Clinical Trials Logo

Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT03891732
Other study ID # CRE 2018.495
Secondary ID
Status Recruiting
Phase
First received
Last updated
Start date January 19, 2019
Est. completion date December 31, 2024

Study information

Verified date January 2024
Source Chinese University of Hong Kong
Contact Peter Ka-Fung CHIU, FRCP, PhD
Phone 852-3505-2625
Email peterchiu@surgery.cuhk.edu.hk
Is FDA regulated No
Health authority
Study type Observational

Clinical Trial Summary

Under the prostate cancer screening protocol of the project 'Prevention of Obesity-related Cancers', men with elevated PSA with higher prostate cancer risk (PSA 4-10 ng/mL with high Prostate Health Index (PHI) ≥35, or PSA>10 ng/mL) will be offered a prostate biopsy. In the current study, we would like to offer all screened men with elevated PSA in the range of 4-50 ng/mL a biparametric non-contrast MRI prostate (screening protocol) for any suspicious lesion in the prostate. If there is MRI lesion seen, additional targeted biopsies can be performed on top of the standard systematic prostate biopsies. It has been shown in a clinical Caucasian cohort that doing MRI-targeted biopsies resulted in improved detection of clinically significant prostate cancer compared with standard systematic biopsies. In this study investigators would like to investigate the benefits of adding MRI prostate and MRI-targeted biopsy in the diagnostic pathway for prostate cancer in a screened cohort of Chinese men at risk of prostate cancer.


Description:

Prostate cancer (PCa) is the second most common cancer in the world, and its incidence in the Asia-Pacific region is increasing. While serum prostate specific antigen (PSA) level remains the commonest marker for screening of the disease, its specificity is very low. As a result, many patients with elevated PSA are subjected to transrectal ultrasound guided prostatic biopsy (TRUSPB) with negative result, but at the same time faced the complications of bleeding and infection from TRUSPB. Performing a standard 10-12 core systematic prostate biopsy in all men with elevated PSA was shown to miss some clinically significant prostate cancers while over-diagnosing some insignificant prostate cancers. In the European randomized study of screening for prostate cancer (ERSPC), PSA-based screening have resulted in reduced prostate cancer-specific death and metastasis, but there were problems like over-biopsy and over-diagnosis of indolent prostate cancers. The number needed to screen (NNS) to prevent one prostate cancer death was quite high at 781. Therefore, population-wide screening of men with PSA is not commonly applied in most places. The blood test Prostate Health Index (PHI) provides much better prostate cancer risk stratification than PSA by dividing men with PSA 4-10 ng/mL. Using PHI 35 as a cutoff, clinically significant prostate cancer (any Gleason pattern ≥ 4) was found in only 0.7% in PHI<35, but up to 8.6% in PHI ≥35, a 12 fold difference. The use of PHI test could significantly reduce unnecessary prostate biopsies and was approved by FDA in 2012. Since 2016, the PHI blood test was available in the public health system in Hong Kong for men with PSA 4-10 ng/mL. According to local audit on 2795 men receiving PHI test, about 80% prostate biopsies was avoided. This also resulted in a higher positive biopsy rate (from 10.7% to 26.2%), with the potential of delayed diagnosis in only a minimal proportion of men (0.7%). Currently, PHI is being ordered regularly by Urologists in the public system of Hong Kong for men with PSA 4-10 ng/mL. In a landmark study by Ahmed et al in 2017, performing multi-parametric MRI prostate before an initial prostate biopsy in a clinical Caucasian cohort has been shown to improve diagnosis of significant prostate cancer by 18%, while reduce diagnosis of insignificant prostate cancer by 5%. Another Caucasian study by Alberts et al in 2017 in men who undergone the 5th round of screening in European Randomized Study of Screening for Prostate cancer Rotterdam, adding MRI prostate could avoid 65% biopsies and 68% insignificant prostate cancer, while detecting an equal percentage of significant cancers. The role of MRI in an Asian cohort under a screening protocol has not been reported before. Prostate cancer incidence in Asian is only about one-third of that in Caucasian, and cancer detection rates in different PSA ranges are also 50% less. Reported Caucasian prostate cancer detection rates was 25-50% in men with PSA 4-10 ng/mL and >50% in men with PSA 10-20 ng/mL. In Hong Kong Chinese men, only 15% men with PSA 4-10 ng/mL and 20-30% men with PSA 10-20 ng/mL has prostate cancer. Therefore, screening tools like PHI or MRI are potentially more useful in reducing unnecessary biopsies in Chinese men even in higher PSA ranges (e.g. PSA > 10 ng/mL) due to much lower cancer detection rate. A multiparametric MRI prostate combines T2-weighted (T2W), Diffusion-weighted imaging (DWI), and Dynamic contrast enhanced (DCE) sequences to aid identification of suspicious malignant lesions in the prostate using a standardized Prostate Imaging - Reporting and Data System (PI-RADS). In a recently published meta-analysis, it is suggested that a bi-parametric (using only T2W and DWI sequences without contrast) MRI prostate has similar performance compared with a multi-parametric MRI prostate. Omitting the DCE and contrast injection reduces scanning time by 30-50% (down to 15-20 minutes per patient) and avoids risk of gadolinium contrast, especially in men with impaired renal function. Under the prostate cancer screening protocol of the project 'Prevention of Obesity-related Cancers', men with elevated PSA with higher prostate cancer risk (PSA 4-10 ng/mL with high Prostate Health Index (PHI) ≥35, or PSA>10 ng/mL) will be offered a prostate biopsy. In the current study, investigators would like to offer all screened men with elevated PSA in the range of 4-50 ng/mL a biparametric non-contrast MRI prostate (screening protocol) for any suspicious lesion in the prostate. If there is MRI lesion seen, additional targeted biopsies can be performed on top of the standard systematic prostate biopsies. It has been shown in a clinical Caucasian cohort that doing MRI-targeted biopsies resulted in improved detection of clinically significant prostate cancer compared with standard systematic biopsies. In this study investigators would like to investigate the benefits of adding MRI prostate and MRI-targeted biopsy in the diagnostic pathway for prostate cancer in a screened cohort of Chinese men at risk of prostate cancer.


