Imaging of Tumour Microenvironment for the Planning of Oncological Therapies Using Positron Emission Tomography
Komar, Gaber (2013-01-25)
Imaging of Tumour Microenvironment for the Planning of Oncological Therapies Using Positron Emission Tomography
Komar, Gaber
(25.01.2013)
Annales Universitatis Turkuensis D 1051 Turun yliopisto
Julkaisun pysyvä osoite on:
https://urn.fi/URN:ISBN:978-951-29-5271-7
https://urn.fi/URN:ISBN:978-951-29-5271-7
Kuvaus
Siirretty Doriasta
Tiivistelmä
Tumour cells differ from normal tissue cells in several important ways. These
differences, like for example changed energy metabolism, result in altered
microenvironment of malignant tumours. Non-invasive imaging of tumour
microenvironment has been at the centre of intense research recently due to the
important role that this changed environement plays in the development of malignant
tumours and due to the role it plays in the treatment of these tumours. In this respect,
perhaps the most important characteristics of the tumour microenvironment from this
point of view are the lack of oxygen or hypoxia and changes in blood flow (BF).
The purpose of this thesis was to investigate the processes of energy metabolism, BF
and oxygenation in head and neck cancer and pancreatic tumours and to explore the
possibilities of improving the methods for their quantification using positron emission
tomography (PET). To this end [18F]EF5, a new PET tracer for detection of tumour
hypoxia was investigated. Favourable uptake properties of the tracer were observed. In
addition, it was established that the uptake of this tracer does not correlate with the
uptake of existing tracers for the imaging of energy metabolism and BF, so the
information about the presence of tissue hypoxia cannot therefore be obtained using
tracers such as [18F]FDG or [15O]H2O. These results were complemented by the results
of the follow-up study in which it was shown that the uptake of [18F]EF5 in head and
neck tumours prior to treatment is also associated with the overall survival of the
patients, indicating that tumour hypoxia is a negative prognostic factor and might be
associated with therapeutic resistance.
The influences of energy metabolism and BF on the survival of patients with
pancreatic cancer were investigated in the second study. The results indicate that the
best predictor of survival of patients with pancreatic cancer is the relationship between
energy metabolism and BF. These results suggest that the cells with high metabolic
activity in a hypoperfused tissue have the most aggressive phenotype.
differences, like for example changed energy metabolism, result in altered
microenvironment of malignant tumours. Non-invasive imaging of tumour
microenvironment has been at the centre of intense research recently due to the
important role that this changed environement plays in the development of malignant
tumours and due to the role it plays in the treatment of these tumours. In this respect,
perhaps the most important characteristics of the tumour microenvironment from this
point of view are the lack of oxygen or hypoxia and changes in blood flow (BF).
The purpose of this thesis was to investigate the processes of energy metabolism, BF
and oxygenation in head and neck cancer and pancreatic tumours and to explore the
possibilities of improving the methods for their quantification using positron emission
tomography (PET). To this end [18F]EF5, a new PET tracer for detection of tumour
hypoxia was investigated. Favourable uptake properties of the tracer were observed. In
addition, it was established that the uptake of this tracer does not correlate with the
uptake of existing tracers for the imaging of energy metabolism and BF, so the
information about the presence of tissue hypoxia cannot therefore be obtained using
tracers such as [18F]FDG or [15O]H2O. These results were complemented by the results
of the follow-up study in which it was shown that the uptake of [18F]EF5 in head and
neck tumours prior to treatment is also associated with the overall survival of the
patients, indicating that tumour hypoxia is a negative prognostic factor and might be
associated with therapeutic resistance.
The influences of energy metabolism and BF on the survival of patients with
pancreatic cancer were investigated in the second study. The results indicate that the
best predictor of survival of patients with pancreatic cancer is the relationship between
energy metabolism and BF. These results suggest that the cells with high metabolic
activity in a hypoperfused tissue have the most aggressive phenotype.
Kokoelmat
- Väitöskirjat [2791]