Information about Common Cold
| ICD-10 | J00.0 |
|---|---|
| ICD-9 | 460 |
| DiseasesDB | 31088 |
| MedlinePlus | 000678 |
| eMedicine | med/2339 |
| MeSH | D003139 |
Common symptoms are sore throat, runny nose, nasal congestion, sneezing and cough; sometimes accompanied by muscle aches, fatigue, malaise, headache, muscle weakness, or loss of appetite. Fever and extreme exhaustion are more usual in influenza. The symptoms of a cold usually resolve after about one week, but can last up to 14 days. Symptoms may be more severe in infants and young children. Although the disease is generally mild and self-limiting, patients with common colds often seek professional medical help, use over-the-counter drugs, and may miss school or work days. The cumulative societal cost of the common cold in the United States is billions of dollars.
No vaccines are available: the primary method to prevent infection is hand-washing to minimize person-to-person transmission of the virus. There are no antiviral drugs approved to treat or cure the infection. Most available medications are palliative and treat symptoms only. Megadoses of vitamin C, preparations from echinacea, and zinc gluconate have been studied as treatments for the common cold although none have been approved by the Food and Drug Administration or European Medicines Agency.
Pathology
Epidemiology
Upper respiratory tract infections are the most common infectious diseases among adults who have two to four respiratory infections annually.[1] Children may have six to ten colds a year (and up to 12 colds a year for school children).[1][1] In the United States, the incidence of colds is higher in the fall and winter, with most infections occurring between September to April. The seasonality may be due to the start of the school year, or due to people spending more time indoors (thus in closer proximity with each other) increasing the chance of transmission of the virus.[1]Virus
)
Rhinoviruses cause most common colds
Transmission
The common cold virus is transmitted between people by one of two ways:- through the air from aerosols containing the virus created by coughs or sneezes, or
- from contact with the saliva or nasal secretions of an infected person, either directly or from contaminated surfaces.
The virus enters the cells of the lining of the nasopharynx (the area between the nose and throat), and rapidly multiplies. The major entry point is normally the nose, but can also be the eyes (in this case drainage into the nasopharynx would occur through the Nasolacrimal duct).
Symptoms
After initial infection, the viral replication cycle begins within 8 to 12 hours. Symptoms can occur shortly thereafter, and usually peak within 2 to 3 days after infection.[5] The first indication of a cold is often a sore or scratchy throat. Other common symptoms are runny nose, congestion, sneezing and cough. These are sometimes accompanied by muscle aches, fatigue, malaise, headache, weakness, or loss of appetite[6]. Colds occasionally cause fever and can sometimes lead to extreme exhaustion. (However, these symptoms are more usual in influenza, and can differentiate the two infections.) The symptoms of a cold usually resolve after about one week, but can last up to 14 days, with a cough lasting longer than other symptoms. Symptoms may be more severe in infants and young children, and may include fever.[7][1][9]Complications
The common cold can lead to opportunistic coinfections or superinfections such as acute bronchitis, bronchiolitis, croup, pneumonia, sinusitis, otitis media, or strep throat. People with chronic lung diseases such as asthma and COPD are especially vulnerable. Colds may cause acute exacerbations of asthma, emphysema or chronic bronchitis.[5][2][3]The economic cost of the common cold
The common cold leads to 75 to 100 million physician visits annually at a conservative cost estimate of $7.7 billion per year. Americans spend $2.9 billion on over-the-counter drugs and another $400 million on prescription medicines for symptomatic relief.[1][10]More than one-third of patients who saw a doctor received an antibiotic prescription, which not only contributes to unnecessary costs ($1.1 billion annually on an estimated 41 million antibiotic prescriptions in the United States), but also has implications for antibiotic resistance from overuse of such drugs.[10]
An estimated 22 to 189 million school days are missed annually due to a cold. As a result, parents missed 126 million workdays to stay home to care for their children. When added to the 150 million workdays missed by employees suffering from a cold, the total economic impact of cold-related work loss exceeds $20 billion.[1][1][10]
Prevention
The best way to avoid a cold is to avoid close contact with existing sufferers; to wash hands thoroughly and regularly; and to avoid touching the mouth and face. Anti-bacterial soaps have no effect on the cold virus; it is the mechanical action of hand washing that removes the virus particles.[11]In 2002, the Centers for Disease Control and Prevention recommended alcohol-based hand gels as an effective method for reducing infectious viruses on the hands of health care workers.[12] As with hand washing with soap and water, alcohol gels provide no residual protection from re-infection.
