Difference between revisions of "AY Honors/Home Nursing/Answer Key"
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− | {{ | + | {{This|the medical condition}} |
+ | {{SignSymptom infobox | | ||
+ | Name = Fever | | ||
+ | ICD10 = {{ICD10|R|50||r|50}} | | ||
+ | ICD9 = {{ICD9|780.6}} | | ||
+ | ICDO = | | ||
+ | Image = Clinical thermometer 38.7.JPG | | ||
+ | Caption = An analog [[medical thermometer]] showing the temperature of 38.7 °C | | ||
+ | OMIM = | | ||
+ | MedlinePlus = | | ||
+ | eMedicineSubj = med | | ||
+ | eMedicineTopic = 785 | | ||
+ | DiseasesDB = 18924 | | ||
+ | MeshID = D005334 | | ||
+ | }} | ||
+ | '''Fever''' (also known as '''pyrexia''', from the Greek ''pyretos'' meaning fire, or a '''febrile response''', from the [[Latin]] word ''[[febris]]'', meaning fever, and archaically known as '''ague''') is a frequent [[medical sign]] that describes an increase in internal [[body temperature]] to levels above normal. Fever is most accurately characterized as a temporary elevation in the body's thermoregulatory set-point, usually by about 1–2 °C. | ||
− | [[ | + | Fever differs from [[hyperthermia]]. Hyperthermia is an increase in body temperature over the body's thermoregulatory set-point, due to excessive heat production or insufficient [[thermoregulation]], or both. [[Carl Reinhold August Wunderlich|Carl Wunderlich]] discovered that fever is not a disease but a symptom of disease. |
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− | + | The elevation in thermoregulatory set-point means that the previous "normal body temperature" is considered [[hypothermia|hypothermic]], and effector mechanisms kick in. The person who is developing the fever has a cold sensation, and an increase in [[heart rate]], [[muscle tone]] and [[shivering]] attempt to counteract the perceived [[hypothermia]], thereby reaching the new thermoregulatory set-point. A fever is one of the body's mechanisms to try to neutralize the perceived threat inside the body, be it bacteria or a virus. | |
− | [[ | ||
− | The | ||
− | + | ==Measurement and normal variation== | |
+ | When a patient has or is suspected of having a fever, that person's body temperature is measured using a thermometer. | ||
− | + | At a first glance, fever is present if: | |
− | + | * Temperature in the anus (rectum/rectal) or in the ear (otic) is at or over 38.0°C (100.4°F) | |
+ | * Temperature in the mouth (oral) is at or over 37.5 °C (99.5 °F) | ||
+ | * Temperature under the arm (axillary) is at or over 37.2 °C (99.0 °F) | ||
− | [[ | + | The common oral measurement of [[normal human body temperature]] is 36.8±0.7 °C (98.2±1.3 °F). This means that any oral temperature between 36.1 and 37.5 °C (96.9 and 99.5 °F) is likely to be normal. |
− | + | However, there are many variations in normal body temperature, and this needs to be considered when measuring for fever. The values given are for an otherwise healthy, non-fasting adult, dressed comfortably, indoors, in a room that is kept at a normal room temperature (22.7 to 24.4°C or 73 to 76 °F ) , during the morning, but not shortly after arising from sleep. Furthermore, for oral temperatures, the subject must not have eaten, drunk, or smoked anything in at least the previous fifteen to twenty minutes. | |
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− | The | ||
− | + | Body temperature normally fluctuates over the day, with the lowest levels around 4 a.m. and the highest around 6 p.m. <ref>[http://www.webmd.com/a-to-z-guides/body-temperature Body Temperature<!-- Bot generated title -->]</ref> (assuming the subject follow the prevalent pattern, i.e, sleeping at nighttime and staying awake during daytime). Therefore, an oral temperature of 37.2 °C (99.0 °F) would strictly be a fever in the morning, but not in the afternoon. An oral body temperature reading up to 37.5 °C (99.5 °F) in the early/late afternoon or early/late evening also wouldn't be a fever. Normal body temperature may differ as much as 1.0 °F between individuals or from day to day. In women, temperature differs at various points in the [[menstrual cycle]], and this can be used for [[fertility awareness|family planning]] (although temperature is only one of the variables). Temperature is increased after eating, and psychological factors also influence body temperature. | |
− | + | There are different locations where temperature can be measured, and these differ in temperature variability. [[Tympanic membrane]] [[thermometer]]s measure radiant heat energy from the tympanic membrane (infrared). These may be very convenient, but may also show more variability. | |
