Symptoms and diagnosis¶
The following parameters determine the characteristics of malaria diagnosis and symptoms as the disease progresses, such as anemia and fever. See Malaria symptoms and diagnostics for more information on malaria diagnostics and symptoms.
Note
Parameters are case-sensitive. For Boolean parameters, set to 1 for true or 0 for false. Minimum, maximum, or default values of “NA” indicate that those values are not applicable for that parameter.
EMOD does not use true defaults; that is, if the dependency relationships indicate that a parameter is required, you must supply a value for it. However, many of the tools used to work with EMOD will use the default values provided below.
JSON format does not permit comments, but you can add “dummy” parameters to add contextual information to your files. Any keys that are not EMOD parameter names will be ignored by the model.
Parameter |
Data type |
Minimum |
Maximum |
Default |
Description |
Example |
|---|---|---|---|---|---|---|
Anemia_Mortality_Inverse_Width |
float |
0.1 |
1000000 |
10 |
The probability of having severe or fatal malaria is calculated according to three causes: anemia, fever as a pro-inflammatory correlate of cerebral malaria, and total parasite density. The probability associated with each factor is configured with two parameters of a sigmoidal function: probability = 1.0 / ( 1.0 + exp( (threshold-variable) / (threshold/invwidth) ) ) This parameter configures the inverse width relative to threshold value of severe disease turn-on around threshold for anemia. |
{
"Anemia_Mortality_Inverse_Width": 150
}
|
Anemia_Mortality_Threshold |
double |
NA |
NA |
3 |
The probability of having severe or fatal malaria is calculated according to three causes: anemia, fever as a pro-inflammatory correlate of cerebral malaria, and total parasite density. The probability associated with each factor is configured with two parameters of a sigmoidal function: probability = 1.0 / ( 1.0 + exp( (threshold-variable) / (threshold/invwidth) ) ) This parameter configures the inverse width relative to threshold value of mortality turn-on around threshold for hemoglobin count in grams per deciliter (g/dL) at which 50% of individuals die per day. |
{
"Anemia_Mortality_Threshold": 1.5
}
|
Anemia_Severe_Inverse_Width |
float |
0.1 |
1000000 |
10 |
The probability of having severe or fatal malaria is calculated according to three causes: anemia, fever as a pro-inflammatory correlate of cerebral malaria, and total parasite density. The probability associated with each factor is configured with two parameters of a sigmoidal function: probability = 1.0 / ( 1.0 + exp( (threshold-variable) / (threshold/invwidth) ) ) This parameter configures the inverse width relative to threshold value of severe disease turn-on around threshold for anemia. |
{
"Anemia_Severe_Inverse_Width": 20
}
|
Anemia_Severe_Threshold |
float |
0 |
100 |
5 |
The probability of having severe or fatal malaria is calculated according to three causes: anemia, fever as a pro-inflammatory correlate of cerebral malaria, and total parasite density. The probability associated with each factor is configured with two parameters of a sigmoidal function: probability = 1.0 / ( 1.0 + exp( (threshold-variable) / (threshold/invwidth) ) ) This parameter configures the severe disease threshold level for anemia. Threshold units are in grams per deciliter (g/dL). |
{
"Anemia_Severe_Threshold": 3.0
}
|
Clinical_Fever_Threshold_High |
float |
0 |
15 |
1 |
The fever threshold (in degrees Celsius above normal) to start a clinical incident. |
{
"Clinical_Fever_Threshold_High": 1.5
}
|
Clinical_Fever_Threshold_Low |
float |
0 |
5 |
1 |
The fever threshold (in degrees Celsius above normal) to end a clinical incident. |
{
"Clinical_Fever_Threshold_Low": 0.5
}
|
Erythropoiesis_Anemia_Effect |
float |
0 |
1000 |
3.5 |
The exponential rate of increased red-blood-cell production from reduced red-blood-cell availability. |
{
"Erythropoiesis_Anemia_Effect": 3
}
|
Fever_Detection_Threshold |
float |
0.5 |
5 |
1 |
The level of body temperature above normal (defined as 37 C), in degrees Celsius, corresponding to detectable fever. |
{
"Fever_Detection_Threshold": 1
}
|
Fever_IRBC_Kill_Rate |
float |
0 |
1000 |
0.15 |
The maximum kill rate for infected red blood cells due to the inflammatory innate immune response. As fever increases above 38.5 degrees Celsius, the kill rate becomes successively higher along a sigmoidal curve approaching this rate. |
{
"Fever_IRBC_Kill_Rate": 1.4
}
|
Fever_Mortality_Inverse_Width |
float |
0.1 |
1000000 |
10 |
The probability of having severe or fatal malaria is calculated according to three causes: anemia, fever as a pro-inflammatory correlate of cerebral malaria, and total parasite density. The probability associated with each factor is configured with two parameters of a sigmoidal function: probability = 1.0 / ( 1.0 + exp( (threshold-variable) / (threshold/invwidth) ) ) This parameter configures the inverse width relative to threshold value of mortality turn-on around threshold for fever. |
{
"Fever_Mortality_Inverse_Width": 1000
}
|
Fever_Mortality_Threshold |
double |
NA |
NA |
3 |
The probability of having severe or fatal malaria is calculated according to three causes: anemia, fever as a pro-inflammatory correlate of cerebral malaria, and total parasite density. The probability associated with each factor is configured with two parameters of a sigmoidal function: probability = 1.0 / ( 1.0 + exp( (threshold-variable) / (threshold/invwidth) ) ) This parameter configures the fever mortality threshold, in units of degrees Celsius above normal body temperature (defined as 37 C). |
{
"Fever_Mortality_Threshold": 10
}
|
Fever_Severe_Inverse_Width |
float |
0.1 |
1000000 |
10 |
The probability of having severe or fatal malaria is calculated according to three causes: anemia, fever as a pro-inflammatory correlate of cerebral malaria, and total parasite density. The probability associated with each factor is configured with two parameters of a sigmoidal function: probability = 1.0 / ( 1.0 + exp( (threshold-variable) / (threshold/invwidth) ) ) This parameter configures the inverse width relative to threshold value of mortality turn-on around threshold for fever. |
{
"Fever_Severe_Inverse_Width": 18.7
}
|
Fever_Severe_Threshold |
float |
0 |
10 |
1.5 |
The probability of having severe or fatal malaria is calculated according to three causes: anemia, fever as a pro-inflammatory correlate of cerebral malaria, and total parasite density. The probability associated with each factor is configured with two parameters of a sigmoidal function: probability = 1.0 / ( 1.0 + exp( (threshold-variable) / (threshold/invwidth) ) ) This parameter configures the threshold (in degrees Celsius above normal) for fever indicating severe disease. |
{
"Fever_Severe_Threshold": 2.5
}
|
Min_Days_Between_Clinical_Incidents |
float |
0 |
1000000 |
3 |
The number of days with fever below the low-threshold before a new incident can start, when fever again exceeds the high-threshold. |
{
"Min_Days_Between_Clinical_Incidents": 14
}
|
New_Diagnostic_Sensitivity |
float |
0.0001 |
100000 |
0.01 |
The number of microliters of blood tested to find single parasites in a new diagnostic (corresponds to inverse parasites/microliters sensitivity). |
{
"New_Diagnostic_Sensitivity": 0.025
}
|