Benefits and Risks of Primary Treatments for High-risk Localized and Locally Advanced Prostate Cancer: An International Multidisciplinary Systematic Review

The optimal treatment for men with high-risk localized or locally advanced prostate cancer (PCa) remains unknown. To perform a systematic review of the existing literature on the effectiveness of the different primary treatment modalities for high-risk localized and locally advanced PCa. The primary...

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Published inEuropean urology Vol. 77; no. 5; pp. 614 - 627
Main Authors Moris, Lisa, Cumberbatch, Marcus G., Van den Broeck, Thomas, Gandaglia, Giorgio, Fossati, Nicola, Kelly, Brian, Pal, Raj, Briers, Erik, Cornford, Philip, De Santis, Maria, Fanti, Stefano, Gillessen, Silke, Grummet, Jeremy P., Henry, Ann M., Lam, Thomas B.L., Lardas, Michael, Liew, Matthew, Mason, Malcolm D., Omar, Muhammad Imran, Rouvière, Olivier, Schoots, Ivo G., Tilki, Derya, van den Bergh, Roderick C.N., van Der Kwast, Theodorus H., van Der Poel, Henk G., Willemse, Peter-Paul M., Yuan, Cathy Y., Konety, Badrinath, Dorff, Tanya, Jain, Suneil, Mottet, Nicolas, Wiegel, Thomas
Format Journal Article
LanguageEnglish
Published Switzerland Elsevier B.V 01.05.2020
Subjects
Brachytherapy
External beam radiotherapy
Localized
Locally advanced
Modality treatment
Primary therapy
Prostate cancer
Radical prostatectomy
Systematic review
Systemic treatment
Primary therapy
Radical prostatectomy
Systemic treatment
Systematic review
Brachytherapy
Modality treatment
External beam radiotherapy
Prostate cancer
Localized
Locally advanced
Online AccessGet full text
ISSN0302-2838
1873-7560
1421-993X
1873-7560
DOI10.1016/j.eururo.2020.01.033

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Abstract The optimal treatment for men with high-risk localized or locally advanced prostate cancer (PCa) remains unknown. To perform a systematic review of the existing literature on the effectiveness of the different primary treatment modalities for high-risk localized and locally advanced PCa. The primary oncological outcome is the development of distant metastases at ≥5 yr of follow-up. Secondary oncological outcomes are PCa-specific mortality, overall mortality, biochemical recurrence, and need for salvage treatment with ≥5 yr of follow-up. Nononcological outcomes are quality of life (QoL), functional outcomes, and treatment-related side effects reported. Medline, Medline In-Process, Embase, and the Cochrane Central Register of Randomized Controlled Trials were searched. All comparative (randomized and nonrandomized) studies published between January 2000 and May 2019 with at least 50 participants in each arm were included. Studies reporting on high-risk localized PCa (International Society of Urologic Pathologists [ISUP] grade 4–5 [Gleason score {GS} 8–10] or prostate-specific antigen [PSA] >20 ng/ml or ≥ cT2c) and/or locally advanced PCa (any PSA, cT3–4 or cN+, any ISUP grade/GS) or where subanalyses were performed on either group were included. The following primary local treatments were mandated: radical prostatectomy (RP), external beam radiotherapy (EBRT) (≥64 Gy), brachytherapy (BT), or multimodality treatment combining any of the local treatments above (±any systemic treatment). Risk of bias (RoB) and confounding factors were assessed for each study. A narrative synthesis was performed. Overall, 90 studies met the inclusion criteria. RoB and confounding factors revealed high RoB for selection, performance, and detection bias, and low RoB for correction of initial PSA and biopsy GS. When comparing RP with EBRT, retrospective series suggested an advantage for RP, although with a low level of evidence. Both RT and RP should be seen as part of a multimodal treatment plan with possible addition of (postoperative) RT and/or androgen deprivation therapy (ADT), respectively. High levels of evidence exist for EBRT treatment, with several randomized clinical trials showing superior outcome for adding long-term ADT or BT to EBRT. No clear cutoff can be proposed for RT dose, but higher RT doses by means of dose escalation schemes result in an improved biochemical control. Twenty studies reported data on QoL, with RP resulting mainly in genitourinary toxicity and sexual dysfunction, and EBRT in bowel problems. Based on the results of this systematic review, both RP as part of multimodal treatment and EBRT + long-term ADT can be recommended as primary treatment in high-risk and locally advanced PCa. For high-risk PCa, EBRT + BT can also be offered despite more grade 3 toxicity. Interestingly, for selected patients, for example, those with higher comorbidity, a shorter duration of ADT might be an option. For locally advanced PCa, EBRT + BT shows promising result but still needs further validation. In this setting, it is important that patients are aware that the offered therapy will most likely be in the context a multimodality treatment plan. In particular, if radiation is used, the combination of local with systemic treatment provides the best outcome, provided the patient is fit enough to receive both. Until the results of the SPCG15 trial are