Abstract

With the lightest ions beyond protons, i.e., Helium, Lithium and Beryllium ions, highly specific Molecular Bragg peak radiation therapy of malignant tumors is possible with minimal adverse normal tissue reactions elsewhere in the body. The Bragg peak ionization density is only elevated in a few mm wide spot at the end of the ion range with resultant increased local apoptosis and senescence. By only placing Bragg peaks in the tumor, an increased local therapeutic effect is obtained with only low ionization density and easily repairable damage in surrounding normal tissues. A geometrical accuracy in dose delivery of about 1 mm is possible with these ions, and high-resolution molecular tumor imaging is then needed to accurately delineate the target volume. It is proposed that ultra-sensitivity whole body PET cameras should be built to achieve mm resolution in the whole target region. With about 1 m axial field of view an almost 50-fold increased sensitivity and a reduced imaging time down to a few minutes should be in reach. To get sub mm resolution with whole body spectroscopic MR, about 15 Tesla to 20 Tesla is needed and will significantly increase the resolution with tumor specific metabolite imaging from the 10 mm to 15 mm available today. In the future, it should also be possible to achieve a resolution as high as 10 μm with Stereoscopic Phase Contrast X-ray imaging, or to reduce the dose and imaging time by using 2 projections instead of 400 to get 3D images, thanks to the significantly increased contrast in each projection. When these new methods are brought into clinical use together with light ion therapy a mean tumor cure as high as 80% should be possible, and even more if the new early tumor detection and malignancy estimation methods are brought into more regular clinical use.

Highlights

  • There are a number of potential important developments in the therapeutic and imaging arenas that not yet has reached clinical application

  • Today most therapeutic methods have reached sub mm accuracy in their 3D dose delivery and we need this degree of accuracy in our diagnostic imaging techniques

  • Dual energy CT may increase the highly tumor specific imaging, not least using molecular contrast agents, but the ultimate development of 3D high resolution X-ray imaging may require the use of stereoscopic phase contrast flash X-rays with potential sub mm to μm resolution in live humans

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Summary

Introduction

There are a number of potential important developments in the therapeutic and imaging arenas that not yet has reached clinical application. PET and PET-CT have reached about 4 mm tumor specific resolution in whole body imaging, and ultra-sensitive PET units with a very large field of view may improve this significantly down to about 1 mm.

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Conclusion

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