− | + | Children develop higher temperatures with activities like playing, but this is not fever because their set-point is normal. Elderly patients may have a decreased ability to generate body heat during a fever, so even a low-grade fever can have serious underlying causes in [[geriatrics]]. | |
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− | + | ==Mechanism== | |
+ | Temperature is regulated in the [[hypothalamus]], in response to prostaglandin E2 ([[PGE2]]). PGE2 release, in turn, comes from a trigger, a pyrogen. The hypothalamus generates a response back to the rest of the body, making it increase the temperature set-point. | ||
− | + | [[Image:fever-conceptual.svg|thumb|right|400px|'''Hyperthermia''': Characterized on the left. Normal body temperature (thermoregulatory set-point) is shown in green, while the hyperthermic temperature is shown in red. As can be seen, hyperthermia can be conceptualized as an increase above the thermoregulatory set-point.<br />'''Hypothermia''': Characterized in the center: Normal body temperature is shown in green, while the hypothermic temperature is shown in blue. As can be seen, hypothermia can be conceptualized as a decrease below the thermoregulatory set-point.<br />'''Fever''': Characterized on the right: Normal body temperature is shown in green. It reads "New Normal" because the thermoregulatory set-point has risen. This has caused what was the normal body temperature (in blue) to be considered hypothermic.]] | |
− | + | ===Pyrogens=== | |
− | + | A pyrogen is a substance that induces fever. These can be either [[internal]] ([[endogenous]]) or [[external]] ([[exogenous]]). The bacterial substance [[lipopolysaccharide]] (LPS) is an example of an exogenous pyrogen. Because exposure to exogenous pyrogens can cause a dangerous reaction, the FDA has set limits on the amount of permissible endotoxin in drugs. [[Depyrogenation]] may be achieved through [[filtration]], [[distillation]], [[chromatography]], or inactivation. | |
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− | == | + | ====Endogenous==== |
− | + | The [[cytokines]] (such as [[interleukin 1]]) are a part of the [[innate immune system]], produced by [[phagocytic cells]], and cause the increase in the thermoregulatory set-point in the hypothalamus. Other examples of endogenous pyrogens are [[interleukin 6]] (IL-6), and [[tumor necrosis factor-alpha]]. | |
− | + | These cytokine factors are released into general circulation where they migrate to the [[circumventricular organ]]s of the [[brain]], where the [[blood-brain barrier]] is reduced. The cytokine factors bind with [[endothelium|endothelial receptor]]s on vessel walls, or interact with local [[microglial cell]]s. When these cytokine factors bind, they activate the [[arachidonic acid pathway]]. | |
− | + | ====Exogenous==== | |
+ | One model for the mechanism of fever caused by exogenous pyrogens includes LPS, which is a cell wall component of [[Gram-negative|gram-negative bacteria]]. An immunological protein called [[lipopolysaccharide-binding protein]] (LBP) binds to LPS. The LBP–LPS complex then binds to the [[CD14]] receptor of a nearby [[macrophage]]. This binding results in the synthesis and release of various endogenous [[cytokine]] factors, such as interleukin 1 (IL-1), interleukin 6 (IL-6), and the tumor necrosis factor-alpha. In other words, exogenous factors cause release of endogenous factors, which, in turn, activate the arachidonic acid pathway. | ||
− | + | ===PGE2 release=== | |
+ | PGE2 release comes from the [[arachidonic acid]] pathway. This pathway (as it relates to fever), is mediated by the [[enzyme]]s [[phospholipase|phospholipase A2]] (PLA2), [[cyclooxygenase|cyclooxygenase-2]] (COX-2), and [[prostaglandin E2 synthase]]. These enzymes ultimately mediate the synthesis and release of PGE2. | ||
− | + | PGE2 is the ultimate mediator of the febrile response. The set-point temperature of the body will remain elevated until PGE2 is no longer present. PGE2 acts on neurons in the [[preoptic area]] (POA) through the [[prostaglandin E receptor 3]] (EP3). EP3-expressing neurons in the POA innervate the [[dorsomedial hypothalamus]] (DMH), the rostral [[raphe]] pallidus nucleus in the [[medulla oblongata]] (rRPa) and the [[paraventricular nucleus]] of the [[hypothalamus]] (PVN). Fever signals sent to the DMH and rRPa lead to stimulation of the [[sympathetic]] output system, which evokes non-shivering thermogenesis to produce body heat and skin vasoconstriction to decrease heat loss from the body surface. It is presumed that the innervation from the POA to the PVN mediates the neuroendocrine effects of fever through the pathway involving [[pituitary gland]] and various [[endocrine organs]]. | |
− | + | ===Hypothalamus response=== | |
+ | The brain ultimately orchestrates '''heat effector mechanisms''' via the [[autonomic nervous system]]. These may be: | ||
