Radiological Protection in Fluoroscopically Guided Procedures Performed Outside the Imaging Department

Rehani, Madan M.; Ciraj-Bjelac, Olivera; Vañó, Eliseo; Miller, Donald L.; Walsh, Sheila; Giordano, Brian D.; Persliden, Jan

doi:10.1016/j.icrp.2012.03.001

Cited by 239 publications

(161 citation statements)

References 144 publications

(230 reference statements)

Supporting

Mentioning

148

Contrasting

Unclassified

Order By: Relevance

“…Nearly one quarter of the residents in the survey did not know this. Medical personnel can prevent themselves from radiation by increasing the distance from the source of radiation or by leaving the operating room, if not actively involved in the procedure, when the radiation is being used [9]. We found that only about a quarter practiced this routinely.…”

Section: Discussionmentioning

confidence: 89%

See 1 more Smart Citation

The Knowledge of Radiation and the Attitude Towards Radio-Protection among Urology Residents in India

Jindal¹

2015

JCDR

View full text Add to dashboard Cite

Section: Discussionmentioning

confidence: 89%

“…They are made up of lead and decrease the amount of radiation received by the operator. Commonly a 0.5 mm lead shield is used [9]. Nearly one quarter of the residents in the survey did not know this.…”

Section: Discussionmentioning

confidence: 99%

The Knowledge of Radiation and the Attitude Towards Radio-Protection among Urology Residents in India

Jindal¹

2015

JCDR

View full text Add to dashboard Cite

“…19 The maximum recommended occupational dose limit is 20mSv averaged over five years with no more than 50mSv in any one year. The ICRP also advocates three fundamental principles: justification, optimisation of protection and dose limitation.…”

Section: Radiation Guidancementioning

confidence: 99%

“…The ICRP recommended configuration when using fluoroscopy is to have the intensifier above and the x-ray tube below the patient. 19 The operating personnel should always stand on the intensifier side as this reduces the amount of radiation received by a tenth. The use of additional protective devices such as thyroid collars and goggles should be considered, especially when operating on larger patients as patient size increases the skin dose and scattered radiation.…”

Section: Radiation Guidancementioning

confidence: 99%

The effect of surgical experience on the amount of radiation exposure from fluoroscopy during dynamic hip screw fixation

Quah

Mehta

Shivji

et al. 2017

annals

View full text Add to dashboard Cite

INTRODUCTION Dynamic hip screw (DHS) fixation for proximal femur fractures is one of the most common procedures in trauma that requires the use of fluoroscopy. Emphasis is often placed on producing the 'perfect picture', which may lead to excessive use of fluoroscopy, without added patient benefit. This study, the largest of its kind, aimed to determine the effect of surgical experience on the amount of radiation exposure from fluoroscopy during DHS fixation. METHODS All hospital admissions for extracapsular proximal femur fractures to our institution between 2007 and 2012 were analysed. Patient demographics, fracture configuration, grade of surgeon and the total radiation dose after fixation were recorded. Analysis of variance was performed to assess differences in radiation levels between different grades of surgeon. RESULTS A total of 1,203 patients with a mean age of 81.3 years (range: 21-105 years) were included in the study. The majority of the fractures were three-part (33.3%), followed by two-part (32.2%), four-part (25.7%) and basicervical (8.9%). Registrars (ST3-ST8) used a significantly higher radiation dose than consultants for all fracture types (p=0.009). When analysed separately by trainee group, the most junior registrars (ST3-ST4) and the most senior registrars (ST7-ST8) were found to use significantly higher radiation levels than consultants (p=0.037 and p<0.001 respectively). CONCLUSIONS The level of surgical experience does influence the amount of radiation exposure from fluoroscopy during DHS fixation. Surgical trainees should not ignore the potential harmful effects of radiation and should be equipped with the knowledge of how to keep the radiation exposure as low as possible.

show abstract

“…The many factors modulaing the dose in the cardiac cath lab are summarized in Table 2 and can reduce the dose by a factor of 10 to 100 [16][17][18] .…”

mentioning

confidence: 99%

Radiation safety in the cardiac catheterization laboratory: Our responsibility to change

Picano¹,

Piccaluga²,

Padovani³

et al. 2014

Srce i krvni sudovi

View full text Add to dashboard Cite

Pregledni radIntroducion o ver the last 20 years, invasive luoroscopy and intervenional cardiology have expanded significantly in the field of diagnostic studies, intervenions, and device implantaion. The efecive dose (ED) to paients in invasive luoroscopy procedures can range anywhere from 1 to 100 milliSievert (mSv), equivalent to a radiological risk corresponding to 50 to 5000 chest x-rays 1 . The occupaional exposure of intervenional cardiologists can be two to three imes higher than that of diagnosic radiologists 2,3 . The increasing use and complexity of intervenional cardiology techniques have not been matched by increasing awareness and knowledge by prescribers and praciioners. Most doctors -including invasive cardiologists -grossly underesimate the radiaion doses for most commonly requested tests 4,5 . However, this knowledge is crucial for several reasons. First, the dose is proporional to long-term cancer risk, and therefore one must be aware of the dose in order to perform a proper risk-beneit assessment, quintessenial for evaluaing the appropriateness of any given test or procedure. Second, knowing the dose is necessary in order to apply dose opimizaion, intended to achieve the desired diagnosic informaion or therapeuic beneit with the lowest necessary dose. Third, radiaion awareness is essenial for beter protecion of intervenional cardiologists and staf (technicians and nurses), since simple radioprotecion knowledge can reduce occupaional exposure by tenfold, making one's professional life longer and healthier. These are three excellent reasons to pursue a policy of radioprotecion in the cardiac catheterizaion lab [6][7][8] . Determinisic and stochasic risks in the cardiac catheterizaion labThere are two main biological efects of radiaion: tissue reactions (deterministic effects), which occur when the radiaion dose exceeds a speciic threshold and become evident days to months ater exposure as a predictable change in issue occurs, and stochasic effects, which relate to the potenial for future harm to the issue and the body 9, 10 . Medical radiaion from x-rays and nuclear medicine is the largest manmade source of radiaion exposure in Western countries, and accounts for a mean efecive dose of 3.0 milliSievert (mSv) per person per year, equivalent to the radiological risk of 150 chest x-rays. Of these, 0.43 mSv come from intervenional radiology (0.20 mSv) and intervenional cardiology (0.23 mSv). Among adult cardiology paients, luoroscopically-guided diagnosis and intervenion account for 12% of all radiological examinaions performed, and 48% of their total collecive dose. On average, a diagnosic invasive angiogram corresponds to a paient radiaion exposure of about 7 mSv (range 2-16), while coronary stening corresponds to 15 mSv (range 7-57). Progressively higher efecive doses are observed for transcutaneous aoric valvuloplasty (39 mSv), dilaion of total occlusion of coronary arteries (81 mSv, range 17-194) and endovascular thoraco-abdominal aneurysm repair procedure . Most experienced (and most expos...

show abstract

Radiological Protection in Fluoroscopically Guided Procedures Performed Outside the Imaging Department

Cited by 239 publications

References 144 publications

The Knowledge of Radiation and the Attitude Towards Radio-Protection among Urology Residents in India

The Knowledge of Radiation and the Attitude Towards Radio-Protection among Urology Residents in India

The effect of surgical experience on the amount of radiation exposure from fluoroscopy during dynamic hip screw fixation

Radiation safety in the cardiac catheterization laboratory: Our responsibility to change

Contact Info

Product

Resources

About