Revistas
Revista:
CLINICAL AND TRANSLATIONAL ONCOLOGY
ISSN:
1699-048X
Año:
2023
Vol.:
25
N°:
5
Págs.:
1268 - 1276
Introduction: A rapid deploy of unexpected early impact of the COVID pandemic in Spain was described in 2020. Oncology practice was revised to facilitate decision-making regarding multimodal therapy for prevalent cancer types amenable to multidisciplinary treatment in which the radiotherapy component searched more efficient options in the setting of the COVID-19 pandemic, minimizing the risks to patients whilst aiming to guarantee cancer outcomes.
Methods: A novel Proton Beam Therapy (PBT), Unit activity was analyzed in the period of March 2020 to March 2021. Institutional urgent, strict and mandatory clinical care standards for early diagnosis and treatment of COVID-19 infection were stablished in the hospital following national health-authorities' recommendations. The temporary trends of patients care and research projects proposals were registered.
Results: 3 out of 14 members of the professional staff involved in the PBR intra-hospital process had a positive test for COVID infection. Also, 4 out of 100 patients had positive tests before initiating PBT, and 7 out of 100 developed positive tests along the weekly mandatory special checkup performed during PBT to all patients. An update of clinical performance at the PBT Unit at CUN Madrid in the initial 500 patients treated with PBT in the period from March 2020 to November 2022 registers a distribution of 131 (26%) pediatric patients, 63 (12%) head and neck cancer and central nervous system neoplasms and 123 (24%) re-irradiation indications. In November 2022, the activity reached a plateau in terms of patients under treatment and the impact of COVID pandemic became sporadic and controlled by minor medical actions. At present, the clinical data are consistent with an academic practice prospectively (NCT05151952). Research projects and scientific production was adapted to the pandemic evolution and its influence upon professional time availability. Seven research projects based in public funding were activated in this period and preliminary data on molecular imaging guided proton therapy in brain tumors and post-irradiation patterns of blood biomarkers are reported.
Conclusions: Hospital-based PBT in European academic institutions was impacted by COVID-19 pandemic, although clinical and research activities were developed and sustained. In the post-pandemic era, the benefits of online learning will shape the future of proton therapy education.
Revista:
EJNMMI RESEARCH
ISSN:
2191-219X
Año:
2021
Vol.:
11
N°:
1
Págs.:
23
Purpose: To determine which imaging method used during radioembolization (RE) work-up: contrast-enhanced computed tomography (CECT), 99mTc-MAA-SPECT/CT or cone beam-CT (CBCT), more accurately predicts the final target volume (TgV) as well as the influence that each modality has in the dosimetric calculation.
Methods: TgVs from 99mTc-MAA-SPECT/CT, CECT and CBCT were consecutively obtained in 24 patients treated with RE and compared with 90Y PET/CT TgV. Using the TgVs estimated by each imaging modality and a fictitious activity of 1 GBq, the corresponding absorbed doses by tumor and non-tumoral parenchyma were calculated for each patient. The absorbed doses for each modality were compared with the ones obtained using 90Y PET/CT TgV.
Results: 99mTc-MAA-SPECT/CT predicted 90Y PET/CT TgV better than CBCT or CECT, even for selective or superselective administrations. Likewise, 99mTc-MAA-SPECT/CT showed dosimetric values more similar to those obtained with 90Y PET/CT. Nevertheless, CBCT provided essential information for RE planning, such as ensuring the total coverage of the tumor and, in cases with more than one feeding artery, splitting the activity according to the volume of tumor perfused by each artery.
Conclusion: The joint use of 99mTc-MAA-SPECT/CT and CBCT optimizes dosimetric planning for RE procedures, enabling a more accurate personalized approach.
Revista:
EJNMMI PHYSICS
ISSN:
2197-7364
Año:
2020
Vol.:
7
N°:
1
Págs.:
72
Background Prior radioembolization, a simulation using Tc-99m-macroaggregated albumin as Y-90-microspheres surrogate is performed. Gamma scintigraphy images (planar, SPECT, or SPECT-CT) are acquired to evaluate intrahepatic Y-90-microspheres distribution and detect possible extrahepatic and lung shunting. These images may be used for pre-treatment dosimetry evaluation to calculate the Y-90 activity that would get an optimal tumor response while sparing healthy tissues. Several dosimetry methods are available, but there is still no consensus on the best methodology to calculate absorbed doses. The goal of this study was to retrospectively evaluate the impact of using different dosimetry approaches on the resulting Y-90-radioembolization pre-treatment absorbed dose evaluation based on Tc-99m-MAA images. Methods Absorbed doses within volumes of interest resulting from partition model (PM) and 3D voxel dosimetry methods (3D-VDM) (dose-point kernel convolution and local deposition method) were evaluated. Additionally, a new "Multi-tumor Partition Model" (MTPM) was developed. The differences among dosimetry approaches were evaluated in terms of mean absorbed dose and dose volume histograms within the volumes of interest. Results Differences in mean absorbed dose among dosimetry methods are higher in tumor volumes than in non-tumoral ones. The differences between MTPM and both 3D-VDM were substantially lower than those observed between PM and any 3D-VDM. A poor correlation and concordance were found between PM and the other studied dosimetry approaches. DVH obtained from either 3D-VDM are pretty similar in both healthy liver and individual tumors. Although no relevant global differences, in terms of absorbed dose in Gy, between both 3D-VDM were found, important voxel-by-voxel differences have been observed. Conclusions Significant differences among the studied dosimetry approaches for Y-90-radioembolization treatments exist. Differences do not yield a substantial impact in treatment planning for healthy tissue but they do for tumoral liver. An individual segmentation and evaluation of the tumors is essential. In patients with multiple tumors, the application of PM is not optimal and the 3D-VDM or the new MTPM are suggested instead. If a 3D-VDM method is not available, MTPM is the best option. Furthermore, both 3D-VDM approaches may be indistinctly used.
