Sunday, March 6, 2011

Common cold

Common Cold
Classification and external resources

Molecular surface of one variant of human rhinovirus.
ICD-10 J00.0
ICD-9 460
DiseasesDB 31088
MedlinePlus 000678
eMedicine aaem/118 med/2339
MeSH D003139
The common cold (also known as nasopharyngitis, acute viral rhinopharyngitis, acute coryza, or a cold) (Latin: rhinitis acuta catarrhalis) is a viral infectious disease of the upper respiratory system, caused primarily by rhinoviruses and coronaviruses.[1] Common symptoms include a cough, sore throat, runny nose, and fever. There is currently no known treatment that shortens the duration; however, symptoms usually resolve spontaneously in 7 to 10 days, with some symptoms possibly lasting for up to three weeks.[2]
The common cold is the most frequent infectious disease in humans[3] with the average adult contracting two to four infections a year and the average child contracting between 6–12. Collectively, colds, influenza, and other infections with similar symptoms are included in the diagnosis of influenza-like illness. They may also be termed upper respiratory tract infections (URTI).

Contents

  • 1 Signs and symptoms
    • 1.1 Progression
  • 2 Cause
    • 2.1 Viruses
    • 2.2 Risk factors
  • 3 Pathophysiology
  • 4 Prevention
  • 5 Management
    • 5.1 Symptomatic
    • 5.2 Zinc supplements
    • 5.3 Vitamin C supplements
    • 5.4 Antibiotics and antivirals
    • 5.5 Alternative treatments
  • 6 Prognosis
  • 7 Epidemiology
  • 8 History
    • 8.1 Common Cold Unit
  • 9 Social and cultural
    • 9.1 Economics
    • 9.2 Legal
    • 9.3 Cold weather
  • 10 Research

Signs and symptoms

Symptoms are cough, sore throat, runny nose, and nasal congestion; sometimes this may be accompanied by conjunctivitis (pink eye), muscle aches, fatigue, headaches, shivering, and loss of appetite. Fever is often present thus creating a symptom picture which overlaps with influenza.[4] The symptoms of influenza however are usually more severe.[5]
Those suffering from colds often report a sensation of chilliness even though the cold is not generally accompanied by fever, and although chills are generally associated with fever, the sensation may not always be caused by actual fever.[4] In one study, 60% of those suffering from a sore throat and upper respiratory tract infection reported headaches,[4] often due to nasal congestion.

Progression

The viral replication begins 8 to 15 hours after initial contact.[6] Symptoms usually begin 2 to 5 days after initial infection but occasionally occur in as little as 10 hours.[7] Symptoms peak 2–3 days after symptom onset, whereas influenza symptom onset is constant and immediate.[4] The symptoms usually resolve spontaneously in 7 to 10 days but some can last for up to three weeks.[2] In children the cough lasts for more than 10 days in 35–40% and continues for more than 25 days in 10%.[8]
The first indication of an upper respiratory virus is often a sore or scratchy throat. Other common symptoms are runny nose, congestion, and sneezing.[9] These are sometimes accompanied by muscle aches, fatigue, malaise, headache, weakness, or loss of appetite.[10] Cough and fever generally indicate influenza rather than an upper respiratory virus with a positive predictive value of around 80%.[4] Symptoms may be more severe in infants and young children, and in these cases it may include fever and hives.[11] Upper respiratory viruses may also be more severe in smokers.[12]

Cause

Viruses

The common cold is a viral infection of the upper respiratory tract. The most commonly implicated virus is a rhinovirus (30–50%), a type of picornavirus with 99 known serotypes.[4][13][14] Others include: coronavirus (10–15%), influenza (5–15%),[4] human parainfluenza viruses, human respiratory syncytial virus, adenoviruses, enteroviruses, and metapneumovirus.[9]
In total over 200 serologically different viral types cause colds.[4] Coronaviruses are particularly implicated in adult colds. Of over 30 coronaviruses, 3 or 4 cause infections in humans, but they are difficult to grow in the laboratory and their significance is thus less well-understood.[9] Due to the many different types of viruses and their tendency for continuous mutation, it is impossible to gain complete immunity to the common cold.

