So now onto the Arthorad trial. This was a comparison of 3Gy in 6# (0.5Gy/#) vs 0.3Gy in 6# (0.05Gy/#). You may ask why they didn’t just use a sham arm like the Dutch. And this has a historical and cultural background: LDRT is so embedded as a standard treatment option in Germany that it was felt that patients wouldn’t accept (and perhaps wouldn’t be funded for) a sham (0 Gy) arm. So the control arm was a “tiny” dose of radiation.
Both groups showed significant improvement in pain and function, but no difference between the two doses. My own reaction when I first read the results was disappointment that this was a negative trial. But the conclusion in the paper said:
“We found favorable pain relief and a limited response in the functional and quality of life scores in both arms. The effect of low doses such as 0.3Gy on pain is widely unknown. Further trials are necessary to compare a conventional dose to placebo and to further explore the effect of low doses on inflammatory disorders.”
Personally I found this statement a bit disingeneous, as the alternative explanation is that this is just a negative trial. In particular, if 3Gy turned out to be better than 0.3Gy, would they have reported this as negative, or would they have said that 3Gy is better than control? Draw your own conclusions, but if we take their statement at face value then there is indeed a chance that 0.3Gy could be just as effective as 3Gy. More on that when we come to the South Korean trial.
In 2025, an Iranian group (Fazilat-Panah et al.) reported a double-blind randomised trial in 60 patients with knee OA, comparing 3 Gy over six fractions with sham treatment.
Patients were Kellgren-Lawrence grades 1–3, and outcomes were measured with VAS and Lysholm scores at baseline and monthly up to six months. Interestingly they gave the treatments daily, rather than the more standard way of doing it with at least 48 hours between each fraction.
This study was positive: the radiotherapy arm showed significantly better pain and function scores at every follow-up point. Analgesic use decreased, and patient satisfaction was high.
So what do we make of the discordance between this trial and the Dutch trial. Well, in a number of aspects the trials are very similar – a small trial, sham controlled. A few small differences – more “modern” total dose of 3Gy/6#, but an unusual fractionation scheme as the dose was given daily. Also quite an old population (lowest age = 72 years), and not amazing reporting of e.g. BMI, duration of symptoms.
But an actual positive trial at last!
So this is a really interesting trial, which took into account the information from the Arthorad trial in its trial design and tested 3Gy/6# vs 0.3Gy/6# vs 0Gy/6#. So the questions it asked were:
1. Is radiation better than placebo?
2. Is 0.3 Gy total dose enough?
Patients had knee OA Kellgren-Lawrence grade 2–3 and baseline VAS pain score 50–90/100. Analgesic use was restricted to paracetamol. Follow-up was four months, and outcomes were measured using the OMERACT-OARSI criteria, which is a robust and well-accepted outcome measure.
And this trial was positive – 3 Gy was significantly better than sham, although 0.3 Gy was not. The investigators didn’t show the 3 Gy vs 0.3 Gy comparison, which would have been interesting given the Arthrorad results (see above), but overall this trial confirmed that radiotherapy at conventional anti-inflammatory doses provides real benefit.
One point that was made in the ASTRO session, which I think is very valid, is that the patient cohort was relatively healthy and metabolically lean compared to US populations (especially those with OA), so there remains a question about generalisability.
Alongside these newer trials, the Makarov et al. study from Russia provides valuable long-term data. If you’ve never heard of this trial then you are in good company as the results have been published in highly obscure journals and much of it isn’t even in English. But despite that it really is an amazing trial which provide some quite ground-breaking data. So here goes…
300 patients were randomised to receive standard glucosamine/chondroitin therapy (SYSDOA) with or without low-dose radiotherapy. The radiotherapy dose was 0.45 Gy per fraction for ten fractions (total 4.5 Gy, treatment given on alternate weekdays). Patients were much younger than in other trials (mean 35–40 years old) and had earlier OA (K-L 0–2). Follow-up extended to 10 years.
Results showed sustained improvements in pain, function, and quality of life, as well as MRI evidence of reduced synovial inflammation, bone-marrow oedema, and osteophyte progression. Even arthroplasty rates were lower in the RT group, though not statistically significant due to small event numbers.
So lets have a think about this. Young patients with painful OA, but lower stage than in other trials. And it showed that rates of pain, disability and objective structural joint deterioration were reduced. So it brings us away from simple pain relief and functional improvement towards a different conclusion:
“Radiotherapy can actually change the long term course of osteoarthritis”
Now to me this is a bit of a wow moment. Radiotherapy, by its biological action, can stop OA getting to the stage where you become disabled and where you need surgery. [Dare I ask: Should we be screening for this and treating patients prophylactically?!]
