Title :
Population-based dosimetry in nuclear medicine and pet: Development of Portuguese female and male anthropomorphic models
Author :
Nunes, Ana Teresa ; Patricio, Miguel ; Alves, Francisco
Author_Institution :
Fac. of Sci. & Technol., Univ. of Coimbra, Coimbra, Portugal
Abstract :
Summary form only given. Internal organ dose estimates have always depended on standard reference models that mimic the interior and exterior anatomical features of the human body. These models are based on 20-30 year-old and healthy average European and North American populations, their organ masses and body weights and heights corresponding to the 50th percentile data [1]. However, if an individual patient deviates greatly from the reference anatomy, the use of a standard phantom can hinder the precision of the dose assessment being performed. Published anthropometric studies [2] suggest that the Portuguese population deviates from the parameters defined for the reference dosimetric models [3]. The general aim of the present research is to develop and validate two new anthropomorphic models of the human body (one male and one female), that specifically represent Portuguese adult patients who undergo PET/CT examinations. A secondary goal of this project is to profile the Portuguese patients undergoing PET/CT examinations, in respect to their age and internal and external anatomical features. In order to achieve this goal, anthropometric patient data regarding 18F-FDG PET/CT examinations performed at the Institute of Nuclear Sciences Applied to Health (ICNAS) were collected and analyzed. Statistical hypothesis tests (sign-tests) confirmed that the Portuguese adult patient population anatomy deviates greatly from that of the reference anthropometric phantoms most commonly used in internal dosimetry, at least where age, weight and height are concerned. This supports recent approaches in Internal Radiation Dosimetry, which challenge the “Reference Man paradigm”, that is, the application of reference computational phantoms to the overall population [1]. New anthropomorphic models of the human body, representing Portuguese adult patients who undergo PET/CT examinations, will be created by combining Monte Carlo simulation of the radiation trans- ort and image quantification techniques. These models will facilitate an accurate estimation of internal radiation doses.
Keywords :
Monte Carlo methods; anthropometry; biological effects of radiation; computerised tomography; data analysis; dosimetry; phantoms; physiological models; positron emission tomography; radioisotope imaging; standards; statistical analysis; 18F-FDG PET-CT examination performance; CT patient; ICNAS-collected patient data analysis; Internal Radiation Dosimetry approaches; Nuclear Sciences Applied to Health; PET dosimetry; PET patient; Portuguese adult patient CT examination; Portuguese adult patient PET examination; Portuguese adult patient population anatomy; Portuguese adult patient-representing anthropomorphic models; Portuguese female anthropomorphic model; Portuguese male anthropomorphic models; Portuguese patient profile; Portuguese population parameter deviation; Reference Man paradigm; accurate internal radiation dose estimation; age 20.00 yr to 30.00 yr; age-based patient anatomical deviation; anthropometric patient data; anthropomorphic model development; anthropomorphic model validation; average European population-based model; average North American population-based model; computed tomography examination profile; dose assessment performance; exterior anatomical feature-mimicking reference model; female body anthropomorphic model; healthy European population-based model; healthy North American population-based model; height-based patient anatomical deviation; human body anthropomorphic models; human body exterior anatomical feature; human body interior anatomical feature; image quantification techniques; individual patient anatomy; interior anatomical feature-mimicking reference model; internal dosimetry-used anthropometric phantoms; internal organ dose estimation; nuclear medicine dosimetry; patient age-dependent CT examination profile; patient age-dependent PET examination profile; patient body height; patient body weight; patient external anatomical feature-dependent CT examination profile; patient external anatomical feature-dependent PET examination profile; patient internal anatomical feature-dependent CT examination profile; patient internal anatomical feature-dependent PET examination profile; patient organ mass; population-based dosimetry; positron emission tomography dosimetry; positron emission tomography examination profile; published anthropometric studies; radiation transport Monte Carlo simulation; reference anatomy deviation; reference anthropometric phantoms; reference computational phantom application; reference dosimetric model parameters; reference model-dependent dose estimation; sign-test-confirmed patient anatomical deviation; standard phantom-hindered dose assessment precision; standard reference models; statistical hypothesis tests; weight-based patient anatomical deviation; Biological system modeling; Computed tomography; Dosimetry; Nuclear medicine; Positron emission tomography; Sociology; Statistics; Nuclear Medicine; Positron Emission Tomography; Radiation Dosimetry;
Conference_Titel :
Bioengineering (ENBENG), 2015 IEEE 4th Portuguese Meeting on
Conference_Location :
Porto
DOI :
10.1109/ENBENG.2015.7088821