+ | * Increased heat production by increased [[muscle tone]], [[shivering]] and hormones like epinephrine. | ||
+ | * Prevention of heat loss, such as [[vasoconstriction]]. | ||
+ | The autonomic nervous system may also activate [[brown adipose tissue]] to produce heat (non-exercise-associated [[thermogenesis]], also known as non-shivering thermogenesis), but this seems mostly important for babies. Increased heart rate and vasoconstriction contribute to increased [[blood pressure]] in fever. | ||
− | + | ==Types== | |
+ | According to one common rule of thumb, fever is generally classified [[Significant figures|for convenience]] as: | ||
− | + | {|class="wikitable" | |
+ | |+ Fever classification | ||
+ | ! Grade !! [[celcius|°C]] !! [[fahrenheit|°F]] | ||
+ | |- | ||
+ | | [[low-grade fever|low grade]] || 38–39 || 100.4–102.2 | ||
+ | |- | ||
+ | | moderate || 39–40 || 102.2–104.0 | ||
+ | |- | ||
+ | | high-grade || 40–42 || 104.0–107.6 | ||
+ | |- | ||
+ | | [[hyperpyrexia]] || >42 || >107.6 | ||
+ | |- | ||
+ | |} | ||
− | + | The last is a [[medical emergency]] because it approaches the upper limit compatible with human life. | |
− | + | Most of the time, fever types can not be used to find the underlying cause. However, there are specific fever patterns that may occasionally hint the [[diagnosis]]: | |
+ | *[[Pel-Ebstein fever]]: A specific kind of fever associated with [[Hodgkin's lymphoma]], being high for one week and low for the next week and so on. However, there is some debate as to whether this pattern truly exists.<ref>{{Citation | ||
+ | | last = Hilson | ||
+ | | first = A.J.W. | ||
+ | | last2 = DiNubile | ||
+ | | first2 = M.J. | ||
+ | | title = Correspondence | ||
+ | | journal = New England Journal of Medicine | ||
+ | | volume = 333 | ||
+ | | pages = 66–67 | ||
+ | | date = 1995-07-06 | ||
+ | | year = 1995 | ||
+ | | url = http://content.nejm.org/cgi/content/short/333/1/66 | ||
+ | | accessdate = 2008-03-18 | ||
+ | | id = | ||
+ | | pmid = 7777006 | ||
+ | | doi = 10.1056/NEJM199507063330118 }}. They cite [[Richard_Asher|Richard Asher's]] lecture ''Making Sense'' (Lancet, 1959, 2, 359)</ref> | ||
+ | *Continuous fever: Temperature remains above normal throughout the day and does not fluctuate more than 1°C in 24 hours, e.g. [[lobar pneumonia]], [[typhoid]], [[urinary tract infection]], [[brucellosis]], or [[typhus]]. [[Typhoid fever]] may show a specific fever pattern, with a slow stepwise increase and a high plateau. | ||
+ | *Intermittent fever: Elevated temperature is present only for some hours of the day and becomes normal for remaining hours, e.g. [[malaria]], [[kala-azar]], [[pyaemia]], or [[septicemia]]. In malaria, there may be a fever with a periodicity of 24 hours (''quotidian''), 48 hours (''tertian fever''), or 72 hours (''quartan fever'', indicating ''[[Plasmodium malariae]]''). These patterns may be less clear in travelers. | ||
+ | *Remittent fever: Temperature remains above normal throughout the day and fluctuates more than 1°C in 24 hours, e.g. [[infective endocarditis]]. | ||
− | + | A neutropenic fever, also called [[febrile neutropenia]], is a fever in the absence of normal immune system function. Because of the lack of infection-fighting [[neutrophil]]s, a bacterial infection can spread rapidly and this fever is therefore usually considered a medical emergency. This kind of fever is more commonly seen in people receiving immune-suppressing [[chemotherapy]] than in apparently healthy people. | |
− | + | Febricula<ref name=biologyonline>Febricula, definition from [http://www.biology-online.org/ Biology-Online.org], consulted June 7, 2006 [http://www.biology-online.org/dictionary/Febricula http://www.biology-online.org/dictionary/Febricula]</ref> is a mild fever of short duration, of indefinite origin, and without any distinctive pathology. | |
− | + | ==Causes== | |
+ | Fever is a common [[symptom]] of many medical conditions: | ||
+ | * [[Infectious disease]], e.g. [[influenza]], [[common cold]], [[HIV]], [[malaria]], [[infectious mononucleosis]], or [[gastroenteritis]] | ||
+ | * Various skin [[inflammation]]s, e.g. [[boils]], [[pimples]], [[acne]], or [[abscess]] | ||
+ | * [[Immunology|Immunological]] diseases, e.g. [[lupus erythematosus]], [[sarcoidosis]], [[inflammatory bowel disease]]s | ||
+ | * Tissue destruction, which can occur in [[hemolysis]], [[surgery]], [[infarction]], [[crush syndrome]], [[rhabdomyolysis]], [[cerebral hemorrhage]], etc. | ||
+ | * Drug fever | ||
+ | ** directly caused by the drug, e.g. [[lamictal]], [[progesterone]], or [[chemotherapeutics]] causing [[tumor]] [[necrosis]] | ||
+ | ** as an adverse reaction to drugs, e.g. [[antibiotic]]s or [[Sulfonamide (medicine)|sulfa drug]]s. | ||