Recruitment information / eligibility

Status Recruiting
Enrollment 690
Est. completion date December 31, 2024
Est. primary completion date June 30, 2024
Accepts healthy volunteers Accepts Healthy Volunteers
Gender Male
Age group 50 Years to 75 Years
Eligibility Inclusion Criteria: 1. Men being screened for prostate cancer in the project 'Prevention of Obesity-related Cancers' 2. Age 50-75 3. Screening naïve, defined as no blood taking for PSA within past 5 years AND no prostate biopsy within past 5 years 4. PSA 4-50 ng/mL 5. Agree for non-contrast MRI scanning of prostate Exclusion Criteria: 1. Men who are contraindicated for MRI( Pacemaker in-situ, Metallic implants which are not MRI-compatible, or Claustrophobia) 2. Prior history of prostate cancer

Study Design


Related Conditions & MeSH terms


Intervention

Diagnostic Test:
MRI prostate
plain biparametric MRI prostate

Locations

Country Name City State
Hong Kong North District Hospital Hong Kong
Hong Kong Prince of Wales Hospital, Chinese University of Hong Kong Hong Kong

Sponsors (1)

Lead Sponsor Collaborator
Chinese University of Hong Kong

Country where clinical trial is conducted

Hong Kong, 

References & Publications (13)

Ahmed HU, El-Shater Bosaily A, Brown LC, Gabe R, Kaplan R, Parmar MK, Collaco-Moraes Y, Ward K, Hindley RG, Freeman A, Kirkham AP, Oldroyd R, Parker C, Emberton M; PROMIS study group. Diagnostic accuracy of multi-parametric MRI and TRUS biopsy in prostate cancer (PROMIS): a paired validating confirmatory study. Lancet. 2017 Feb 25;389(10071):815-822. doi: 10.1016/S0140-6736(16)32401-1. Epub 2017 Jan 20. — View Citation

