Preface -
Biotechnology is generally considered to be the wave of the future. To facilitate
accurate and rapid development of medication and treatments, it is critical that we are
able to simulate the human body. One section of this complex model would be the
human energy system.
Pharmaceutical companies are currently pouring vast amounts of capital into research
regarding general simulation of cellular structures, protein structures and bodily
processes. Their aim is to develop treatments and medication for major diseases.
Some of these diseases are epidemics like cancer, cardiovascular diseases, stress,
obesity, etc. One of the most important causes of these diseases is poor blood glucose
control.
Current management methods for insulin dependent diabetes are limited to trial and
error systems: clearly ineffective and prone to errors. It is critical that better
management systems be developed, to ease the diabetic epidemic.
The blood glucose control system is one of the major systems in the body, as we are
in constant need of energy to facilitate the optimum functioning of the human body.
This study makes use of a developed simulation model for the human energy system
to ease the management of Diabetes mellitus, which is a malfunction of the human
energy system.
This dissertation is presented in two parts: The first part discusses the human energy
simulation model, and the verification thereof, while the second presents possible
applications of this model to ease the management of Diabetes.
The human energy system simulation model -
This section discusses the development and verification of the model. It also touches
on the causes, and current methods, of managing diabetes, as well as the functioning
of the human energy system.
The human energy model is approached with the conservation of energy in mind. A
top down model is developed, using data from independent studies to verify the
model.
Application of human energy simulation model -
The human energy simulation model is of little use if the intended audience cannot
use it: people suffering from malfunctioning energy systems. These include people
having trouble with obesity, diabetes, cardiovascular disease, etc. To facilitate this, we
need to provide a variety of products useable by this group of people.
We propose a variety of ways in which the model can be used: Cellular phone
applications, Personal digital assistants (PDAs) applications, as well as computer
software.
By making use of current technology, we generate a basic proof-of-concept
application to demonstrate the intended functionality. / MIng (Mechanical Engineering) North-West University, Potchefstroom Campus, 2004
| Identifer | oai:union.ndltd.org:netd.ac.za/oai:union.ndltd.org:nwu/oai:dspace.nwu.ac.za:10394/9612 |
| Date | January 2003 |
| Creators | Keet, Fred |
| Publisher | North-West University |
| Source Sets | South African National ETD Portal |
| Language | English |
| Detected Language | English |
| Type | Thesis |
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