+ | ** after drug discontinuation, e.g. [[heroin]] or [[fentanyl]] withdrawal | ||
+ | * [[Cancer]]s, most commonly [[renal cancer]] and [[leukemia]] and [[lymphoma]]s | ||
+ | * [[Metabolic disorder]]s, e.g. [[gout]] or [[porphyria]] | ||
+ | * Thrombo-embolic processes, e.g. [[pulmonary embolism]] or [[deep venous thrombosis]] | ||
− | + | Persistent fever which cannot be explained after repeated routine clinical inquiries, is called [[fever of unknown origin]]. | |
− | + | ==Usefulness of fever== | |
+ | "Give me a fever, and I can cure any illness." -- [[Hippocrates]] (ca. 400 BC) | ||
− | ; | + | There are arguments for and against the usefulness of fever, and the issue is controversial.<ref name="Schaffner">Schaffner A. Fever—useful or noxious symptom that should be treated? ''Ther Umsch'' 2006; '''63''': 185-8. PMID 16613288</ref><ref name=value>Soszynski D. The pathogenesis and the adaptive value of fever. ''Postepy Hig Med Dosw'' 2003; '''57''': 531-54. PMID 14737969</ref> There are studies using [[warm-blooded]] [[vertebrates]]<ref name="VUB">Su, F.; Nguyen, N.D.; Wang, Z.; Cai, Y.; Rogiers, P.; Vincent, J.L. Fever control in septic shock: beneficial or harmful? ''Shock'' 2005; '''23''': 516-20. PMID 15897803</ref> and [[human]]s<ref name="humans">Schulman, C.I.; Namias, N.; Doherty, J., et al. The effect of antipyretic therapy upon outcomes in critically ill patients: a randomized, prospective study. ''Surg Infect (Larchmt)'' 2005; '''6''':369-75. PMID 16433601</ref> ''[[in vivo]]'', with some suggesting that they recover more rapidly from infections or critical illness due to fever. |
− | + | Theoretically, fever can aid in host defense.<ref name="Schaffner" /> There are certainly some important immunological reactions that are sped up by temperature, and some [[pathogen]]s with strict temperature preferences could be hindered.<ref name=Fischler>Fischler, M.P.; Reinhart, W.H. Fever: friend or enemy? ''Schweiz Med Wochenschr'' 1997; '''127''': 864-70. PMID 9289813</ref> The overall conclusion seems to be that both aggressive treatment of fever<ref name="humans" /> and too little fever control<ref name=Schaffner /> can be detrimental. This depends on the clinical situation, so careful assessment is needed. | |
− | + | Fevers may be useful to some extent since they allow the body to reach high temperatures. This causes an unbearable environment for some pathogens. White blood cells also rapidly proliferate due to the suitable environment and can also help fight off the harmful pathogens and microbes that invaded the body. | |
− | + | Research<ref>Craven, R and Hirnle, C. (2006). Fundamentals of nursing: Human health and function. Fourth edition. p. 1044</ref> has demonstrated that fever has several important functions in the healing process: | |
− | == | + | * increased mobility of [[leukocytes]] |
+ | * enhanced leukocytes [[phagocytosis]] | ||
+ | * [[endotoxin]] effects decreased | ||
+ | * increased [[Cell proliferation|proliferation]] of T Cells<ref name="Lewis_2007">Lewis, SM, Heitkemper, MM, and Dirksen, SR. (2007). Medical-surgical nursing: Assessment and management of clinical problems. sixth edition. p. 212 </ref> | ||
+ | * enhanced activity of [[interferon]] <ref name="Lewis_2007" /> | ||
− | + | ==Treatment== | |
+ | {{references|section|date=March 2008}} | ||
+ | Fever should not necessarily be treated. Fever is an important signal that there's something wrong in the body, and it can be used to govern medical treatment and gauge its effectiveness. Moreover, not all fevers are of infectious origin. | ||
− | + | Even when treatment is not indicated, however, febrile patients are generally advised to keep themselves adequately hydrated, as the [[dehydration]] produced by a mild fever can be more dangerous than the fever itself. Water is generally used for this purpose, but there is always a small risk of [[hyponatremia]] if the patient drinks too much water. For this reason, some patients drink [[sports drinks]] or [[electrolyte]]-replacing products designed specifically for this purpose. | |
− | + | Most people take medication against fever because the symptoms cause discomfort. Fever increases [[heart rate]] and [[metabolism]], thus potentially putting an additional strain on elderly patients, patients with [[heart disease]], etc. This may even cause [[delirium]]. Therefore, potential benefits must be weighed against risks in these patients. In any case, fever must be brought under control in instances when fever escalates to [[hyperpyrexia]] and tissue damage is imminent. | |
− | |||
− | [[ | ||