known, the optimal local treatment remains a matter of debate. Patients should at all times be fully informed about all available options, and the likelihood of a multimodal approach including the potential side effects of both local and systemic treatment. We reviewed the literature to see whether the evidence from clinical studies would tell us the best way of curing men with aggressive prostate cancer that had not spread to other parts of the body such as lymph glands or bones. Based on the results of this systematic review, there is good evidence that both surgery and radiation therapy are good treatment options, in terms of prolonging life and preserving quality of life, provided they are combined with other treatments. In the case of surgery this means including radiotherapy (RT), and in the case of RT this means either hormonal therapy or combined RT and brachytherapy. High-risk and locally advanced prostate cancer (PCa) patients are likely to undergo multimodality treatment. Patients should at all times be fully informed about all available options and the likelihood of a multimodal approach, including the potential side effects of both local and systemic treatment. For high-risk localized and locally advanced PCa, both radical prostatectomy as part as multimodal therapy and external beam radiotherapy (EBRT) + long-term androgen deprivation therapy (ADT) can be recommended as primary treatment. For high-risk localized PCa, EBRT + BT can also be offered despite a less favorable toxicity profile. In selected high-risk PCa patients, a shorter duration of ADT might be considered. Until the results of the SPCG15 trial are known, the optimal local treatment remains a matter of debate.
AbstractList The optimal treatment for men with high-risk localized or locally advanced prostate cancer (PCa) remains unknown.CONTEXTThe optimal treatment for men with high-risk localized or locally advanced prostate cancer (PCa) remains unknown.To perform a systematic review of the existing literature on the effectiveness of the different primary treatment modalities for high-risk localized and locally advanced PCa. The primary oncological outcome is the development of distant metastases at ≥5 yr of follow-up. Secondary oncological outcomes are PCa-specific mortality, overall mortality, biochemical recurrence, and need for salvage treatment with ≥5 yr of follow-up. Nononcological outcomes are quality of life (QoL), functional outcomes, and treatment-related side effects reported.OBJECTIVETo perform a systematic review of the existing literature on the effectiveness of the different primary treatment modalities for high-risk localized and locally advanced PCa. The primary oncological outcome is the development of distant metastases at ≥5 yr of follow-up. Secondary oncological outcomes are PCa-specific mortality, overall mortality, biochemical recurrence, and need for salvage treatment with ≥5 yr of follow-up. Nononcological outcomes are quality of life (QoL), functional outcomes, and treatment-related side effects reported.Medline, Medline In-Process, Embase, and the Cochrane Central Register of Randomized Controlled Trials were searched. All comparative (randomized and nonrandomized) studies published between January 2000 and May 2019 with at least 50 participants in each arm were included. Studies reporting on high-risk localized PCa (International Society of Urologic Pathologists [ISUP] grade 4-5 [Gleason score {GS} 8-10] or prostate-specific antigen [PSA] >20 ng/ml or ≥ cT2c) and/or locally advanced PCa (any PSA, cT3-4 or cN+, any ISUP grade/GS) or where subanalyses were performed on either group were included. The following primary local treatments were mandated: radical prostatectomy (RP), external beam radiotherapy (EBRT) (≥64 Gy), brachytherapy (BT), or multimodality treatment combining any of the local treatments above (±any systemic treatment). Risk of bias (RoB) and confounding factors were assessed for each study. A narrative synthesis was performed.EVIDENCE ACQUISITIONMedline, Medline In-Process, Embase, and the Cochrane Central Register of Randomized Controlled Trials were searched. All comparative (randomized and nonrandomized) studies published between January 2000 and May 2019 with at least 50 participants in each arm were included. Studies reporting on high-risk localized PCa (International Society of Urologic Pathologists [ISUP] grade 4-5 [Gleason score {GS} 8-10] or prostate-specific antigen [PSA] >20 ng/ml or ≥ cT2c) and/or locally advanced PCa (any PSA, cT3-4 or cN+, any ISUP grade/GS) or where subanalyses were performed on either group were included. The following primary local treatments were mandated: radical prostatectomy (RP), external beam radiotherapy (EBRT) (≥64 Gy), brachytherapy (BT), or multimodality treatment combining any of the local treatments above (±any systemic treatment). Risk of bias (RoB) and confounding factors were assessed for each study. A narrative synthesis was performed.Overall, 90 studies met the inclusion criteria. RoB and confounding factors revealed high RoB for selection, performance, and detection bias, and low RoB for correction of initial PSA and