The common cold is caused by a large variety of viruses, which mutate quite frequently during reproduction, resulting in constantly changing virus strains. Thus, successful immunization is highly improbable.
Treatment
As there is no medically proven and accepted medication directly targeting the causative agent, there is no cure for the common cold. Treatment is limited to symptomatic supportive options, maximizing the comfort of the patient, and limiting complications and harmful sequelae. The most reliable treatment is a combination of fluids and plenty of rest.The common cold is self-limiting, and the host's immune system effectively deals with the infection. Within a few days, the body's humoral immune response begins producing specific antibodies that can prevent the virus from infecting cells. Additionally, as part of the cell-mediated immune response, leukocytes destroy the virus through phagocytosis and destroy infected cells to prevent further viral replication. In healthy, immunocompetent individuals, the common cold resolves in seven days on average.[5]
Palliative care
The National Institute of Allergy and Infectious Diseases suggests getting plenty of rest, drinking fluids to maintain hydration, gargling with warm salt water, using cough drops, throat sprays, or over-the-counter pain or cold medicines.[1] Saline nasal drops may help alleviate congestion.[13]The American Lung Association recommends avoiding coffee, tea or cola drinks that contain caffeine and avoiding alcoholic beverages. Both caffeine and alcohol cause dehydration.[9]
Antibiotics
Antibiotics do not have any beneficial effect against the common cold. Their use in cases of common cold infection is ineffective and may contribute to antibiotic resistance of bacteria present in the patient's body.Antivirals
There are no approved antiviral drugs for the common cold.ViroPharma and Schering-Plough are developing an antiviral drug, pleconaril, that targets picornaviruses, the viruses that cause the majority of common colds. Pleconaril has been shown to be effective in an oral form.[14][15] Schering-Plough is developing an intra-nasal formulation that may have fewer adverse effects.[16]
Over-the-counter symptom medicines
There are a number of effective treatments which, rather than treat the viral infection, focus on relieving the symptoms. For some people, colds are relatively minor inconveniences and they can go on with their daily activities with tolerable discomfort. This discomfort has to be weighed against the price and possible side effects of the remedies.- analgesics such as aspirin or paracetamol (acetaminophen), as well as localised versions targeting the throat (often delivered in lozenge form)
- nasal decongestants such as pseudoephedrine or oxymetazoline which reduce the inflammation in the nasal passages by constricting local blood vessels
- cough suppressants such as dextromethorphan which suppress the cough reflex.
- first-generation anti-histamines such as brompheniramine, chlorpheniramine, diphenhydramine and clemastine (which reduce mucus gland secretion and thus combat blocked/runny noses but also may make the user drowsy). Second-generation anti-histamines do not have a useful effect on colds.
Herbal remedies
Herbal teas, such as chamomile tea, or lemon or ginger root tisanes may soothe some symptoms and comfort the patient.Liquorice and garlic preparations have been suggested as treatments for the common cold, although efficacy is unproven.