Risk factors

  • Touching eyes, nose, or mouth with contaminated fingers. This behavior increases the likelihood of transferring viruses from the surface of the hands, where they are harmless, into the upper respiratory tract, where they can infect the tissues.[6][9] It has been demonstrated cold viruses can be spread by touching contaminated objects and surfaces, or by brief contact of hands.[6]
  • Spending time in an enclosed area with an infected person or in close contact with an infected person. Common colds are droplet-borne infections, which means that they can be transmitted through breathing in tiny particles that the infected person emits when he or she coughs or sneezes. In one study, virus was recovered in 1/13 sneezes and 0/8 coughs generated by adults with natural rhinovirus (cold) infections.[15]
  • The role of body cooling in causing the common cold is controversial.[16] It is the most commonly offered folk explanation for the disease, and it has received some experimental evidence. One study showed that exposure to the cold causes cold symptoms in about 10% of those exposed, and that the subjects experiencing this effect report far more colds overall than those who do not.[17] However, a variety of other studies do not show such an effect.[16]
  • A history of smoking extends the duration of illness by about three days.[18]
  • Getting fewer than seven hours of sleep per night has been associated with a risk three times higher of developing an infection when exposed to a rhinovirus, compared to those who sleep more than eight hours per night.[19]
  • Common colds are seasonal, occurring more frequently during winter outside of tropical zones. This is believed to be partly due to a change in behaviors such as increased time spent indoors, which puts infected people in close proximity to other people, rather than to exposure to cold temperatures.[9][20]
  • Low humidity increases viral transmission rates. One theory is that dry air causes evaporation of water, thus allowing small viral droplets to disperse farther and stay in the air longer.[21]
  • Counterintuitively, people with stronger immune systems are more likely to develop symptomatic colds.[22] This is because the symptoms of a cold are directly due to the strong immune response to the virus, not the virus itself. People with less active immune systems—about a quarter of adults—get infected with the viruses, but the relatively weak immunological response produces no significant or identifiable symptoms. These people are asymptomatic carriers and can unknowingly spread the virus to other people. Because strong immune responses cause cold symptoms, "boosting" the immune system increases cold symptoms.[22]

Pathophysiology

The common cold is a disease of the upper respiratory tract.
The common cold is a type of pharyngitis (inflammation of the throat). In the common cold, the inflammation is caused by a viral infection in the uppermost part of the throat (the nasopharynx), which runs from behind the nose down to the mouth.
The common cold virus is transmitted mainly from contact with saliva or nasal secretions of an infected person, either directly, when a healthy person breathes in the virus-laden aerosol generated when an infected person coughs or sneezes, or by touching a contaminated surface and then touching the nose or eyes.[23]
Symptoms are not necessary for viral shedding or transmission, as a percentage of asymptomatic subjects exhibit viruses in nasal swabs.[24] It is generally not possible to identify the virus type through symptoms, although influenza can be distinguished by its sudden onset, fever, and cough.[4]
The major entry point for the virus is normally the nose, but can also be the eyes (in this case drainage into the nasopharynx would occur through the nasolacrimal duct). From there, it is transported to the back of the nose and the adenoid area. The virus then attaches to a receptor, ICAM-1, which is located on the surface of cells of the lining of the nasopharynx. The receptor fits into a docking port on the surface of the virus. Large amounts of virus receptor are present on cells of the adenoid. After attachment to the receptor, virus is taken into the cell, where it starts an infection.[6] Rhinovirus colds do not generally cause damage to the nasal epithelium. Macrophages trigger the production of cytokines, which in combination with mediators cause the symptoms. Cytokines cause the systemic effects. The mediator bradykinin plays a major role in causing the local symptoms such as sore throat and nasal irritation.[4]
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.[6]

