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The combination of phototherapy and chemotherapy (chemophototherapy), presents a promising multimodal method for comprehensive cancer treatment. The aim of this study is to investigate the influence of low doses of zinc oxide (ZnO) nanofluids and ultraviolet A (UVA) irradiation on the cytotoxicity and cellular uptake of doxorubicin (DOX) on human prostate cancer DU145 cells.

ZnO nanoparticles were prepared by the solvothermal method and 10% bovine serum albumin was used as the dispersant. The cytotoxic effect of DOX alone and in combination with different concentrations of ZnO nanofluids (0.95-15.6 μg/ml) in the presence and absence of UVA irradiation on DU145 cells was evaluated by -(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay. DOX residue inside and outside of DU145 cells was explored by fluorescence microscopy and UV-Vis absorption spectroscopy, respectively. The role of ZnO nanofluids and UVA irradiation in DOX-induced apoptosis and cell cycle arrest were evaluated by DAPI staining, comet assay, and flow cytometry.

The results revealed that low dose of ZnO nanofluids (0.95 μg/ml) accompanied with irradiation enhanced the cytotoxicity and intracellular delivery of DOX in DU145 cells. The percentage of chromatin fragmentation/condensation and DNA tail of DU145 cells treated simultaneously with DOX and ZnO nanofluids was increased after UVA irradiation, whereas no significant changes in cell cycle progression were observed.

The results indicate that ZnO nanofluids in the presence of UVA irradiation could increase DOX efficiency in DU145 cells, suggesting such modality combinations as a promising approach in cancer treatment.

The results indicate that ZnO nanofluids in the presence of UVA irradiation could increase DOX efficiency in DU145 cells, suggesting such modality combinations as a promising approach in cancer treatment.

The addition of docetaxel or abiraterone to androgen deprivation therapy (ADT) achieves superior survival outcomes in metastatic hormone-sensitive prostate cancer (mHSPC) in predominantly Western population. SHP099 clinical trial We sought to evaluate the treatment outcomes of adding docetaxel or abiraterone to ADT in Indian population.

We reviewed the medical records of ninety patients with newly diagnosed mHSPC who received treatment between January 2015 and June 2018. Patients received ADT alone or ADT + docetaxel or ADT + abiraterone as initial treatment. link2 Monthly clinical evaluation and prostate-specific antigen (PSA) measurement were done. Outcome measures analyzed included PSA decline <90%, serological complete response (sCR) (PSA < 0.2 ng/ml), and progression to CRPC. Outcome variable was compared using Fisher's exact test.

Patients received ADT alone (n = 37) or ADT + docetaxel (n = 31) or ADT + abiraterone (n = 22). The median age was 67.5 years (range, 41-87 years) and the median PSA was 88.5 ng/ml (range, 1.ne which combination (ADT + docetaxel or ADT + abiraterone) is superior to others, if at all.

The objective of the study was to evaluate the effectiveness of a rectal retractor (RR) designed to protect rectal tissue in intensity-modulated radiotherapy (IMRT) by pushing rectal wall (RW) away from the prostate.

Twelve patients with localized prostate cancer were enrolled into this study. link3 Patients underwent two computed tomography (CT) scans without and with RR. A prescription of 80 Gy in 40 fractions was planned on CT scans with and without RR. This study evaluates the ability of the RR in RW dose reduction, in particular reduction of the RW V

≥ 25% in comparison with the plan without RR dose-volume histograms were generated with and without RR. The patient's tolerance was assessed by patient-reported outcomes.

The planning target volume coverage was equal for both without and with RR (P = 0.155). The mean dose to the RW was statistically significantly lower for the plan with RR than that for the plan without RR, a mean reduction of 5.8 Gy (P = 0.003). Significant relative reductions in rectal dose-volume parameters whether in absolute volume (cc) or as a percentage of contoured RW were detected. A relative reduction more than 25% in RW V

(%) in 100% of patients was achieved. The rectal retraction resulted in a significant increase in the prostate to the rectum space at the prostate midgland level, an absolute increase of 2.7 mm. The retraction of the rectum induced a mean (±standard deviation) pain score of 2.7 (±1.3) according to the visual analog score.

The application of a RR showed a remarkable rectal sparing effect during prostate IMRT. This may lead to reduced acute and late rectal toxicities in prostate IMRT.

The application of a RR showed a remarkable rectal sparing effect during prostate IMRT. This may lead to reduced acute and late rectal toxicities in prostate IMRT.

The aim of the present study was to evaluate the impact of magnetic resonance imaging (MRI) on radiotherapy target volume changes in prostate cancer.

Ten patients with localized prostate cancer receiving radical radiotherapy were included in the study. Computerized tomography (CT) simulation was done with adequate immobilization, and pelvic MRI was also done at the same time. The two were then registered on eclipse planning system and fused. Target delineation (gross tumor volume [GTV] and clinical target volume [CTV]) was done on both the image sets separately and their volumes were compared.

In the current study, it has been found that the CT image-based contouring overestimated the GTV and CTV with 35.4% and 21.7%, respectively, as compared to that by MRI images. The difference observed was statistically significant in the case of GTV, whereas it was not statistically significant for CTV.

It can be concluded that MRI is found to be a better modality for GTV delineation, as it gives superior soft-tissue contrast.

It can be concluded that MRI is found to be a better modality for GTV delineation, as it gives superior soft-tissue contrast.

The objective of the study was to validate PIRADS v2 on 3T MRI with secondary assessment if combination of the PIRADS v2 and PSA density improves detection of clinically significant prostate cancer.

