Estudo dos efeitos na dose devido à heterogeneidade em braquiterapia com fontes de I125 / Study of the dose effects due to the heterogeneity in brachytherapy with 125I sources

BRANCO, ISABELA S.L.

23 November 2017

Submitted by Pedro Silva Filho (pfsilva@ipen.br) on 2017-11-23T09:59:05Z No. of bitstreams: 0 / Made available in DSpace on 2017-11-23T09:59:05Z (GMT). No. of bitstreams: 0 / A braquiterapia de baixas taxas de dose realizada com sementes de 125I tem sido amplamente usada por décadas em variados sítios anatômicos, com bons resultados clínicos. O advento de algoritmos para cálculo de dose baseados em modelos (MBDCAs) permitiu aprimorar oestudo de deposição da dose considerando heterogeneidades como diferentes tecidos, órgãos,aplicadores com composições diferentes da água, proporcionando a análise em geometriascomplexas. As simulações matemáticas realizadas através destes algoritmos possibilitam odesenvolvimento de modelos fisicamente mais acurados que estendem sua aplicabilidade àverificação de sistemas de planejamento em braquiterapia. Neste trabalho foram estudadasconfigurações de objetos simuladores confeccionados para medidas experimentais e simuladosatravés do código MCNP de Monte Carlo a fim de observar as diferenças ocasionadas pelaintrodução de heterogeneidades quando presentes fontes de 125I de baixa taxa de dose. Para estepropósito, distintas as vertentes do tema foram abordadas, entre elas o estudo da influênciaexercida pelos parâmetros de densidade e composição dos materiais tecido equivalentes. Osresultados obtidos demonstraram que, o efeito que a composição de cada um dos materiaisexerce sobre a deposição de dose é mais expressivo que o efeito de sua densidade. Em outroestudo, foi estabelecida uma relação para estimar, de maneira simples, a dose de atenuação detecidos heterogêneos a partir da aferição ou simulação da dose obtida num objeto simuladorconstituído por PMMA, metodologia que pode ser desenvolvida e implementada na rotina clínica.Para complementação das análises dos estudos dosimétricos com a presença deheterogeneidades, foi realizada a validação da geometria simulada da semente de 125I, onde sereproduziu a metodologia de cálculo dosimétrico presente no TG-43 da AAPM. Além disto, foirealizado o estudo teórico da dependência energética dos dosímetros termoluminescentes paraanalisar a variação de sua resposta conforme a energia. A metodologia desenvolvida para oestudo dos efeitos da heterogeneidade na deposição de dose é recomendada na avaliação desistemas de planejamento computadorizados que possuem algoritmos de cálculo de dosebaseados em modelos, quando utilizadas fontes de 125I com baixa taxa de dose, de forma acontribuir na incorporação de novas estimativas de doses com maior acurácia. / Dissertação (Mestrado em Tecnologia Nuclear) / IPEN/D / Instituto de Pesquisas Energéticas e Nucleares - IPEN-CNEN/SP

prostate

neoplasms

radiotherapy

in vivo

brachytherapy

internal irradiation

radiopharmaceuticals

iodine 125

seeds

radiation dose rate ranges

thermoluminescent dosimeters

response functions

heterogeneous effects

multiplication factors

computer calculations

computer codes

monte carlo method

comparative evaluations

Correção do espectro de potência do ruído na simulação de redução da dose de radiação em imagens de tomossíntese digital mamária / Noise power spectrum correction for radiation dose reduction simulation in digital breast tomosynthesis

Igor Guerrero

21 February 2018

Esse trabalho apresenta uma nova metodologia para a correção do espectro de potência do ruído no processo de simulação de aquisições de imagens de tomossíntese digital mamária (Digital Breast Tomosynthesis - DBT) com doses reduzidas de radiação. A simulação é realizada por meio da inserção de ruído quântico dependente do sinal em imagens previamente adquiridas com a dose padrão de radiação. A DBT utiliza a mesma tecnologia de raios X que a mamografia digital, porém com a capacidade de prover ao médico exames do volume tridimensional da mama, minimizando o problema de superposição de tecidos. Apesar de ser o sucessor da mamografia, estudos têm mostrado que a otimização da relação entre a dose de radiação e a qualidade da imagem adquirida ainda não está bem estabelecida na DBT. Devido à impossibilidade de realizar diversas exposições de radiação a uma mesma paciente para os estudos de otimização da dose de radiação, é desejável que exista um método capaz de simular com exatidão diversas exposições tendo como base uma imagem clínica de referência. Embora existam diversos métodos para a simulação da redução de dose em exames mamográficos, o mesmo não pode ser dito quanto a imagens de DBT. O método desenvolvido para simulação da redução da dose de radiação em imagens de DBT se baseia em uma abordagem de inserção de ruído por meio de uma transformada de estabilização de variância, que já foi utilizada para simulação da redução de dose em exames de mamografia digital. Porém, esse trabalho propõe a inclusão da correção do espectro de potência do ruído para otimizar o desempenho do método de inserção de ruído para exames de DBT. Os resultados obtidos mostraram que, quando comparando a imagens de referência, a as imagens simuladas apresentaram erro menores que 1% para a análise do valor médio e desvio padrão e erro próximo de 5% para a análise do espectro de potência, apresentado resultados até 64% melhores que métodos não otimizados para DBT. / This work presents a new methodology for noise power spectrum correction in the simulation of digital breast tomosynthesis (DBT) images with reduced dose of radiation. The simulation is performed by inserting a signal-dependent quantum noise into previously acquired images with the standard dose of radiation. Using the same X-ray technology as a standard mammography, the DBT is capable of reconstructing the inner tissues of the patients\' breasts as a three-dimensional volume, providing more resources for cancer detection than its bi-dimensional counterpart and minimizing tissue overlapping. Despite being the successor to mammography, studies have shown that the optimization of the relationship between radiation dose and image quality is not well established in DBT yet. Due to the impossibility of exposing the same patient to multiple exams with different doses each, a simulation method able to mimic clinical images with high reliability is desirable. Despite the number of methods proposed for dose reduction simulation in mammography, scarcely any may be used in DBT. The method developed for simulation of radiation dose reduction in DBT images is based on a noise insertion approach using a variance-stabilizing transformation, which has already been used to simulate dose reduction in digital mammography exams. However, this work proposes the inclusion of the noise power spectrum correction to optimize the performance of the noise insertion method for DBT exams. The results showed that, when compared with reference images, the simulated images achieved less than 1% error for mean and standard deviation values and close to 5% error for power spectrum analysis, improving in up to 64% when compared with non-optimized for DBT simulation methods.

