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Introducción. La Organización Panamericana de la Salud pondera la importancia en la protección y seguridad contra la radiación y emergencias radiológicas, considerando beneficios y riesgos por los usos de radiaciones en aplicaciones industriales, médicas y de investigación. El uso de la radiación también tiene riesgos potenciales para la salud de pacientes, trabajadores (incluido personal de la salud), población en general y medio ambiente. La Universidad Central del Ecuador, a través de la Facultad de Ciencias Médicas cuenta con la Carrera de Radiología, que forma profesionales en esta área, con competencias para estudios de diagnóstico, promoción, prevención e investigación en beneficio de las personas en situación de enfermedad; en este contexto se inscriben los estudiantes de pregrado que realizan prácticas pre profesionales formativas en las unidades asistenciales de salud, y que se hallan expuestos continuamente a riesgos por radiaciones ionizantes.Objetivo. Determinar el nivel de cumplimiento del uso del dosímetro como norma de protección radiológica en imagenología. Material y métodos. El estudio es descriptivo, observacional, transversal y analítico. La muestra es de 58 estudiantes de pregrado (séptimo y octavo semestres) seleccionados al azar con el 95% de nivel de confianza, en el año 2019. Se aplicó análisis documental y encuesta (estudiantes y Jefes de Servicio de Radiología). Se analizó los tres últimos resultados de los exámenes de dosimetría. La estadística de fiabilidad del instrumen-to con Alfa de Cronbach es alta (0,833). Los datos fueron procesados a través EXCEL y PSPP. Los análisis estadísticos fueron descriptivos y tabla de contingencia con prueba de independencia de Chi2 de Pearson. Resultados. Los estudiantes, hombres y mujeres, no utilizan regularmente el dosímetro, en las tres mediciones. Por sexo, existe diferencia significativa según Chi2, en la primera medición y segunda medición (p<0,05). En la tercera medición, no existen diferencias significativas, pero los dos grupos igualmente no utilizan regularmente el dosímetro. Limitación: La muestra estudiada no corresponde a todos los estudiantes de la carrera de radiología, priorizándose a los últimos años de formación. Conclusiones. Existe incumplimiento en el uso del dosímetro como norma protección radiológica, lo que aumenta posibilidades de riesgos en la salud de los estudiantes que realizan prácticas pre profesionales formativas
Introduction. The Pan American Health Organization ponders the importance of protection and safety against radiation and radiological emergencies, considering benefits and risks for the uses of radiation in industrial, medical and research applications. The use of radiation also has potential risks to the health of patients, wor-kers (including health personnel), the public, and the environment. The Central University of Ecuador, through the Faculty of Medical Sciences, has the Radiology Career, which trains professionals in this area, with com-petencies for diagnostic studies, promotion, prevention and research for the benefit of people in a situation of illness; In this context, undergraduate students who carry out pre-professional training practices in health care units, and who are continuously exposed to risks due to ionizing radiation, are enrolled.Objective. Determine the level of compliance with the use of the dosimeter as a radiation protection standard in imaging.Material and methods. The study is descriptive, observational, cross-sectional and analytical. The sample is 58 undergraduate students (seventh and eighth semesters) randomly selected with a 95% confidence level, in the year 2019. Documentary analysis and survey (students and Heads of Radiology Service) were applied. The last three results of the dosimetry tests were analyzed. The reliability statistic of the instrument with Cron-bach's Alpha is high (0.833). The data was processed through EXCEL and PSPP. Statistical analyzes were descriptive and a contingency table with Pearson's Chi2 test of independence.Results. The students, men and women, do not regularly use the dosimeter, in the three measurements. By sex, there is a significant difference according to Chi2, in the first measurement and second measurement (p<0.05). In the third measurement, there are no significant differences, but the two groups also do not regu-larly use the dosimeter.Limitation: The studied sample does not correspond to all the students of the radiology career, prioritizing the last years of training.Conclusions. There is non-compliance in the use of the dosimeter as a radiation protection standard, which increases the chances of health risks for students who carry out pre-professional training practices.
