Borhan Al-Zghoul, Saad Al-Nassan, Lo'ai Alanagreh, Dana Mufleh, and Manar Atoum. "The optimal therapeutic irisin dose intervention in animal model: A systematic review." October-2020 13, no. 10 (2020): 2191–96. http://dx.doi.org/10.14202/vetworld.2020.2191-2196.

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Background and Aim: Irisin, a novel myocyte-secreted hormone, was proposed to mediate some of the beneficial effects of exercise such as browning of adipocytes, thermogenesis, and metabolic homeostasis. Recently, several animals' models' studies have been performed to investigate the therapeutic impact of irisin in several disorders. Several interventional trials used different doses. However, optimum dose was not determined. This systematic review aims to identify the optimal dose of interventional irisin in mice and rat animal models. Materials and Methods: Online databases PubMed, Google Sc
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34

Jastroch, Martin, and Frank Seebacher. "Importance of adipocyte browning in the evolution of endothermy." Philosophical Transactions of the Royal Society B: Biological Sciences 375, no. 1793 (2020): 20190134. http://dx.doi.org/10.1098/rstb.2019.0134.

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Endothermy changes the relationship between organisms and their environment fundamentally, and it is therefore of major ecological and evolutionary significance. Endothermy is characterized by non-shivering thermogenesis, that is metabolic heat production in the absence of muscular activity. In many eutherian mammals, brown adipose tissue (BAT) is an evolutionary innovation that facilitates non-shivering heat production in mitochondria by uncoupling food-derived substrate oxidation from chemical energy (ATP) production. Consequently, energy turnover is accelerated resulting in increased heat r
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35

Martin, Alexandra, Hande Hofmann, Clemens Drenowatz, Birgit Wallmann-Sperlich, Billy Sperlich, and Karsten Koehler. "The Impact of Low Energy Availability on Nonexercise Activity Thermogenesis and Physical Activity Behavior in Recreationally Trained Adults." International Journal of Sport Nutrition and Exercise Metabolism 31, no. 4 (2021): 329–36. http://dx.doi.org/10.1123/ijsnem.2021-0029.

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Energy availability describes the amount of dietary energy remaining for physiological functionality after the energy cost of exercise is deducted. The physiological and hormonal consequences of low energy availability (LEA) are well established, but the impact of LEA on physical activity behavior outside of exercise and, specifically, nonexercise activity thermogenesis (NEAT) has not been systematically examined. The authors conducted a secondary analysis of a repeated-measures crossover study in which recreationally trained young men (n = 6, 25 ± 1.0 years) underwent two 4-day conditions of
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36

Yanai, Hidekatsu. "Effects of Non-Exercise Activity Thermogenesis (NEAT) on metabolic parameters in patients with type 2 diabetes." Journal of Metabolic Syndrome 07 (2018). http://dx.doi.org/10.4172/2167-0943-c1-007.

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37

Tang, Jiangqi, Michael Scarchilli, Yu‐lyu Yeh, Jaipal Singh, and Kai‐Lin Catherine Jen. "Desk Jockey: a device to increase non‐exercise activity thermogenesis in adults (812.1)." FASEB Journal 28, S1 (2014). http://dx.doi.org/10.1096/fasebj.28.1_supplement.812.1.

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38

Hamasaki, Hidetaka, Hidekatsu Yanai, Masafumi Kakei, Mitsuhiko Noda, and Osamu Ezaki. "The validity of the non-exercise activity thermogenesis questionnaire evaluated by objectively measured daily physical activity by the triaxial accelerometer." BMC Sports Science, Medicine and Rehabilitation 6, no. 1 (2014). http://dx.doi.org/10.1186/2052-1847-6-27.

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39

Hubáček, JA. "Eat less and exercise more – is it really enough to knock down the obesity pandemia?" Physiological Research, 2009, S1—S6. http://dx.doi.org/10.33549/physiolres.931855.

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Reduced physical activity and abundant energy intake are two most common factors leading to uncontrolled body weight gain. But these factors are not under entire internal consciousness control; they are also partially genetically determined and are affected by for example food marketing practices. In addition to these two widely accepted factors, there are some other factors, whose could also contribute to the recent increase of obesity prevalence. For example, non-exercise activity thermogenesis, sleeping habits, more stable inside room temperatures (using of heating and air conditioning), hi
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40

Zhang, Yufeng, Kang Nian Yap, Kyle T. David, and David L. Swanson. "The high-energy aerial insectivore lifestyle of swallows does not produce clear thermogenic side effects." Ornithology 138, no. 3 (2021). http://dx.doi.org/10.1093/ornithology/ukab022.

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Abstract Ecological traits related to pace of life, such as foraging strategies and activity levels, influence daily energy expenditure (DEE) and can affect fitness. A fast pace of life tends to be supported by high-energy aerobic activity and is positively correlated with high DEE and basal and maximal metabolic rates in some endotherms. Given that maximal capacities for exercise and thermogenesis are both functions of aerobic muscle output and are often positively correlated with each other, high-energy aerobic lifestyles might be associated with high aerobic capacities, which would be expec
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