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CADTH Reimbursement Recommendation
CADTH recommends that relugolix (Orgovyx) should be reimbursed by public drug plans for the treatment of advanced prostate cancer if certain conditions are met.
Orgovyx should only be covered to treat adult patients who have advanced prostate cancer and are not candidates for chemotherapy or surgical therapy soon after initiating treatment.
Orgovyx should only be reimbursed if it is prescribed by a clinician with expertise in managing prostate cancer. The cost of Orgovyx should not exceed the drug program cost of treatment with the least costly alternative treatment. Orgovyx should be stopped if the patient experiences severe side effects.
Evidence from a clinical trial demonstrated that Orgovyx resulted in the suppression of testosterone levels compared to leuprolide.
Orgovyx met some needs identified by patients, including being convenient to take, potentially delaying progression, and having manageable treatment side effects.
Based on CADTH’s assessment of the health economic evidence, Orgovyx may represent good value to the health care system at the public list price. The committee determined that there is not enough evidence to justify a higher cost for Orgovyx compared with other androgen deprivation therapies (ADTs), so the cost of Orgovyx should not exceed the drug program cost of treatment with the least costly ADT reimbursed for the treatment of advanced prostate cancer.
Based on public list prices, Orgovyx is estimated to result in slightly less than $1,000,000 in cost savings to the public drug plans over the next 3 years. However, the actual budget impact is uncertain.
Advanced prostate cancer refers to prostate cancer that has a severe diagnosis and prognosis, requiring treatment that lowers testosterone levels. It is estimated that 24,600 people in Canada were diagnosed with prostate cancer in 2022.
For patients with advanced prostate cancer, there is a need for effective treatments that can delay disease progression and extend life while improving or maintaining the quality of life of patients. Patients also identified a need for treatments that could be easily administered and accessed.
Treatment with Orgovyx is expected to cost approximately $3,303 per patient in year 1 and $3,285 per patient in subsequent years.
The pan-Canadian Oncology Drug Review Expert Review Committee (pERC) recommends that relugolix be reimbursed for the treatment of advanced prostate cancer in adult patients only if the conditions listed in Table 1 are met.
One phase III, randomized, open-label, parallel-group, multicentre trial (HERO, N = 934) demonstrated that treatment with relugolix resulted in a higher suppression of testosterone levels compared to leuprolide. The study was conducted in adult patients who were candidates for at least 1 year of continuous ADT for various stages of advanced prostate cancer, including biochemical relapse, newly diagnosed androgen-sensitive metastatic disease, and advanced localized disease not suitable for primary surgical intervention. Specifically, from day 29 through week 49, the percentage of patients who achieved sustained testosterone suppression was 96.7% (95% confidence interval [CI], 94.9% to 97.9%) for those treated with relugolix compared to 88.8% (95% CI, 84.6% to 91.8%) for those treated with leuprolide, thus meeting the primary study objective with a prespecified noninferiority margin of −10% and demonstrating superiority (lower bound of 95% CI > 0; P < 0.0001). The mean difference between the treatment groups in the proportion of patients who achieved sustained testosterone suppression at week 49 was 7.9% (95% CI, 4.1% to 11.8%). From day 29 through week 49, a higher percentage of patients achieved and maintained profound castration levels of testosterone (< 20 ng/dL) with treatment with relugolix (81.6%; 95% CI, 78.1% to 84.5%) compared with those treated with leuprolide (68.6%; 95% CI, 63.0% to 73.5%), a level of suppression the clinical experts consulted by CADTH considered to be more important. However, the analysis for this outcome was outside the statistical hierarchy and was not adjusted for multiplicity.
pERC noted that the percentage of patients who experienced treatment-emergent adverse events in the HERO trial was similar for those treated with relugolix and those treated with leuprolide, and they considered the harms manageable and in line with clinical expectations for the ADTs.
Patient-identified needs included availability of treatments that can extend life, improve quality of life, delay disease progression, reduce side effects, be administered orally rather than by injection, and potentially more easily accessed. pERC concluded that relugolix met some of the needs identified by patients, such as potentially delaying progression, being convenient to take, and having manageable treatment side effects.
