Modellering av nervmönster med spatiala punktprocesser
Abstract
People with diabetes can sometimes develop diabetic neuropathy, a nerve disease
which can infuse numbness and pain. It has been observed that the end points of
nerve fibers in the epidermis, which is the outermost living layer of the skin, appear
more clustered on patients with diabetic neuropathy [7]. Attempts to model the fiber
patterns have been made in the hope that at an early stage distinguish patients with
risk of developing diabetic neuropathy.
These nerve fibers can be described by spatial point processes.The unknown parameters
of such a process can be estimated using the minimum contrast method (MCM)
where the main goal of this project is to investigate how the choice of upper integration
limit in MCM affects the parameter estimates.
The Thomas process was chosen for this project where in addition to the examination
of the integration limit in MCM we also examine if this process is a suitable choice to
describe nerve fibers from patients associated with two groups. The first acts as a control
group whith healthy subjects without symptoms of diabetic neuropathy. The second
group consist of subjects with diabetes and mild symtombs of the disease. This is done
by means of simulation and the R-package spatstat [1].
It turns out that the choice of integration limit is important and that there are some
guidelines of how to make this choice to avoid the variance of the parameter estimations
getting to large. Likewise, complications in selecting too large of a integration limit are
present although their importance are not as prominent. Lastly we show that we can
not reject that the Thomas process describes nerve fibers from the two groups.
Degree
Student essay
Collections
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Date
2019-06-24Author
Eriksson, Simon
Källgren, Christian
Lane, Hampus
Keywords
Diabetesneuropati
Language
swe