Echinacea
Echinacea, commonly called coneflowers, are plants with large showy heads of composite flowers. They are herbaceous, drought-tolerant perennial plants, native to North America, growing to 1 or 2 m in height. Echinacea is used in herbal preparations used to treat the common cold.Although there have been scientific studies evaluating echinacea, its effectiveness has not been convincingly demonstrated. For example, a peer-reviewed clinical study published in the New England Journal of Medicine concluded that "…extracts of E. angustifolia root, either alone or in combination, do not have clinically significant effects on rhinovirus infection or on the clinical illness that results from it."[17][18] Recent randomized, double-blind, placebo-controlled studies in adults have not shown a beneficial effect of echinacea on symptom severity or duration of the cold.[19][20] A structured review of 9 placebo controlled studies suggested that the effectiveness of echinacea in the treatment of colds has not been established.[21] Conversely, two recent meta-analyses of published medical articles concluded that there is some evidence that echinacea may reduce either the duration or severity of the common cold, but results are not fully consistent. However, there have been no large, randomized placebo-controlled clinical studies that definitively demonstrate either prophylaxis or therapeutic effects in adults.[22][23] A randomized, double-blind, placebo-controlled study in 407 children of ages ranging from 2 to 11 years showed that echinacea did not reduce the duration of the cold, or reduce the severity of the symptoms.[24] Most authoritative sources consider the effect of echinacea on the cold unproven.[2][1][9][1]
Reported adverse effects of echinacea include nausea, dizziness, dyspnea, rash, dermatitis, pruritis, and hepatotoxicity. These tend to be infrequent, mild and transient. Echinacea should not be taken with hepatotoxic drugs or immunosuppressants.[26] Forty-five percent of retail echinacea products failed quality testing by an independent consumer testing laboratory, due to either high lead levels, or low plant chemicals.[27]
Other
Vitamin C
A well known supporter of the theory that Vitamin C megadosage prevented infection was Nobel Prize winner Linus Pauling,[28] who wrote the bestseller Vitamin C and the Common Cold.[29] A meta-analysis published in 2005 found that "the lack of effect of prophylactic vitamin C supplementation on the incidence of common cold in normal populations throws doubt on the utility of this wide practice".[30]A follow-up meta-analysis supported these conclusions:
Prophylactic use "...of vitamin C has no effect on common cold incidence ... [but] reduces the duration and severity of common cold symptoms slightly, although the magnitude of the effect was so small its clinical usefulness is doubtful. Therapeutic trials of high doses of vitamin C ... starting after the onset of symptoms, showed no consistent effect on either duration or severity of symptoms. ... More therapeutic trials are necessary to settle the question, especially in children who have not entered these trials."[31][32]
Most of the studies showing little or no effect employ doses of ascorbate such as 100 mg to 500 mg per day, considered "small" by vitamin C advocates. Equally important, the plasma half life of high dose ascorbate above the baseline, controlled by renal resorption, is approximately 30 minutes,[33][34] which implies that most high dose studies have been methodologically defective and would be expected to show a minimum benefit. Clinical studies of divided dose supplementation, predicted on pharmacological grounds to be effective, have only rarely been reported in the literature.
Because vitamin C is metabolized to oxalic acid in the body, some scientists have long speculated that high doses may contribute to the development of kidney stones.[35]
The U.S. Institute of Medicine recommends a daily requirement of 45mg to 90mg of vitamin C for adults, up to 85mg for pregnant women and up to 120mg for nursing mothers,[36] while the European Commission Health and Consumer Protection DG recommends 40mg/d for adults (50mg/d and 60mg/d for pregnant women and nursing mothers, respectively).[37]
Zinc preparations
Zinc is an essential element, necessary for sustaining life. Recommended daily intake has been established and results of zinc deficiency and toxicity have been well characterized.Zinc acetate and zinc gluconate have been tested as potential treatments for the common cold, in various dosage form including nasal sprays, nasal gels, and lozenges.[38][39] Some studies have shown some effect of zinc preparations on the duration of the common cold, but conclusions are diverse.[40][41][42] Approximately half of studies demonstrate efficacy. Even studies that show clinical effect have not demonstrated the mechanism of action.[43] The studies differ in the salt used, concentration of the salt, dosage form, and formulation, and some suffer from defects in design or methods. For example, there is evidence that the potential efficacy of zinc gluconate lozenges may be affected by other food acids (citric acid, ascorbic acid and glycine) present in the lozenge.[44] Furthermore, interpretation of the results depends on whether concentration of total zinc or ionic zinc is considered.[45][46]
There are concerns regarding the safety of long-term use of cold preparations in an estimated 25 million persons who are haemochromatosis heterozygotes.[47] Use of high doses of zinc for more than two weeks may cause copper depletion, which leads to anemia.[48] Other adverse events of high doses of zinc include nausea, vomiting gastrointestinal discomfort, headache, drowsiness, unpleasant taste, taste distortion, abdominal cramping, and diarrhea.[43][48] Some users of nasal spray applicators containing zinc have reported temporary or permanent loss of sense of smell.[49]
