Precision low-dose brachytherapy of prostate cancer under PSMA-receptor molecular visualization

Brachytherapy with implantation of micro sources based on isotope 125I is a preferred treatment for localized prostate cancer without signs of germination of the gland capsule and in the absence of signs of metastases (stage cT1-T23aN0M0). Structural imaging methods (ultrasound, computed tomography, and magnetic resonance imaging) do not have high specificity in the differential diagnosis of prostate cancer. Hybrid technologies of radiation imaging (single-photon emission computed tomography/computed tomography, positron emission tomography/computed tomography, and positron emission tomography/magnetic resonance imaging) combine the advantages of high sensitivity of cross-sectional structural imaging methods (computed tomography and magnetic resonance imaging) and high specificity of molecular imaging methods (single-photon emission computed tomography and positron emission tomography) with tumorotropic radiopharmaceuticals. In this original clinical study, based on seven observations of localized prostate cancer (Gleason 6–7), it was shown that the precision of low-dose brachytherapy using 125I micro sources of localized prostate carcinomas, along with targeted biopsy, can be increased using hybrid methods of PSMA-receptor molecular imaging (single-photon emission computed tomography/ computed tomography, positron emission tomography/ computed tomography). The single-photon emission computed tomography/ computed tomography method is more accessible than positron emission tomography/ computed tomography. Moreover, when coupled with cold kits (HYNIC-PSMA), it allows research within any radioisotope diagnostics laboratory equipped with single-photon emission computed tomography/ computed tomography. The innovative technology of PSMA-navigation biopsy and brachytherapy, under the control of hybrid molecular imaging, can be used in primary and recurrent cases of localized prostate cancer, increases the accuracy and reduces the traumatic nature of procedures, and increases the medical and economic efficiency of low-dose brachytherapy with 125I micro sources. Further research is needed to improve the technology and evaluate its long-term results

Isotope ratios of H, C, and O in CO2 and H2O of the Martian atmosphere

Stable isotope ratios of H, C, and O are powerful indicators of a wide variety of planetary geophysical processes, and for Mars they reveal the record of loss of its atmosphere and subsequent interactions with its surface such as carbonate formation. We report in situ measurements of the isotopic ratios of D/H and O-18/O-16 in water and C-13/C-12, O-18/O-16, O-17/O-16, and (CO)-C-13-O-18/(CO)-C-12-O-16 in carbon dioxide, made in the martian atmosphere at Gale Crater from the Curiosity rover using the Sample Analysis at Mars (SAM)'s tunable laser spectrometer (TLS). Comparison between our measurements in the modern atmosphere and those of martian meteorites such as ALH 84001 implies that the martian reservoirs of CO2 and H2O were largely established similar to 4 billion years ago, but that atmospheric loss or surface interaction may be still ongoing