Abstract

Over the last few decades, the achievements and progress in the field of medical imaging have dramatically enhanced the early detection and treatment of many pathological conditions. The development of new imaging modalities, especially non-ionising ones, which will improve prognosis, is of crucial importance. A number of novel imaging modalities have been developed but they are still in the initial stages of development and serious drawbacks obstruct them from offering their benefits to the medical field. In the 21 st century, it is believed that nanotechnology will highly influence our everyday life and dramatically change the world of medicine, including medical imaging. Here we discuss how nanotechnology, which is still in its infancy, can improve Terahertz (THz) imaging, an emerging imaging modality, and how it may find its way into real clinical applications. THz imaging is characterised by the use of non-ionising radiation and although it has the potential to be used in many biomedical fields, it remains in the field of basic research. An extensive review of the recent available literature shows how the current state of this emerging imaging modality can be transformed by nanotechnology. Innovative scientific concepts that use nanotechnology-based techniques to overcome some of the limitations of the use of THz imaging are discussed. We review a number of drawbacks, such as a low contrast mechanism, poor source performance and bulky THz systems, which characterise present THz medical imaging and suggest how they can be overcome through nanotechnology. Better resolution and higher detection sensitivity can also be achieved using nanotechnology techniques.

Highlights

  • Nanotechnology is one of the newest fields of technology and science that has attracted the attention of the scientific community, since it is believed to possess the potential to entirely change our everyday life as we know it up to now

  • This paper aims to investigate whether nanotechnology can reform a specific imaging modality, THz imaging, and support it in order to overcome its limitations

  • There is special interest in biomedical applications, such as the use of THz radiation as an imaging modality and for spectroscopy studies[21], which have the potential for a serious clinical impact[11]

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Summary

Introduction

Nanotechnology is one of the newest fields of technology and science that has attracted the attention of the scientific community, since it is believed to possess the potential to entirely change our everyday life as we know it up to now. General THz radiation’s applications are expanding so quickly that they have an outstanding potential and social impact[20] These applications can be expanded from medical, science and pharmaceutical applications to material non-destructive testing and security purposes. The biomedical applications of THz waves are a consequence of the fact that THz radiation is sensitive to water and, what is more, biological molecules’ characteristic energies lie in the THz region[24]. This is very important considering that water is one of the most important components of the tissue[25]. THz radiation is characterised by its ability to penetrate organic materials without ionisation, to distinguish different materials according to their water content and the fact that it can help the clarification of the unknown dynamics in the area of condensed matter physics (e.g. molecular recognition and protein folding)[26]

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