Kernel de ruído

Espectro de potência do ruído

Redução da dose de radiação

Ruído Poisson

Simulação da inserção de ruído

Tomossíntese digital mamária

Transformada de Anscombe

Anscombe transform

Digital breast tomosynthesis

Noise kernel

Noise power spectrum

Noise simulation

Poisson noise

Quantic noise

Radiation dose reduction

MRI-TRACKABLE MURINE MODEL OF CEREBRAL RADIATION NECROSIS

Andrew J. Boria (8703303)

17 April 2020

<p>Cerebral radiation necrosis as a consequence of radiation therapy is often observed in patients several months to years after treatment. Complications include painful headaches, seizures, and in the worst-case death. Radiation necrosis is an irreversible condition with the options available to manage it all having noticeable downsides. As such, there is a critical need for better ways of either preventing the onset of necrosis and/or managing its symptoms. As radiation necrosis cannot be induced in humans for ethical reasons, a mouse model that mirrors the features of radiation necrosis observed in patients would allow for new techniques to be tested before being used in human clinical trials. This thesis will explain how our lab designed a murine model of cerebral radiation necrosis that uses a 320 keV cabinet irradiator to produce radiation necrosis and MRI and histology to evaluate the development of radiation necrosis at multiple time points.</p><p><br></p> <p> </p> <p>Our model required the development of a mouse positioning apparatus that could be used in the cabinet irradiator used as well as the machining of lead shields so that focal semi-hemispheric irradiations could be conducted with other critical structures spared. The MRI scans used as well as the algorithm used to draw radiation necrosis lesions were based off what has been used in previous Gamma Knife models of radiation necrosis. Our initial work showed that since the cabinet irradiator has a relatively flat dose distribution unlike the Gamma Knife, the radiation lesion volumes produced in the former either plateaued or decreased, unlike in the case of the latter where lesion volumes tended to decrease over time. Further work analyzed the effects of fractionation and found minimal sparing using four different fractionation schemes. The effects of strain and sex on the development of radiation necrosis were also analyzed, with strain being found to be a statistically significant parameter while sex was not. Future research should focus on testing the effects of new drugs and techniques for better dealing with radiation necrosis.<b></b></p>

Radiation Therapy

Animal Cell and Molecular Biology

Animal Neurobiology

Medical Physics

Mouse model

radiation necrosis

radiation dose uniformity

MRI

radiation biology

fractionation

fractionation experiments

sex as a biological variable

Mouse Strain

animal models

Bilddiagnostik av barn ochungdomar vid skolios : En jämförande litteraturstudie mellan konventionell röntgen, datortomografi och entrepreneurial operating system / Imaging diagnostics of children and adolescents with scoliosis : A comparative literature study between conventional X-ray, computed tomography and entrepreneurial operating system