biopsy GS. When comparing RP with EBRT, retrospective series suggested an advantage for RP, although with a low level of evidence. Both RT and RP should be seen as part of a multimodal treatment plan with possible addition of (postoperative) RT and/or androgen deprivation therapy (ADT), respectively. High levels of evidence exist for EBRT treatment, with several randomized clinical trials showing superior outcome for adding long-term ADT or BT to EBRT. No clear cutoff can be proposed for RT dose, but higher RT doses by means of dose escalation schemes result in an improved biochemical control. Twenty studies reported data on QoL, with RP resulting mainly in genitourinary toxicity and sexual dysfunction, and EBRT in bowel problems.EVIDENCE SYNTHESISOverall, 90 studies met the inclusion criteria. RoB and confounding factors revealed high RoB for selection, performance, and detection bias, and low RoB for correction of initial PSA and biopsy GS. When comparing RP with EBRT, retrospective series suggested an advantage for RP, although with a low level of evidence. Both RT and RP should be seen as part of a multimodal treatment plan with possible addition of (postoperative) RT and/or androgen deprivation therapy (ADT), respectively. High levels of evidence exist for EBRT treatment, with several randomized clinical trials showing superior outcome for adding long-term ADT or BT to EBRT. No clear cutoff can be proposed for RT dose, but higher RT doses by means of dose escalation schemes result in an improved biochemical control. Twenty studies reported data on QoL, with RP resulting mainly in genitourinary toxicity and sexual dysfunction, and EBRT in bowel problems.Based on the results of this systematic review, both RP as part of multimodal treatment and EBRT + long-term ADT can be recommended as primary treatment in high-risk and locally advanced PCa. For high-risk PCa, EBRT + BT can also be offered despite more grade 3 toxicity. Interestingly, for selected patients, for example, those with higher comorbidity, a shorter duration of ADT might be an option. For locally advanced PCa, EBRT + BT shows promising result but still needs further validation. In this setting, it is important that patients are aware that the offered therapy will most likely be in the context a multimodality treatment plan. In particular, if radiation is used, the combination of local with systemic treatment provides the best outcome, provided the patient is fit enough to receive both. Until the results of the SPCG15 trial are known, the optimal local treatment remains a matter of debate. Patients should at all times be fully informed about all available options, and the likelihood of a multimodal approach including the potential side effects of both local and systemic treatment.CONCLUSIONSBased on the results of this systematic review, both RP as part of multimodal treatment and EBRT + long-term ADT can be recommended as primary treatment in high-risk and locally advanced PCa. For high-risk PCa, EBRT + BT can also be offered despite more grade 3 toxicity. Interestingly, for selected patients, for example, those with higher comorbidity, a shorter duration of ADT might be an option. For locally advanced PCa, EBRT + BT shows promising result but still needs further validation. In this setting, it is important that patients are aware that the offered therapy will most likely be in the context a multimodality treatment plan. In particular, if radiation is used, the combination of local with systemic treatment provides the best outcome, provided the patient is fit enough to receive both. Until the results of the SPCG15 trial are known, the optimal local treatment remains a matter of debate. Patients should at all times be fully informed about all available options, and the likelihood of a multimodal approach including the potential side effects of both local and systemic treatment.We reviewed the literature to see whether the evidence from clinical studies would tell us the best way of curing men with aggressive prostate cancer that had not spread to other parts of the body such as lymph glands or bones. Based on the results of this systematic review, there is good evidence that both surgery and radiation therapy are good treatment options, in terms of prolonging life and preserving quality of life, provided they are combined with other treatments. In the case of surgery this means including radiotherapy (RT), and in the case of RT this means either hormonal therapy or combined RT and brachytherapy.PATIENT SUMMARYWe reviewed the literature to see whether the evidence from clinical studies would tell us the best way of curing men with aggressive prostate cancer that had not spread to other parts of the body such as lymph glands or bones. Based on the results of this systematic review, there is good evidence that both surgery and radiation therapy are good treatment options, in terms of prolonging life and preserving quality of life, provided they are combined with other treatments. In the case of surgery this means including radiotherapy (RT), and in the case of RT this means either hormonal therapy or combined RT and brachytherapy.