Although widely available and advertised in the United States as dietary supplements or homeopathic treatments, the safety and efficacy of zinc preparations have not been evaluated or approved by the Food and Drug Administration. Authoritative sources consider the effect of zinc preparations on the cold unproven.[2][9]:See also:
Steam inhalation
Many people believe that steam inhalation reduces symptoms of the cold.[50]However, a double-blind, placebo-controlled, randomized study found no effect of steam inhalation on cold symptoms.[51] A scientific review of medical literature concluded that "there is insufficient evidence to support the use of steam inhalation as a treatment."[52] There have been reports of children being badly burned when using steam inhalation to alleviate cold symptoms leading to the recommendation to "...start discouraging patients from using this form of home remedy, as there appears to be no significant benefit from steam inhalation."[53]
Chicken soup
In the twelfth century, Moses Maimonides wrote, "Chicken soup...is recommended as an excellent food as well as medication."[54] Since then, there have been numerous reports that chicken soup alleviates the symptoms of the common cold. Even usually staid medical journals have published tongue-in-cheek humorous articles on the alleged medicinal properties of chicken soup.[55][56][57] However, the efficacy of chicken soup has not been studied in any rigorous clinical trials. Nevertheless, hot chicken soup is nutritious and easy to eat, aids in rehydration, and provides a temporary feeling of relief.History
Colds have existed since ancient times, being known in ancient Egypt, where there were hieroglyphs representing the cough and the common cold. The Greek physician Hippocrates gave a description of the disease in the 5th century BC. The common cold was also known among the ancient American Indian, Aztec, and Maya civilizations. A mixture of chili pepper, honey, and tobacco was one common Aztec treatment for colds.In the 18th century, John Wesley wrote a book about curing diseases; it advised against cold baths, stating that chilling causes the common cold. The work was widely reprinted in the 19th century. Another book by William Buchan in the 18th century also gave wet feet and clothes as the cause of the common cold.
The idea that microscopic infectious agents cause disease only arose in the second half of the 19th century. Initially, bacteria were suspected to be the cause of the common cold, and vaccines were produced based on this theory; these were still prescribed in the 1950s.
Viruses had been described beginning in the 1890s: infectious agents so small that they could pass through all filters and could not be seen under a microscope. In 1914, Walter Kruse, a professor in Leipzig, Germany, showed that viruses caused the common cold: nose secretions of a cold sufferer were diluted, filtered, and introduced into the noses of volunteers, producing colds in about half of the cases. These findings were not widely accepted, until they were repeated in the 1920s by Alphonse Dochez, first in chimpanzees, and then in human volunteers using a double-blind setup. Nevertheless, in 1932 a major textbook on the common cold by David Thomson still presented bacteria as the most likely cause.
In the United Kingdom, the Common Cold Unit was set up by the civilian Medical Research Council in 1946 . The unit worked with volunteers who were infected with various viruses. The rhinovirus was discovered there. In the late 1950s, researchers were able to grow one of these cold viruses in a tissue culture, as it would not grow in fertilized chicken eggs, the method used for many other viruses. In the 1970s, the CCU demonstrated that treatment with interferon during the incubation phase of rhinovirus infection protects somewhat against the disease, but no practical treatment could be developed. The unit was closed in 1989, just two years after it demonstrated the benefit of zinc gluconate lozenges in the prophylaxis and treatment of rhinovirus colds.[58]
Effect of exposure to cold weather on incidence of common colds
Although common colds are seasonal, with more occurring during winter, there is no evidence that short-term exposure to cold weather or direct chilling increases susceptibility to infection.[1][59][60][61]With respect to the causation of cold-like symptoms, researchers at the Common Cold Centre at the Cardiff University[6] conducted a study to "test the hypothesis that acute cooling of the feet causes the onset of common cold symptoms."[62] In the experiment, 28.8% of a group of 90 people who sat with their feet in ice-cold water for 20 minutes twice a day for four or five days reported cold symptoms within five days of the procedure, while just 8.8% of a control group of 90 people who were not similarly exposed reported cold symptoms. 14.4% of those who were chilled reported believing they had a cold, compared to just 5.6% of the control group. The study measured the subjects' self-reported cold symptoms, and belief they had a cold, but not whether an actual respiratory infection developed. It concludes that the onset of common cold symptoms can be caused by acute chilling of the feet, but that "further studies are needed to determine the relationship of symptom generation to any respiratory infection."
See also
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9. ^ A Survival Guide for Preventing and Treating Influenza and the Common Cold. American Lung Association (August 2005). Retrieved on 2007-06-11.