Söderberg, Ida, Najm, Van

January 2023

Bakgrund: Konventionell röntgen, datortomografi (DT) och entrepreneurial operating system (EOS) är tre radiologiska undersökningsmetoder som kan användas för bilddiagnostik vid skolios av barn och ungdomar. Undersökningarna kan genomföras i en liggande eller stående positionering vid bedömning av ryggradens deformation. Dock avger dessa tre modaliteter joniserad strålning vid bildtagning. Syfte: Syftet med denna litteraturstudie var att jämföra konventionell röntgen, DT och EOS vid bilddiagnostik av skolios med fokus på barn och ungdomar. Metod: För att besvara syftet gjordes en litteraturstudie med systematisk ansats. Studier söktes databaserna Pubmed och Cinahl. Resultat: Två av tre studier påvisar att cobb-vinklen tenderar att minska från stående konventionella- och EOS-undersökningar till liggande DT-undersökningar. Vidare kan både DT och EOS generera 3D-rekonstruktioner för att underlätta bedömningen av deformationen. Den effektiva stråldosen går att reduceras för samtliga tre modaliteter men det finns en tendens att bildkvalitén försämras vid optimering. Slutsats: Konventionell röntgen, DT och EOS har för- och nackdelar avseende bilddiagnostik och stråldos. Samtliga tre modaliteter kan användas vid bedömning av ryggradens deformation och pre- och postoperativa bedömning, men det finns skillnader avseende stråldosen och bildkvalitén. Således krävs vidare forskning för att undersöka modaliteternas tillgänglighet och utifrån ett patientperspektiv. / Background: Conventional radiography, computed tomography (CT) and the entrepreneurial operating system (EOS) are three radiological examination methods that can be used for image diagnostics of scoliosis in children and adolescents. The examinations can be carried out in a lying or standing position when assessing the deformation of the spine. However, these three modalities emit ionizing radiation during imaging. Purpose: The purpose of this literature study was to compare conventional radiography, CT and EOS in imaging diagnostics of scoliosis with a focus on children and adolescents. Method: To answer the purpose, a systematic litteratur study was conducted. Literature were search for using the databases PubMed and Cinahl. Result: Two out of three studies showed that cobb-angle tends to decrsease from standning conventional and EOS examinations to lying CT examinations. Furthermore, both CT and EOS can generate 3D reconstuctions to facilitate the assessment of deformation. The effective radiation dose can be reduced for all three modalities, but there is a tendency for image quality to deteriorate during optimization. Conclusion: Conventional X-ray, CT and EOS have advantages and disadvantages in terms of imaging diagnosis and radiation dose. All three modalities can be applied for assessing spinal deformity and pre- and postoperative evaluations, but there are differences in image quality and radiation dose. Therefore, further research is required to investigate the accessibility of the modalities and their suitability from a patient perspective.

Computed tomography

conventional radiography

entrepreneurial operating system

image diagnostics

radiation dose

Bilddiagnostik

datortomografi

entrepreneurial operating system

konventionell röntgen

stråldos

Medical and Health Sciences

Medicin och hälsovetenskap

Clinical Medicine

Klinisk medicin

Radiologi och bildbehandling

Uncertainty Estimation in Radiation Dose Prediction U-Net / Osäkerhetsskattning för stråldospredicerande U-Nets

Skarf, Frida

January 2023

The ability to quantify uncertainties associated with neural network predictions is crucial when they are relied upon in decision-making processes, especially in safety-critical applications like radiation therapy. In this paper, a single-model estimator of both epistemic and aleatoric uncertainties in a regression 3D U-net used for radiation dose prediction is presented. To capture epistemic uncertainty, Monte Carlo Dropout is employed, leveraging dropout during test-time inference to obtain a distribution of predictions. The variability among these predictions is used to estimate the model’s epistemic uncertainty. For quantifying aleatoric uncertainty quantile regression, which models conditional quantiles of the output distribution, is used. The method enables the estimation of prediction intervals of a user-specified significance level, where the difference between the upper and lower bound of the interval quantifies the aleatoric uncertainty. The proposed approach is evaluated on two datasets of prostate and breast cancer patient geometries and corresponding radiation doses. Results demonstrate that the quantile regression method provides well-calibrated prediction intervals, allowing for reliable aleatoric uncertainty estimation. Furthermore, the epistemic uncertainty obtained through Monte Carlo Dropout proves effective in identifying out-of-distribution examples, highlighting its usefulness for detecting anomalous cases where the model makes uncertain predictions. / Förmågan att kvantifiera osäkerheter i samband med neurala nätverksprediktioner är avgörande när de åberopas i beslutsprocesser, särskilt i säkerhetskritiska tillämpningar såsom strålterapi. I denna rapport presenteras en en-modellsimplementation för att uppskatta både epistemiska och aleatoriska osäkerheter i ett 3D regressions-U-net som används för att prediktera stråldos. För att fånga epistemisk osäkerhet används Monte Carlo Dropout, som utnyttjar dropout under testtidsinferens för att få en fördelning av prediktioner. Variabiliteten mellan dessa prediktioner används för att uppskatta modellens epistemiska osäkerhet. För att kvantifiera den aleatoriska osäkerheten används kvantilregression, eller quantile regression, som modellerar de betingade kvantilerna i outputfördelningen. Metoden möjliggör uppskattning av prediktionsintervall med en användardefinierad signifikansnivå, där skillnaden mellan intervallets övre och undre gräns kvantifierar den aleatoriska osäkerheten. Den föreslagna metoden utvärderas på två dataset innehållandes geometrier för prostata- och bröstcancerpatienter och korresponderande stråldoser. Resultaten visar på att kvantilregression ger välkalibrerade prediktionsintervall, vilket tillåter en tillförlitlig uppskattning av den aleatoriska osäkerheten. Dessutom visar sig den epistemiska osäkerhet som erhålls genom Monte Carlo Dropout vara användbar för att identifiera datapunkter som inte tillhör samma fördelning som träningsdatan, vilket belyser dess lämplighet för att upptäcka avvikande datapunkter där modellen gör osäkra prediktioner.