The optimal treatment for men with high-risk localized or locally advanced prostate cancer (PCa) remains unknown. To perform a systematic review of the existing literature on the effectiveness of the different primary treatment modalities for high-risk localized and locally advanced PCa. The primary oncological outcome is the development of distant metastases at ≥5 yr of follow-up. Secondary oncological outcomes are PCa-specific mortality, overall mortality, biochemical recurrence, and need for salvage treatment with ≥5 yr of follow-up. Nononcological outcomes are quality of life (QoL), functional outcomes, and treatment-related side effects reported. Medline, Medline In-Process, Embase, and the Cochrane Central Register of Randomized Controlled Trials were searched. All comparative (randomized and nonrandomized) studies published between January 2000 and May 2019 with at least 50 participants in each arm were included. Studies reporting on high-risk localized PCa (International Society of Urologic Pathologists [ISUP] grade 4–5 [Gleason score {GS} 8–10] or prostate-specific antigen [PSA] >20 ng/ml or ≥ cT2c) and/or locally advanced PCa (any PSA, cT3–4 or cN+, any ISUP grade/GS) or where subanalyses were performed on either group were included. The following primary local treatments were mandated: radical prostatectomy (RP), external beam radiotherapy (EBRT) (≥64 Gy), brachytherapy (BT), or multimodality treatment combining any of the local treatments above (±any systemic treatment). Risk of bias (RoB) and confounding factors were assessed for each study. A narrative synthesis was performed. Overall, 90 studies met the inclusion criteria. RoB and confounding factors revealed high RoB for selection, performance, and detection bias, and low RoB for correction of initial PSA and biopsy GS. When comparing RP with EBRT, retrospective series suggested an advantage for RP, although with a low level of evidence. Both RT and RP should be seen as part of a multimodal treatment plan with possible addition of (postoperative) RT and/or androgen deprivation therapy (ADT), respectively. High levels of evidence exist for EBRT treatment, with several randomized clinical trials showing superior outcome for adding long-term ADT or BT to EBRT. No clear cutoff can be proposed for RT dose, but higher RT doses by means of dose escalation schemes result in an improved biochemical control. Twenty studies reported data on QoL, with RP resulting mainly in genitourinary toxicity and sexual dysfunction, and EBRT in bowel problems. Based on the results of this systematic review, both RP as part of multimodal treatment and EBRT + long-term ADT can be recommended as primary treatment in high-risk and locally advanced PCa. For high-risk PCa, EBRT + BT can also be offered despite more grade 3 toxicity. Interestingly, for selected patients, for example, those with higher comorbidity, a shorter duration of ADT might be an option. For locally advanced PCa, EBRT + BT shows promising result but still needs further validation. In this setting, it is important that patients are aware that the offered therapy will most likely be in the context a multimodality treatment plan. In particular, if radiation is used, the combination of local with systemic treatment provides the best outcome, provided the patient is fit enough to receive both. Until the results of the SPCG15 trial are known, the optimal local treatment remains a matter of debate. Patients should at all times be fully informed about all available options, and the likelihood of a multimodal approach including the potential side effects of both local and systemic treatment. We reviewed the literature to see whether the evidence from clinical studies would tell us the best way of curing men with aggressive prostate cancer that had not spread to other parts of the body such as lymph glands or bones. Based on the results of this systematic review, there is good evidence that both surgery and radiation therapy are good treatment options, in terms of prolonging life and preserving quality of life, provided they are combined with other treatments. In the case of surgery this means including radiotherapy (RT), and in the case of RT this means either hormonal therapy or combined RT and brachytherapy. High-risk and locally advanced prostate cancer (PCa) patients are likely to undergo multimodality treatment. Patients should at all times be fully informed about all available options and the likelihood of a multimodal approach, including the potential side effects of both local and systemic treatment. For high-risk localized and locally advanced PCa, both radical prostatectomy as part as multimodal therapy and external beam radiotherapy (EBRT) + long-term androgen deprivation therapy (ADT) can be recommended as primary treatment. For high-risk localized PCa, EBRT + BT can also be offered despite a less favorable toxicity profile. In selected high-risk PCa patients, a shorter duration of ADT might be considered. Until the results of the SPCG15 trial are known, the optimal local treatment remains a matter of debate.
