The most-heard yet most-misunderstood principle in radiology is ALARA. Many take it to mean "keep dose as low as possible"; but ALARA says something more subtle: keep dose as low as reasonably achievable. The goal is not to zero out dose but to avoid every unnecessary exposure while preserving the quality needed for diagnosis. This article explains what ALARA means and how it is applied, linking our protection fundamentals and dose–noise articles together.
What is ALARA?
ALARA stands for As Low As Reasonably Achievable. In the ICRP radiation-protection framework, this is the name of the optimization principle.1 The ICRP defines three principles: justification (each exposure must do more good than harm), optimization / ALARA (doses as low as reasonably achievable), and dose limitation (legal limits — for workers and the public only, not applied to patients).1 ALARA is the middle one, and it shapes day-to-day radiology more than any other.
The key word is "reasonably." In the ICRP definition, doses are kept as low as achievable with economic and societal factors taken into account.1 So not "zero at any cost," but a balanced, justified point between the diagnostic benefit gained and the dose given.
Why 'reasonable', not zero?
Because dose is also the raw material of the image. As shown in Dose and Noise (√N), fewer photons means more noise; push dose below a certain point and the image becomes non-diagnostic, forcing a repeat — a clear increase in dose. So an excessively "low dose" defeats ALARA's own purpose. The right target is the lowest dose that still produces quality sufficient for the task.
Time, distance, shielding
For worker safety, ALARA is applied with three classic tools:
- Time: the shorter the time spent in the radiation field, the lower the dose. Plan the procedure; don't linger.
- Distance: dose rate falls by the inverse-square law as you move away from a point source — doubling the distance cuts the dose to a quarter.
- Shielding: lead aprons, thyroid shields, glasses and fixed barriers attenuate scattered radiation.
These three are covered in detail in Fundamentals of Radiation Protection. The most under-used in the field is the power of distance: a single step back can beat a thick barrier.
ALARA for patients
Here is a crucial distinction: dose limits do not apply to patients.1 The dose a patient receives is set by clinical need, because missing the diagnosis is also a harm. For patients, ALARA is achieved by two things: justification (is the exam really needed; is there an alternative?) and optimization (obtaining the needed diagnosis at the lowest dose). The yardstick of optimization is diagnostic reference levels (DRLs): monitoring typical doses and questioning the cause when they are exceeded.2
Modality by modality
ALARA is not an abstract slogan but the name of concrete settings in every modality:
- CT: the highest-dose modality, so ALARA matters most here. Tube-current modulation, appropriate kVp, iterative/deep-learning reconstruction (FBP, IR and DLR) and dose indices (CTDI, DLP, SSDE — see Dose in CT) are ALARA's tools.
- Radiography: correct kVp/mAs, collimation, grid selection and AEC; detail in Exposure Parameters and Quality Control in Radiography.
- Mammography: for the radiosensitive breast, dose is tracked as average glandular dose (MGD); compression and AEC lower it (see Dose in Mammography).
- Fluoroscopy/interventional: cumulative skin dose is the biggest risk; pulsed mode, last-image hold, collimation and dose-rate control are ALARA in action (see Dose in Fluoroscopy).
References
- ICRP Publication 103. The 2007 Recommendations of the International Commission on Radiological Protection. Optimizasyon ilkesi: dozlar, ekonomik ve toplumsal etkenler göz önünde tutularak makul ölçüde ulaşılabilen en düşük düzeyde tutulur. icrp.org
- IAEA. Radiation Protection and Safety of Radiation Sources: International Basic Safety Standards (GSR Part 3), 2014 — tıbbi ışınlamada optimizasyon, tanısal referans düzeyleri (DRL) ve gerekçelendirme. iaea.org
- İlişkili DoseSave yazıları: Radyasyondan Korunmanın Temelleri, Doz Neden Önemli?, Doz ve Gürültü (√N).