− | == | + | Treatment of fever is normally done by lowering the set-point, but facilitating heat loss may also be effective. The former is accomplished with [[antipyretic]]s such as [[ibuprofen]] or [[acetominophen]] ([[aspirin]] can be given to adults, but can cause [[Reye's Syndrome]] in children). Heat removal is generally by wet cloth or pads, usually applied to the forehead,<ref name= Craven >{{cite journal |
+ | | author= Craven ,R and Hirnle,C.| title= Fundamentals of nursing:Human health and function. Forth edition.| journal=Antipyretics | year=2006 | pages=1044| volume=11 | issue=7-8 | pmid=15636181 | ||
+ | }}</ref> but also through bathing the body in tepid water. This is particularly important for babies, where drugs should be avoided. However, using [[water]] that is too cold can induce [[vasoconstriction]], and reduce effective heat loss. | ||
− | + | Heat loss may also be accomplished by [[heat conduction]], [[convection]], [[radiation]], or [[evaporation]] ([[sweating]], perspiration), or a combination of these. | |
− | + | == Fever in domestic animals == | |
+ | Fever is also a important feature for [[diagnosis]] of [[veterinary medicine|diseases in domestic animals]]. Body temperature, always taken by anal way, is different from a species to an other. For example, a [[horse]] is said to have fever at 38.5°C and a [[cow]] only at 39.6°C. | ||
− | + | In species allowing the body to wide range of normal temperatures, like [[camel]]s, it is sometimes difficult to determine a febrile stage. | |
− | + | == Diseases called "fever" == | |
− | + | As fever is a prominent symptom of many diseases, in man and animals, it will often appear in the common appellation of diseases. | |
− | + | === in humans === | |
− | + | * [[Ebola fever]] | |
− | + | * [[Puerperal fever]] | |
− | + | * [[Yellow fever]] | |
− | * [[ | ||
− | * [[ | ||
− | * | ||
− | == | + | === in animals=== |
+ | * [[East Coast fever]] (an African disease of cattle) | ||
+ | * [[Malignant catarrhal fever]] (a world-wide disease of cattle) | ||
+ | * [[Milk fever]] (a metabolic illness of cattle with hypothermia) | ||
+ | * [[Rift valley fever]] (an African disease of sheep) | ||
+ | ==References== | ||
{{reflist|2}} | {{reflist|2}} | ||
+ | |||
+ | ==Further reading== | ||
+ | * Rhoades, R. and Pflanzer, R. Human physiology, third edition, chapter 27 ''Regulation of body temperature'', p. 820 ''Clinical focus: pathogenesis of fever''. ISBN 0-03-005159-2 | ||
+ | * Kasper, D.L.; Braunwald, E.; Fauci, A.S.; Hauser, S.L.; Longo, D.L.; Jameson, J.L. ''[[Harrison's Principles of Internal Medicine]]''. New York: McGraw-Hill, 2005. ISBN 0-07-139140-1. | ||
== External links == | == External links == | ||
− | * [http://www. | + | * [http://www.seattlechildrens.org/child_health_safety/health_advice/fever.asp What to do if your child has a fever] from Seattle Children's Hospital |
+ | * [http://kidshealth.org/parent/general/body/fever.html Fever and Taking Your Child's Temperature] | ||
+ | * [http://www.nlm.nih.gov/medlineplus/ency/article/003090.htm US National Institute of Health factsheet] | ||
+ | * [http://hcd2.bupa.co.uk/fact_sheets/html/fever.html BUPA factsheet] | ||
+ | |||
+ | {{General symptoms and signs}} | ||
− | [[Category: | + | [[Category:Symptoms]] |
− | |||
− | [[de: | + | [[ar:حمى]] |
− | [[fr: | + | [[bn:জ্বর]] |
− | [[ | + | [[bg:Треска (болест)]] |
− | [[ja: | + | [[ca:Febre]] |
− | [[simple: | + | [[cs:Horečka]] |
− | [[sv: | + | [[da:Feber]] |
+ | [[de:Fieber]] | ||
+ | [[el:Πυρετός]] | ||
+ | [[es:Fiebre]] | ||
+ | [[eo:Febro]] | ||
+ | [[eu:Sukar]] | ||
+ | [[fr:Fièvre]] | ||
+ | [[hi:ज्वर]] | ||
+ | [[io:Febro]] | ||
+ | [[id:Demam]] | ||
+ | [[it:Febbre]] | ||
+ | [[he:חום (תסמין)]] | ||
+ | [[la:Febris]] | ||
+ | [[ln:Fɛ́fɛlɛ]] | ||
+ | [[hu:Láz]] | ||
+ | [[ml:പനി]] | ||
+ | [[ms:Demam]] | ||
+ | [[nl:Koorts]] | ||
+ | [[new:ज्वर]] | ||
+ | [[ja:発熱]] | ||
+ | [[no:Feber]] | ||
+ | [[nn:Feber]] | ||
+ | [[ps:تبه]] | ||
+ | [[pl:Gorączka]] | ||
+ | [[pt:Febre]] | ||
+ | [[qu:Ruphariy]] | ||
+ | [[ru:Лихорадка]] | ||
+ | [[scn:Frevi]] | ||
+ | [[si:උණ]] | ||
+ | [[simple:Fever]] | ||
+ | [[sk:Horúčka]] | ||
+ | [[sl:Vročina]] | ||
+ | [[fi:Kuume]] | ||
+ | [[sv:Feber]] | ||
+ | [[ta:காய்ச்சல்]] | ||
+ | [[te:జ్వరం]] | ||
+ | [[uk:Лихоманка]] | ||
+ | [[vec:Fevra]] | ||
+ | [[wa:Five]] | ||
+ | [[yi:פיווער]] | ||
+ | [[zh:发热]] |
Revision as of 03:03, 30 July 2008
Template:This Template:SignSymptom infobox Fever (also known as pyrexia, from the Greek pyretos meaning fire, or a febrile response, from the Latin word febris, meaning fever, and archaically known as ague) is a frequent medical sign that describes an increase in internal body temperature to levels above normal. Fever is most accurately characterized as a temporary elevation in the body's thermoregulatory set-point, usually by about 1–2 °C.