The optimal treatment for men with high-risk localized or locally advanced prostate cancer (PCa) remains unknown. To perform a systematic review of the existing literature on the effectiveness of the different primary treatment modalities for high-risk localized and locally advanced PCa. The primary oncological outcome is the development of distant metastases at ≥5 yr of follow-up. Secondary oncological outcomes are PCa-specific mortality, overall mortality, biochemical recurrence, and need for salvage treatment with ≥5 yr of follow-up. Nononcological outcomes are quality of life (QoL), functional outcomes, and treatment-related side effects reported. Medline, Medline In-Process, Embase, and the Cochrane Central Register of Randomized Controlled Trials were searched. All comparative (randomized and nonrandomized) studies published between January 2000 and May 2019 with at least 50 participants in each arm were included. Studies reporting on high-risk localized PCa (International Society of Urologic Pathologists [ISUP] grade 4-5 [Gleason score {GS} 8-10] or prostate-specific antigen [PSA] >20 ng/ml or ≥ cT2c) and/or locally advanced PCa (any PSA, cT3-4 or cN+, any ISUP grade/GS) or where subanalyses were performed on either group were included. The following primary local treatments were mandated: radical prostatectomy (RP), external beam radiotherapy (EBRT) (≥64 Gy), brachytherapy (BT), or multimodality treatment combining any of the local treatments above (±any systemic treatment). Risk of bias (RoB) and confounding factors were assessed for each study. A narrative synthesis was performed. Overall, 90 studies met the inclusion criteria. RoB and confounding factors revealed high RoB for selection, performance, and detection bias, and low RoB for correction of initial PSA and biopsy GS. When comparing RP with EBRT, retrospective series suggested an advantage for RP, although with a low level of evidence. Both RT and RP should be seen as part of a multimodal treatment plan with possible addition of (postoperative) RT and/or androgen deprivation therapy (ADT), respectively. High levels of evidence exist for EBRT treatment, with several randomized clinical trials showing superior outcome for adding long-term ADT or BT to EBRT. No clear cutoff can be proposed for RT dose, but higher RT doses by means of dose escalation schemes result in an improved biochemical control. Twenty studies reported data on QoL, with RP resulting mainly in genitourinary toxicity and sexual dysfunction, and EBRT in bowel problems. Based on the results of this systematic review, both RP as part of multimodal treatment and EBRT + long-term ADT can be recommended as primary treatment in high-risk and locally advanced PCa. For high-risk PCa, EBRT + BT can also be offered despite more grade 3 toxicity. Interestingly, for selected patients, for example, those with higher comorbidity, a shorter duration of ADT might be an option. For locally advanced PCa, EBRT + BT shows promising result but still needs further validation. In this setting, it is important that patients are aware that the offered therapy will most likely be in the context a multimodality treatment plan. In particular, if radiation is used, the combination of local with systemic treatment provides the best outcome, provided the patient is fit enough to receive both. Until the results of the SPCG15 trial are known, the optimal local treatment remains a matter of debate. Patients should at all times be fully informed about all available options, and the likelihood of a multimodal approach including the potential side effects of both local and systemic treatment. We reviewed the literature to see whether the evidence from clinical studies would tell us the best way of curing men with aggressive prostate cancer that had not spread to other parts of the body such as lymph glands or bones. Based on the results of this systematic review, there is good evidence that both surgery and radiation therapy are good treatment options, in terms of prolonging life and preserving quality of life, provided they are combined with other treatments. In the case of surgery this means including radiotherapy (RT), and in the case of RT this means either hormonal therapy or combined RT and brachytherapy.
Author Kelly, Brian
Fossati, Nicola
Henry, Ann M.
Yuan, Cathy Y.