10. ^ Fendrick AM, Monto AS, Nightengale B, Sarnes M (2003). "The economic burden of non-influenza-related viral respiratory tract infection in the United States". Arch. Intern. Med. 163 (4): 487-94. PMID 12588210.
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12. ^ Boyce, John M.; Didier Pittet (2002-10-25). "Guideline for Hand Hygiene in Health-Care Settings: Guideline for Hand Hygiene in Health-Care Settings Recommendations of the Healthcare Infection Control Practices Advisory Committee and the HICPAC/SHEA/APIC/IDSA Hand Hygiene Task Force" (pdf). Morbidity and Mortality Weekly Report 51 (RR-16). PMID 12418624. Retrieved on 2007-06-21.
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14. ^ Pevear, Daniel C.; Tina M. Tull, Martin E. Seipel, James M. Groarke (September 1999). "Activity of Pleconaril against Enteroviruses". Antimicrobial Agents and Chemotherapy 43 (9): 2109-2115.1999&rft.volume=43&rft.issue=9&rft.aulast=Pevear&rft.aufirst=Daniel%20C.&rft.pages=2109-2115&rft_id=http%3A%2F%2Faac.asm.org%2Fcgi%2Fcontent%2Ffull%2F43%2F9%2F2109">
15. ^ McConnell, J. (2 October 1999). "Enteroviruses succumb to new drug". The Lancet 354 (9185): 1185.1999&rft.volume=354&rft.issue=9185&rft.aulast=McConnell&rft.aufirst=J.&rft.pages=1185">
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35. ^ Massey LK, Liebman M, Kynast-Gales SA (2005). "Ascorbate increases human oxaluria and kidney stone risk". J. Nutr. 135 (7): 1673-7. PMID 15987848.
36. ^ Institute of Medicine, Food and Nutrition Board (2004). Dietary Reference Intakes: Recommended Intakes for Individuals (pdf). National Academy of Sciences. Retrieved on 2007-08-08.
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48. ^ Zinc. PDRhealth. Thomson Healthcare. Retrieved on 2007-07-11.
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51. ^ Forstall, G. J.; M. L. Macknin, B. R. Yen-Lieberman, S. V. Medendrop (13 April 1994). "Effect of inhaling heated vapor on symptoms of the common cold". Journal of the American Medical Association (JAMA) 271 (14). Retrieved on 2007-03-29.1994&rft.volume=271&rft.issue=14&rft.aulast=Forstall&rft.aufirst=G.%20J.&rft_id=http%3A%2F%2Fjama.ama-assn.org%2Fcgi%2Fcontent%2Fabstract%2F271%2F14%2F1109">
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53. ^ MA Akhavani; RHJ Baker (1 July 2005). "Steam inhalation treatment for children". British Journal of General Practice 55. Retrieved on 2007-03-29.2005&rft.volume=55&rft.au=MA%20Akhavani&rft_id=http%3A%2F%2Fwww.pubmedcentral.nih.gov%2Farticlerender.fcgi%3Fartid%3D1472796">
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External links
- Duenwald, Mary. "Keeping Colds at Bay. Or Maybe Not", New York Times, 2005-01-01. Retrieved on 2007-08-15.
- Common Cold. Canadian Lung Association (2006-09-28). Retrieved on 2007-07-16.
- Using over-the-counter drugs to treat cold symptoms. Canadian Pediatric Society (March 2005). Retrieved on 2007-07-16.
- Colds in children. Canadian Pediatric Society (October 2005). Retrieved on 2007-07-16.
- US Food and Drug Administration, May 2000. What to Do for Colds and Flu
- Common Cold Links to health information from MedlinePlus
- Common Cold syllabus from Infectious Diseases, Medical Microbiology, by Neal Chamberlain, PhD. Kirksville College of Osteopathic Medicine
- The first common cold experiments (1946) with film clip
For other uses of "ICD", see ICD (disambiguation).
The International Statistical Classification of Diseases and Related Health Problems (most commonly known by the abbreviation ICD
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List of ICD-10 codes. The version for 2007 is available online at [1]
Chapter Blocks Title
I Certain infectious and parasitic diseases
II Neoplasms
III Diseases of the blood and blood-forming organs and certain disorders involving the immune mechanism
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Chapter Blocks Title
I Certain infectious and parasitic diseases
II Neoplasms
III Diseases of the blood and blood-forming organs and certain disorders involving the immune mechanism
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For other uses of "ICD", see ICD (disambiguation).
