Potential improvements in the therapeutic ratio of prostate cancer irradiation: dose escalation of pathologically identified tumour nodules using intensity modulated radiotherapy

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Potential improvements in the therapeutic ratio of prostate cancer irradiation: dose escalation of pathologically identified tumour nodules using intensity modulated radiotherapy

C M Nutting, MD, MRCP, FRCR ¹ C M Corbishley, FRCPath ³ B Sanchez-Nieto, PhD, MIPEM ² V P Cosgrove, PhD ² S Webb, DSc, FInstP, FIPEM ² and D P Dearnaley, MD, FRCP, FRCR ¹

¹Department of Radiotherapy and ²Joint Department of Physics, Institute of Cancer Research and Royal Marsden NHS Trust, Sutton, SM2 5PT and ³Department of Histopathology, St Georges' Hospital, Blackshaw Road, Tooting, London, UK

Correspondence: Dr C Nutting, Royal Marsden NHS Trust, Fulham Road, London SW3 6JJ, UK

The potential of intensity modulated radiotherapy (IMRT) toimprove the therapeutic ratio in prostate cancer by dose escalationof intraprostatic tumour nodules (IPTNs) was investigated usinga simultaneous integrated boost technique. The prostate andorgans-at-risk were outlined on CT images from six prostatecancer patients. Positions of IPTNs were transferred onto theCT images from prostate maps derived from sequential large blocksections of whole prostatectomy specimens. Inverse planned IMRTdose distributions were created to irradiate the prostate to70 Gy and all the IPTNs to 90 Gy. A second plan wasproduced to escalate only the dominant IPTN (DIPTN) to 90 Gy,mimicking current imaging techniques. These plans were comparedwith homogeneous prostate irradiation to 70 Gy using dose–volumehistograms, tumour control probability (TCP) and normal tissuecomplication probability (NTCP) for the rectum. The mean doseto IPTNs was increased from 69.8 Gy to 89.1 Gy ifall the IPTNs were dose escalated (p=0.0003). This correspondedto a mean increase in TCP of 8.7–31.2% depending on the ${alpha}$ /ß ratio of prostate cancer (p<0.001), and a meanincrease in rectal NTCP of 3.0% (p<0.001). If only the DIPTNwas dose escalated, the TCP was increased by 6.4–27.5%(p<0.003) and the rectal NTCP was increased by 1.8% (p<0.01).In the dose escalated DIPTN IMRT plans, the highest rectal NTCPwas seen in patients with IPTNs in the posterior peripheralzone close to the anterior rectal wall, and the lowest NTCPwas seen with IPTNs in the lateral peripheral zone. The ratioof increased TCP to NTCP may represent an improvement in thetherapeutic ratio, but was dependent on the position of theIPTN relative to the anterior rectal wall. Improvements in prostateimaging and prostate immobilization are required before clinicalimplementation would be possible. Clinical trials are requiredto confirm the clinical benefits of these improved dose distributions.

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