# Geostatistical software for spatial and multi-dimensional joinpoint regression analysis of time series of health outcomes > **NIH NIH R44** · BIOMEDWARE · 2020 · $511,462 ## Abstract 7. Project Summary/Abstract Analyzing temporal trends in cancer incidence and mortality rates can provide a more comprehensive picture of the burden of the disease and generate new insights about the impact of various interventions. Joinpoint regression developed by NCI Surveillance Research Program is increasingly used to identify the timing and extent of changes in time series of health outcomes and to project future cancer burden through the prediction of the future number of new cancer cases or deaths. The analysis of temporal trends outside a spatial framework is however unsatisfactory, since it has long been recognized that there is significant variation among U.S. counties and states with regard to the incidence of cancer. It is thus critical to implement joinpoint regression within Geographical Information Systems (GIS), and develop interfaces offering user-friendly tools for pre-processing, modeling, visualizing and summarizing large ensembles of time series of health outcomes. This SBIR project is developing the first commercial software to offer tools for the geostatistical modeling and joinpoint regression analysis of time series of health outcomes. The research product will be a stand-alone module into the desktop space-time visualization core developed by BioMedware, an Esri partner. This software package will provide a comprehensive suite for: 1) the computation and geostatistical noise-filtering (kriging) of time series of health outcomes at various spatial scales (e.g. ZIP codes, counties), 2) the visualization of how the parameters of the regression model (e.g. joinpoint years, Average Annual Percent Change) change in space and across spatial scales, and 3) the analysis of similarities among time series and their aggregation through multi-dimensional scaling and clustering analysis. These tools will be suited for the analysis of data outside health sciences, such as in crime mapping, fish stock assessment or climate change, broadening significantly the commercial market for the end product. This project will accomplish four aims:  Expand the statistical methodology developed in Phase I through: 1) spatial generalization of the recent approach developed at NCI for clustering of trend data using joinpoint regression models and simulation- based comparison with alternative clustering approaches, and 2) development of dissimilarity metrics between any two time series and comparison of their impact on clustering and visualization.  Build a fully functional and tested Time Trend Analysis & Visualization Module ready for commercialization.  Conduct a usability study to evaluate the design of the prototype based on NIH usability protocols.  Apply the software to demonstrate the approach and its unique benefits in several epidemiological studies, covering a broad range of health outcomes (e.g., prostate and breast cancer, adverse birth outcomes). These technologic, scientific and commercial innovations will revolutionize our abil... ## Key facts - **NIH application ID:** 9842402 - **Project number:** 5R44CA192520-03 - **Recipient organization:** BIOMEDWARE - **Principal Investigator:** Pierre E Goovaerts - **Activity code:** R44 (R01, R21, SBIR, etc.) - **Funding institute:** NIH - **Fiscal year:** 2020 - **Award amount:** $511,462 - **Award type:** 5 - **Project period:** 2016-01-01 → 2021-12-31 ## Primary source NIH RePORTER: https://reporter.nih.gov/project-details/9842402 ## Citation > US National Institutes of Health, RePORTER application 9842402, Geostatistical software for spatial and multi-dimensional joinpoint regression analysis of time series of health outcomes (5R44CA192520-03). Retrieved via AI Analytics 2026-05-21 from https://api.ai-analytics.org/grant/nih/9842402. Licensed CC0. --- *[NIH grants dataset](/datasets/nih-grants) · CC0 1.0*