Toggle navigation
Search
Tree View
MeSH on Demand
MeSH 2024
About
Suggestions
Contact Us
Space-Time Clustering
MeSH Descriptor Data 2025
Details
Qualifiers
MeSH Tree Structures
Concepts
MeSH Heading
Space-Time Clustering
Tree Number(s)
E05.318.740.933.500.500
N05.715.360.750.746.500.500
N06.850.290.600
N06.850.520.830.933.500.500
Unique ID
D013029
RDF Unique Identifier
http://id.nlm.nih.gov/mesh/D013029
Annotation
usually NIM
Scope Note
A statistically significant excess of cases of a disease, occurring within a limited space-time continuum.
Previous Indexing
Statistics (1966-1977)
Public MeSH Note
78
History Note
78
Date Established
1978/01/01
Date of Entry
1977/03/01
Revision Date
2019/07/05
No Qualifiers
Investigative Techniques [E05]
Epidemiologic Methods [E05.318]
Statistics as Topic [E05.318.740]
Spatial Analysis [E05.318.740.933]
Spatio-Temporal Analysis [E05.318.740.933.500]
Space-Time Clustering [E05.318.740.933.500.500]
Health Care Quality, Access, and Evaluation [N05]
Quality of Health Care [N05.715]
Health Care Evaluation Mechanisms [N05.715.360]
Statistics as Topic [N05.715.360.750]
Spatial Analysis [N05.715.360.750.746]
Spatio-Temporal Analysis [N05.715.360.750.746.500]
Space-Time Clustering [N05.715.360.750.746.500.500]
Environment and Public Health [N06]
Public Health [N06.850]
Disease Outbreaks [N06.850.290]
Disease Hotspot [N06.850.290.100]
Epidemics [N06.850.290.200]
Space-Time Clustering [N06.850.290.600]
Environment and Public Health [N06]
Public Health [N06.850]
Epidemiologic Methods [N06.850.520]
Statistics as Topic [N06.850.520.830]
Spatial Analysis [N06.850.520.830.933]
Spatio-Temporal Analysis [N06.850.520.830.933.500]
Space-Time Clustering [N06.850.520.830.933.500.500]
Expand All
Collapse All
Space-Time Clustering
Preferred
Concept UI
M0020193
Scope Note
A statistically significant excess of cases of a disease, occurring within a limited space-time continuum.
Terms
Space-Time Clustering
Preferred Term
Term UI
T038394
Date
01/01/1999
LexicalTag
NON
ThesaurusID
NLM (1978)
page delivered in 0.141s