Jain, Suneil
Konety, Badrinath
Mason, Malcolm D.
Dorff, Tanya
Pal, Raj
Grummet, Jeremy P.
Willemse, Peter-Paul M.
Mottet, Nicolas
Wiegel, Thomas
Rouvière, Olivier
Briers, Erik
Moris, Lisa
Cumberbatch, Marcus G.
Schoots, Ivo G.
Van den Broeck, Thomas
Liew, Matthew
Omar, Muhammad Imran
Gandaglia, Giorgio
van den Bergh, Roderick C.N.
Cornford, Philip
Lardas, Michael
Tilki, Derya
De Santis, Maria
van Der Kwast, Theodorus H.
van Der Poel, Henk G.
Fanti, Stefano
Gillessen, Silke
Lam, Thomas B.L.
Author_xml – sequence: 1
  givenname: Lisa
  surname: Moris
  fullname: Moris, Lisa
  email: lisa.moris1506@gmail.com
  organization: Department of Urology, University Hospitals Leuven, Leuven, Belgium
– sequence: 2
  givenname: Marcus G.
  surname: Cumberbatch
  fullname: Cumberbatch, Marcus G.
  organization: Academic Urology Unit, University of Sheffield, Sheffield, UK
– sequence: 3
  givenname: Thomas
  surname: Van den Broeck
  fullname: Van den Broeck, Thomas
  organization: Department of Urology, University Hospitals Leuven, Leuven, Belgium
– sequence: 4
  givenname: Giorgio
  surname: Gandaglia
  fullname: Gandaglia, Giorgio
  organization: Unit of Urology, Division of Oncology, Urological Research Institute, IRCCS Ospedale San Raffaele, Milan, Italy
– sequence: 5
  givenname: Nicola
  orcidid: 0000-0002-6816-3725
  surname: Fossati
  fullname: Fossati, Nicola
  organization: Unit of Urology, Division of Oncology, Urological Research Institute, IRCCS Ospedale San Raffaele, Milan, Italy
– sequence: 6
  givenname: Brian
  surname: Kelly
  fullname: Kelly, Brian
  organization: Department of Urology, Austin Health, Heidelberg, VIC, Australia
– sequence: 7
  givenname: Raj
  surname: Pal
  fullname: Pal, Raj
  organization: Bristol Urological Institute, Southmead Hospital, Bristol, UK
– sequence: 8
  givenname: Erik
  surname: Briers
  fullname: Briers, Erik
  organization: Patient Advocate, Hasselt, Belgium
– sequence: 9
  givenname: Philip
  surname: Cornford
  fullname: Cornford, Philip
  organization: Royal Liverpool and Broadgreen Hospitals NHS Trust, Liverpool, UK
– sequence: 10
  givenname: Maria
  surname: De Santis
  fullname: De Santis, Maria
  organization: Department of Urology, Charité University Hospital, Berlin, Germany
– sequence: 11
  givenname: Stefano
  surname: Fanti
  fullname: Fanti, Stefano
  organization: Department of Nuclear Medicine, Policlinico S. Orsola, University of Bologna, Italy
– sequence: 12
  givenname: Silke
  surname: Gillessen
  fullname: Gillessen, Silke
  organization: Department of Medical Oncology and Haematology, Cantonal Hospital St. Gallen, University of Bern, Bern, Switzerland
– sequence: 13
  givenname: Jeremy P.
  surname: Grummet
  fullname: Grummet, Jeremy P.
  organization: Department of Surgery, Central Clinical School, Monash University, Australia
– sequence: 14
  givenname: Ann M.
  surname: Henry
  fullname: Henry, Ann M.
  organization: Leeds Cancer Centre, St. James's University Hospital and University of Leeds, Leeds, UK
– sequence: 15
  givenname: Thomas B.L.
  surname: Lam
  fullname: Lam, Thomas B.L.
  organization: Department of Urology, Aberdeen Royal Infirmary, Aberdeen, UK
– sequence: 16
  givenname: Michael
  surname: Lardas
  fullname: Lardas, Michael
  organization: Department of Urology, Leto Hospital, Athens, Greece
– sequence: 17
  givenname: Matthew
  surname: Liew
  fullname: Liew, Matthew
  organization: Department of Urology, Wrightington, Wigan and Leigh NHS Foundation Trust, Wigan, UK
– sequence: 18
  givenname: Malcolm D.