Alberts AR, Roobol MJ, Verbeek JFM, Schoots IG, Chiu PK, Osses DF, Tijsterman JD, Beerlage HP, Mannaerts CK, Schimmoller L, Albers P, Arsov C. Prediction of High-grade Prostate Cancer Following Multiparametric Magnetic Resonance Imaging: Improving the Rotterdam European Randomized Study of Screening for Prostate Cancer Risk Calculators. Eur Urol. 2019 Feb;75(2):310-318. doi: 10.1016/j.eururo.2018.07.031. Epub 2018 Aug 3. — View Citation

Braillon A, Dubois G. Re: Fritz H. Schroder, Jonas Hugosson, Sigrid Carlsson, et al. Screening for prostate cancer decreases the risk of developing metastatic disease: findings from the European Randomized Study of Screening for Prostate Cancer (ERSPC). Eur urol 2012;62:745-52. Eur Urol. 2012 Nov;62(5):e89; author reply e90-1. doi: 10.1016/j.eururo.2012.07.031. Epub 2012 Jul 25. No abstract available. — View Citation

Chen R, Ren S; Chinese Prostate Cancer Consortium; Yiu MK, Fai NC, Cheng WS, Ian LH, Naito S, Matsuda T, Kehinde E, Kural A, Chiu JY, Umbas R, Wei Q, Shi X, Zhou L, Huang J, Huang Y, Xie L, Ma L, Yin C, Xu D, Xu K, Ye Z, Liu C, Ye D, Gao X, Fu Q, Hou J, Yuan J, He D, Pan T, Ding Q, Jin F, Shi B, Wang G, Liu X, Wang D, Shen Z, Kong X, Xu W, Deng Y, Xia H, Cohen AN, Gao X, Xu C, Sun Y. Prostate cancer in Asia: A collaborative report. Asian J Urol. 2014 Oct;1(1):15-29. doi: 10.1016/j.ajur.2014.08.007. Epub 2015 Apr 16. — View Citation

Chiu PK, Roobol MJ, Teoh JY, Lee WM, Yip SY, Hou SM, Bangma CH, Ng CF. Prostate health index (PHI) and prostate-specific antigen (PSA) predictive models for prostate cancer in the Chinese population and the role of digital rectal examination-estimated prostate volume. Int Urol Nephrol. 2016 Oct;48(10):1631-7. doi: 10.1007/s11255-016-1350-8. Epub 2016 Jun 27. — View Citation

Chiu PK, Teoh JY, Lee WM, Yee CH, Chan ES, Hou SM, Ng CF. Extended use of Prostate Health Index and percentage of [-2]pro-prostate-specific antigen in Chinese men with prostate specific antigen 10-20 ng/mL and normal digital rectal examination. Investig Clin Urol. 2016 Sep;57(5):336-42. doi: 10.4111/icu.2016.57.5.336. Epub 2016 Aug 31. — View Citation

Kasivisvanathan V, Rannikko AS, Borghi M, Panebianco V, Mynderse LA, Vaarala MH, Briganti A, Budaus L, Hellawell G, Hindley RG, Roobol MJ, Eggener S, Ghei M, Villers A, Bladou F, Villeirs GM, Virdi J, Boxler S, Robert G, Singh PB, Venderink W, Hadaschik BA, Ruffion A, Hu JC, Margolis D, Crouzet S, Klotz L, Taneja SS, Pinto P, Gill I, Allen C, Giganti F, Freeman A, Morris S, Punwani S, Williams NR, Brew-Graves C, Deeks J, Takwoingi Y, Emberton M, Moore CM; PRECISION Study Group Collaborators. MRI-Targeted or Standard Biopsy for Prostate-Cancer Diagnosis. N Engl J Med. 2018 May 10;378(19):1767-1777. doi: 10.1056/NEJMoa1801993. Epub 2018 Mar 18. — View Citation