Fever differs from hyperthermia. Hyperthermia is an increase in body temperature over the body's thermoregulatory set-point, due to excessive heat production or insufficient thermoregulation, or both. Carl Wunderlich discovered that fever is not a disease but a symptom of disease.
The elevation in thermoregulatory set-point means that the previous "normal body temperature" is considered hypothermic, and effector mechanisms kick in. The person who is developing the fever has a cold sensation, and an increase in heart rate, muscle tone and shivering attempt to counteract the perceived hypothermia, thereby reaching the new thermoregulatory set-point. A fever is one of the body's mechanisms to try to neutralize the perceived threat inside the body, be it bacteria or a virus.
Measurement and normal variation
When a patient has or is suspected of having a fever, that person's body temperature is measured using a thermometer.
At a first glance, fever is present if:
- Temperature in the anus (rectum/rectal) or in the ear (otic) is at or over 38.0°C (100.4°F)
- Temperature in the mouth (oral) is at or over 37.5 °C (99.5 °F)
- Temperature under the arm (axillary) is at or over 37.2 °C (99.0 °F)
The common oral measurement of normal human body temperature is 36.8±0.7 °C (98.2±1.3 °F). This means that any oral temperature between 36.1 and 37.5 °C (96.9 and 99.5 °F) is likely to be normal.
However, there are many variations in normal body temperature, and this needs to be considered when measuring for fever. The values given are for an otherwise healthy, non-fasting adult, dressed comfortably, indoors, in a room that is kept at a normal room temperature (22.7 to 24.4°C or 73 to 76 °F ) , during the morning, but not shortly after arising from sleep. Furthermore, for oral temperatures, the subject must not have eaten, drunk, or smoked anything in at least the previous fifteen to twenty minutes.
Body temperature normally fluctuates over the day, with the lowest levels around 4 a.m. and the highest around 6 p.m. & (assuming the subject follow the prevalent pattern, i.e, sleeping at nighttime and staying awake during daytime). Therefore, an oral temperature of 37.2 °C (99.0 °F) would strictly be a fever in the morning, but not in the afternoon. An oral body temperature reading up to 37.5 °C (99.5 °F) in the early/late afternoon or early/late evening also wouldn't be a fever. Normal body temperature may differ as much as 1.0 °F between individuals or from day to day. In women, temperature differs at various points in the menstrual cycle, and this can be used for family planning (although temperature is only one of the variables). Temperature is increased after eating, and psychological factors also influence body temperature.
There are different locations where temperature can be measured, and these differ in temperature variability. Tympanic membrane thermometers measure radiant heat energy from the tympanic membrane (infrared). These may be very convenient, but may also show more variability.
Children develop higher temperatures with activities like playing, but this is not fever because their set-point is normal. Elderly patients may have a decreased ability to generate body heat during a fever, so even a low-grade fever can have serious underlying causes in geriatrics.
Mechanism
Temperature is regulated in the hypothalamus, in response to prostaglandin E2 (PGE2). PGE2 release, in turn, comes from a trigger, a pyrogen. The hypothalamus generates a response back to the rest of the body, making it increase the temperature set-point.
Pyrogens
A pyrogen is a substance that induces fever. These can be either internal (endogenous) or external (exogenous). The bacterial substance lipopolysaccharide (LPS) is an example of an exogenous pyrogen. Because exposure to exogenous pyrogens can cause a dangerous reaction, the FDA has set limits on the amount of permissible endotoxin in drugs. Depyrogenation may be achieved through filtration, distillation, chromatography, or inactivation.
Endogenous
The cytokines (such as interleukin 1) are a part of the innate immune system, produced by phagocytic cells, and cause the increase in the thermoregulatory set-point in the hypothalamus. Other examples of endogenous pyrogens are interleukin 6 (IL-6), and tumor necrosis factor-alpha.
These cytokine factors are released into general circulation where they migrate to the circumventricular organs of the brain, where the blood-brain barrier is reduced. The cytokine factors bind with endothelial receptors on vessel walls, or interact with local microglial cells. When these cytokine factors bind, they activate the arachidonic acid pathway.
Exogenous
One model for the mechanism of fever caused by exogenous pyrogens includes LPS, which is a cell wall component of gram-negative bacteria. An immunological protein called lipopolysaccharide-binding protein (LBP) binds to LPS. The LBP–LPS complex then binds to the CD14 receptor of a nearby macrophage. This binding results in the synthesis and release of various endogenous cytokine factors, such as interleukin 1 (IL-1), interleukin 6 (IL-6), and the tumor necrosis factor-alpha. In other words, exogenous factors cause release of endogenous factors, which, in turn, activate the arachidonic acid pathway.