Revista:
REVISTA DE FÍSICA MÉDICA
ISSN:
1576-6632
Año:
2019
Vol.:
20
N°:
1
Págs.:
31 - 53
Revista:
PHYSICA MEDICA
ISSN:
1120-1797
Año:
2018
Vol.:
46
Págs.:
134 - 139
A significant radiation dose reduction of 28.7% was reached. Despite a slight reduction in image quality, the new regime was successfully implemented with readers reporting unchanged clinical confidence
Revista:
MEDICAL DOSIMETRY
ISSN:
0958-3947
Año:
2017
Vol.:
42
N°:
4
Págs.:
282 - 288
This study aimed to describe the commissioning of small field size radiosurgery cones in a 6-MV flattening filter free (FFF) beam and report our measured values. Four radiosurgery cones of diameters 5, 10, 12.5, and 15¿mm supplied by Elekta Medical were commissioned in a 6-MV FFF beam from an Elekta Versa linear accelerator. The extraction of a reference signal for measuring small fields in scanning mode is challenging. A transmission chamber was attached to the lower part of the collimators and used for percentage depth dose (PDD) and profile measurements in scanning mode with a stereotactic diode. Tissue-maximum ratios (TMR) and output factors (OF) for all collimators were measured with a stereotactic diode (IBA). TMR and the OF for the largest collimator were also acquired on a polystyrene phantom with a microionization chamber of 0.016¿cm3 volume (PTW Freiburg PinPoint 3D). Measured TMR with diode and PinPoint microionization chamber agreed very well with differences smaller than 1% for depths below 20¿cm, except for the smaller collimator, for which differences were always smaller than 2%. Calculated TMR were significantly different (up to 7%) from measured TMR. OF measured with diode and chamber showed a difference of 3.5%. The use of a transmission chamber allowed the measurement of the small-field dosimetric properties with a simple setup. The commissioning of radiosurgery cones in FFF beams has been performed with essentially the same procedures and recommended ...
Revista:
EJNMMI RESEARCH
ISSN:
2191-219X
Año:
2017
Vol.:
7
N°:
1
Págs.:
37
The mean ED for body and brain PET/CT protocols with different radiopharmaceuticals ranged between 4.6 and 20.0 mSv. The major contributor to total ED for body protocols is CT, whereas for brain studies, it is the PET radiopharmaceutical.
Revista:
PHYSICS IN MEDICINE AND BIOLOGY
ISSN:
0031-9155
Año:
2017
Vol.:
62
N°:
18
Págs.:
N417 - N427
In this study, we present a new procedure for the comparison of two dose matrices by means of a statistical test. A statistical distance is proposed to decide whether the difference between the two matrices is statistically significant. This statistical test is based on the square difference between the experimental and expected gamma matrix results. The expected gamma matrix is calculated by simulating the measurement process. For comparison purposes, the significance level of the test was chosen to give the same statistical significance as 90% of gamma-pass rate. The performance of the statistical distance is checked against 53 VMAT. The power of the presented test was compared using simulations with the 90% gamma-pass rate criteria for two cases in which intentional errors are introduced. In both cases, the test is uniformly more powerful. According to the test, two of the measured plans have a significant difference with calculated matrices, although the gamma pass rate measured was always greater than 90%.