Radiation dose prediction models

U-net

quantile regression

Monte Carlo Dropout

epistemic uncertainty estimation

aleatoric uncertainty estimation

Stråldospredicerande modeller

U-net

kvantilregression

Monte Carlo Dropout

epistemisk osäkerhetsskattning

aletorisk osäkerhetsskattning

Computer and Information Sciences

Data- och informationsvetenskap

Spectral Mammography with X-Ray Optics and a Photon-Counting Detector

Fredenberg, Erik

January 2009

Early detection is vital to successfully treating breast cancer, and mammography screening is the most efficient and wide-spread method to reach this goal. Imaging low-contrast targets, while minimizing the radiation exposure to a large population is, however, a major challenge. Optimizing the image quality per unit radiation dose is therefore essential. In this thesis, two optimization schemes with respect to x-ray photon energy have been investigated: filtering the incident spectrum with refractive x-ray optics (spectral shaping), and utilizing the transmitted spectrum with energy-resolved photon-counting detectors (spectral imaging). Two types of x-ray lenses were experimentally characterized, and modeled using ray tracing, field propagation, and geometrical optics. Spectral shaping reduced dose approximately 20% compared to an absorption-filtered reference system with the same signal-to-noise ratio, scan time, and spatial resolution. In addition, a focusing pre-object collimator based on the same type of optics reduced divergence of the radiation and improved photon economy by about 50%. A photon-counting silicon detector was investigated in terms of energy resolution and its feasibility for spectral imaging. Contrast-enhanced tumor imaging with a system based on the detector was characterized and optimized with a model that took anatomical noise into account. Improvement in an ideal-observer detectability index by a factor of 2 to 8 over that obtained by conventional absorption imaging was found for different levels of anatomical noise and breast density. Increased conspicuity was confirmed by experiment. Further, the model was extended to include imaging of unenhanced lesions. Detectability of microcalcifications increased no more than a few percent, whereas the ability to detect large tumors might improve on the order of 50% despite the low attenuation difference between glandular and cancerous tissue. It is clear that inclusion of anatomical noise and imaging task in spectral optimization may yield completely different results than an analysis based solely on quantum noise. / QC 20100714

TECHNOLOGY

TEKNIKVETENSKAP

Engineering physics

Teknisk fysik

Optical physics

Optisk fysik

Other engineering physics

Övrig teknisk fysik

Elektroteknik, elektronik och fotonik

Medical engineering

Medicinsk teknik

Radiological research

Radiologisk forskning

Modeling of scatter radiation during interventional X-ray procedures

Rehn, Emelie

January 2015

During catheterized x-ray interventions the patient and medical staff is exposed to scatter radiation, as a consequence of tissue interactions. Ionizing radiation for medical purpose is potentially dangerous and can cause malignancy, skin damage and more. Studies have suggested an increase in the prevalence of eye lens cataract, thyroid cancer and left sided brain tumors in doctors. Therefore, it is mandatory to reduce the radiation dose in medicine, a principle known as ALARA (as low as Reasonably Achievable). Lead aprons, collars and shieldings are safety precautions to protect the team in the operating room. The x-ray equipment and surgical techniques are constantly evolving and the interventions become more complex which may increase the x-ray dose. Although x-ray imaging is required in interventional procedures endeavors of reducing radiation exposure to staff is of high interest. There is a need to increase the awareness about scatter radiation and radiation protection efforts are gaining momentum. Initiative to train a dose reducing behavior by education and awareness are key documents within the European Union’s guidelines on Radiation protection. The aims of this thesis were to create a 3D model for representation of real-time exposure and accumulated scatter radiation to staff performing interventional x-ray procedures and identify parameters that affect the scatter radiation. Extensive measurements were made with real time dosimeters while irradiating an anthropomorphic phantom. For five lateral C-arm projections, 68 - 80 data points each were used to measure scatter dose distribution around the patient. In the typical operator position, the effect of craniocaudal projection angle, patient size, field size, image detector height and pulse rate on scatter radiation dose was also investigated. It was possible to create a 3D model from interpolated measurement data that can generate dose rate with promising results. Six out of eight modelled doses deviated +/- 26.6 % from the validation cases. A model that delivers relative dose is an intuitive approach in education for interventional x-ray radiation safety. The staff position in relation to the x-ray source and the patient size have a significant correlation to the dose rate. Additional measurements are needed to ensure the reliability of the model. This work completes the effect of scatter radiation distribution around the patient table, which is not yet evaluated as thoroughly by other authors.

medical staff

personnel

practitioner

staff exposure

physician

operator

occupational exposure

radiation protection

protection in medical x-ray imaging

x-ray exposure

radiation dose

radiation scatter

fluoroscopy

interventional x-ray procedures

interventional radiology

angiography

fluoroscopically guided procedures

interventional radiology dosimetry

interventional cardiology dosimetry

catheterization interventions

Radiological imaging of neonates : radiation dose and image quality / Ακτινολογική απεικόνιση νεογνών : απορροφούμενη δόση και ποιότητα εικόνας