Schroder FH, Hugosson J, Roobol MJ, Tammela TL, Ciatto S, Nelen V, Kwiatkowski M, Lujan M, Lilja H, Zappa M, Denis LJ, Recker F, Berenguer A, Maattanen L, Bangma CH, Aus G, Villers A, Rebillard X, van der Kwast T, Blijenberg BG, Moss SM, de Koning HJ, Auvinen A; ERSPC Investigators. Screening and prostate-cancer mortality in a randomized European study. N Engl J Med. 2009 Mar 26;360(13):1320-8. doi: 10.1056/NEJMoa0810084. Epub 2009 Mar 18. — View Citation

Schroder FH, Hugosson J, Roobol MJ, Tammela TL, Zappa M, Nelen V, Kwiatkowski M, Lujan M, Maattanen L, Lilja H, Denis LJ, Recker F, Paez A, Bangma CH, Carlsson S, Puliti D, Villers A, Rebillard X, Hakama M, Stenman UH, Kujala P, Taari K, Aus G, Huber A, van der Kwast TH, van Schaik RH, de Koning HJ, Moss SM, Auvinen A; ERSPC Investigators. Screening and prostate cancer mortality: results of the European Randomised Study of Screening for Prostate Cancer (ERSPC) at 13 years of follow-up. Lancet. 2014 Dec 6;384(9959):2027-35. doi: 10.1016/S0140-6736(14)60525-0. Epub 2014 Aug 6. — View Citation

Vickers AJ, Cronin AM, Roobol MJ, Hugosson J, Jones JS, Kattan MW, Klein E, Hamdy F, Neal D, Donovan J, Parekh DJ, Ankerst D, Bartsch G, Klocker H, Horninger W, Benchikh A, Salama G, Villers A, Freedland SJ, Moreira DM, Schroder FH, Lilja H. The relationship between prostate-specific antigen and prostate cancer risk: the Prostate Biopsy Collaborative Group. Clin Cancer Res. 2010 Sep 1;16(17):4374-81. doi: 10.1158/1078-0432.CCR-10-1328. Epub 2010 Aug 24. Erratum In: Clin Cancer Res. 2011 Jun 1;17(11):3852. — View Citation

Weinreb JC, Barentsz JO, Choyke PL, Cornud F, Haider MA, Macura KJ, Margolis D, Schnall MD, Shtern F, Tempany CM, Thoeny HC, Verma S. PI-RADS Prostate Imaging - Reporting and Data System: 2015, Version 2. Eur Urol. 2016 Jan;69(1):16-40. doi: 10.1016/j.eururo.2015.08.052. Epub 2015 Oct 1. — View Citation

Woo S, Suh CH, Kim SY, Cho JY, Kim SH, Moon MH. Head-to-Head Comparison Between Biparametric and Multiparametric MRI for the Diagnosis of Prostate Cancer: A Systematic Review and Meta-Analysis. AJR Am J Roentgenol. 2018 Nov;211(5):W226-W241. doi: 10.2214/AJR.18.19880. Epub 2018 Sep 21. — View Citation

Zhu Y, Wang HK, Qu YY, Ye DW. Prostate cancer in East Asia: evolving trend over the last decade. Asian J Androl. 2015 Jan-Feb;17(1):48-57. doi: 10.4103/1008-682X.132780. — View Citation