PGE2 release
PGE2 release comes from the arachidonic acid pathway. This pathway (as it relates to fever), is mediated by the enzymes phospholipase A2 (PLA2), cyclooxygenase-2 (COX-2), and prostaglandin E2 synthase. These enzymes ultimately mediate the synthesis and release of PGE2.
PGE2 is the ultimate mediator of the febrile response. The set-point temperature of the body will remain elevated until PGE2 is no longer present. PGE2 acts on neurons in the preoptic area (POA) through the prostaglandin E receptor 3 (EP3). EP3-expressing neurons in the POA innervate the dorsomedial hypothalamus (DMH), the rostral raphe pallidus nucleus in the medulla oblongata (rRPa) and the paraventricular nucleus of the hypothalamus (PVN). Fever signals sent to the DMH and rRPa lead to stimulation of the sympathetic output system, which evokes non-shivering thermogenesis to produce body heat and skin vasoconstriction to decrease heat loss from the body surface. It is presumed that the innervation from the POA to the PVN mediates the neuroendocrine effects of fever through the pathway involving pituitary gland and various endocrine organs.
Hypothalamus response
The brain ultimately orchestrates heat effector mechanisms via the autonomic nervous system. These may be:
- Increased heat production by increased muscle tone, shivering and hormones like epinephrine.
- Prevention of heat loss, such as vasoconstriction.
The autonomic nervous system may also activate brown adipose tissue to produce heat (non-exercise-associated thermogenesis, also known as non-shivering thermogenesis), but this seems mostly important for babies. Increased heart rate and vasoconstriction contribute to increased blood pressure in fever.
Types
According to one common rule of thumb, fever is generally classified for convenience as:
Grade | °C | °F |
---|---|---|
low grade | 38–39 | 100.4–102.2 |
moderate | 39–40 | 102.2–104.0 |
high-grade | 40–42 | 104.0–107.6 |
hyperpyrexia | >42 | >107.6 |
The last is a medical emergency because it approaches the upper limit compatible with human life.
Most of the time, fever types can not be used to find the underlying cause. However, there are specific fever patterns that may occasionally hint the diagnosis:
- Pel-Ebstein fever: A specific kind of fever associated with Hodgkin's lymphoma, being high for one week and low for the next week and so on. However, there is some debate as to whether this pattern truly exists.&
- Continuous fever: Temperature remains above normal throughout the day and does not fluctuate more than 1°C in 24 hours, e.g. lobar pneumonia, typhoid, urinary tract infection, brucellosis, or typhus. Typhoid fever may show a specific fever pattern, with a slow stepwise increase and a high plateau.
- Intermittent fever: Elevated temperature is present only for some hours of the day and becomes normal for remaining hours, e.g. malaria, kala-azar, pyaemia, or septicemia. In malaria, there may be a fever with a periodicity of 24 hours (quotidian), 48 hours (tertian fever), or 72 hours (quartan fever, indicating Plasmodium malariae). These patterns may be less clear in travelers.
- Remittent fever: Temperature remains above normal throughout the day and fluctuates more than 1°C in 24 hours, e.g. infective endocarditis.
A neutropenic fever, also called febrile neutropenia, is a fever in the absence of normal immune system function. Because of the lack of infection-fighting neutrophils, a bacterial infection can spread rapidly and this fever is therefore usually considered a medical emergency. This kind of fever is more commonly seen in people receiving immune-suppressing chemotherapy than in apparently healthy people.
Febricula& is a mild fever of short duration, of indefinite origin, and without any distinctive pathology.
Causes
Fever is a common symptom of many medical conditions:
- Infectious disease, e.g. influenza, common cold, HIV, malaria, infectious mononucleosis, or gastroenteritis
- Various skin inflammations, e.g. boils, pimples, acne, or abscess
- Immunological diseases, e.g. lupus erythematosus, sarcoidosis, inflammatory bowel diseases
- Tissue destruction, which can occur in hemolysis, surgery, infarction, crush syndrome, rhabdomyolysis, cerebral hemorrhage, etc.
- Drug fever
- directly caused by the drug, e.g. lamictal, progesterone, or chemotherapeutics causing tumor necrosis
- as an adverse reaction to drugs, e.g. antibiotics or sulfa drugs.
- after drug discontinuation, e.g. heroin or fentanyl withdrawal
- Cancers, most commonly renal cancer and leukemia and lymphomas
- Metabolic disorders, e.g. gout or porphyria
- Thrombo-embolic processes, e.g. pulmonary embolism or deep venous thrombosis
Persistent fever which cannot be explained after repeated routine clinical inquiries, is called fever of unknown origin.
Usefulness of fever
"Give me a fever, and I can cure any illness." -- Hippocrates (ca. 400 BC)
There are arguments for and against the usefulness of fever, and the issue is controversial.&& There are studies using warm-blooded vertebrates& and humans& in vivo, with some suggesting that they recover more rapidly from infections or critical illness due to fever.
Theoretically, fever can aid in host defense.& There are certainly some important immunological reactions that are sped up by temperature, and some pathogens with strict temperature preferences could be hindered.& The overall conclusion seems to be that both aggressive treatment of fever& and too little fever control& can be detrimental. This depends on the clinical situation, so careful assessment is needed.
