Difference between revisions of "Descriptive epidemiological studies"
(5 intermediate revisions by one other user not shown) | |||
Line 1: | Line 1: | ||
− | Descriptive epidemiology aims to describe the distribution of disease in terms of animal, place and time | + | Descriptive epidemiology aims to describe the distribution of disease in terms of animal, place and time:<br> |
=='''Animal''' ''(which animals are affected)''== | =='''Animal''' ''(which animals are affected)''== | ||
Line 8: | Line 8: | ||
=='''Time''' ''(when cases occur)''== | =='''Time''' ''(when cases occur)''== | ||
− | Again, the timing of disease is accounted for to some degree in all investigations - meaning that a study investigating the worldwide incidence of | + | Again, the timing of disease is accounted for to some degree in all investigations - meaning that a study investigating the worldwide incidence of Rinderpest in 1900 would give very different results from that in 2010. However, some studies may further investigate and quantify the temporal pattern of disease. One example of this is outbreak investigation, where the number of cases of disease within a population over time may be plotted in the form of an 'epidemic curve'. This can provide useful information regarding trends of disease, and may advise upon the effectiveness of any control measures instigated.<br> |
− | ==''' | + | =='''Descriptive studies'''== |
− | + | Descriptive studies include '''censuses''' and '''surveys''', and are essential in the investigation of the levels of disease in populations, as well as in the crude monitoring of the effect of an intervention or exposure to a risk factor. In a purely descriptive study, no attempt is made to formally investigate reasons for the patterns of disease observed, although hypotheses regarding possible reasons will commonly be generated and developed as a result of these investigations. It is of vital importance that the ''source population'' of a descriptive study is clearly defined (in terms of animal, place and time), and that forms of ''selection bias'' are minimised, in order to allow accurate inferences to be made based on the results. These concepts are covered in other sections. | |
− | [[Category:Veterinary Epidemiology - | + | [[Category:Veterinary Epidemiology - Introduction|D]] |
Revision as of 10:20, 10 December 2010
Descriptive epidemiology aims to describe the distribution of disease in terms of animal, place and time:
Animal (which animals are affected)
At the most elementary level, an epidemiological study may attempt to quantify the proportion of animals infected with a certain pathogen at a specific point time (known as the 'prevalence' of infection), which could be useful in terms of deciding the burden of a disease within the population at that time. Alternatively, an investigation could be conducted in order to estimate the number of new infections with the pathogen over a certain time period (known as the 'incidence' of infection), which could indicate the spread of infection within the population.Descriptive studies may also be conducted in order to investigate the levels of disease in animals of different ages, sexes, species, etc...
Place (where affected animals are located)
Any epidemiological study entails some consideration of the location of animals, as the population of interest must be determined. Therefore, a study investigating the prevalence of infection of sheep with foot and mouth disease in India is likely to give very different results from the same study conducted in the UK. However, in some cases, the location of affected animals may be explicitly investigated, through the creation of maps of disease occurrence. The ability to visualise and analyse these spatial patterns of disease has increased in recent years due to improvements in computing capabilities, making spatial epidemiology a rapidly growing field, with a number of very useful applications for epidemiological studies.
Time (when cases occur)
Again, the timing of disease is accounted for to some degree in all investigations - meaning that a study investigating the worldwide incidence of Rinderpest in 1900 would give very different results from that in 2010. However, some studies may further investigate and quantify the temporal pattern of disease. One example of this is outbreak investigation, where the number of cases of disease within a population over time may be plotted in the form of an 'epidemic curve'. This can provide useful information regarding trends of disease, and may advise upon the effectiveness of any control measures instigated.
Descriptive studies
Descriptive studies include censuses and surveys, and are essential in the investigation of the levels of disease in populations, as well as in the crude monitoring of the effect of an intervention or exposure to a risk factor. In a purely descriptive study, no attempt is made to formally investigate reasons for the patterns of disease observed, although hypotheses regarding possible reasons will commonly be generated and developed as a result of these investigations. It is of vital importance that the source population of a descriptive study is clearly defined (in terms of animal, place and time), and that forms of selection bias are minimised, in order to allow accurate inferences to be made based on the results. These concepts are covered in other sections.