In 2022, there were 18.7 deaths from prostate cancer per 100,000 men in the United States. This statistic shows the prostate cancer death rate in the United States from 1975 to 2022.

In 2022, there were around ** deaths from prostate cancer per 100,000 population in the state of Oregon, making it the state with the highest prostate cancer death rate that year. This statistic shows the death rate from prostate cancer in the U.S. in 2022, by state.

Legacy unique identifier: P00624

Rate: Number of deaths due to prostate cancer per 100,000 male population.

Definition: Number of deaths per 100,000 males with malignant neoplasm (cancer) of the prostate as the underlying cause of death (ICD-10 code: C61).

Data Sources:

(1) Centers for Disease Control and Prevention, National Center for Health Statistics. Compressed Mortality File. CDC WONDER On-line Database accessed at http://wonder.cdc.gov/cmf-icd10.html

(2) Death Certificate Database, Office of Vital Statistics and Registry, New Jersey Department of Health

(3) Population Estimates, State Data Center, New Jersey Department of Labor and Workforce Development

From 2018 to 2022, around 34 percent of prostate cancer deaths in the United States were among men aged 75 to 84 years. During that period, the median age of death for prostate cancer was 79 years. This statistic shows the distribution of prostate cancer deaths in the United States between 2018 and 2022, by age.

Mortality from prostate cancer (ICD-10 C61 equivalent to ICD-9 185). To reduce deaths from prostate cancer. Legacy unique identifier: P00627

In 2021, there were 32,563 deaths in the United States due to prostate cancer. This statistic shows the number of deaths due to prostate cancer in the United States from 1999 to 2021.

In the period 2018 to 2022, the death rate for prostate cancer among Hispanic Americans was **** per 100,000 population. This statistic shows the death rate for prostate cancer among U.S. males from 2018 to 2022, by race and ethnicity.

In 2024, there were an estimated 299,010 new cases of prostate cancer in the United States as well as 35,250 deaths. That year, prostate cancer cases accounted for almost 15 percent of all new cancer cases and around six percent of all deaths due to cancer. This statistic shows the number of prostate cancer cases and deaths in the United States in 2024.

Prostate cancer incidence rates in the United States vary significantly across racial and ethnic groups, with Non-Hispanic Black men facing the highest risk. According to recent data, Non-Hispanic Black males have an incidence rate of 194.8 per 100,000 population, which is substantially higher than the overall rate of 120.2 per 100,000. This stark disparity highlights the importance of targeted screening and prevention efforts to address this health inequality. Incidence and mortality trends The burden of prostate cancer in the U.S. has grown in recent years. In 2025, approximately 313,780 men were projected to be diagnosed with prostate cancer, representing a significant increase from previous years. Despite this rising incidence, mortality rates have shown improvement. In 2022, the prostate cancer death rate was 18.7 per 100,000 men, compared to a rate of almost 39 per 100,000 in the year 1990. This decrease reflects advancements in treatment and early detection. Risk factors and survival rates Age remains a critical risk factor for prostate cancer, with men aged 65 to 84 having a 10.6 percent chance of developing the disease. However, there is encouraging news regarding survival rates. From 2014 to 2020, the five-year relative survival rate for prostate cancer patients in the U.S. was an impressive 97 percent. This high survival rate underscores the importance of early detection and the effectiveness of current treatment options.

Deaths from prostate cancer - Directly age-Standardised Rates (DSR) per 100,000 population Source: Office for National Statistics (ONS) Publisher: Information Centre (IC) - Clinical and Health Outcomes Knowledge Base Geographies: Local Authority District (LAD), Government Office Region (GOR), National, Primary Care Trust (PCT), Strategic Health Authority (SHA) Geographic coverage: England Time coverage: 2005-07, 2007 Type of data: Administrative data

Prostate cancer mortality rates in Italy in 2021 varied considerably according to the region considered. According to the data, Sicily was the region with the highest rate of mortality due to prostate cancer, with a death rate of almost ** per 100,000 inhabitants. Calabria followed, with about **** men per 100,000 inhabitants deceased from a prostate tumor, in 2021.

