WordNet

(physics) a thermodynamic quantity equivalent to the capacity of a physical system to do work; the units of energy are joules or ergs; "energy can take a wide variety of forms" (同)free_energy
a healthy capacity for vigorous activity; "jogging works off my excess energy"; "he seemed full of vim and vigor" (同)vim, vitality
any source of usable power; "the DOE is responsible for maintaining the energy policy"
an imaginative lively style (especially style of writing); "his writing conveys great energy"; "a remarkable muscularity of style" (同)muscularity, vigor, vigour, vim
enterprising or ambitious drive; "Europeans often laugh at American energy" (同)push, get-up-and-go
forceful exertion; "he plays tennis with great energy"; "hes full of zip" (同)vigor, vigour, zip
determine the sum of; "Add all the people in this town to those of the neighboring town" (同)tot, tot up, sum, sum_up, summate, tote up, add, add together, tally, add up
damage beyond the point of repair; "My son totaled our new car"; "the rock star totals his guitar at every concert"
add up in number or quantity; "The bills amounted to $2,000"; "The bill came to $2,000" (同)number, add up, come, amount
a small amount (especially of a drink); "a tot of rum"
used of automobiles; completely demolished; "the insurance adjuster declared the automobile totaled"

PrepTutorEJDIC

(一般的な力としての)『精力』,気力,元気 / (個人の)精力,活動力 / エネルギー
『総計の』,全体の / 『全くの』,完全な(absolute) / 『合計』,総額,総数,総量(sum) / …‘を'合計する / 合計…‘に'なる,総額が…‘に'のぼる(amount to)
〈U〉(…に対する時・金・労力などの)『消費』,『支出』《+『of』+『名』+『on』+『名』》 / 〈C〉〈U〉(…に)消費(支出)されたもり,(…の)『費用』,経費《+『on』(『for』)+『名』》
幼児,小児 / (特に酒類の)少量,一杯,一口
…‘を'合計する《+up+名,+名+up》 / 合計(…に)なる《+up to+名》

Wikipedia preview

出典(authority):フリー百科事典『ウィキペディア（Wikipedia）』「2015/11/20 01:44:54」(JST)

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In biology, energy homeostasis, or energy balance, is an aspect of bioenergetics concerning the energy flow through living systems, by the process of metabolism.^[1] Energy homeostasis involves the human body using chemical and neural signals to adjust the amount of energy flows; and to regulate caloric intake by signaling the brain to regulate the sensation of hunger. Fifty percent of the energy from glucose metabolism is immediately converted to heat.^[2]

Definition

In the US, biological energy is expressed using the energy unit Calorie with a capital C (i.e. kilocalorie), which equals the energy needed to increase the temperature of 1 kilogram of water by 1 °C (about 4.18 kJ). ^[3]

Energy balance, through biosynthetic reactions, can be measured with the following equation:

Energy intake (food) = Energy expended (heat + work) + Energy stored.^[1]

The first law of thermodynamics states that energy can be neither created nor destroyed. But energy can be converted from one form of energy to another. So when a calorie of food eaten enters a body, ultimately 100% of that calorie will be converted to heat, resulting in three particular short-term effects: a portion of that calorie is either stored as fat, transferred to the body's cells as chemical energy, by Adenosine triphosphate (ATP), a coenzyme and used for mechanical work or chemical synthesis, or immediately dissipated through heat.^[2]

Energy

Intake

Energy intake is calories consumed as food, which is determined by hunger (hypothalamus) and choice (cerebral cortex). Hunger is determined by the impact of the hormones leptin and ghrelin on the hypothalamus.^[4]

Expenditure

Energy expenditure is mainly a sum of internal heat produced and external work. The internal heat produced is, in turn, mainly a sum of basal metabolic rate (BMR) and the thermic effect of food. External work may be estimated by measuring the physical activity level (PAL).^{[citation needed]}

Imbalance

Positive balance

A positive balance is a result of energy intake being higher than what is consumed in external work and other bodily means of energy expenditure.^{[citation needed]}

The main preventable causes are:

Overeating, resulting in increased energy intake
Sedentary lifestyle, resulting in decreased energy expenditure through external work

A positive balance results in energy being stored as fat and/or muscle, causing weight gain. In time, overweight and obesity may develop, with resultant complications.

Negative balance

A negative balance is a result of energy intake being less than what is consumed in external work and other bodily means of energy expenditure.

The main cause is undereating due to a medical condition such as decreased appetite, anorexia nervosa, digestive disease, or due to some circumstance such as fasting or lack of access to food

Requirement

Normal energy requirement, and therefore normal energy intake, depends mainly on age, sex and physical activity level (PAL). The Food and Agriculture Organization (FAO) of the United Nations has compiled a detailed report on human energy requirements: Human energy requirements (Rome, 17–24 October 2001) An older but commonly used and fairly accurate method is the Harris-Benedict equation.

Yet, there are currently ongoing studies to show if calorie restriction to below normal values have beneficial effects, and even though they are showing positive indications in primates^[5]^[6] it is still not certain if calorie restriction has a positive effect on longevity for primates and humans.^[5]^[6] Calorie restriction may be viewed as attaining energy balance at a lower intake and expenditure, and is, in this sense, not generally an energy imbalance, except for an initial imbalance where decreased expenditure hasn't yet matched the decreased intake.

References

^ ^a ^b Keith N. Frayn (2013). Metabolic Regulation: A Human Perspective. John Wiley & Sons. ISBN 1118685334.
^ ^a ^b Kevin G. Murphy & Stephen R. Bloom (December 14, 2006). "Gut hormones and the regulation of energy homeostasis" 444 (7121). Nature. pp. 854–859. doi:10.1038/nature05484. PMID 17167473.
^ David Halliday, Robert Resnick, Jearl Walker, Fundamentals of physics, 9th edition,John Wiley & Sons, Inc, 2011, p. 485
^ M. D. Klok, S. Jakobsdottir and M. L. Drent. The role of leptin and ghrelin in the regulation of food intake and body weight in humans: a review. http://onlinelibrary.wiley.com/doi/10.1111/j.1467-789X.2006.00270.x/full
^ ^a ^b Anderson RM, Shanmuganayagam D, Weindruch R (2009). "Caloric restriction and aging: studies in mice and monkeys". Toxicol Pathol 37 (1): 47–51. doi:10.1177/0192623308329476. PMID 19075044.
^ ^a ^b Rezzi S, Martin FP, Shanmuganayagam D, Colman RJ, Nicholson JK, Weindruch R (May 2009). "Metabolic shifts due to long-term caloric restriction revealed in nonhuman primates". Exp. Gerontol. 44 (5): 356–62. doi:10.1016/j.exger.2009.02.008. PMC 2822382. PMID 19264119.

External links

Diagram of regulation of fat stores and hunger [1]
Daily energy requirement calculator
BodyEngine - Visual fitness tool which calculates RMR (resting metabolic rate ), EER and BMI

UpToDate Contents

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Feuer AJ1, Demmer RT2, Thai A2, Vogiatzi MG3.
Bone.Bone.2015 Sep;78:28-33. doi: 10.1016/j.bone.2015.04.042. Epub 2015 May 2.
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Effect of dispersed crude oil on cardiac function in seabass Dicentrarchus labrax.

Tissier F1, Dussauze M2, Lefloch N3, Theron M1, Lemaire P4, Le Floch S3, Pichavant-Rafini K1.
Chemosphere.Chemosphere.2015 Sep;134:192-8. doi: 10.1016/j.chemosphere.2015.04.026. Epub 2015 May 15.
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Ardigò LP1, Padulo J, Zuliani A, Capelli C.
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