At the sponsor-submitted price for relugolix and the publicly listed prices for other ADTs, relugolix ranged from being similar to or potentially less costly than other ADTs. Although the phase III HERO trial showed relugolix was noninferior compared to leuprolide acetate, comparative efficacy and safety of relugolix versus other ADTs could not be determined. Therefore, the total drug cost of relugolix should not exceed the total drug cost of other ADTs.
Reimbursement Conditions and Reasons.
Prostate cancer is a malignancy in which prostate cells grow uncontrollably, often driven by testosterone-producing pathways. In its early stages, prostate cancer may be asymptomatic or present with nonspecific symptoms such as altered urination patterns, blood in the urine or semen, painful urination and/or ejaculation, pelvic area pain, and erectile dysfunction. As the tumour grows or metastasizes, typically to bones in 90% of cases, symptoms such as bone pain or mobility issues can severely affect quality of life.
Prostate cancer spans various stages, from nonmetastatic, localized disease to castration-resistant metastatic prostate cancer. Advanced prostate cancer is a severe subset of prostate cancer with a high risk of progression or death, requiring ADT. It represents a broad range of incurable disease states, with diverse clinical options and survival times. Survival rates vary significantly, from nearly 100% over 5 years for localized and locally advanced prostate cancer to 34% for metastatic prostate cancer.
In Canada, prostate cancer is the most common cancer among men, with approximately 24,600 diagnoses in 2022. It is estimated that 1 in 8 people in Canada will develop prostate cancer in their lifetime. The prevalence was 0.66% in 2018 (calculated using prevalent cases and the adult male population at the time), and this rate is assumed to have remained stable into 2024, balancing out incidence and mortality rates.
Relugolix (Orgovyx) has been approved by Health Canada for advanced prostate cancer in adult patients. Relugolix (Orgovyx) is an ADT. It is available as a 120 mg oral tablet; the dosage recommended in the product monograph is a loading dose of 360 mg on the first day followed by 120 mg orally once daily.
To make its recommendation, the committee considered the following information:
The information in this section is a summary of input provided by the patient and clinician groups who responded to CADTH’s call for input and from the clinical experts consulted by CADTH for the purpose of this review.
A total of 3 patient groups submitted 3 inputs. The ADT Educational Program supports patients living with prostate cancer undergoing hormone therapies (ADTs). The CCS is the only national charity that supports patients living with all types of cancer across the country with research, compassionate support system, and by engaging in establishing health policies. These patient groups were represented by 1 patient each in their submissions. The third patient group, PROCURE, is a charitable organization that educates, supports, and informs people affected by prostate cancer and promotes and contributes to financing research. PROCURE collected information from an online survey conducted in May 2022, in which 263 patients participated.
In The ADT Educational Program input, a patient living with advanced prostate cancer said he has been on ADT almost continuously for more than 20 years and has experienced many side effects. The patient, on behalf of other patients, stated that the most disturbing side effects are hot flashes, fatigue, and loss of sexual interest. In addition, he said patients also regularly experience loss of muscle mass yet gain weight as fat, making simple tasks such as walking upstairs difficult. Also, based on input, ADT affects memory, can lead to depression and insomnia, and make patients feel weak, old, flabby, and demoralized. He also stated that the depot injection form of ADT agents may cause inflammation at the injection site causing discomfort for days after injection. According to his input, some patients may delay getting repeated injections or take risky drug holidays just to avoid injections, which can cause their cancer to fulminate. PROCURE said some patients decide to opt for orchiectomy to avoid regular injections. Another patient from CCS stated that he experienced side effects such as weight gain, impact on kidneys and liver, as well as reduced sexual desire, which the patient noted was a key side effect. In both inputs, the patients said taking ADT can cause side effects that may require other medications, such as antidepressants or a kidney-protective drug. The patient from CCS said he felt weak and tired, which reduced his motivation to exercise. The patient’s wife said she did not feel a significant impact on her life apart from the limited sexual desire the patient felt as the side effect of treatment. According to the PROCURE input, patients and partners often mourn the loss of a satisfying sexual relationship, and advanced cancer creates anxiety within the couple. Also, PROCURE stated that children and family may experience anxiety if their parent passes away from the cancer, or that they may be at risk of getting prostate, breast, or ovarian cancers if their parent living with prostate cancer is a carrier of a BRCA mutation. PROCURE said that frequent travel to clinics or the hospital for medical follow-up exams can be costly with injection hormone therapy, and it takes too long (i.e., from months to years) for their testosterone levels to return to normal levels after ending long-term ADT.