Fevers may be useful to some extent since they allow the body to reach high temperatures. This causes an unbearable environment for some pathogens. White blood cells also rapidly proliferate due to the suitable environment and can also help fight off the harmful pathogens and microbes that invaded the body.
Research& has demonstrated that fever has several important functions in the healing process:
- increased mobility of leukocytes
- enhanced leukocytes phagocytosis
- endotoxin effects decreased
- increased proliferation of T Cells&
- enhanced activity of interferon &
Treatment
Template:References Fever should not necessarily be treated. Fever is an important signal that there's something wrong in the body, and it can be used to govern medical treatment and gauge its effectiveness. Moreover, not all fevers are of infectious origin.
Even when treatment is not indicated, however, febrile patients are generally advised to keep themselves adequately hydrated, as the dehydration produced by a mild fever can be more dangerous than the fever itself. Water is generally used for this purpose, but there is always a small risk of hyponatremia if the patient drinks too much water. For this reason, some patients drink sports drinks or electrolyte-replacing products designed specifically for this purpose.
Most people take medication against fever because the symptoms cause discomfort. Fever increases heart rate and metabolism, thus potentially putting an additional strain on elderly patients, patients with heart disease, etc. This may even cause delirium. Therefore, potential benefits must be weighed against risks in these patients. In any case, fever must be brought under control in instances when fever escalates to hyperpyrexia and tissue damage is imminent.
Treatment of fever is normally done by lowering the set-point, but facilitating heat loss may also be effective. The former is accomplished with antipyretics such as ibuprofen or acetominophen (aspirin can be given to adults, but can cause Reye's Syndrome in children). Heat removal is generally by wet cloth or pads, usually applied to the forehead,& but also through bathing the body in tepid water. This is particularly important for babies, where drugs should be avoided. However, using water that is too cold can induce vasoconstriction, and reduce effective heat loss.
Heat loss may also be accomplished by heat conduction, convection, radiation, or evaporation (sweating, perspiration), or a combination of these.
Fever in domestic animals
Fever is also a important feature for diagnosis of diseases in domestic animals. Body temperature, always taken by anal way, is different from a species to an other. For example, a horse is said to have fever at 38.5°C and a cow only at 39.6°C.
In species allowing the body to wide range of normal temperatures, like camels, it is sometimes difficult to determine a febrile stage.
Diseases called "fever"
As fever is a prominent symptom of many diseases, in man and animals, it will often appear in the common appellation of diseases.
in humans
in animals
- East Coast fever (an African disease of cattle)
- Malignant catarrhal fever (a world-wide disease of cattle)
- Milk fever (a metabolic illness of cattle with hypothermia)
- Rift valley fever (an African disease of sheep)
References
- ↑ Body Temperature
- ↑ Template:Citation. They cite Richard Asher's lecture Making Sense (Lancet, 1959, 2, 359)
- ↑ Febricula, definition from Biology-Online.org, consulted June 7, 2006 http://www.biology-online.org/dictionary/Febricula
- ↑ 4.0 4.1 4.2 Schaffner A. Fever—useful or noxious symptom that should be treated? Ther Umsch 2006; 63: 185-8. PMID 16613288
- ↑ Soszynski D. The pathogenesis and the adaptive value of fever. Postepy Hig Med Dosw 2003; 57: 531-54. PMID 14737969
- ↑ Su, F.; Nguyen, N.D.; Wang, Z.; Cai, Y.; Rogiers, P.; Vincent, J.L. Fever control in septic shock: beneficial or harmful? Shock 2005; 23: 516-20. PMID 15897803
- ↑ 7.0 7.1 Schulman, C.I.; Namias, N.; Doherty, J., et al. The effect of antipyretic therapy upon outcomes in critically ill patients: a randomized, prospective study. Surg Infect (Larchmt) 2005; 6:369-75. PMID 16433601
- ↑ Fischler, M.P.; Reinhart, W.H. Fever: friend or enemy? Schweiz Med Wochenschr 1997; 127: 864-70. PMID 9289813
- ↑ Craven, R and Hirnle, C. (2006). Fundamentals of nursing: Human health and function. Fourth edition. p. 1044
- ↑ 10.0 10.1 Lewis, SM, Heitkemper, MM, and Dirksen, SR. (2007). Medical-surgical nursing: Assessment and management of clinical problems. sixth edition. p. 212
- ↑ Template:Cite journal
Further reading
- Rhoades, R. and Pflanzer, R. Human physiology, third edition, chapter 27 Regulation of body temperature, p. 820 Clinical focus: pathogenesis of fever. ISBN 0-03-005159-2
- Kasper, D.L.; Braunwald, E.; Fauci, A.S.; Hauser, S.L.; Longo, D.L.; Jameson, J.L. Harrison's Principles of Internal Medicine. New York: McGraw-Hill, 2005. ISBN 0-07-139140-1.
External links
- What to do if your child has a fever from Seattle Children's Hospital
- Fever and Taking Your Child's Temperature
- US National Institute of Health factsheet
- BUPA factsheet
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