Δουγένη, Ευτυχία

01 October 2012

During hospitalisation in the SCBU premature neonates may undergo a significant number of radiographic procedures to assist mainly in the diagnosis and management of lung diseases, which represent one of the most life threatening conditions in the newborn. Additionally, repeated radiographs are required to confirm correct positioning of tubes and catheters inserted during the course of their management. Special attention should be paid in optimising exposures, as neonates have an increased risk of radiation induced malignancy compared to adults due to the high radiosensitivity of mitotic cells and their longer life expectancy. Another consideration in the frequent imaging of neonates, while in the SCBU, is that handling of the neonate should be minimised. Current clinical practice mainly involves positioning the cassette on the bed directly behind the neonate. However, lifting or moving the infant to position the cassette, can lead to hypoxia, bradycardia, cerebral haemorrhage and could cause accidental dislodgment of tubes, lines and probes. Additionally, medical and nursing issues include increased risk of cross infection and changes in the stable microenvironment of the incubator, e.g. humidity and temperature. Modern incubators incorporate an imaging tray under the bed to facilitate placement of the radiographic cassette without the need to disturb the infant. Paediatricians and nurses urge the use of the tray for the benefit of the neonate. One the other hand, great concerns form the radiographers were expressed, regarding increased dose and poor image quality due to greater attenuation of the beam, as well as for repeat exposures due to artifacts or misalignment. The current study was divided in three parts. The first objective of the study was to perform a survey of the doses encountered in two Special Care Baby Units, one at the University Hospital of Patras in Greece and the other one at the Royal Victoria Infirmary in Newcastle upon Tyne in the UK. The first part of this study was performed in Greece and an optimized radiographic protocol for film-screen was suggested according to neonatal birth weight. In the second part, realized in the UK, the use of the incubator imaging tray is investigated for positioning the CR cassette, with regards to detector dose, exposure index, image quality and radiation dose to patient. Part three is studying the effect of the new tissue radiosensitivity factors, published in the new report from the International Commission on Radiological Protection 2007, on the effective dose conversion coefficients in computed tomography examinations in paediatric patients. / Τα νεογνά, και ιδιαίτερα τα πρόωρα (διάρκεια κύησης έως και 24 εβδομάδες και βάρος γέννησης έως και 600 g) αμέσως μετά την γέννηση τους διανύουν μια περίοδο υψηλού κινδύνου και συχνά έχουν να αντιμετωπίσουν μια ποικιλία από σοβαρές έως και απειλητικές για τη ζωή επιπλοκές στην υγεία τους, που συχνά απαιτούν ειδική φροντίδα κατά τη διάρκεια των πρώτων ημερών στην Μονάδα Εντατικής Θεραπείας Νεογνών. Τόσο η καθυστερημένη ενδομήτρια ανάπτυξη, όσο και ο πρόωρος τοκετός αποτελούν σημαντικές αιτίες για την εμφάνιση αναπνευστικών ή καρδιαγγειακών προβλημάτων. Το ποσοστό επιβίωσης αυτών των νεογνών, ωστόσο, έχει αυξηθεί δραματικά κατά τις τελευταίες δύο δεκαετίες, που βασίζεται τόσο στην άµεση διάγνωση όσο και στην έγκαιρη και αποτελεσματική θεραπεία. Η ακτινογράφηση νεογνών είναι ένα απολύτως αναγκαίο και ισχυρό «εργαλείο» που συμβάλλει σηµαντικά όχι µόνο στην έγκαιρη αρχική διάγνωση και εκτίµηση της ασθένειας (π.