Prevention

The best prevention for the common cold is staying away from people who are infected, and places where infected individuals have been.
Regular hand washing is recommended to reduce transmission of cold viruses and other pathogens via direct contact.[25] Virus can be recovered from the hands of ∼40% of adults with rhinovirus colds, and the quantity of virus recovered from the hands is also generally greater than that recovered in coughs and sneezes.[15] Washing of the hands reduces virus count on the skin.[15]
  • Hand washing with plain soap and water is recommended. The mechanical action of hand rubbing with plain soap, rinsing, and drying physically removes the virus particles off the hands.[26]
  • Alcohol-based hand sanitizers provide very little protection against upper respiratory infections, especially among children.[27][28]
  • Because the common cold is caused by a virus instead of a bacterium, anti-bacterial soaps are no better than regular soap for removing the virus from skin or other surfaces.[26][29]
  • Aqueous iodine has been found to reliably eliminate the cold virus on human skin, however iodine is not acceptable for general use as a virucidal hand treatment because it discolors and dries the skin.[15]
Randomized controlled trials have shown that hand washing using different combinations of cleaning agents resulted in a reduction in the incidence of rhinovirus infections.[30] In two studies at day care facilities, increased handwashing of caregivers reduced the incidence of colds in children by up to 20%.[31][32] However, scheduled handwashing at an elementary school has been shown to reduce the incidence of all communicable illnesses and gastrointestinal illnesses in particular, but was not shown to prevent respiratory ailments.[33]
Cleaning contaminated surfaces such as coffee cup handles with a mixed alcohol/phenol disinfectant has been shown to almost halve the chance of transmission via direct contact.[34]
Efforts to develop a vaccine against the common cold have been unsuccessful. Common colds are produced by a large variety of rapidly mutating viruses; successful creation of a broadly effective vaccine is highly improbable.[35]
Contrary to popular belief, exposure to cold temperatures or wet weather does not cause colds.[36] Also, there is no evidence supporting the idea that cold or wet weather weakens the immune system and makes the body more susceptible to colds.[37]
Vitamin C may be effective for prevention.[38]

Management

Poster encouraging citizens to "Consult your Physician" for treatment of the common cold
There are currently no medications or herbal remedies which have been conclusively demonstrated to shorten the duration of infection in all people with cold symptoms.[39]
Treatment comprises symptomatic support usually via analgesics for fever, headache, sore muscles, and sore throat.

Symptomatic

Treatments that help alleviate symptoms include simple analgesics and antipyretics such as ibuprofen[40] and acetaminophen / paracetamol.[41] Evidence does not show that cough medicine is any more effective than simple analgesics[42] and is not recommended for use in children due to a lack of evidence supporting its effectiveness and the potential for harm.[43][44]
Symptoms of a runny nose can be reduced by a first generation antihistamine, however it can cause drowsiness and other side effects.[45] Anticholinergics such as Ipratropium nasal spray can reduce the symptoms of runny nose with less side effects, however it is a prescription drug.[46]
One study has found chest vapor rub to be effective at providing some symptomatic relief of nocturnal cough, congestion, and sleep difficulty.[47]
Getting plenty of rest, drinking fluids to maintain hydration, and gargling with warm salt water, are reasonable conservative measures.[9] Evidence for encouraging the active intake of fluids in acute respiratory infections is lacking[48] as is the use of heated humidified air.[49] Saline nasal drops may help alleviate nasal congestion.[50]

Zinc supplements

Zinc deficiency impairs immune function. It has been suggested that zinc may inhibit rhinovirus replication and reduce inflammation. A systematic review by the Cochrane Collaboration, last updated in 2011, concludes that zinc supplements can somewhat reduce the severity and duration of common cold symptoms when taken by otherwise healthy adults within 24 hours of onset of symptoms.[51][52]

Vitamin C supplements

The Cochrane Library's review on vitamin C effects on common cold has shown that contrary to popular beliefs, vitamin C does not reduce risk of getting common cold, nor reduces its severity. Authors suggest that vitamin C can be used as a preventive of the common cold in people exposed to brief periods of severe physical exercise or cold environments.[53]

Antibiotics and antivirals

Antibiotics have no effect against viral infections and thus have no effect against the viruses that cause the common cold[54] and due to their side effects cause overall harm.[54] There are no approved antiviral drugs for the common cold even though some preliminary research has shown benefit.[55]