* Note: There are 13 references in allClick here to view all references

Outcome

Type Measure Description Time frame Safety issue
Primary In men with higher risk of prostate cancer, the proportion of men diagnosed with clinically significant prostate cancers on MRI pathway compared with standard screening pathway. In men with higher risk of prostate cancer (PSA 10-50 ng/mL, or PSA 4-10 AND Prostate Health Index =35), the proportion of men diagnosed with clinically significant prostate cancers on MRI pathway compared with standard screening pathway. Baseline (only one-time point)
Primary In men with lower risk of prostate cancer the proportion of men diagnosed with clinically significant prostate cancers on MRI pathway compared with standard screening pathway. In men with lower risk of prostate cancer (PSA 4-10 ng/mL AND Prostate Health Index <35), the proportion of men diagnosed with clinically significant prostate cancers on MRI pathway compared with standard screening pathway. Baseline (only one-time point)
Secondary Gleason =4 cancer AND Maximal cancer core length =6mm The proportion of men diagnosed with Gleason =4 cancer AND Maximal cancer core length =6mm Baseline (only one-time point)
Secondary The number of MRI needed to detect one extra clinically significant prostate cancer compared to standard screening pathway The number of MRI needed to detect one extra clinically significant prostate Baseline (only one-time point)
Secondary The proportion of men that a biopsy can be avoided by using MRI in higher and lower risk groups The proportion of men that a biopsy can be avoided by using MRI in higher and lower risk groups Baseline (only one-time point)
Secondary In men with MRI suspicious lesion (PI-RADS 3 or above), clinically significant prostate cancer diagnosed on Systematic biopsy cores versus targeted biopsy cores In men with MRI suspicious lesion (PI-RADS 3 or above), clinically significant prostate cancer diagnosed on Systematic biopsy cores versus targeted biopsy cores Baseline (only one-time point)
See also
  Status Clinical Trial Phase
Recruiting NCT05613023 - A Trial of 5 Fraction Prostate SBRT Versus 5 Fraction Prostate and Pelvic Nodal SBRT Phase 3
Recruiting NCT05540392 - An Acupuncture Study for Prostate Cancer Survivors With Urinary Issues Phase 1/Phase 2
Recruiting NCT05156424 - A Comparison of Aerobic and Resistance Exercise to Counteract Treatment Side Effects in Men With Prostate Cancer Phase 1/Phase 2
Completed NCT03177759 - Living With Prostate Cancer (LPC)
Completed NCT01331083 - A Phase II Study of PX-866 in Patients With Recurrent or Metastatic Castration Resistant Prostate Cancer Phase 2
Recruiting NCT05540782 - A Study of Cognitive Health in Survivors of Prostate Cancer
Active, not recruiting NCT04742361 - Efficacy of [18F]PSMA-1007 PET/CT in Patients With Biochemial Recurrent Prostate Cancer Phase 3
Completed NCT04400656 - PROState Pathway Embedded Comparative Trial
Completed NCT02282644 - Individual Phenotype Analysis in Patients With Castration-Resistant Prostate Cancer With CellSearch® and Flow Cytometry N/A
Recruiting NCT06037954 - A Study of Mental Health Care in People With Cancer N/A
Recruiting NCT06305832 - Salvage Radiotherapy Combined With Androgen Deprivation Therapy (ADT) With or Without Rezvilutamide in the Treatment of Biochemical Recurrence After Radical Prostatectomy for Prostate Cancer Phase 2
Recruiting NCT05761093 - Patient and Physician Benefit/ Risk Preferences for Treatment of mPC in Hong Kong: a Discrete Choice Experiment
Completed NCT04838626 - Study of Diagnostic Performance of [18F]CTT1057 for PSMA-positive Tumors Detection Phase 2/Phase 3
Recruiting NCT03101176 - Multiparametric Ultrasound Imaging in Prostate Cancer N/A
Completed NCT03290417 - Correlative Analysis of the Genomics of Vitamin D and Omega-3 Fatty Acid Intake in Prostate Cancer N/A
Completed NCT00341939 - Retrospective Analysis of a Drug-Metabolizing Genotype in Cancer Patients and Correlation With Pharmacokinetic and Pharmacodynamics Data
Completed NCT01497925 - Ph 1 Trial of ADI-PEG 20 Plus Docetaxel in Solid Tumors With Emphasis on Prostate Cancer and Non-Small Cell Lung Cancer Phase 1
Recruiting NCT03679819 - Single-center Trial for the Validation of High-resolution Transrectal Ultrasound (Exact Imaging Scanner ExactVu) for the Detection of Prostate Cancer
Completed NCT03554317 - COMbination of Bipolar Androgen Therapy and Nivolumab Phase 2
Completed NCT03271502 - Effect of Anesthesia on Optic Nerve Sheath Diameter in Patients Undergoing Robot-assisted Laparoscopic Prostatectomy N/A