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To understand the spreading dynamics of an [[infectious disease]] or an [[epidemic]], three important time periods should be carefully distinguished: [[Incubation period]], pre-infectious or latent period and [[infectious period]].<ref name=”Vynnycky1” /> Two other relevant and important time period concepts are [[generation time]] and [[serial interval]].
To understand the spreading dynamics of an [[infectious disease]] or an [[epidemic]], three important time periods should be carefully distinguished: [[Incubation period]], pre-infectious or latent period and [[infectious period]].<ref name=”Vynnycky1” /> Two other relevant and important time period concepts are [[generation time]] and [[serial interval]].


The infection of a disease begins when a pathogenic (disease-causing) infectious agent, or a pathogen, is successfully transmitted from one [[Host (biology)|host]] to another.<ref name=”Li” /> After pathogens enter the body of the new host, they take a period of time to overcome or evade the [[immune response]] of the body and to multiply or replicate after having traveled to their favored sites within the host’s body.<ref name=”Li” /> When the pathogens become sufficiently numerous and toxic to cause damage to the body, the host begins to display [[symptom]]s of a clinical disease (i.e. the host becomes symptomatic).<ref name=”Li” /> The time interval from the time of invasion by an infectious pathogen to the time of onset (first appearance) of symptoms of the disease in question is called the ''incubation period''. <ref name=”Li” /> Moreover, at a certain point in time after infection, the host becomes capable of transmitting pathogens to others, i.e. he or she becomes infectious or communicable.<ref name=”Li” /> Depending on the disease, the host individual may or may not be infectious during the incubation period.<ref name=”Li” /> The incubation period is important in the dynamics of disease transmission because it determines the time of case detection relative to the time of infection.<ref name=”Nelson” /> This helps in the evaluation of the outcomes of control measures based on symptomatic surveillance. The incubation period is also useful to count the number of infected people.<ref name=”Nelson” />
The infection of a disease begins when a pathogenic (disease-causing) infectious agent, or a pathogen, is successfully transmitted from one [[Host (biology)|host]] to another.<ref name=”Li” /> After pathogens enter the body of the new host, they take a period of time to overcome or evade the [[immune response]] of the body and to multiply or replicate after having traveled to their favored sites within the host’s body.<ref name=”Li” /> When the pathogens become sufficiently numerous and toxic to cause damage to the body, the host begins to display [[symptom]]s of a clinical disease (i.e. the host becomes symptomatic).<ref name=”Li” /> The time interval from the time of invasion by an infectious pathogen to the time of onset (first appearance) of symptoms of the disease in question is called the ''incubation period''.<ref name=”Li” /> After the incubation period is over, the host enters the ''symptomatic period''. Moreover, at a certain point in time after infection, the host becomes capable of transmitting pathogens to others, i.e. he or she becomes infectious or communicable.<ref name=”Li” /> Depending on the disease, the host individual may or may not be infectious during the incubation period.<ref name=”Li” /> The incubation period is important in the dynamics of disease transmission because it determines the time of case detection relative to the time of infection.<ref name=”Nelson” /> This helps in the evaluation of the outcomes of control measures based on symptomatic surveillance. The incubation period is also useful to count the number of infected people.<ref name=”Nelson” />


The period from the time of infection to the time of becoming infectious is called the ''pre-infectious period'' or the ''latent period''. During the pre-infectious or latent period, a host may or may not show symptoms (i.e. the incubation period may or may not be over), but in both cases the host is not capable of infecting other hosts i.e. transmitting pathogens to other hosts. The latent period, rather than the incubation period, has more influence on the spreading dynamics of an infectious disease or epidemic.<ref name=”Nelson” />
The period from the time of infection to the time of becoming infectious is called the ''pre-infectious period'' or the ''latent period''. During the pre-infectious or latent period, a host may or may not show symptoms (i.e. the incubation period may or may not be over), but in both cases the host is not capable of infecting other hosts i.e. transmitting pathogens to other hosts. The latent period, rather than the incubation period, has more influence on the spreading dynamics of an infectious disease or epidemic.<ref name=”Nelson” />