The International Statistical Classification of Diseases and Related Health Problems (most commonly known by the abbreviation ICD
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The following is a list of codes for International Statistical Classification of Diseases and Related Health Problems. These codes are in the public domain.
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See also
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The Diseases Database is a free website that provides information about the relationships between medical conditions, symptoms, and medications.
It directly integrates the Unified Medical Language System.
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It directly integrates the Unified Medical Language System.
External links
- Diseases Database
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MedlinePlus is a website containing health information from the world's largest medical library, the United States National Library of Medicine. The site is intended to be used by health care providers and patients, and designed to provide up-to-date, authoritative information.
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eMedicine is an online clinical medical knowledge base that was founded in 1996 by Scott Plantz and Richard Lavely, two medical doctors. It was sold to WebMD in January 2006.
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Medical Subject Headings (MeSH) is a huge controlled vocabulary (or metadata system) for the purpose of indexing journal articles and books in the life sciences. Created and updated by the United States National Library of Medicine (NLM), it is used by the MEDLINE/PubMed
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infectious disease is a clinically evident disease resulting from the presence of pathogenic microbial agents, including viruses, bacteria, fungi, protozoa, multicellular parasites, and aberrant proteins known as prions.
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respiratory system generally includes tubes, such as the bronchi, used to carry air to the lungs, where gas exchange takes place. A diaphragm pulls air in and pushes it out. Respiratory systems of various types are found in a wide variety of organisms.
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Picornaviridae
Genera
Enterovirus
Rhinovirus
Hepatovirus
Cardiovirus
Aphthovirus
Parechovirus
Erbovirus
Kobuvirus
Teschovirus
A Picornavirus
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Genera
Enterovirus
Rhinovirus
Hepatovirus
Cardiovirus
Aphthovirus
Parechovirus
Erbovirus
Kobuvirus
Teschovirus
A Picornavirus
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Coronavirus
Coronavirus is a genus of animal virus belonging to the family Coronaviridae.[1] Coronaviruses are enveloped viruses with a positive-sense single-stranded RNA genome and a helical symmetry.
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Coronavirus is a genus of animal virus belonging to the family Coronaviridae.[1] Coronaviruses are enveloped viruses with a positive-sense single-stranded RNA genome and a helical symmetry.
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Pharyngitis
Classification & external resources
Viral pharyngitis.
The oropharynx is swollen and red.
ICD-10 J 02. , J 31.2
ICD-9 462 , 472.1
DiseasesDB 24580
MedlinePlus 000655
eMedicine emerg/419
MeSH D010612
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Classification & external resources
Viral pharyngitis.
The oropharynx is swollen and red.
ICD-10 J 02. , J 31.2
ICD-9 462 , 472.1
DiseasesDB 24580
MedlinePlus 000655
eMedicine emerg/419
MeSH D010612
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MeSH D012220 Rhinitis is the medical term describing irritation and inflammation of some internal areas of the nose. The primary symptom of rhinitis is a runny nose.
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Nasal congestion is the blockage of the nasal passages usually due to membranes lining the nose becoming swollen from inflamed blood vessels. It is also known as nasal blockage, nasal obstruction, blocked nose, runny nose, and stuffy nose.
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A sneeze is a semi-autonomous, convulsive expulsion of air from the lungs.
Sneezing occurs when a particle (or sufficient particles) passes through the nasal hairs and reaches the nasal mucosa.
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Sneezing occurs when a particle (or sufficient particles) passes through the nasal hairs and reaches the nasal mucosa.
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Cough
Classifications and external resources
ICD-10 R 05.
ICD-9 786.2
A cough, also known as tussis is a sudden, often repetitive, spasmodic contraction of the thoracic cavity, resulting in violent release of air from the lungs, and
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Classifications and external resources
ICD-10 R 05.
ICD-9 786.2
A cough, also known as tussis is a sudden, often repetitive, spasmodic contraction of the thoracic cavity, resulting in violent release of air from the lungs, and
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Myalgia means "muscle pain" and is a symptom of many diseases and disorders. The most common cause for myalgia is either overuse or over-stretching of a muscle or group of muscles. Myalgia without a traumatic history is often due to viral infections.
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Fatigue
Classifications and external resources
ICD-10 R 53.