This dataset contains Cancer Incidence data for Prostate Cancer(All Stages^) including: Age-Adjusted Rate, Confidence Interval, Average Annual Count, and Trend field information for US States for the average 5 year span from 2016 to 2020.Data are for males segmented age (All Ages, Ages Under 50, Ages 50 & Over, Ages Under 65, and Ages 65 & Over), with field names and aliases describing the sex and age group tabulated.For more information, visit statecancerprofiles.cancer.govData NotationsState Cancer Registries may provide more current or more local data.TrendRising when 95% confidence interval of average annual percent change is above 0.Stable when 95% confidence interval of average annual percent change includes 0.Falling when 95% confidence interval of average annual percent change is below 0.† Incidence rates (cases per 100,000 population per year) are age-adjusted to the 2000 US standard population (19 age groups: <1, 1-4, 5-9, ... , 80-84, 85+). Rates are for invasive cancer only (except for bladder cancer which is invasive and in situ) or unless otherwise specified. Rates calculated using SEER*Stat. Population counts for denominators are based on Census populations as modified by NCI. The US Population Data File is used for SEER and NPCR incidence rates.‡ Incidence Trend data come from different sources. Due to different years of data availability, most of the trends are AAPCs based on APCs but some are APCs calculated in SEER*Stat. Please refer to the source for each area for additional information.Rates and trends are computed using different standards for malignancy. For more information see malignant.^ All Stages refers to any stage in the Surveillance, Epidemiology, and End Results (SEER) summary stage.Data Source Field Key(1) Source: National Program of Cancer Registries and Surveillance, Epidemiology, and End Results SEER*Stat Database - United States Department of Health and Human Services, Centers for Disease Control and Prevention and National Cancer Institute. Based on the 2022 submission.(5) Source: National Program of Cancer Registries and Surveillance, Epidemiology, and End Results SEER*Stat Database - United States Department of Health and Human Services, Centers for Disease Control and Prevention and National Cancer Institute. Based on the 2022 submission.(6) Source: National Program of Cancer Registries SEER*Stat Database - United States Department of Health and Human Services, Centers for Disease Control and Prevention (based on the 2022 submission).(7) Source: SEER November 2022 submission.(8) Source: Incidence data provided by the SEER Program. AAPCs are calculated by the Joinpoint Regression Program and are based on APCs. Data are age-adjusted to the 2000 US standard population (19 age groups: <1, 1-4, 5-9, ... , 80-84,85+). Rates are for invasive cancer only (except for bladder cancer which is invasive and in situ) or unless otherwise specified. Population counts for denominators are based on Census populations as modified by NCI. The US Population Data File is used with SEER November 2022 data.Some data are not available, see Data Not Available for combinations of geography, cancer site, age, and race/ethnicity.Data for the United States does not include data from Nevada.Data for the United States does not include Puerto Rico.

According to Cognitive Market Research, The Prostate Cancer Therapeutics Market will be USD XX Billion in 2023 and is set to achieve a market size of USD XX Billion by the end of 2031 growing at a CAGR of XX% from 2024 to 2031. North America held the major market share for more than XX% of the global revenue with a market size of USD XX million in 2024 and will grow at a compound annual growth rate (CAGR) of XX % from 2024 to 2031. The Asia Pacific region is the fastest-growing market with a CAGR of XX% from 2024 to 2031 and it is projected that it will grow at a CAGR of XX% in the future. Europe accounted for a market share of over XX% of the global revenue with a market size of USD XX million. Latin America had a market share for more than XX% of the global revenue with a market size of USD XX million in 2024 and will grow at a compound annual growth rate (CAGR) of XX% from 2024 to 2031. Middle East and Africa had a market share of around XX% of the global revenue and was estimated at a market size of USD XX million in 2024 and will grow at a compound annual growth rate (CAGR) of XX% from 2024 to 2031. The Prostate Cancer Therapeutics Market held the highest market revenue share in 2024.