The time interval during which the host is infectious, i.e. the pathogens can be transmitted directly or indirectly from the infected host to another individual, is called the ''infectious period'' (or the ''period of communicability''), defined as the period from the end of the pre-infectious period or the latent period until the time when the host can no longer transmit the infection to other individuals. During the infectious period, a host may or may not show symptoms, but he or she is capable of infecting other individuals. The duration of the infectious period depends on the ability of the infected host individual to mount an immune response.<ref name=”Vynnycky1” />
The time interval during which the host is infectious, i.e. the pathogens can be transmitted directly or indirectly from the infected host to another individual, is called the ''infectious period'' (or the ''period of communicability''), defined as the period from the end of the pre-infectious period or the latent period until the time when the host can no longer transmit the infection to other individuals. During the infectious period, a host may or may not show symptoms, but he or she is capable of infecting other individuals. The duration of the infectious period depends on the ability of the infected host individual to mount an immune response.<ref name=”Vynnycky1” />
In some cases, the pre-infectious or latent period and the incubation period are mostly of the same duration. In this case, the infected individual becomes infectious at around the same time he starts showing symptoms. In certain other infectious diseases such as smallpox, the host becomes infectious after the onset of symptoms. In this case, the latent period is longer than the incubation period. In these two cases, the disease can be effectively controlled using symptomatic surveillance.<ref name=”Nelson”/> A related term is the ''shedding period'', which is defined as the period during which a host or patient excretes pathogens through saliva, urine, feces or other bodily fluids.


In some cases, the pre-infectious or latent period and the incubation period coincide and are mostly of the same duration. In this case, the infected individual becomes infectious at around the same time he starts showing symptoms. In certain other infectious diseases such as [[smallpox]] or [[SARS]]<ref name="pmid32296168">{{cite journal| author=He X, Lau EHY, Wu P, Deng X, Wang J, Hao X | display-authors=etal| title=Temporal dynamics in viral shedding and transmissibility of COVID-19. | journal=Nat Med | year= 2020 | volume= | issue= | pages= | pmid=32296168 | doi=10.1038/s41591-020-0869-5 | pmc= | url=https://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=32296168 }} </ref>, the host becomes infectious after the onset of symptoms. In this case, the latent period is longer than the incubation period. In these two cases, the disease can be effectively controlled using symptomatic surveillance.<ref name=”Nelson”/> A related term is the ''shedding period'', which is defined as the period during which a host or patient excretes pathogens through saliva, urine, feces or other bodily fluids.
However, for some infectious diseases, the symptoms of the clinical disease may appear after the host becomes infectious. In this case, the pre-infectious or latent period has a shorter duration than the incubation period, the infectious period begins before the end of the incubation period and the host can infect others for some time without showing any noticeable symptoms. This early or mild stage of infection whose symptoms stay below the level of clinical detection is called ''[[subclinical infection]]''<ref>{{Citation |title=HIV/AIDS Glossary |publisher=National Library of Medicine, National Institutes of Health, U.S. Department of Health and Human Services |url=https://aidsinfo.nih.gov/understanding-hiv-aids/glossary/679/subclinical-infection}}</ref> and the individual concerned is called an ''[[asymptomatic carrier]]'' of the disease. For example, in HIV/AIDS, the incubation period lasts years longer than the latent period. So an HIV infected individual can show no symptoms and unwittingly infect other susceptible individuals for many years. In cases like these, symptomatic surveillance-based control measures are not likely be effective, because a considerable proportion of the transmission may take place before the onset of symptoms and this have to be taken into account when designing [[Infection prevention and control|control]] measures.<ref name=”Nelson”/>

However, for some infectious diseases, the symptoms of the clinical disease may appear after the host becomes infectious. In this case, the pre-infectious or latent period has a shorter duration than the incubation period, the infectious period begins before the end of the incubation period and the host can infect others for some time without showing any noticeable symptoms. This early or mild stage of infection whose symptoms stay below the level of clinical detection is called ''[[subclinical infection]]''<ref>{{Citation |title=HIV/AIDS Glossary |publisher=National Library of Medicine, National Institutes of Health, U.S. Department of Health and Human Services |url=https://aidsinfo.nih.gov/understanding-hiv-aids/glossary/679/subclinical-infection}}</ref> and the individual concerned is called an ''[[asymptomatic carrier]]'' of the disease. For example, in HIV/AIDS, the incubation period lasts years longer than the latent period. So an HIV infected individual can show no symptoms and unwittingly infect other susceptible individuals for many years. In these kinds of cases with a significant number of pre-symptomatic (asymptomatic) transmissions, symptomatic surveillance-based disease control measures (such as isolation, contact tracing, enhanced hygiene, etc.) are likely to have their effectiveness reduced, because a significant portion of the transmission may take place before the onset of symptoms and this have to be taken into account when designing [[Infection prevention and control|control]] measures.<ref name=”Nelson”/><ref name="pmid32296168" />