χ αναπνευστική δυσχέρεια, εισρόφηση µηκωνίου, βρογχοπνευµονική δυσπλασία, πνευµοθώρακας, νεκρωτική εντεροκολίτιδα κτλ) αλλά και στην τοποθέτηση και επιβεβαίωση της σωστής θέσης των διαδερµικών ενδοφλέβιων κεντρικών γραµµών, οµφαλικών καθετήρων και ενδοτραχειακών σωλήνων που απαιτούνται κατά την αντιµετώπιση των συµπτωµάτων αυτών καθώς και κατά την παρακολούθηση της θεραπείας. Συνεπώς, ανάλογα µε τα κλινικά συμπτώματα που παρουσιάζουν, τα πρόωρα νεογνά υποβάλλονται σε ένα αρκετά σηµαντικό αριθµό ακτινογραφικών εξετάσεων θώρακος και κοιλίας (έως και > 60 ακτινογραφίες) κατά τις πρώτες µέρες ζωής. Επιπλέον, τα νεογνά πιθανόν να υποβληθούν σε μια ποικιλία από άλλες ακτινολογικές τεχνικές κατά τη διαχείριση της κατάστασής τους. Αν και η αξονική τομογραφία σε νεογνά (computed tomography- CT) π.χ. για την εκτίμηση των συγγενών ανωμαλιών της καρδιάς ή τραύμα στο κεφάλι, είναι σχετικά σπάνια σε σύγκριση με την ακτινογράφηση, ενόψει των υψηλών δόσεων που συνδέονται με την τεχνική αυτή, είναι σημαντικό για τους ακτινολόγους και τους τεχνολόγους να είναι σε θέση να εκτιμήσουν την δόση και τα στοχαστικά αποτελέσματα, όπως την πιθανότητα εμφάνισης καρκίνου η λευχαιμίας, εξαιτίας της ακτινοβολίας. Κατά τη διάρκεια εξετάσεων CT, η ενέργεια εναποτίθεται στα διάφορα όργανα με ένα περίπλοκο τρόπο, ανάλογα με την ακτινοβολούμενη ανατομική περιοχή και τις διαστάσεις του σώματος του ασθενή. Η εκτίμηση του κινδύνου καρκίνου απαιτεί γνώση των εν λόγω δόσεων στα όργανα. Ως εκ τούτου, κρίθηκε απαραίτητο να διερευνηθεί και να επαναπροσδιοριστεί μια μεθοδολογία δοσιμέτρησης, με σκοπό να συμβάλλει στη βελτιστοποίηση των ακτινολογικών τεχνικών στις αξονικές εξετάσεις νεογνών. Η ακτινοευαισθησία κάθε ιστού είναι ευθέως ανάλογη του ρυθµού εξάπλωσης και πολλαπλασιασµού των κυττάρων. Τα νεογνά είναι έως και δέκα φορές πιο ευαίσθητα σε σχέση µε τους ενήλικες στις χρωµοσωµατικές καταστροφικές συνέπειες της ακτινοβολίας, εξ’ αιτίας της υψηλής µιτωτικής δραστηριότητας των κυττάρων τους. Επιπλέον, κρίσιµα και ακτινοευαίσθητα όργανα, όπως ο µαστός, ο θυρεοειδής αδένας, οι γονάδες και ένα µεγάλο τµήµα του αιµοπαραγωγικού µυελού των οστών βρίσκονται κοντά ή εντός της πρωτογενούς δέσµης και ακτινοβολούνται απ’ ευθείας. Επίσης, λόγω του µεγαλύτερου προσδόκιµου ζωής των νεογνών σε σχέση µε οποιαδήποτε άλλη οµάδα ασθενών, υπάρχει μεγαλύτερη περίοδος της πιθανής εµφάνισης κακοήθειας εξ’ αιτίας της ακτινοβολίας. Ένα άλλο στοιχείο σχετικό με την συχνή απεικόνιση των νεογνών, κατά την παραμονή τους στην μονάδα, είναι ότι ο χειρισμός και η αλληλεπίδραση με το νεογνό θα πρέπει να ελαχιστοποιούνται. Τα πρόωρα νεογνά δέχονται ιατρική φροντίδα σε θερμοκοιτίδες, οι οποίες είναι σχεδιασμένες για να παρέχουν το βέλτιστο ελεγχόμενο μικροπεριβάλλον, ιδανικό για το μωρό, όπου οι ζωτικές λειτουργίες του μπορούν να παρακολουθούνται προσεκτικά συνεχώς. Κατά την ακτινογράφηση, στην τρέχουσα κλινική πρακτική, η κασέτα τοποθετείται κυρίως πάνω στο κρεβάτι, ακριβώς πίσω από το νεογνό. Ωστόσο, η ανάγκη για μετακίνηση και ανύψωση του νεογνού μπορεί να οδηγήσει σε υποθερμία, υποξία, βραδυκαρδία, εγκεφαλική αιμορραγία, καθώς και μεταφορά μολύνσεων και τυχαία εκτόπιση