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Humans , Male , Female , Adolescent , Adult , Radiology , Students, Health Occupations , Radiation Dosimeters , Radiation , Radiation Protection , Universities , Containment of BiohazardsABSTRACT
Objective:To determine and optimize the radiation quality of the calibration system for mammography dosimeters in IAEA/WHO Secondary Standard Dosimetry Laboratory and to study the requirements for accuracy of thickness of the aluminum sheets used in the measurement, with a view to ensure the accuracy of the radiation quality.Methods:For the measurements of tube voltage and RQR-M radiation quality, a standard kV meter was used to determine the actual tube voltage value of the system under continuous exposure for 30 s by setting tube voltage of 25, 28, 30 and 35 kV, respectively, and aluminum sheet method was used to determine the first half value layer (HVL 1). The kV values were adjusted to make the reading of the standard kV meter as close as possible to its nominal value, so as to obtain the set kV value, actual tube voltage and HVL 1 per 1 kV within the nominal 25-35 kV range. For effects of different thickness of aluminum sheets on the result of HVL 1 measurement, a comparison was made between HVL 1 measured by aluminum sheet with thickness of 0.318 mm and 0.369 mm and HVL 1 measured under 18 different groups of aluminum sheet using a selected 30 kV tube voltage. Results:After the set kV values were adjusted, the actual tube voltage deviations from the nominal values under 25, 28, 30 and 35 kV were reduced from 0.55, 0.34, 0.33, 0.30 to 0.04, 0.02, -0.04, -0.01, and the HVL 1 deviations were reduced from 0.011, 0.007, 0.010, 0.012 to 0.000, 0.003, 0.003, 0.010, respectively. When the thickness differences between the two types of aluminum sheet and the reference HVL 1 were both within 0.1 mm, the deviations of the measured HVL 1 were all less than 0.01 mm Al, and the result was relatively accurate. However, when the differences exceeded that of 0.1 mm, most of the deviations of the measured HVL 1 were between 0.01 and 0.02 mm Al, and the measured result was not accurate. Conclusions:Although the RQR-M radiation quality of the calibration system was deviated, it is still within the range specified under the IEC 61267-2005. The radiation quality was closer to the standard values after fine-tuning the system tube voltage. In order to measure the HVL 1 more accurately, the thickness differences between the used aluminum sheet and nominal HVL 1 should not be greater than 0.1 mm Al.
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Objective@#To compare the test results of domestic and imported eye lens and ring dosimeters, and master some dosimetric performance indexes of eye lens and ring dosimeters.@*Methods@#According to IEC 62387—2012 and GBZ 128—2019, the performance of the eye lens dosimeters and ring dosimeters with the domestic thermoluminescence detectors were compared with the imported thermoluminescence detectors in photon response. The dose response deviation of the im- ported eye lens dosimeter and imported ring dosimeter was studied under the same irradiation condition. The difference of linear response between imported ring dosimeter and domestic ring dosimeter was studied under the same irradiation condition. @*Results@#The same dose was irradiated to domestic and imported thermoluminescence detectors in the imported eye lens and imported ring dosimeters, and the linear correlation coefficient all met R2 > 0.999. The maximum response devi- ation of the imported eye lens dosimeter and ring dosimeter was less than 10.0% for the same dose. Two kinds of imported ring dosimeters and one kind of domestic ring dosimeter were irradiated with the same dose, and the linear correlation coefficient all met R2 > 0.99.@*Conclusion@#Both domestic detectors and imported detectors can meet the needs of monitoring re- quirements. There was no obvious difference in linear response between imported ring dosimeter and domestic ring dosimet- er. The repeatability of imported eye lens dosimeter and imported ring dosimeter met the performance requirements of the dosimeter.
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Dose verification, as part of the radiotherapy QA chain, is a significant method to ensure the patients' safety and efficacy of treatment. The increasing application of precision radiotherapy techniques in clinic has advanced the need of three-dimensional ( 3D) dose verification. Gel dosimeters, prevailing for its intrinsic 3D high-resolution measurement and good tissue equivalence, can serve as effective supplement to the clinical radiotherapy dosimetric system. This paper reviews the method ology, dose response mechanism, characterizations of the state-of-the-art gel dosimeters. Gel dosimeters, outstanding for 3D dose measurement, have a great potential to explore both for clinical application and academic research.