The infectious period is a very important element in the infectious disease spreading dynamics. If the infectious period is long, then the measure of secondary infections (represented by the ''[[basic reproduction number]]'', R<sub>0</sub>) will generally by larger, regardless of the infectiousness of the disease. For example, even though HIV/AIDS has a very low transmission potential per sexual act, its basic reproduction number is still very high because of its unusually long infectious period spanning many years.<ref name=”Nelson”/> From the viewpoint of controlling an epidemic, the goal is to reduce the effective infectious period either by treatment or by isolating the patient from the community. Sometimes a treatment can paradoxically increase the effective infectious period by preventing death through supportive care and thereby increasing the probability of infection of other individuals.<ref name=”Nelson” />
The infectious period is a very important element in the infectious disease spreading dynamics. If the infectious period is long, then the measure of secondary infections (represented by the ''[[basic reproduction number]]'', R<sub>0</sub>) will generally by larger, regardless of the infectiousness of the disease. For example, even though HIV/AIDS has a very low transmission potential per sexual act, its basic reproduction number is still very high because of its unusually long infectious period spanning many years.<ref name=”Nelson”/> From the viewpoint of controlling an epidemic, the goal is to reduce the effective infectious period either by treatment or by isolating the patient from the community. Sometimes a treatment can paradoxically increase the effective infectious period by preventing death through supportive care and thereby increasing the probability of infection of other individuals.<ref name=”Nelson” />

Revision as of 01:40, 23 April 2020

In epidemiology, particularly in the discussion of infectious disease dynamics (modeling), the Latent period or the Pre-infectious period is the time interval between when an individual or host is infected by a pathogen and when he or she becomes infectious, i.e. capable of transmitting pathogens to other susceptible individuals.[1][2][3]

Relationship with related concepts in infectious disease dynamics

In some diseases, as depicted in this diagram, latent period is shorter than incubation period. A person can transmit infection without showing any signs of the disease. Such infection is called subclinical infection.

To understand the spreading dynamics of an infectious disease or an epidemic, three important time periods should be carefully distinguished: Incubation period, pre-infectious or latent period and infectious period.[2] Two other relevant and important time period concepts are generation time and serial interval.

The infection of a disease begins when a pathogenic (disease-causing) infectious agent, or a pathogen, is successfully transmitted from one host to another.[3] After pathogens enter the body of the new host, they take a period of time to overcome or evade the immune response of the body and to multiply or replicate after having traveled to their favored sites within the host’s body.[3] When the pathogens become sufficiently numerous and toxic to cause damage to the body, the host begins to display symptoms of a clinical disease (i.e. the host becomes symptomatic).[3] The time interval from the time of invasion by an infectious pathogen to the time of onset (first appearance) of symptoms of the disease in question is called the incubation period.[3] After the incubation period is over, the host enters the symptomatic period. Moreover, at a certain point in time after infection, the host becomes capable of transmitting pathogens to others, i.e. he or she becomes infectious or communicable.[3] Depending on the disease, the host individual may or may not be infectious during the incubation period.[3] The incubation period is important in the dynamics of disease transmission because it determines the time of case detection relative to the time of infection.[1] This helps in the evaluation of the outcomes of control measures based on symptomatic surveillance. The incubation period is also useful to count the number of infected people.[1]

The period from the time of infection to the time of becoming infectious is called the pre-infectious period or the latent period. During the pre-infectious or latent period, a host may or may not show symptoms (i.e. the incubation period may or may not be over), but in both cases the host is not capable of infecting other hosts i.e. transmitting pathogens to other hosts. The latent period, rather than the incubation period, has more influence on the spreading dynamics of an infectious disease or epidemic.[1]

The time interval during which the host is infectious, i.e. the pathogens can be transmitted directly or indirectly from the infected host to another individual, is called the infectious period (or the period of communicability), defined as the period from the end of the pre-infectious period or the latent period until the time when the host can no longer transmit the infection to other individuals. During the infectious period, a host may or may not show symptoms, but he or she is capable of infecting other individuals. The duration of the infectious period depends on the ability of the infected host individual to mount an immune response.[2]

