Journal Article DKFZ-2024-01052

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Irradiation with carbon ions effectively counteracts hypoxia-related radioresistance in a rat prostate carcinoma.

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2024
Elsevier Science Amsterdam [u.a.]

International journal of radiation oncology, biology, physics 120(3), 875-883 () [10.1016/j.ijrobp.2024.05.004]
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Abstract: Hypoxia in tumors is associated with increased malignancy and resistance to conventional photon radiotherapy. This study investigated the potential of particle therapy to counteract radioresistance in syngeneic rat prostate carcinoma.Subcutaneously transplanted R3327-HI tumors were irradiated with photons or carbon ions under acute hypoxic conditions, induced by clamping the tumor-supplying artery 10 min before and during irradiation. Dose-response curves were determined for the endpoint 'local tumor control within 300 days' and compared to previously published data acquired under oxic conditions. Doses at 50% tumor control probability (TCD50) were used to quantify hypoxia-induced radioresistance relative to oxic conditions, and the increased effectiveness of carbon ions under oxic and hypoxic conditions relative to photons.Compared to oxic conditions, TCD50-values under hypoxic conditions increased by a factor of 1.53±0.08 for photons and by 1.28±0.06 for carbon ions (oxygen enhancement ratio, OER). Compared to photons, TCD50-values for carbon ions decreased by a factor of 2.08±0.13 under oxic and by 2.49±0.08 under hypoxic conditions (relative biological effectiveness, RBE). While the slope of the photon dose-response curves increased when changing from oxic to hypoxic conditions, the slopes were steeper and remained unchanged for carbon ions.The reduced OER of carbon ions indicated that the required dose increase in hypoxic tumors was 17% lower for carbon ions than for photons. Additionally, carbon ions reduced the impact of inter-tumor heterogeneity on the radiation response. Therefore, carbon ions may be of significant advantage for the treatment of hypoxic tumors that are highly resistant to conventional photon radiotherapy.In the investigated rat prostate tumor, the required dose increase under hypoxic conditions was 17% lower for carbon ions than for photons. Additionally, carbon ions reduced the impact of inter-tumor heterogeneity on the radiation response under ambient conditions. Therefore, carbon ions may be of significant advantage for the treatment of hypoxic tumors that are highly resistant to conventional photon radiotherapy.

Keyword(s): Hypoxia ; carbon ion radiotherapy ; oxygen enhancement ratio (OER) ; radioresistance ; relative biological effectiveness (RBE)

Classification:

Note: #EA:E040#LA:E040# / 2024 Nov 1;120(3):875-883

Contributing Institute(s):
  1. E040 Med. Physik in der Strahlentherapie (E040)
  2. E220 Radioonkologie Radiobiologie (E220)
  3. E050 KKE Strahlentherapie (E050)
Research Program(s):
  1. 315 - Bildgebung und Radioonkologie (POF4-315) (POF4-315)

Appears in the scientific report 2024
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Medline ; OpenAccess ; BIOSIS Previews ; Biological Abstracts ; Clarivate Analytics Master Journal List ; Current Contents - Clinical Medicine ; Ebsco Academic Search ; Essential Science Indicators ; IF >= 5 ; JCR ; NationallizenzNationallizenz ; SCOPUS ; Science Citation Index Expanded ; Web of Science Core Collection
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 Record created 2024-05-17, last modified 2026-02-20


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