# Introduction rostate cancer is the second most diagnosed cancer in men after lung cancer with 13.7% of cases [1]. Its incidence is high in Guadeloupe [2]. The treatment of prostate cancer is multidisciplinary, with radiotherapy and surgery as the main curative methods. Radiotherapy is said to be conformal when the dose of ionising radiation used is delivered homogeneously to a precisely defined tumor volume while sparing healthy tissue and surrounding organs as much as possible. This is achieved through initial threedimensional imaging for location and repositioning. The precise calculation of the dose to be delivered is achieved through computer-controlled multi-blade collimators. Thanks to the progress made by conformal radiotherapy, the results obtained are becoming similar in terms of disease control to those of surgery, as shown by several comparative series. Radiotherapy has therefore become an essential technique in the treatment of prostate cancer despite its complications, notably urinary and digestive [3]. In this paper, we evaluate these complications that arise during the management of localised prostate cancer treated with 3D conformal radiotherapy. # II. # Patients and Method a) Patients This was a descriptive, retrospective study that took place at the Radiotherapy Department of the Pointe à Pitre University Hospital in Guadeloupe, carried out over a period of one year (January 2015 to December 2015). A total of 29 patients consulting for localized prostate cancer with a negative distant extension assessment were treated with 3D radiotherapy plus or minus hormone therapy. These patients had not received any previous specific treatment and their characteristics are summarised in Table I. # b) Method Data were collected using archived medical records, from the Varian Aria software and Easily from the CHU Guadeloupe. A data collection form was drawn up for this purpose. The data were entered and analysed on Epi info 7 on Microsoft Excel 2007. Histograms and other figures were produced with Microsoft Excel 2007. # III. # Results The median age of the patients was 75 years. The most common comorbidity was hypertension, which was found in 23 patients (79.31%). The diagnosis was made on the basis of urinary symptoms in 10 patients (34%). They were generally in good general condition. The median PSA level was 12 ng/ml with extremes of 3.05 and 79 ng/ml. Histological examination revealed adenocarcinoma in all patients. The Gleason score was heterogeneous with a score of 6 (3+3) in 6 patients (20, 69%), a score of 7 (3+4) in 12 patients (41, 38%) and another score of 7 (4+3) in 11 patients (37, 93%). A loco-regional extension assessment by MRI was performed in 26 patients (89, 66%) and contraindicated in 3 patients. On imaging, we found T3a in 5 patients (19, 23%), T3b in 4 patients (15, 38%) and lymph node involvement in 1 patient (3, 8%). Thoracoabdomino-pelvic CT was performed in 9 patients (31.03%) and scintigraphy in 25 patients (86.21%). The D'AMICO classification was established for all patients. It is a major criterion in the therapeutic decision. Thus, 3 patients (10.34%) were classified as low risk, 12 patients (41.38%) as intermediate risk and 14 patients (48.28%) as high risk Among the patients classified as intermediate risk, 7 were of favourable intermediate risk and 5 unfavourable intermediate. All our patients had received 3D conformal radiotherapy for curative purposes. It was associated or not with hormone therapy. The time to treatment was defined as the time from the date of diagnosis to the start of radiotherapy. The median time was 5.7 months (2.3-23) and the mean time was 6.4 months. Pelvic irradiation was performed in 15 patients (51.72%). The median total dose delivered was 74 Gy, with a mean dose of 73.79 Gy and extremes of 70 Gy for the minimum and 76 Gy for the maximum. In all our patients, conventional fractionation was used, i.e. 2 Gy per fraction, 5 days a week. Hormone therapy was combined with radiotherapy in 17 patients (58.62%). All patients in the D'AMICO high-risk group had received long hormonal therapy and 3 patients in the intermediate-risk group had received short hormonal therapy. The median follow-up after radiotherapy was 56 months (28-66 months). The median follow-up was 63 months (27.5-74.3 months). Toxicities were assessed according to the RTOG criteria. Acute toxicity was defined as all toxicities occurring during treatment and up to 3 months after the end of treatment and all those occurring beyond 3 months were late. Thus, acute bladder toxicity was found in 7 patients (24.14%) with grade 1 acute toxicity and 1 patient (3.45%) with grade 2 acute toxicity. For acute rectal toxicity, all the patients had tolerated the treatment well in terms of digestion, with grade 1 symptoms in 7 patients (24.14%), then for late bladder toxicity grade 1, we found 5 patients (17.24%), 3 patients (10.34%) for grade 2 and 1 patient for grade 3, i.e. 3.45%. And finally, for late rectal toxicity grade 2, we found 3 patients (10.34%) and 1 patient grade 3. # IV. # Discussion The constant