We conducted a prospective study evaluating 58 patients with PSA value of >4 ng/ml from July 2017 to December 2019. Transrectal ultrasonography (TRUS) guided targeted biopsy was performed via cognitive targeting followed by systemic 12 core biopsy. Two cognitive fusion-targeted biopsy cores were added for each lesion in patients who had suspicious or equivocal lesions on mpMRI. The PI-RADS scoring system version 2.0 (PI-RADS v2) was used to describe the MRI findings.

Total of 112 lesions of 58 patients were assessed via mpMRI followed by TRUS guided biopsy. A PI-RADS v2 score of ≥4 irrespective of PSA density categories and a PI-RADS v2 score of 3 with PSA density of ≥0.15 ng/mL/cc, yielded the highest overall prostate cancer and clinically significant prostate cancer detection rate. Contrary to, a PI-RADS v2 score of ≤3 and a PSA densitay of <0.15 ng/ mL/mL(low risk group), which yielded no clinically significant prostate cancer.

Both PIRADS v2 score and PSA density are eminently sensitive and specific in the detection of clinically significant prostate cancers individually. However the combination of PIRADS v2 and PSA density significantly improved the accuracy of clinically significant prostate cancer detection. Patients with combination of PIRADS v2 score

3 and PSA density

0.15 ng/ml/cc should undergo prostate biopsy.

Both PIRADS v2 score and PSA density are eminently sensitive and specific in the detection of clinically significant prostate cancers individually. However the combination of PIRADS v2 and PSA density significantly improved the accuracy of clinically significant prostate cancer detection. Patients with combination of PIRADS v2 score 33 and PSA density 30.15 ng/ml/cc should undergo prostate biopsy.

Radiation plays a major role in the management of localized prostate cancer (CaP). There are limited studies reporting the quality of life (QOL) and toxicity with CaP tomotherapy.

This is a single-institutional prospective observational study evaluating the acute toxicity and QOL of patients with CaP receiving tomotherapy from May 2018 to October 2019. Toxicity assessed using radiation therapy oncology group toxicity grading. QOL assessed using International Prostate Symptom Score (IPSS) and QOL score.

A total number of 74 patients received radiation therapy (RT), of which 25 had postoperative RT and 49 had radical RT. The median age was 71 years. During RT, 8 (10.8%) had Grade 2 gastrointestinal (GI) and 4 (5.4%) had Grade 2 genito urinary (GU) toxicities. At 3 months, 1 (1.4%) had Grade 2 GI, 1 (1.4%) had Grade 2 GU, and 1 (1.4%) had Grade 3 GU toxicities. At 6 months, 1 patient had Grade 2 GU and no Grade 2 GI toxicity noted. In postoperative RT Group, 2 (8%) Grade 2 GI and 1 (1.4%) Grade 2 genitourinary toxicity reported during radiation. At 3 months, 1 (1.4%) Grade 2 GI, 1 (1.4%) G2 GU, and 1 (1.4%) G3 GU toxicities noted. At 6 months, no ≥ Grade 2 noted. In radical RT group, during radiation 6 (12.2%) Grade 2 GI and 3 (6.1%) Grade 2 GU recorded. At 3 and 6 months, no ≥ Grade 2 GI/GU toxicity was recorded. No Grade 3/Grade 4 observed in radical RT group. One patient in radical RT and one in postoperative RT had severe IPSS symptom score. Results are comparable to reported studies.

Our initial clinical experience with helical tomotherapy in CaP confirms lower rate of toxicities and no significant worsening of QOL with RT.

Our initial clinical experience with helical tomotherapy in CaP confirms lower rate of toxicities and no significant worsening of QOL with RT.

The present study evaluates procedure-associated pain and side effects in the gastrointestinal-genitourinary system in patients with early-stage prostate cancer who were treated with image-guided radiotherapy (IGRT), accompanied by an ultrasound-guided transrectal implantation of fiducial markers, without local anesthesia.

A total of 46 patients who referred to our clinics between 2012 and 2017 with a diagnosis of early-stage prostate cancer were included in the study. Before undergoing radiotherapy, all patients were implanted with three intraprostatic fiducial markers through the ultrasound-guided transrectal approach without local anesthesia. The patients underwent radiotherapy after the clinical target volumes were established, in accordance with the respective risk groups, and localization of the markers was confirmed before each therapy session. The levels of procedure-associated pain and side effects were graded immediately after the procedure through the use of a patient-based scoring system.

Thd acceptable levels of pain, low side effect profiles, and high prostate-specific antigen control rates.

There is limited information regarding the α-emitter radiopharmaceuticals dose calculation used in the setting of men with prostate cancer (PCa). The present study investigates the α-emitter radiopharmaceuticals absorbed dose distribution in the body organs.

The α-emitter radiopharmaceuticals dose coefficient and absorbed doses biokinetics distribution, which are used for the treatment of PCa in all over the world, were performed using the "Internal Dose Assessed by Computer" (IDAC-Dose 2.1) program. The results of absorbed dose distribution in any organ of the body, were compared in studied α-emitter radiopharmaceuticals.

The absorbed dose value of

Ra radiopharmaceutical in the prostate organ was evaluated 9.47E-9 Gy/Bq. The maximum and minimum absorbed doses due to biokinetics distribution of

Ra were found in the thymus (9.53E-8 Gy/Bq) and eye lenses (1.30E-10 Gy/Bq) organs, respectively. Furthermore, the

Ac absorbed dose in the prostate organ was obtained 1.91E-9 Gy/Bq, where this value is 1% of total body dose.

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