Market Dynamics of The Prostate Cancer Therapeutics Market

Key Drivers for The Prostate Cancer Therapeutics Market

Growing Prevalence of Prostate Cancer fuels the Growth of the Prostate Cancer Therapeutics Market

The market for Prostate Cancer therapeutics is anticipated to develop in the future due to the Growing incidence of prostate cancer. According to the National Cancer Institute, the National Institute of Health (The U.S.) depicts that out of roughly 200,000 cases that were reported in 2020, there were 34,000 deaths from prostate cancer, representing a mortality rate of 5.5%. The analysis suggests that 12.1% of men are expected to develop prostate cancer in their lifetime. Thus, the mortality rate increased due to the growing prevalence of prostate cancer. For instance, in January 2024, according to the American Cancer Society, a US-based voluntary health organization dedicated to eliminating cancer, it was estimated that there were about 299,010 new cases of prostate cancer and about 35,250 deaths from prostate cancer. About 1 man in 8 will be diagnosed with prostate cancer during his lifetime. Therefore, the rising incidence of cancer is driving the growth of the prostate cancer drugs market. Source:(https://www.cancer.org/cancer/types/prostate-cancer/about/key-statistics.html) Therefore, the rising prevalence of prostate cancer is propelling the growth of the prostate cancer therapeutics market, highlighting the urgent need for effective treatment options.

Biotechnological innovation in prostate cancer treatment drugs to Drive the Global Market of Prostate Cancer Therapeutics.

The market for prostate cancer medications is significantly influenced by the Biotechnological research and development innovation in prostate cancer treatment drugs. Recent developments in prostate cancer therapies have integrated several bioinformatics and computational biology applications to attain the best possible cancer treatment. Market participants have discovered a successful way to develop new cures and treatments with a targeted approach that includes whole-genome sequencing, exome profiling, and proteome profiling. For instance, Biopep Solutions Inc. is a privately owned development-stage biotechnology company that discovers and develops innovative therapeutic products for the treatment of cancers and other diseases. This Canada-based company focuses its efforts on the development of BPS-001, which is a complex, multivalent biologic drug that possesses anti-tumour attributes. There is a huge demand for innovation in the prostate cancer therapeutics market for products that have enhanced survival time, less toxicity, increased progression-free survival, increased efficacy, and lower cost. Source:(https://www.biopeps.com/bps-001-mechanism-of-action/) Therefore, with a growing population of elderly men worldwide, the demand for prostate cancer therapeutics is expected to soar, emphasizing the importance of tailored medical solutions to address this demographic trend.

Restraint Factor for The Prostate Cancer Therapeutics Market

Recurrent/Non-Responsive Prostate Cancer restrains the growth of the Prostate Cancer Therapeutics market.

The challenge of Recurrent/no...

Cancer was responsible for around *** deaths per 100,000 population in the United States in 2023. The death rate for cancer has steadily decreased since the 1990’s, but cancer still remains the second leading cause of death in the United States. The deadliest type of cancer for both men and women is cancer of the lung and bronchus which will account for an estimated ****** deaths among men alone in 2025. Probability of surviving Survival rates for cancer vary significantly depending on the type of cancer. The cancers with the highest rates of survival include cancers of the thyroid, prostate, and testis, with five-year survival rates as high as ** percent for thyroid cancer. The cancers with the lowest five-year survival rates include cancers of the pancreas, liver, and esophagus. Risk factors It is difficult to determine why one person develops cancer while another does not, but certain risk factors have been shown to increase a person’s chance of developing cancer. For example, cigarette smoking has been proven to increase the risk of developing various cancers. In fact, around ** percent of cancers of the lung, bronchus and trachea among adults aged 30 years and older can be attributed to cigarette smoking. Other modifiable risk factors for cancer include being obese, drinking alcohol, and sun exposure.