Alternative treatments

While many alternative treatments are used there is insufficient scientific evidence to support the use of most.[12][56] An exception is zinc which has been found to reduce both symptoms and duration of illness and may be useful for prevention.[57] Honey may be effective treatment in decreasing cough and improving sleep in children more than no treatment or dextromethorphan.[58] However honey should not be given to a child younger than one year old because of the risk of infant botulism.[59] The benefits verses risk of nasal irrigation are currently unclear and therefore is not recommended.[60]
Evidence about the usefulness of echinacea supplements, a popular herbal remedy, is contradictory.[61][62] Well-conducted research studies tend to have negative results at a much higher rate than poorly conducted studies.[63][64] Different types of echinacea supplements may vary in their effectiveness. Generally, those studies that show supportive results indicate that echninacea might reduce the likelihood of developing cold symptoms upon inoculation with a virus by about half.[65]

Prognosis

The common cold is generally mild and self-limiting.[66]
Pneumonia is a possible complication.

Epidemiology

Upper respiratory tract infections are the most common infectious diseases among adults, who have two to four respiratory infections annually.[67] Children may have six to ten colds a year (and up to 12 colds a year for school children).[9][68] In the United States, the incidence of colds is higher in the fall (autumn) and winter, with most infections occurring between September and 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.[9]

History

"Definition of a Cold." Benjamin Franklin's notes for a paper he intended to write on the common cold.
The name "common cold" came into use in the 16th century, due to the similarity between its symptoms and those of exposure to cold weather.[69] Norman Moore relates in his history of the Study of Medicine that James I continually suffered from nasal colds, which were then thought to be caused by polypi, sinus trouble, or autotoxaemia.[70]
In the 18th century, Benjamin Franklin considered the causes and prevention of the common cold. After several years of research he concluded: "People often catch cold from one another when shut up together in small close rooms, coaches, etc. and when sitting near and conversing so as to breathe in each other's transpiration." Although viruses had not yet been discovered, Franklin hypothesized that the common cold was passed between people through the air. He recommended exercise, bathing, and moderation in food and drink consumption to avoid the common cold.[71] Franklin's theory on the transmission of the cold was confirmed some 150 years later.[72]

Common Cold Unit

In the United Kingdom, the Common Cold Unit was set up by the Medical Research Council in 1946. The unit worked with volunteers who were infected with various viruses.[73] The rhinovirus was discovered there.[74] 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,[75] but no practical treatment could be developed. The unit was closed in 1989, two years after it completed research of zinc gluconate lozenges in the prophylaxis and treatment of rhinovirus colds, the only successful treatment in the history of the unit.[76]

Social and cultural

Economics

A British poster from World War II describing the cost of the common cold[77]
In the United States, 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.[67][78]
More than one-third of patients who saw a doctor received an antibiotic prescription, which has implications for antibiotic resistance from overuse of such drugs.[78]
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 per year.[9][67][78] This accounts for 40% of time lost from work.[79]

Legal

Canada in 2009 restricted the use of over-the-counter cough and cold medication in children 6 years and under due to concerns regarding risks and unproven benefits.[44]

Cold weather

The traditional folk theory is that a cold can be "caught" by prolonged exposure to cold weather such as rain or winter conditions, which is where the disease got its name.[80] Common colds are seasonal, with more occurring during winter. The experimental evidence for this effect is uneven: many experiments have failed to produce evidence that short-term exposure to cold weather or direct chilling increases susceptibility to infection, implying that the seasonal variation is instead due to a change in behaviors such as increased time spent indoors at close proximity to others.[9][20] However, other experiments do find such an effect for both body chilling and cold air exposure, and a number of mechanisms by which lower temperatures could compromise the immune system have been suggested,[16] while other experiments have shown that exposure to cold temperatures may instead stimulate the immune system.[81][82]

Research

Biota Holdings are developing a drug, currently known as BTA798, which targets rhinovirus. In 2009, the drug has completed Phase IIA clinical trials.[83][84]
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.[85][86] Schering-Plough is developing an intra-nasal formulation that may have fewer adverse effects.[87]
Researchers from University of Maryland, College Park and University of Wisconsin–Madison have mapped the genome for all known virus strains that cause the common cold.[87]
Naturally produced antibodies can accompany virus particles into cells. This has raised hopes of a drug that could boost this process, thus providing a medication that could combat not only the common cold, but other infections caused by similar viruses.[88]

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