Based on inputs, 1 of the key outcomes important to patients was safety of medication and minimizing side effects. Other key outcomes cited by patients to be important included maintaining long-term survival (with ADT) and good quality of life. PROCURE also stated that patients want improved outcomes in treatment, such as slowing down the progression of cancer, extending of life expectancy, and decreasing prostate-specific antigen (PSA) levels. All inputs indicated that patients living with prostate cancer would appreciate new treatment that is not as difficult or invasive and is a patient-friendly alternative form of ADT.
Despite advancements in prostate cancer treatment leading to longer overall survival, resistance to therapies is inevitable, and most patients will eventually succumb to the disease. All current ADT options effectively induce profound medical castration (testosterone suppression).
One gap in current ADT options is the lack of oral administration. The available injectable forms may not suit all patients, although, according to the clinical experts, there is no published evidence that has influenced the Canadian clinical practice regarding a preference for oral options or that injectables negatively impact compliance. Because patients with advanced prostate cancer typically visit their physicians semiannually, the current treatment regimen does not greatly burden the health care system. However, for patients in remote areas of Canada who find travel challenging, an oral ADT option could address this unmet need. Relugolix is positioned as a foundational ADT. It may be particularly beneficial for patients in remote locations, those who prefer oral medication, or those needing intermittent rather than continuous ADT (e.g., if intermittent ADT is attempted to minimize the adverse effects of medical castration by withdrawing treatment in patients who have responded to continuous ADT) due to its rapid testosterone and quality of life recovery.
The Canadian consensus statement recommends a castrate level threshold of 0.7 nmol/L or less for patients with metastatic castration-sensitive prostate cancer (MCSPC), along with androgen receptor axis–targeted therapy intensification. Response measures include prolonging overall survival, progression-free survival, time to skeletal events, symptomatic deterioration, and castration resistance. For patients with clinical or biochemical relapse after curative local therapy, goals include achieving castrate levels of testosterone, extending overall and metastasis-free survival, and delaying castration resistance.
Discontinuation of ADT in the MCSPC setting is rare, except in cases of intolerable toxicities. In the high-risk curative setting, ADT might be stopped more frequently due to toxicities, and decisions are based on a risk-benefit analysis at that time. Most ADT toxicities are manageable. Relugolix is prescribed by specialist oncologists and self-administered orally by the patient.
Two clinician groups, The ADT Educational Program and the British Columbia Genitourinary Group with the Vancouver Prostate Centre, contributed their insights on prostate cancer treatment, specifically focusing on the need for better-tolerated and more convenient treatment options that enhance compliance. These groups support the development of an oral formulation of LHRH (luteinizing hormone–releasing hormone) antagonist to overcome the disadvantages of injectable forms, such as injection site reactions, discomfort due to high dosage volume, and the need for travel to clinics.
The clinician groups highlighted the current unmet need in prostate cancer treatment: resistance to therapies due to androgen-independent mechanisms. They believe that an oral form of ADT would be particularly beneficial for patients living far from cancer centres. However, they caution that long-term ADT might lead to compliance issues or increased pill burden, especially when combined with other therapies. The goal for ideal prostate cancer treatment is cure, but for advanced stages that have spread beyond the gland, the objectives shift to suppressing androgen with fewer side effects or less invasive administration, prolonging survival, and improving quality of life. Other important therapy goals include prolonging time to skeletal-related events, symptomatic deterioration, and castration resistance.
