Maskininlärning för diagnosticering av perifer neuropati
Abstract
This report investigates the possibility of diagnosing peripheral neuropathy with the help of
non-parametic classification methods. Peripheral neuropathy is a disease state characterized
by damage on the nerves furthest out in the nervous system, with symptoms first occuring in
the feet. The data used in this project comes from Dr. William Kennedys research group at
University of Minnesota. The data contains 401 observations of 120 healthy controls and 65
individuals with presumed peripheral neuropathy due to chemotherapy, (where 18 individuals
have been confirmed having peripheral neuropathy through other examination procedures).
The data is collected with a dynamic sweat test, a new diagnostic method to discover unusual
sweating patterns and therefore also peripheral neuropathy. In this project we compare three
different machine learning methods to classify subjects as sick (peripheral neuropathy) and
healthy (no peripheral neuropathy): k-NN, random forest and neural networks. These methods
differ in their complexity, all with their disadvantages and advantages. To evauluate which
classification method that works the best a cross-validation was performed, with a modified
version of Cohen’s kappa. How good these classification methods perform depends on which
measuring area the data comes from, either foot, calf or foot and calf combined. The best
classification method was shown to be random forest, this for the calf-measurements where
the covarariates are chosen by backward stepwise selection. This method correctly classifies
67% of the sick individuals and 96% of the healthy controls. With the best model trained on
foot-measurements most undetermined sick individuals are being classified as sick, while for
the best model trained on calf-measurement most of the undetermined sick individuals are
classified as healthy. This could hint towards that the symptoms of peripheral neuropathy
first appears in the feet, something that is in line with the clinical reality.
Degree
Student essay
Collections
View/ Open
Date
2019-07-02Author
Carlerös, Margareta
Malmqvist, Nina
Nilsson, Josefin
Skärberg, Fredrik
Keywords
Klassificering; AI; Statistiskinlärning; k-NN; Slumpmässig skog; Neurala nätverk; Medicinsk diagnostik; Dynamiskt Svettest
Language
swe