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Objective To establish a method for reducing the dose to the eye lens of interventional staff,and provide the data basis for improving radiological protection measures.Methods One piece of interventional equipment coupled with conventional auxiliary protective devices and two types of common neural interventional procedures were selected to monitor 46 and 35 procedures before and after the device modification.The doses to the eye lens of staff were measured with direct-reading dosimeters for analysis of dose trends.Results After modification of the devices,the average dose to the left eye lens decreased from (9.71 ±10.86) to (3.23 ±5.59) μSv for the first operator,from (9.51 ± 12.34) to (0.68 ± 0.78) μSv for the second in cerebral angiography;whereas the dose decreased from (14.83 ± 19.13) to (4.17±4.59) for the first operator and from (14.12±21.76) to (1.23 ±1.57)μSv for the second in embolization procedure,respectively.The left eye lens doses measured before and after the modification showed significant difference (U =-2.760,-2.467,-1.967,-2.655,P <0.05).Conclusions The modification of the auxiliary radiological protective devices may effectively reduce the dose to the eye lens dose.This method was shown to be feasible for the improvement of radiological protection of interventional staff.
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Abstract. There are several methods for measuring the absorbed radiation dose of occupationally exposed professionals, but it is unknown if these are reproducible at low doses. The aim of this study is to determine the level of reproducibility of thermoluminescent dosimeters (TLD) and optically stimulated luminescence dosimeters (OSL) in simulated conditions. A reproducibility study was performed using two types of dosimeters, which were placed in the location of medical interventionist work area inside the catheter laboratory. An anthropomorphic phantom was used as a patient and the same projections, collimation and radiographic techniques that were employed in the past 30 angiographies, an examination considered as low exposure in the context of interventional cardiology. Lin's concordance coefficient correlation was calculated, obtaining a value of -0.006 with a 95% CI of -0.069 to 0.056 for TLD dosimeters with OSL. The data obtained showed poor reproducibility at low doses of radiation.
Resumen. Existen varios métodos para medir la dosis de radiación absorbida por los profesionales ocupacionalmente expuestos, pero se desconoce si estos son reproducibles entre sí a bajas dosis. El objetivo del estudio fue determinar el grado de reproducibilidad entre los dosímetros termoluminiscentes (TLD) y los dosímetros luminiscentes ópticamente estimulados (OSL), en condiciones simuladas. Se realizó un estudio de reproducibilidad, empleando 2 tipos de dosímetros, los cuales se dispusieron en la ubicación de trabajo del médico intervencionista dentro del pabellón. Se empleó un fantoma antropomórfico como paciente y se replicaron las mismas proyecciones, colimación y técnicas radiológicas empleadas en las últimas 30 coronariografías, examen considerado de baja exposición en el contexto de cardiología intervencionista. Se aplicó el coeficiente de correlación de concordancia de Lin, obteniéndose un valor de -0,006 con un IC al 95% de -0,069 a 0,056 para los dosímetros TLD con OSL. Los datos obtenidos mostraron una escasa reproducibilidad a bajas dosis de radiación.
Subject(s)
Humans , Radiation Dosage , Cardiology , Radiation Monitoring/methods , Radiation Monitoring/instrumentation , Reproducibility of Results , Radiation Dosimeters , Optically Stimulated Luminescence DosimetryABSTRACT
Objective To establish the methods for measuring the dose to occupational staff's eye lens in interventional procedures with direct-reading dosimeters,and to realize the real-time monitoring of eye lens dose and warning for high dose rate,thus providing the scientific basis of the staff radiological protection in interventional procedures.Methods Direct-reading dosimeters were calibrated with personal dose equivalent HP (3).The eye lens doses for occupational staff in different kinds of interventional procedures were measured by the devices with both single-and double X-ray tubes.The data obtained fromthe direct-reading dosimeters was compared to those obtained from TLDs.Results Direct-reading dosimeters showed good linear fitting with the calibration of HP (3),and the coefficients of variation were lower than 5%.The average eye lens HP (3) for the main operator in coronary arteriography and stent implantation in brain obtained by direct-reading dosimeters were 12.0 and 24.5 μSv,respectively,whereas those obtained by TLDs were 11.9 and 22.7 μSv,respectively.The direct-reading dosimeters gave similar t~nds as TLDs do so.The direct-reading dosimeters were able to provide eye lens HP (3) in each individual interventional procedure,and to monitor the real-time dose rate as well.Conclusions The calibration of HP (3) and the data gained by direct-reading dosimeters are reliable.Therefore,the methods for real-time measurement of eye lens dose for occupational staff in interventional procedures are successfully established.