progress of irradiation techniques has mainly allowed an increase in the dose to the target volumes and a reduction of the dose to the organs at risk. Dearnaley et al. in a randomised study reported a reduction in GI toxicity in favour of 3DR compared to conventional radiotherapy with 56% grade 1 rectitis versus 37% and 12% versus 3% for grade 2 [4]. Koper et al, with the same comparison, found less intestinal toxicity, especially in the anus, in patients treated with RC3D [5]. Pelvic irradiation is a much debated topic with conflicting results from several retrospective studies, its toxicity remains quite acceptable [3]. Several randomised studies have shown that the risk of rectal toxicity was greater when a high dose of radiation (78-80 Gy) was delivered to the prostate compared to a standard dose (70 Gy) [6,7]. Regarding urinary toxicity, most randomised studies comparing a "standard" dose (70 Gy) with a high dose (78-80 Gy) did not find a significant increase in urinary toxicity, except for the French Gétug study 06 [6][7][8][9]. The lack of a clear conclusion regarding urinary toxicity may have several explanations. The main urinary manifestations seem to be of urethral rather than bladder origin. The urethra is consistently included in the high-dose volume treated and exceptionally delineated as such (10). The median dose in our series was 74 Gy and 51.72% of patients had received pelvic irradiation. The radiotherapy was well tolerated by the patients, no acute urinary or digestive toxicity of grade > 2 was noted in our series as in the study by Peeters et al [9]. Indeed, acute urinary toxicity grade 1 and 2 were respectively 24.14% and 3.45% and digestive toxicity was grade 1 in 10 patients (34.48%). These results are lower than those reported by Pollack, Beckendorf, Peeters and Elie Nasr which could be explained by the small number of patients (8,9,11,12). Late toxicity was relatively lower than in the literature (Table 2-3). Intensity-modulated conformal radiotherapy significantly reduces late grade 2 GI toxicity without impacting on urinary toxicity with dose escalation [13]. IMRT provides better coverage of the target volume with good sparing of organs at risk, particularly for the rectum according to the study by Pascal Fenoglietto et al [14]. Wang-Chesebro et al. demonstrated with pelvic IMRT a dose reduction in the bladder, V45 Gy (volume receiving 45 Gy) of 90%, 54% for the rectum V45 Gy and 54% of the small bowel V45 Gy compared to threedimensional conformal radiotherapy [15]. V. # Conclusion Despite the good results obtained with RC3D, intensity modulated radiotherapy (IMRT and VMAT) with rigorous verification of the treatment position is the indicated technique for the treatment of prostate cancers. It allows dose escalation to target volumes with acceptable toxicity. 1Characteristics of patientsHeadcount (percent)Median age (years)75 (54 -83)HTA23 (79.31%)Diabetes12 (41.38%)Heart disease3 (10.34%)CRI1 (3.45%)Systematic screening19 (65.52%)Urinary signs10 (34.48%)Performance status020 (69%)18 (28%)21 (3%)TR abnormal15 (51.72%)Median PSA (ng/ml)12 (3.05 -79)Gleason-6 (3 + 3)6 (20.69%)-7 (3 + 4)12 (41.38%)-7 (4 + 3)11 (37.93%)Classification of D'AMICO-High risk14 (48.28%-Low risk3 (10.34%)-Middle risk12 (41.38%) 2Number of patientsDose (Gy)Acute urinary toxicityMedian follow-up (month)Late urinary toxicityG1 44% vs 42%G1 22% vs 27%Beckendorf et al (8)30670 vs 80G2 31% vs 30%57G2 8% vs 16%G3 5% vs 7%G3 2% vs 1%G1 43% vs 42%Pollack et al (11)30170 vs 80G2 31% vs 23%72?G2 10% vs 10%G3 3% vs 5%G1 40% vs 42%36?G2 29% vs 30%Peeters et al (9)66968 vs 78G2 13% vs 13%?G2 41% vs 40%84Elie Nasr(12)13166-74G1 31,3%G2 16,8%--G3 2,3%G1 24,14%G1 17,24%Notre étude2970-74G2 3,45%56G2 10,34%G3 3,45% 3Number of patientsDose (Gy)Acute digestive toxicityMedian follow-up (month)Toxicité digestive tardiveG1 43% vs 37%G1 23% vs 25%Beckendorf et al30670 vs 80G2 27% vs 28%57G2 12% vs 16%(8)G3 2% vs 2%G3 2% vs 6%G1 43% vs 39%Pollack et al (11)30170 vs 80G2 38% vs 39%72?G2 12% vs 26%G3 2% vs 0%Peeters et al (9)G1 41% vs 47%36?G2 23% vs 27%66968 vs 78G2 6% vs 4%84?G2 25% vs 35%Elie Nasr(12)13166-74G1 27,5%G2 9,1%--Notre étude2970-74G1 24,14%G2 10,34%56G3 3,45% * Global cancer statistics 2018: GLOBOCAN estimates of incidence and mortality worldwide for 36 cancers in 185 countries FBray JFerlay ISoerjomataram RLSiegel LATorre AJemal CA Cancer J Clin 68 6 2018 * Article -Bulletin Épidémiologique Hebdomadaire Internet. cité 13 nov 2020 * Radiothérapie conformation nelle du cancer de la prostate : technique et résultats CHennequin LQuero HSoudi GSergent CMaylin Ann Urol. 1 août 40 4 2006 * Comparison of radiation side-effects of conformal and conventional radiotherapy in prostate cancer: a randomised trial DPDearnaley VSKhoo ARNorman LMeyer NahumATait D Lancet Lond Engl. 23 janv 353 9149 1999 * Acute morbidity reduction using3DCRT for prostate carcinoma: a randomized study PCKoper JCStroom WLVan Putten Int J RadiatOncolBiol Phys1999 Recherche Google [Internet. cité 30 mai 2021]. 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