των κεντρικών γραμμών και καθετήρων. Οι σύγχρονες θερμοκοιτίδες είναι εφοδιασμένες με ένα μια υποδοχή/συρόμενο δίσκο απεικόνισης (imaging tray) κάτω από το κρεβάτι που διευκολύνει την τοποθέτηση της ακτινολογικής κασέτας με σκοπό την ελάχιστη ενόχληση του μωρού και μεταβολή των συνθηκών μέσα στην θερμοκοιτίδα. Για ακτινογραφίες που λαμβάνονται χρησιμοποιώντας το συρόμενο δίσκο απεικόνισης, λόγω της εξασθένησης που προκαλείται από το κρεβάτι, το στρώμα και τα άλλα υλικά που παρεμβαίνουν στην δέσμη, πιθανόν να απαιτείται αύξηση των παραμέτρων έκθεσης, με αποτέλεσμα το νεογνό να εκτεθεί σε υψηλότερη δόση. Το κρεβάτι συνήθως δεν είναι κατασκευασμένο από υλικά χαμηλής απορρόφησης, αλλά από ένα απλό πλαστικό υλικό, έτσι ώστε υπάρχουν ισχυρά επιχειρήματα που να υποστηρίζουν ότι η τοποθέτηση της κασέτας πίσω από το νεογνό είναι πιο συνεπής με την αρχή της βελτιστοποίησης. Η παρούσα μελέτη αποτελείται από τρία βασικά μέρη. Ο πρώτος στόχος της μελέτης ήταν να πραγματοποιηθεί μια έρευνα σχετικά με τον καθορισμό της δόσεων που σχετίζονται με ακτινογραφικές εξετάσεις θώρακος στην Μονάδα Εντατικής Θεραπείας Νεογνών στο Πανεπιστημιακό Νοσοκομείο της Πάτρας στην Ελλάδα, η σύγκριση των δόσεων αυτών με τα διεθνή διαγνωστικά επίπεδα αναφοράς και ανάπτυξη και η παρουσίαση ενός βελτιστοποιημένου ακτινογραφικού πρωτοκόλλου με χρήση ακτινολογικού φιλμ, ανάλογα με το σωματικό βάρος γέννησης του νεογνού, βασισμένη σε κλινικές εικόνες νεογνών. Δεδομένου ότι η ψηφιακή ακτινογράφηση είναι σήμερα η πλέον χρησιμοποιούμενη μορφή απεικόνισης σε πολλά κέντρα, η μελέτη αναπτύχθηκε περαιτέρω ώστε να συγκρίνει τις τεχνικές και τις παραμέτρους έκθεσης που εφαρμόζονται κλινικά στην μονάδα εντατικής θεραπείας νεογνών στο Royal Victoria Infirmary (RVI) στο Newcastle Upon Tyne, στο Ηνωμένο Βασίλειο. Επιπλέον, ερευνήθηκε η επίδραση της χρήσης του συρόμενου δίσκου απεικόνισης της θερμοκοιτίδας για την τοποθέτηση της κασέτας κατά τη ακτινογράφηση θώρακος, σε σχέση με τη δόση στη κασέτα, το δείκτη έκθεσης της ψηφιακής εικόνας, την ποιότητα της εικόνας και των επιπτώσεων από τη χρήση του δίσκου στο νεογνό. Η μελέτη πραγματοποιήθηκε βασισμένη σε εικόνες από ανθρωπόμορφο ομοίωμα νεογνού με ψηφιακο ανιχνευτή (computed radiography-CR). Στο τρίτο μέρος μελετάται και επαναπροσδιορίζεται μια μεθοδολογία δοσιμέτρησης σε εξετάσεις CT, καθώς και η επίδραση των νέων παραγόντων ακτινοευαιθησίας των ιστών, όπως δημοσιεύθηκαν στην νέα έκθεση από τη Διεθνή Επιτροπή Ακτινοπροστασίας το 2007 (International Radiological Protection Board-ICRP), στην ενεργό δόση (effective dose- E) και στους συντελεστές μετατροπής της δόσης (effective dose per dose length product- EDLP). Αρχικά η μελέτη επικεντρώθηκε σε νεογνά, ωστόσο εφόσον οι συντελεστές μετατροπής δόσης εξαρτώνται από τις διαστάσεις του ασθενούς, θεωρήθηκε σκόπιμο να επεκταθεί και σε εξετάσεις παιδιών, συμπεριλαμβανομένων των ηλικιών 1, 5 και 10 ετών.Η μέθοδος και τα αποτελέσματα αυτής της μελέτης μπορεί να παρέχουν ένα πρακτικό και αποτελεσματικό τρόπο στους ακτινολόγους και στους τεχνολόγους για την αποτελεσματική εκτίμηση της δόσης στην καθημερινή κλινική πρακτική. Αυτό μπορεί να συμβάλει στη βελτιστοποίηση των παραμέτρων έκθεσης και να βοηθήσει στον υπολογισμό της πιθανότητας εμφάνισης καρκίνου εξαιτίας της ακτινοβολίας για νεογνά και παιδιά διαφορετικών διαστάσεων, ενισχύοντας έτσι τα κριτήρια αιτιολόγησης της εξέτασης.