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Aim: The purpose of this paper was to review various dosimeters used in dentistry and the cumulative results of various studies done with various dosimeters. Materials and Methods: Several relevant PubMed indexed articles from 1999 to 2013 were electronically searched by typing “dosimeters”, “dosimeters in dentistry”, “properties of dosimeters”, “thermoluminescent and optically stimulated dosimeters”, “recent advancements in dosimetry in dentistry.” The searches were limited to articles in English to prepare a concise review on dental dosimetry. Titles and abstracts were screened, and articles that fulfilled the criteria of use of dosimeters in dental applications were selected for a full‑text reading. Article was divided into four groups: (1) Biological effects of radiation, (2) properties of dosimeters, (3) types of dosimeters and (4) results of various studies using different dosimeters. Conclusion: The present review on dosimetry based on various studies done with dosimeters revealed that, with the advent of radiographic technique the effective dose delivered is low. Therefore, selection of radiological technique plays an important role in dental dose delivery.
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Dentistry/methods , Dentistry/diagnostic imaging , Radiometry/instrumentation , Radiometry/methods , Radiotherapy Dosage/methodsABSTRACT
Objective To study the angular dependence of four different mammographic dosimeters to monoenergetic X-ray beams and observe the variation tendency in angular dependence to different energy X-rays and to discuss the evaluation of average glandular dose(AGD)in digital breast tomosynthesis(DBT)system.Methods One ionization chamber and three semiconductor dosimeters were exposed by four kinds of beam quality.The signal of each dosimeter was tested over an angular range of 0° to 90°.The dosimeters were exposed for three times at each selected angular position.The measurement at each angle was normalized to the appropriate measurement at perpendicular incidence.Results The responses from all the dosimeters had a maximum at 0° and decreased with increasing angles.When the radiation incidence angle was 10°,the angular dependence were 0.99,0.99,0.96 and 0.96 for dosimeters A,B,C and D,respectively.And the angular dependence decreased to 0.96,1.00,0.78 and 0.52 when the incidence angle was up to 25°.For semiconductor dosimeters,no signal was recorded when incidence angle was beyond 45°.For ionization chamber,the magnitude of the angular dependence generally decreased with increasing energy.Conclusions All of the dosimeters will underestimate the dose if used in DBT.In order to minimize the error due to the rotation angle of X-ray tube,correction factor of mammography dosimeter should be used for the measurement of AGD in DBT systems.
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OBJETIVO: O objetivo do presente trabalho foi avaliar a influência da dependência energética de materiais termoluminescentes na determinação da dose na entrada da pele de pacientes submetidos a exames radiográficos (radiologia geral, mamografia e radiologia odontológica). MATERIAIS E MÉTODOS: Três diferentes materiais termoluminescentes foram utilizados: LiF:Mg,Ti, LiF:Mg,Cu,P e CaSO4:Dy. Estes materiais foram expostos a fontes padronizadas de radiação X e gama, e a feixes clínicos de raios X. RESULTADOS: As curvas de calibração e de dependência energética foram obtidas. Todos os materiais apresentaram resposta linear em função do kerma no ar. Com relação à dependência energética, as amostras de CaSO4:Dy e LiF:Mg,Ti mostraram maior variação da resposta termoluminescente em função da energia efetiva do feixe de radiação. CONCLUSÃO: Os materiais testados mostraram desempenho adequado para a detecção da radiação X em feixes padronizados e clínicos. Embora as amostras de CaSO4:Dy e LiF:Mg,Ti apresentem dependência energética significativa no intervalo de energia considerado, este materiais podem ser utilizados para medição da dose de entrada na pele se fatores de correção apropriados forem utilizados.