Patients best suited for relugolix include those with hormone-sensitive disease, newly diagnosed or substantial metastatic disease requiring prompt androgen suppression, patients needing short-term ADT, and those having difficulty accessing injection clinics. Additionally, it is beneficial for those preferring oral medication or needing intermittent ADT.
Response to relugolix is measured via serum PSA or imaging, similar to current ADT agents. For relugolix monotherapy, a “profound castration” level of testosterone (≤ 0.7 nm/L) is indicative of a pharmacologic effect. Generally, ADT is continuous and indefinite for patients with metastatic, locally advanced, or castrate-resistant prostate cancer, unless contraindications or intolerable side effects arise. Relugolix can also be administered intermittently based on serum PSA levels or for a fixed duration in patients receiving ADT with curative-intent radiation.
Urologists, medical or urologic oncologists, and radiation oncologists experienced in managing advanced prostate cancer should prescribe and monitor relugolix treatment. The medication can be dispensed in an outpatient setting, and patients take relugolix orally at home.
Input was obtained from the drug programs that participate in the CADTH reimbursement review process. The following were identified as key factors that could potentially impact the implementation of a CADTH recommendation for Orgovyx:
The clinical experts consulted by CADTH provided advice on the potential implementation issues raised by the drug programs.
Responses to Questions From the Drug Programs.
The HERO trial was a phase III, randomized, multicentre, open-label, parallel-group study conducted across 160 sites in 22 countries. The trial enrolled patients from April 2017 to October 2019 for the primary analysis and until August 2020 for the final analysis. A total of 934 patients were included in the primary analysis, with this number increasing to 1,078 in the final analysis. Patients were divided into 2 groups: 624 received relugolix and 310 received leuprolide in the primary analysis. Eligible participants were adult males with histologically or cytologically confirmed prostate cancer, candidates for at least 1 year of continuous ADT, and meeting specific criteria such as evidence of biochemical or clinical relapse, newly diagnosed androgen-sensitive metastatic disease, or advanced localized disease. Exclusions included a likely need for chemotherapy or surgical therapy soon after ADT initiation, prior extensive ADT or systemic cytotoxic treatment, brain metastases, recent significant cardiac events, conduction system abnormalities, and uncontrolled hypertension.
The intervention consisted of administering relugolix as a 120 mg tablet daily following a 360 mg oral loading dose on day 1, compared to leuprolide given as 22.5 mg 3-month depot injections every 12 weeks, both for a duration of 48 weeks. The study was structured into a 28-day screening phase, a 48-week treatment phase, and a follow-up phase of 30 days for safety and up to 90 days for assessing testosterone recovery. The primary end point was the sustained castration rate from week 5 to week 49. Secondary efficacy end points included sustained castration rate, profound castration rate, PSA response rate, FSH (follicle-stimulating hormone) level, castration recurrence-free survival for patients with or without metastatic cancer (final analysis), and testosterone recovery rate. Other end points assessed changes in quality of life, serum concentrations of various hormones, and safety end points like treatment-emergent adverse events, MACEs, clinical laboratory tests, vital signs, and electrocardiograms. Exploratory end points included overall survival and the presence of polymorphisms in germline genes.
The age distribution was similar between the 2 groups, with approximately 71% of patients in both groups aged 75 years or younger. The mean age was approximately 71 years, with a slightly higher median age in the relugolix group (72 years) compared to the leuprolide group (71 years). Ethnicity and race distributions were broadly comparable across both groups, with the majority being non-Hispanic or Latino and white. The study included participants from various geographic regions, with the largest proportion from Europe (approximately 40% in both groups), followed by North America, Asia, and other regions.