  surname: Mason
  fullname: Mason, Malcolm D.
  organization: Division of Cancer & Genetics, School of Medicine Cardiff University, Velindre Cancer Centre, Cardiff, UK
– sequence: 19
  givenname: Muhammad Imran
  surname: Omar
  fullname: Omar, Muhammad Imran
  organization: Academic Urology Unit, University of Aberdeen, Aberdeen, UK
– sequence: 20
  givenname: Olivier
  surname: Rouvière
  fullname: Rouvière, Olivier
  organization: Hospices Civils de Lyon, Department of Urinary and Vascular Imaging, Hôpital Edouard Herriot, Lyon, France
– sequence: 21
  givenname: Ivo G.
  orcidid: 0000-0002-9804-0603
  surname: Schoots
  fullname: Schoots, Ivo G.
  organization: Department of Radiology & Nuclear Medicine, Erasmus MC University Medical Center, Rotterdam, The Netherlands
– sequence: 22
  givenname: Derya
  surname: Tilki
  fullname: Tilki, Derya
  organization: Martini-Klinik Prostate Cancer Center, University Hospital Hamburg-Eppendorf, Hamburg, Germany
– sequence: 23
  givenname: Roderick C.N.
  surname: van den Bergh
  fullname: van den Bergh, Roderick C.N.
  organization: Department of Urology, Antonius Hospital, Utrecht, The Netherlands
– sequence: 24
  givenname: Theodorus H.
  surname: van Der Kwast
  fullname: van Der Kwast, Theodorus H.
  organization: Department of Pathology, Erasmus MC University Medical Center, Rotterdam, The Netherlands
– sequence: 25
  givenname: Henk G.
  surname: van Der Poel
  fullname: van Der Poel, Henk G.
  organization: Department of Urology, Netherlands Cancer Institute, Amsterdam, The Netherlands
– sequence: 26
  givenname: Peter-Paul M.
  surname: Willemse
  fullname: Willemse, Peter-Paul M.
  organization: Department of Oncological Urology, University Medical Center, Utrecht Cancer Center, Utrecht, The Netherlands
– sequence: 27
  givenname: Cathy Y.
  orcidid: 0000-0003-4374-3042
  surname: Yuan
  fullname: Yuan, Cathy Y.
  organization: Department of Medicine, Health Science Centre, McMaster University, Hamilton, ON, Canada
– sequence: 28
  givenname: Badrinath
  surname: Konety
  fullname: Konety, Badrinath
  organization: University of Minnesota, Minneapolis, MN, USA
– sequence: 29
  givenname: Tanya
  surname: Dorff
  fullname: Dorff, Tanya
  organization: Department of Medical Oncology and Developmental Therapeutics, City of Hope, Duarte, CA, USA
– sequence: 30
  givenname: Suneil
  orcidid: 0000-0001-7429-4791
  surname: Jain
  fullname: Jain, Suneil
  organization: Centre for Cancer Research and Cell Biology, Queen's University Belfast, Belfast, UK
– sequence: 31
  givenname: Nicolas
  surname: Mottet
  fullname: Mottet, Nicolas
  organization: Department of Urology, University Hospital, St. Etienne, France
– sequence: 32
  givenname: Thomas
  surname: Wiegel
  fullname: Wiegel, Thomas
  organization: Department of Radiation Oncology, University Hospital Ulm, Ulm, Germany
BackLink https://www.ncbi.nlm.nih.gov/pubmed/32146018$$D View this record in MEDLINE/PubMed
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Radical prostatectomy
Systemic treatment
Systematic review
Brachytherapy
Modality treatment
External beam radiotherapy
Prostate cancer
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Snippet The optimal treatment for men with high-risk localized or locally advanced prostate cancer (PCa) remains unknown. To perform a systematic review of the...
The optimal treatment for men with high-risk localized or locally advanced prostate cancer (PCa) remains unknown.CONTEXTThe optimal treatment for men with...
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SubjectTerms Brachytherapy
External beam radiotherapy
Localized
Locally advanced
Modality treatment
Primary therapy
Prostate cancer
Radical prostatectomy
Systematic review
Systemic treatment
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Title Benefits and Risks of Primary Treatments for High-risk Localized and Locally Advanced Prostate Cancer: An International Multidisciplinary Systematic Review
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