In some cases, the pre-infectious or latent period and the incubation period coincide and are mostly of the same duration. In this case, the infected individual becomes infectious at around the same time he starts showing symptoms. In certain other infectious diseases such as smallpox or SARS[4], the host becomes infectious after the onset of symptoms. In this case, the latent period is longer than the incubation period. In these two cases, the disease can be effectively controlled using symptomatic surveillance.[1] A related term is the shedding period, which is defined as the period during which a host or patient excretes pathogens through saliva, urine, feces or other bodily fluids.

However, for some infectious diseases, the symptoms of the clinical disease may appear after the host becomes infectious. In this case, the pre-infectious or latent period has a shorter duration than the incubation period, the infectious period begins before the end of the incubation period and the host can infect others for some time without showing any noticeable symptoms. This early or mild stage of infection whose symptoms stay below the level of clinical detection is called subclinical infection[5] and the individual concerned is called an asymptomatic carrier of the disease. For example, in HIV/AIDS, the incubation period lasts years longer than the latent period. So an HIV infected individual can show no symptoms and unwittingly infect other susceptible individuals for many years. In these kinds of cases with a significant number of pre-symptomatic (asymptomatic) transmissions, symptomatic surveillance-based disease control measures (such as isolation, contact tracing, enhanced hygiene, etc.) are likely to have their effectiveness reduced, because a significant portion of the transmission may take place before the onset of symptoms and this have to be taken into account when designing control measures.[1][4]

The infectious period is a very important element in the infectious disease spreading dynamics. If the infectious period is long, then the measure of secondary infections (represented by the basic reproduction number, R0) will generally by larger, regardless of the infectiousness of the disease. For example, even though HIV/AIDS has a very low transmission potential per sexual act, its basic reproduction number is still very high because of its unusually long infectious period spanning many years.[1] From the viewpoint of controlling an epidemic, the goal is to reduce the effective infectious period either by treatment or by isolating the patient from the community. Sometimes a treatment can paradoxically increase the effective infectious period by preventing death through supportive care and thereby increasing the probability of infection of other individuals.[1]

The generation time (or generation interval) of an infectious disease is the time interval between the beginning of infection in an individual to the time that person transmits to another individual. The generation time specifies how fast infections are spreading in the community with the passing of each generation.[1] In contrast, the effective reproductive number determines in what number the infections are spreading in the community with the passing of each generation. The latent period and the infectious period helps determine the generation time of an infection. The mean generation time is equal to the sum of the mean latent period and one-half of the mean infectious period, given that infectiousness is evenly distributed across the infectious period.[1]

Since the precise moment of infection is very difficult and almost impossible to detect, the generation time is not properly observable for two successive hosts. Generally, in infectious disease statistics, the onset of clinical symptoms for all the hosts are reported. For two successive generations (or cases or hosts) in a chain of infection, the serial interval is defined as the period of time between the onset of clinical symptoms in the first host and the onset of analogous clinical symptoms in the second host. Just like the generation time, the length of the serial interval depends on the lengths of the latent period, the infectious period and the incubation period. Therefore the serial interval is often used as a proxy measure to estimate the generation time.[1] [2]

See also

References

  1. ^ a b c d e f g h i j k Kenrad E. Nelson; Carolyn Masters Williams, eds. (2014), Infectious disease epidemiology: Theory and Practice (3rd ed.), Jones & Bartlett Learning, p. 135-136
  2. ^ a b c d Emilia Vynnycky; Richard G. White (2010), An Introduction to Infectious Disease Modelling, Oxford University Press, p. 2-3
  3. ^ a b c d e f g Michael Y. Li (2018), An Introduction to Mathematical Modeling of Infectious Diseases, Springer International Publishing AG, p. 25
  4. ^ a b He X, Lau EHY, Wu P, Deng X, Wang J, Hao X; et al. (2020). "Temporal dynamics in viral shedding and transmissibility of COVID-19". Nat Med. doi:10.1038/s41591-020-0869-5. PMID 32296168.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  5. ^ HIV/AIDS Glossary, National Library of Medicine, National Institutes of Health, U.S. Department of Health and Human Services
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