Number and percentage of incident cases of prostate cancer and deaths by age group.

BackgroundThe success of the “war on cancer” initiated in 1971 continues to be debated, with trends in cancer mortality variably presented as evidence of progress or failure. We examined temporal trends in death rates from all-cancer and the 19 most common cancers in the United States from 1970–2006.Methodology/Principal FindingsWe analyzed trends in age-standardized death rates (per 100,000) for all cancers combined, the four most common cancers, and 15 other sites from 1970–2006 in the United States using joinpoint regression model. The age-standardized death rate for all-cancers combined in men increased from 249.3 in 1970 to 279.8 in 1990, and then decreased to 221.1 in 2006, yielding a net decline of 21% and 11% from the 1990 and 1970 rates, respectively. Similarly, the all-cancer death rate in women increased from 163.0 in 1970 to 175.3 in 1991 and then decreased to 153.7 in 2006, a net decline of 12% and 6% from the 1991 and 1970 rates, respectively. These decreases since 1990/91 translate to preventing of 561,400 cancer deaths in men and 205,700 deaths in women. The decrease in death rates from all-cancers involved all ages and racial/ethnic groups. Death rates decreased for 15 of the 19 cancer sites, including the four major cancers, with lung, colorectum and prostate cancers in men and breast and colorectum cancers in women.Conclusions/SignificanceProgress in reducing cancer death rates is evident whether measured against baseline rates in 1970 or in 1990. The downturn in cancer death rates since 1990 result mostly from reductions in tobacco use, increased screening allowing early detection of several cancers, and modest to large improvements in treatment for specific cancers. Continued and increased investment in cancer prevention and control, access to high quality health care, and research could accelerate this progress.

Years of Life Lost (YLL) as a result of death from prostate cancer - Directly age-Standardised Rates (DSR) per 100,000 population Source: Office for National Statistics (ONS) Publisher: Information Centre (IC) - Clinical and Health Outcomes Knowledge Base Geographies: Local Authority District (LAD), Government Office Region (GOR), National, Primary Care Trust (PCT), Strategic Health Authority (SHA) Geographic coverage: England Time coverage: 2005-07, 2007 Type of data: Administrative data

The cancer type with the highest age-standardized mortality rate in Latin America and the Caribbean in 2022 was prostate cancer with **** deaths per 100,000 population. Breast cancer ranked second, with a mortality rate of **** people per 100,000 population. In that year, breast cancer was the cancer type with the highest prevalence in the region.

ABSTRACT: Objective: To analyze cancer-specific mortality (CSM) and other-cause mortality (OCM) among patients with prostate cancer that initiated treatment in the Brazilian Unified Health System (SUS), between 2002 and 2010, in Brazil. Methods: Retrospective observational study that used the National Oncological Database, which was developed by record-linkage techniques used to integrate data from SUS Information Systems, namely: Outpatient (SIA-SUS), Hospital (SIH-SUS), and Mortality (SIM-SUS). Cancer-specific and other-cause survival probabilities were estimated by the time elapsed between the date of the first treatment until the patients’ deaths or the end of the study, from 2002 until 2015. The Fine-Gray model for competing risk was used to estimate factors associated with patients’ risk of death. Results: Of the 112,856 studied patients, the average age was 70.5 years, 21% died due to prostate cancer, and 25% due to other causes. Specific survival in 160 months was 75%, and other-cause survival was 67%. For CSM, the main factors associated with patients’ risk of death were: stage IV (AHR = 2.91; 95%CI 2.73 - 3.11), systemic treatment (AHR = 2.10; 95%CI 2.00 - 2.22), and combined surgery (AHR = 2.30, 95%CI 2.18 - 2.42). As for OCM, the main factors associated with patients’ risk of death were age and comorbidities. Conclusion: The analyzed patients with prostate cancer were older and died mainly from other causes, probably due to the presence of comorbidities associated with the tumor.