Clinically, approximately half of the participants in both groups presented with evidence of biochemical or clinical relapse following local primary intervention with curative intent. Newly diagnosed androgen-sensitive metastatic disease and advanced localized disease not suitable for primary surgical intervention were other major disease presentations. The distribution of disease stages at study entry was similar across both groups; approximately 32% had metastatic, 30% had locally advanced, and 29% had localized disease. Gleason scores were also similar, with the most common being 7 and 8 to 10. The majority of participants had an Eastern Cooperative Oncology Group (ECOG) performance status of 0. Prior ADT and radiation therapy histories were noted in both groups, with a slightly higher numerical percentage of prior ADTs in the relugolix group. Cardiovascular risk factors were prevalent in more than 90% of participants in both groups, with a notable proportion also having lifestyle risk factors and a history of MACE.
The proportion of patients who achieved sustained testosterone suppression was 96.7% (95% CI, 94.9% to 97.9%) in the relugolix treatment group compared with 88.8% (95% CI, 84.6% to 91.8%) in the leuprolide group, with a mean difference between the relugolix and leuprolide treatment groups of 7.9% (95% CI, 4.1% to 11.8%). These results demonstrated noninferiority of relugolix compared to leuprolide (the lower bound of the 95% CI for the difference between groups was greater than the prespecified noninferiority margin of −10%; P < 0.0001), and also statistical superiority of relugolix compared with leuprolide (lower bound of the 95% CI > 0; P < 0.0001).
Patients in the relugolix group had a shorter time to achieve castration compared to those in the leuprolide group at profound castration levels of testosterone (< 20 ng/dL). The median time to profound castration was 15 days in the relugolix group compared with 29 days in the leuprolide group. At day 15, the difference in the proportion of patients achieving profound castration was more pronounced in the relugolix group (78.38%) compared with the leuprolide group (0.98%), with a statistically significant difference of 77.41% (95% CI, 73.98% to 80.83%; P < 0.0001).
Treatment with relugolix resulted in a higher proportion of patients achieving and maintaining profound castration (81.6%; 95% CI, 78.1% to 84.5%) compared with the leuprolide group (68.6%; 95% CI, 63.0% to 73.5%) from day 29 through 48 weeks, with a difference between groups of 13.0%.
Overall, the safety profile of relugolix suggests a profile that is consistent with the safety profile of the ADT therapeutic class. In the HERO trial, adverse events (AEs) were reported by a similar proportion of patients in both the relugolix (92.9%) and leuprolide (93.5%) groups. The most common AE for both groups was hot flush, occurring in more than half of the patients. Gastrointestinal issues such as constipation and diarrhea were more frequently reported in the relugolix group. All cases of constipation and diarrhea were mild to moderate, with only 1 patient withdrawing from the study due to these AEs. Serious adverse events (SAEs) were slightly numerically less common in the relugolix group (12.2%) compared to the leuprolide group (15.3%). The SAEs in the relugolix group included myocardial infarction (0.8%), acute kidney injury (0.6%), and urinary tract infections (0.5%). Within the leuprolide group, SAEs included anemia (1.0%), cardiorespiratory arrest (1.0%), and urinary tract infection (0.6%); grade 3 or 4 SAEs were slightly numerically more common in the leuprolide group.
Treatment discontinuation due to AEs was higher in the relugolix group (3.5%) compared to the leuprolide group (0.3%). The deaths reported were slightly numerically higher in the leuprolide group (2.9%) than in the relugolix group (1.1%), with cardiovascular-related deaths being more common in the leuprolide group. Vasomotor symptoms such as hot flushes and fatigue were common in both groups (56.1% in relugolix, 54.9% in leuprolide), but hepatic transaminase elevations were numerically higher in the relugolix group (7.6%) compared to the leuprolide group (5.5%). The incidence of MACEs was numerically higher in the leuprolide group. Loss of bone mineral density was reported in similar proportions in both groups; there were no significant liver-related toxicities meeting Hy's law criteria in either group.
The HERO study, a phase III trial comparing relugolix with leuprolide in patients with advanced prostate cancer, demonstrated a robust methodology in terms of randomization, stratification, and sample size. Its open-label design, although potentially introducing bias, was mitigated by the objective nature of the primary outcome. The sensitivity analyses for the primary outcome and the approach to handling missing data enhance the study's robustness.