OBJECTIVE: This study was aimed at evaluating the influence of the energy dependence of thermoluminescent materials on the determination of entrance skin dose in patients submitted to conventional radiographic studies (general radiology, mammography and dental radiology). MATERIALS AND METHODS: Three different thermoluminescent materials were utilized: LiF:Mg,Ti, LiF:Mg,Cu,P and CaSO4:Dy. These materials were exposed to standardized sources of X and gamma radiation and clinical X-ray beams. RESULTS: Calibration and energy dependence curves were obtained. All the materials showed a linear response as a function of the air kerma. As far as energy dependence is concerned, the CaSO4:Dy and LiF:Mg,Ti samples showed the greatest variation on thermoluminescent responses as a function of the effective radiation beam. CONCLUSION: The tested materials showed an appropriate performance for detecting X radiation on standard and clinical X-ray beams. Although CaSO4:Dy and LiF:Mg,Ti samples present a significant energy dependence in the considered energy range, these materials can be utilized for measuring entrance skin doses, provided appropriate correction factors are applied.
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Humans , Radiation Protection , Radiation, Ionizing , Radiation Dosimeters , Thermoluminescent Dosimetry , RadiometryABSTRACT
Desarrollar dosímetros de alanina y alanina/parafina con miras a atender la creciente utilización de la radiación ionizante a nivel tecnológico. Materiales y métodos. Los radicales libres producidos por la radiación ionizante en la alanina se detectan por resonancia magnética electrónica (ESR); la parafina se utiliza como aglutinante. La metodología de preparación incluye: elaboración, irradiación, lectura y análisis de datos para los dos tipos de dosímetros. Los espectros ESR estudiados corresponden a dosímetros de alanina con masas entre 60 y 120 mg e irradiados con dosis de 10 y 20 Gy, y dosímetros de alanina/parafina de 160 mg e irradiados con diferentes dosis en un haz de fotones de 4 MV. Resultados. La intensidad de los espectros (las cinco líneas características) depende de las dosis recibidas por los dosímetros y su relación es lineal. Con alanina pura y una dosis de 10 Gy la mínima cantidad requerida fue 120 mg; la compactación del cilindro lograda no fue suficiente para evitar la fragmentación parcial del dosímetro. La parafina no tiene señal paramagnética; en los dosímetros de alanina/parafina (cilindros de longitud 13 mm y diámetro 3.5 mm, en la relación 80:20, y buena dureza) se estudió la respuesta señal ESR-dosis en un rango entre 20 y 120 Gy. Conclusiones. Los cilindros de alanina/parafina fabricados tienen una dureza apropiada para ser manipulados como dosímetros de radiación ionizante; su reproducibilidad y la efectividad en la acumulación de dosis es buena...
Elaboration of alanine dosimeters and their possible applications in professional risks. Objective. To develop dosimeters of alanine and alanine/paraffin in order to meet the growing use of ionizing radiation at the technological level. Materials and methods. Free radicals produced by ionizing radiation in alanine are detected by electron spin resonance (ESR); paraffin is used as binder. The methodology ofpreparation includes: elaboration, irradiation, data collection and data analysis for the two types of dosimeters. The ESR spectra studied correspond to alanine dosimeters with masses between 60 and 120 mg and irradiated with doses of 10 and 20 Gy, and alanine/paraffin dosimeters with 160 mg and irradiated with different doses in a beam of photons 4 MV. Results. The intensity of the spectra (thecharacteristic five lines) depends on the doses received by the dosimeters and their relationship is linear. With pure alanine and a dose of 10 Gy, the minimum amount required was 120 mg; the achieved cylinder compaction was not sufficient to avoid the partial fragmentation of the dosimeter. Paraffin has no paramagnetic signal; in the alanine/paraffin dosimeters (cylinders of 13 mm in length and 3.5 mm of diameter, with a ratio 80:20, and good hardness) the response signal ESR-dose was studied in a range between 20 and 120 Gy. Conclusions. The cylinders of alanine/paraffin manufactured have an appropriate hardness to be handled as dosimeters of ionizing radiation; their reproducibility and effectiveness in the accumulation of dose is good...