Neonates

Paediatric

Computed radiography

Computed tomography

Radiation dose

Image quality

Effective dose

Cancer risk

Signal-to-noise ratio (SNR)

Contrast-to-noise ratio (CNR)

616.075 480 832

Νεογνά

Παιδιατρική

Δόση ακτινοβολίας

Ποιότητα εικόνας

Ενεργός δόση

Estudo compartimental e dosimétrico do anti-CD20 marcado com 188Re / Compartmental and dosimetric studies of anti-CD20 labelled with 188Re

KURAMOTO, GRACIELA B.

25 August 2016

Submitted by Marco Antonio Oliveira da Silva (maosilva@ipen.br) on 2016-08-25T11:05:49Z No. of bitstreams: 0 / Made available in DSpace on 2016-08-25T11:05:49Z (GMT). No. of bitstreams: 0 / A radioimunoterapia (RIT) faz uso de anticorpos monoclonais conjugados com radionuclídeos emissores &alpha; ou &beta;-, ambos para terapia. O tratamento baseia-se na irradiação e destruição do tumor, preservando os órgãos normais quanto ao excesso de radiação. Radionuclídeos emissores &beta;- como 90Y, 131I, 177Lu e 188Re, são úteis para o desenvolvimento de radiofármacos terapêuticos e, quando associados a AcM como o Anti-CD20 são importantes principalmente para o tratamento de Linfomas Não Hodgkins (LNH). 188Re (E&beta;- = 2,12 MeV; E&gamma;= 155 keV; t1/2 = 16,9 h) é um radionuclídeo atrativo para RIT. O Centro de Radiofarmácia do IPEN possui um projeto que visa a produção do radiofármaco 188Re-Anti-CD20. Com isso,este estudo foi proposto para avaliar a eficácia desta técnica de marcação para tratamento em termos compartimentais e dosimétricos. O objetivo deste trabalho consistiu na compararação da marcação do AcM anti-CD20 com 188Re com a marcação do anticorpo com 90Y, 131I, 177Lu e 99mTc (pelas suas características químicas similares) e 211At, 213Bi, 223Ra e 225Ac. Através do estudo de técnicas de marcação relatadas em literatura, foi proposto um modelo compartimental para avaliação de sua farmacocinética e estudos dosimétricos, de alto interesse para a terapia. A revisão de dados publicados na literatura, possibilitou demonstrar diferentes procedimentos de marcação, rendimentos de marcação, tempo de reação, impurezas e estudos de biodistribuição. O resultado do estudo mostra uma cinética favorável para o 188Re, pelas suas características físicas e químicas frente aos demais radionuclídeos avaliados. O estudo compartimental proposto descreve o metabolismo do 188Re-anti-CD20 através de um modelo compartimental mamilar, que pela sua análise farmacocinética, realizada em comparação aos produtos marcados com emissores &beta;-: 131I-antiCD20, 177Lu-anti-CD20, o emissor &gamma; 99mTc-anti-CD20 e o emissor &alpha; 211At-Anti-CD20, apresentou uma constante de eliminação de aproximadamente 0,05 horas-1 no sangue do animal. A avaliação dosimétrica do 188Re-Anti-CD20 foi realizada através de duas metodologias: pelo método de Monte Carlo e pelo uso de uma fonte pontual &beta;- através da Fórmula de Loevinger via programa Excel. Através da Fórmula de Loevinger fez-se a validação do método de Monte Carlo para a dosimetria do 188Re-Anti-CD20 e dos demais produtos. As doses e as taxas de doses obtidas pelos dois métodos foram avaliadas em comparação à dosimetria do 90Y-Anti-CD20, 131I-Anti-CD20 e do 177Lu-Anti-CD20, obtidas pela mesma metodologia. O estudo de dose foi realizado utilizando modelos matemáticos considerando um camundongo nude de 25g, simulando diferentes tamanhos de tumor e diferentes formas de distribuição do produto dentro do animal. De acordo com os resultados obtidos, pela energia de emissão &beta;-, 188Re-Anti-CD20 apresenta maior deposição de energia para tumores volumosos em relação aos demais produtos avaliados. Em uma simulação com 100% do produto captado pelo tumor, 89% da dose total manteve-se absorvida pelo tumor, preservando a integridade de ógãos críticos como coração (2%), pulmões (5%), coluna (4%), fígado (0,014%) e rins (0,0007%). Em uma simulação onde há uma biodistribuição do produto no organismo do animal, 38% da dose total é absorvida pelo tumor e >3% é absorvida pela coluna. Nessa situação mais próxima da realidade, a extrapolação dos dados para um humano de 70kg, mostrou que a dose absorvida no tumor corresponde a cerca de 33%; na coluna 7% e o coração receberia uma dose de 35% do total. A análise compartimental e dosimétrica apresentada neste trabalho, realizada através do uso de um modelo animal para o 188Re-Anti-CD20 mostra que o produto desenvolvido e apresentado em literatura é candidato promissor para a RIT. / Tese (Doutorado em Tecnologia Nuclear) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP

antigens

antigen-antibody reactions

rhenium 188

yttrium 90

iodine 131

lutetium 177

technetium 99

astatine 211

bismuth 213

radium 223

actinium 225

physical chemistry

labelled compounds

radiation dose distributions

dose limits

dosimetry

monte carlo method

calculation methods

tumor cells

neoplasms

radioterapy

immunotherapy

radioimmunotherapy

radionuclide kinetics

Desenvolvimento de um protocolo de calibração utilizando espectrometria e simulação matemática, em feixes padrões de raios x / Development of a calibration protocol using spectrometry and mathematical simulation, in x ray standard beams

SANTOS, LUCAS R. dos

21 November 2017

Submitted by Pedro Silva Filho (pfsilva@ipen.br) on 2017-11-21T11:20:13Z No. of bitstreams: 0 / Made available in DSpace on 2017-11-21T11:20:13Z (GMT). No. of bitstreams: 0 / A calibração, por definição, é o processo pelo qual se estabelece uma relação entre valores de medição de um padrão, com as suas respectivas incertezas, e as indicações com as incertezas associadas do instrumento de medição a ser calibrado. Um protocolo de calibração descreve a metodologia a ser aplicada em um processo de calibração. O método escolhido para a obtenção deste protocolo foi o da espectrometria de feixe de raios X associada à simulação pelo método de Monte Carlo, fundamentado no fato de que ambos são considerados métodos absolutos na determinação de parâmetros de feixes de radiação. Neste trabalho foi utilizado o método de Monte Carlo utilizado para obter a função resposta do detector utilizada para a correção dos espectros obtidos do feixe primário de radiação X; deste modo foram calculadas as taxas de kerma destes feixes e comparadas aos valores obtidos com as câmaras de ionização padrão secundário do Laboratório de Calibração de Instrumentos do IPEN (LCI/IPEN). Foram obtidos os coeficientes de calibração para o sistema padrão com diferenças em relação ao fornecido pelo laboratório primário entre 1,3% e 15,3%. Os resultados obtidos indicaram a viabilidade do estabelecimento deste protocolo de calibração utilizando a espectrometria como padrão de referência, com incertezas relativas de 0,62% para k=1. As incertezas associadas ao método proposto foram satisfatórias, para um laboratório padrão secundário e comparáveis a um laboratório primário. / Tese (Doutorado em Tecnologia Nuclear) / IPEN/T / Instituto de Pesquisas Energéticas e Nucleares - IPEN-CNEN/SP

inspection

calibration

calibration standards

interlaboratory comparisons

measuring devices

data covariances

radiation metrology

radiation doses

radiation dose rate ranges

kerma

semiconductor detectors

ionization chambers

x-ray spectrometers

x radiation

beam monitors

response functions

computer calculations

computer codes

monte carlo method

comparative evaluations