The applicability of the HERO study to typical Canadian practice may be limited due to several factors, including its lack of a clear definition of what constitutes locally advanced disease in the inclusion criteria and patient population. The study’s focus on biomarkers such as testosterone and PSA, although relevant for advanced prostate cancer, does not fully capture the clinical outcomes of the disease. The study also does not address the combination of ADT with other systemic therapies nor does it inform on relugolix’s use in patients undergoing radiation therapy. In addition, several additional standard-of-care medicines (available and reimbursed) in Canada that would ordinarily be combined with relugolix if it was approved in the MCSPC setting — abiraterone, enzalutamide, and apalutamide — were not permitted to be given concurrently in the HERO study. This raises concerns because of the potential use of relugolix in the MCSPC setting.
The selection of outcomes for Grading of Recommendations Assessment, Development and Evaluation (GRADE) assessment was based on the sponsor’s Summary of Clinical Evidence, consultation with clinical experts, and input received from patient and clinician groups and public drug plans. The following list of outcomes was finalized in consultation with expert committee members:
Summary of Findings for Relugolix Versus Leuprolide for Patients With Advanced Prostate Cancer.
None submitted.
The sponsor submitted an ITC designed to assess the efficacy and safety of relugolix compared to other medical ADTs available in Canada for adult male patients with advanced prostate cancer. The analysis included an NMA of RCTs identified from a systematic literature search that reported on testosterone suppression to castration levels and MACE outcomes at a 12-month (± 3 months) time point. The quality assessment of these RCTs utilized the Cochrane Risk of Bias tool. The NMA used a Bayesian framework, employing various models to estimate treatment effects for each outcome. Model fit assessment relied on the deviance information criterion, resulting in the selection of the random effects with informed prior model for testosterone castration and random-effects model with vague priors model for MACE as the primary analysis. An additional hierarchical approach was adopted, accounting for treatment class exchangeability and assuming normal distribution around class-specific means. Statistical heterogeneity was evaluated using the I2 statistic. Sensitivity analyses were conducted using different models and priors.
The NMA included 7 studies for testosterone suppression, defined as sustained chemical castration with testosterone levels lower than 50 ng/dL at 12 months (± 3 months). ||||||| ||||| ||| |||||||| ||||| || ||| ||||||||| |||||| ||||| ||| || ||||||| |||||||||||||||||| ||||| ||| |||||||| ||||| || ||| ||||||||| |||||| ||||| ||| || ||||||| |||||||||||||||||| ||||| ||| |||||||| ||||| || ||| ||||||||| |||||| ||||| ||| || |||||||.
The NMA included 4 studies for MACE, primarily comparing relugolix to degarelix and leuprolide. ||||||| ||||| ||| |||||||| ||||| || ||| ||||||||| |||||| ||||| ||| || ||||||| |||||||||||||||||| ||||| ||| |||||||| ||||| || ||| ||||||||| |||||| ||||| ||| || |||||||.
Various limitations of the ITC were noted, including the heterogeneity in study characteristics and patient populations. The exploration of between-study differences and potential biases was further limited by incomplete data in the published trials included in the networks. Clinical experts consulted for this CADTH review noted imbalances in certain prognostic factors and effect modifiers (baseline testosterone concentrations, metastatic status of participants, previous hormonal treatment), which raises concerns for bias in the comparisons in the NMA. The clinical experts noted that in the Canadian clinical practice MACE assessment occurs later than 12 months (± 3 months) and that profound castration levels (< 20 ng/dL) would have been a more appropriate outcome measure, thus presenting notable generalizability issues. Considering these limitations, there is a high risk of bias in the comparison in this NMA, and the direction of that bias is unclear; hence, the findings of the sponsor-submitted ITC remain highly uncertain.