Revista:
JOURNAL OF VASCULAR AND INTERVENTIONAL RADIOLOGY
ISSN:
1051-0443
Año:
2017
Vol.:
28
N°:
11
Págs.:
1536 - 1542
Purpose:To determine if baseline patient, tumor, and pretreatment evaluation characteristics could help identify patients who require technetium-99m (Tc-99m) macroaggregated albumin Tc-(99m MAA) imaging before selective internal radiation therapy (SIRT). Materials and Methods: In this retrospective analysis, 532 consecutive patients with primary (n = 248) or metastatic (n = 284) liver tumors were evaluated between 2006 and 2015. Variables were compared between patients in whom Tc-99m MAA imaging results contraindicated/modified SIRT administration with yttrium-90 (Y-90) resin microspheres and those who were treated as initially planned. The Tc-99m MAA findings that contraindicated/modified SIRT were a lung shunt fraction (LSF) > 20%, gastrointestinal Tc-99m MAA uptake, or a mismatch between Tc-99m MAA uptake and intrahepatic tumor distribution. Results: LSF > 20% and gastrointestinal MAA uptake were observed in 7.5% and 3.9% of patients, respectively, and 11% presented a mismatch. Presence of a single lesion (odds ratio [OR] = 2.4) and vascular invasion (OR = 5.5) predicted LSF > 20%, and GI MAA uptake was predicted by the presence of liver metastases (OR = 3.7) and Tc-99m MAA injection through the common/proper hepatic artery (OR = 4.7). Vascular invasion (OR = 4.1) was the only predictor of LSF > 20% and/or GI MAA uptake (sensitivity = 49.2%, specificity = 80.3%, negative predictive value = 92.4%). Previous antiangiogenic treatment (OR = 2.4) and presence of a single lesion (OR = 2.6) predicted mismatch. Conclusions: Imaging with Tc-99m MAA is essential in SIRT workup because baseline characteristics may not adequately predict Tc-99m MAA results. Nevertheless, the absence of vascular invasion potentially identifies a group of patients at low risk of SIRT contraindication/modification in whom performing SIRT in a single session (ie, pretreatment evaluation and SIRT on the same day) should be explored.
Revista:
REVISTA ESPAÑOLA DE MEDICINA NUCLEAR E IMAGEN MOLECULAR
ISSN:
2253-654X
Año:
2016
Vol.:
35
N°:
3
Págs.:
175 - 185
It is recommended to increase the distance between the patients during the radiopharmaceutical incorporation and to distribute them according to the diagnostic procedure. Patients should be encouraged to use private instead of public transport. Depending on the number of nuclear medicine outpatients per year attended by a physician, it could be necessary to apply restrictions
Revista:
PHYSICA MEDICA
ISSN:
1120-1797
Año:
2015
Vol.:
31
N°:
8
Págs.:
948-955
Optimization of reconstruction algorithm and parameters has been performed to take particular advantage of the last generation PET scanner, recommending specific settings for different brain PET radiotracers.
Revista:
RADIOPROTECCION
ISSN:
1133-1747
Año:
2014
Vol.:
79
Págs.:
26 - 36
La imagen preclínica engloba distintas técnicas de imagen molecular que utilizan radiaciones ionizantes, destacando la tomografía por emisión de fotón único (SPECT), la tomografía de emisión de positrones (PET) y la imagen autorradiográfica. Cada una de ellas utiliza distintas sondas que permiten obtener imágenes de una gran variedad de procesos metabólicos. En ocasiones se emplean junto a equipos de rayos X que permiten obtener imágenes anatómicas. En consecuencia, la investigación en las instalaciones de imagen molecular preclínica deberá realizarse en un contexto en el que se aplique la protección radiológica. De entre los riesgos radiológicos del personal que opera este tipo de instalaciones destaca la irradiación de las manos producida tanto por la administración de los radiotrazadores a los animales como por la manipulación de los mismos, siendo importante el entrenamiento y el uso de los blindajes. El diseño de la instalación radiactiva estará determinado por la actividad que en ella se realice. En particular dependerá tanto de las distintas técnicas de imagen molecular preclínica que se desarrollen como de la relación funcional que la instalación tenga con el resto del centro en el que se encuentre, en particular con el animalario y la unidad de radiofarmacia.
Nacionales y Regionales
Título:
Registro prospectivo de hipofraccionamiento con fotonterapia y protonterapia con sobreimpresion en zona GaPSMA positiva en el rescate tras prostatectomia
Código de expediente:
pi20/01598
Investigador principal:
Felix Mauricio Cambeiro Vázquez
Financiador:
INSTITUTO DE SALUD CARLOS III
Convocatoria:
2020 AES Proyectos de investigación
Fecha de inicio:
01/01/2021
Fecha fin:
31/12/2023
Importe concedido:
68.970,00€
Otros fondos:
Fondos FEDER
Título:
Reducción de la dosis de radiación recibida por el paciente en los estudios PET/CT
Código de expediente:
PI16/00270
Financiador:
INSTITUTO DE SALUD CARLOS III
Convocatoria:
2016 AES PROYECTOS DE INVESTIGACIÓN
Fecha de inicio:
01/01/2017
Fecha fin:
31/12/2020
Importe concedido:
50.215,00€
Otros fondos:
Fondos FEDER
Otros (PIUNA, fundaciones, contratos…)
Título:
Evaluación de dosis neutrónica en una instalación de protonterapia
Código de expediente:
Beca SEFM 2022
Investigador principal:
Verónica Morán Velasco
Financiador:
SOCIEDAD ESPAÑOLA DE FÍSICA MÉDICA (SEFM)
Convocatoria:
2023 Sociedad Española de Física Médica. Ayudas para proyectos de investigación
Fecha de inicio:
06/04/2023
Fecha fin:
05/04/2025
Importe concedido:
4.000,00€