Elaboração de dosímetros de alanina e suas possíveis aplicações em riscos profissionais. Objetivo. Desenvolver dosímetros de alanina e alanina/parafina com a finalidade de satisfazer a crescente utilização de radiações ionizantes ao nível tecnológico. Materiais e métodos. Os radicais livres produzidos pela radiação ionizante na alanina são detectados por ressonância magnética eletrônica (EPR); a parafina é utilizada como aglutinante. O método de preparação inclui: elaboração, irradiação, leitura e analise dos dados para os dois tiposde dosímetros. Os espectros ESR estudados correspondem a dosímetros de alanina com massas entre 60 e 120 mg e irradiados com doses de 10 e 20 Gy, e dosímetros de alanina/parafina de 160 mg e irradiados com diferentes doses de um feixe de fótons de 4 MV. Resultados.A intensidade dos espectros (as cinco linhas características) depende das doses recebidas pelos dosímetros e sua relação é linear. Com lanina pura e uma dose de 10 Gy a mínima quantidade requerida foi de 120 mg; a compactação do cilindro alcançada não foi suficiente para evitar a fragmentação parcial do dosímetro. A parafina não tem sinal paramagnético; nos dosímetros de alanina/parafina (cilindros de 13 mmde comprimento e 3,5 mm de diâmetro, na proporção 80:20 e boa dureza) foi estudada a resposta a sinal ESR-dose em um intervalo entre 20 e 120 Gy. Conclusões. Os cilindros de alanina/parafina fabricados têm uma dureza adequada para ser tratados como dosímetros de radiação ionizante; sua reprodutibilidade e eficiência no acúmulo de dose é bom...
Subject(s)
Dosimetry/analysis , Radiation, IonizingABSTRACT
The objective of this work was to evaluate radiation doses delivered to technologists engaged in different tasks involving positron emission tomography (PET) studies with FDG (fluorodeoxyglucose). This investigation was performed in two French nuclear medicine departments, which presented significant differences in their arrangements and radiation safety conditions. Both centers administered about 300 MBq per PET/CT study, although only one of them is a dedicated clinical PET center. Dose equivalent Hp(10) and skin dose Hp(0.07) were measured using Siemens electronic personnel dosimeters. For assessment dose absorbed by hands during drawing up of tracer and injection into the patient, a Polimaster wristwatch gamma dosimeter was employed. Absorbed dose and the time spent during each investigated task were recorded for a total of 180 whole-body PET studies. In this report, the methodology employed, the results and their radioprotection issues are presented as well as discussed.
O objetivo deste trabalho foi o de avaliar doses absorvidas por profissionais de saúde em diferentes tarefas relacionadas à tomografia por emissão de pósitrons com [18F]-FDG (fluordesoxiglicose). Esta pesquisa foi realizada em dois centros de medicina nuclear na França, os quais apresentavam diferenças significativas em sua organização e radioproteção. Esses centros aplicavam aproximadamente 300 MBq por exame PET/CT, embora apenas um deles correspondesse a um serviço de medicina nuclear dedicado a exames por PET. A dose equivalente (Hp(10)) e a dose na pele Hp(0,07) foram medidas usando dosímetros eletrônicos (Siemens). Para avaliação da dose nas mãos do tecnologista durante a preparação do radiofármaco e durante injeção no paciente, um dosímetro tipo relógio de pulso (Polimaster) foi empregado. A dose absorvida e o tempo empregado durante cada tarefa foram registrados para um total de 180 exames de corpo inteiro através da PET. Neste trabalho, a metodologia empregada, os resultados e suas conseqüências na dose absorvida para o profissional de saúde são apresentados e discutidos.
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Several combinations of measuring devices and phantoms were studied to measure electron beams. Silicon PN junction diode was used to find the dependence of depth dose profile on field size on axis of electron beam Depths of 50, 80 and 90% doses increased with the field size for small fields. For some larger fields, they were nearly constant. The smallest of field sizes over which the parameters were constant was enlarged with increase of the energy of electron beams. Depth dose distributions on axis of electron beam of 10 x 10 cm2 field were studied with several combinations of measuring devices and phantoms. Cylindrical ion chamber could not be used for measurement of surface dose, and was not convenient for measurement of near surface region of 6 MeV electron. With some exceptions, parameters agreed well with those studied by different devices and phantoms. Surface dose in some energies showed 4% difference between maximum and minimum. For 18 MeV, depths of 80 and 90% doses were considerably shallower by film than by others. Parallel-plate ion chamber with polystyrene phamtom and silicon PN junction would be recommended for measurement of central axis depth dose of electron beams with considerably large field size. It is desirable not to use cylindrical ion chamber for the purpose of measurement of surface dose or near surface region for lower energy electron beam. It is questionable that film would be recommended for measurement of dose distribution of electron with high energy like as 18 MeV.