The clinical evaluation of relugolix in advanced prostate cancer treatment encompassed 3 key studies. The phase II, open-label C27300 study focused on comparing relugolix with degarelix in patients with intermediate-risk localized prostate cancer, specifically assessing its role in neoadjuvant or adjuvant therapy with external beam radiation therapy. The phase I, open-label MVT-601-049 study investigated the combination of relugolix with abiraterone or apalutamide in patients diagnosed with either metastatic castration-sensitive or castration-resistant prostate cancer. The phase II, open-label Apa-RP study evaluated the efficacy of ADT in combination with apalutamide in patients who were treatment naive after radical prostatectomy, particularly those at high risk of metastases.
The C27300 study enrolled 103 patients, with 65 receiving relugolix and 38 receiving degarelix. The study showed relugolix achieved a sustained castration rate of 95% and a profound castration rate of 82% by 24 weeks. In comparison, degarelix showed a sustained castration rate of 89% and a profound castration rate of 68% by 24 weeks. The MVT-601-049 study included 25 patients, and demonstrated consistent testosterone suppression in combinations of relugolix with either abiraterone or apalutamide for 12 weeks treatment. The Apa-RP study, with 108 patients in the main study and 12 in the substudy, revealed a 100% sustained castration rate in both the substudy for 28 days and main study after 1 year.
In the C27300 study, the most common AEs were hot flushes (57%), fatigue (26%), and diarrhea (18%) in relugolix cohort. Deterioration in quality of life during treatment followed by improving health-related quality of life post treatment was noted when assessed with European Organisation for Research and Treatment of Cancer Quality of Life Questionnaire Core 30 (EORTC QLQ-C30) and QLQ-PR25. The MVT-601-049 study part 1 reported common AEs, including pain in extremity (20%), increased alanine transaminase (13.3%), and anemia (13.3%), with 1 SAE (6.7%) reported for a left femur fracture in the relugolix-abiraterone cohort (n = 15). The Apa-RP study identified hot flushes (50%) as the most common AE in the relugolix cohort (n = 12), with no significant SAEs or treatment discontinuations due to AEs reported.
The internal validity of these studies is limited due to their open-label nature and the absence of true comparators. This design potentially biases the reporting of AEs, which are typically reported by patients whose responses may be subjective. Furthermore, the objectives of phase I and phase II clinical trials are limited in terms of establishing causal inference. The study durations also may not be long enough to assess long-term outcomes, particularly MACEs, which were identified by the clinical experts as notable AEs in patients with advanced prostate cancer. Externally, the studies’ applicability to the Canadian context is questionable because none of the study sites were located in Canada. In addition, patients with cardiovascular diseases, a common comorbidity in the patient population with advanced prostate cancer, were excluded.
Cost and Cost-Effectiveness.
CADTH identified the following key limitations with the sponsor’s analysis:
The CADTH reanalysis estimated that the budget impact of reimbursing relugolix for the treatment of adult patients with advanced prostate cancer would result in cost savings to the drug plans of $864,382 across 3 years. CADTH conducted scenario analyses to address remaining uncertainty. Based on these results, CADTH found that the drug expenditure of relugolix is highly sensitive to the size of the eligible population and predicted market uptake. Estimates from these scenario analyses ranged from cost savings of $220,627 to $6,548,612 based on public list prices.
Dr. Maureen Trudeau (Chair), Mr. Daryl Bell, Dr. Phillip Blanchette, Dr. Kelvin Chan, Dr. Matthew Cheung, Dr. Michael Crump, Dr. Jennifer Fishman, Mr. Terry Hawrysh, Dr. Yoo-Joung Ko, Dr. Christian Kollmannsberger, Dr. Catherine Moltzan, Ms. Amy Peasgood, Dr. Anca Prica, Dr. Adam Raymakers, Dr. Patricia Tang, Dr. Marianne Taylor, and Dr. W. Dominika Wranik.
Meeting date: April 10, 2024
Regrets: Three expert committee member(s) did not attend.
Conflicts of interest: None.
Minor reconsideration pERC subpanel meeting date: July 9, 2024
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Indication: For the treatment of adult patients with advanced prostate cancer
Sponsor: Sumitomo Pharma Canada, Inc.
Final recommendation: Reimburse with conditions
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