ICD-9 780.7
DiseasesDB 30079
MedlinePlus 003088
MeSH D005221 The word fatigue
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Classifications and external resources
ICD-10 R 53.
ICD-9 780.7
DiseasesDB 30079
MedlinePlus 003088
MeSH D005221 The word fatigue
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Malaise
Classifications and external resources
ICD-10 R 53.
ICD-9 780.7
Malaise is a feeling of general discomfort or uneasiness, an "out of sorts" feeling, often the first indication of an infection or other disease.
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Classifications and external resources
ICD-10 R 53.
ICD-9 780.7
Malaise is a feeling of general discomfort or uneasiness, an "out of sorts" feeling, often the first indication of an infection or other disease.
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Headache
Classifications and external resources
ICD-10 R 51.
ICD-9 784.0
A headache (cephalgia in medical terminology) is a condition of pain in the head; sometimes neck or upper back pain may also be interpreted as a headache.
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Classifications and external resources
ICD-10 R 51.
ICD-9 784.0
A headache (cephalgia in medical terminology) is a condition of pain in the head; sometimes neck or upper back pain may also be interpreted as a headache.
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Muscle weakness
Classification & external resources
ICD-10 M62.8
ICD-9 728.87 ( 728.9 before 10/01/03)
DiseasesDB 22832
MeSH D018908 Muscle weakness
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Classification & external resources
ICD-10 M62.8
ICD-9 728.87 ( 728.9 before 10/01/03)
DiseasesDB 22832
MeSH D018908 Muscle weakness
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Anorexia
Classifications and external resources
ICD-10 R 63.0
ICD-9 783.0
Anorexia (deriving from the Greek "α(ν)-" (a(n)-, a prefix that denotes absence) + "όρεξη'' (orexe)
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Classifications and external resources
ICD-10 R 63.0
ICD-9 783.0
Anorexia (deriving from the Greek "α(ν)-" (a(n)-, a prefix that denotes absence) + "όρεξη'' (orexe)
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Fever
Classifications and external resources
ICD-10 R 50.
ICD-9 780.6
DiseasesDB .htm 18924 |]
Fever (also known as pyrexia, or a febrile response from the Latin word febris
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Classifications and external resources
ICD-10 R 50.
ICD-9 780.6
DiseasesDB .htm 18924 |]
Fever (also known as pyrexia, or a febrile response from the Latin word febris
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Fatigue
Classifications and external resources
ICD-10 R 53.
ICD-9 780.7
DiseasesDB 30079
MedlinePlus 003088
MeSH D005221 The word fatigue
..... Click the link for more information.
Classifications and external resources
ICD-10 R 53.
ICD-9 780.7
DiseasesDB 30079
MedlinePlus 003088
MeSH D005221 The word fatigue
..... Click the link for more information.
Influenza
Classification & external resources
TEM of negatively stained influenza virons, magnified approximately 70,000 times
ICD-10 J 10. , J 11.
ICD-9 487
DiseasesDB 6791
MedlinePlus 000080
eMedicine med/1170 ped/3006
MeSH
..... Click the link for more information.
Classification & external resources
TEM of negatively stained influenza virons, magnified approximately 70,000 times
ICD-10 J 10. , J 11.
ICD-9 487
DiseasesDB 6791
MedlinePlus 000080
eMedicine med/1170 ped/3006
MeSH
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Over-the-counter (OTC) drugs are medicines that may be sold without a prescription, in contrast to prescription drugs. The name "over-the-counter" is somewhat confusing to some, since these items can be found on the shelves of stores and bought like any other packaged product in
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A vaccine is an antigenic preparation used to establish immunity to a disease. The term derives from Edward Jenner's use of cowpox ("vacca" means cow in Latin), which, when administered to humans, provided them protection against smallpox, the work which Louis Pasteur and others
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Antiviral may refer to:
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- Antiviral drug
- Antiviral Therapy, an academic journal
- List of antiviral drugs
- Antivirus software
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This article is copied from an article on Wikipedia.org - the free encyclopedia created and edited by online user community. The text was not checked or edited by anyone on our staff. Although the vast majority of the wikipedia encyclopedia articles provide accurate and timely information please do not assume the accuracy of any particular article. This article is distributed under the terms of GNU Free Documentation License.
Herod_Archelaus
