Abstract

Prostate cancer (PCa) is a highly prevalent condition among men worldwide, resulting in reduced quality of life and increased costs to health systems due to hospitalization and death. This study aimed to explore and understand the evolution of PCa in Brazil from 2008 to 2018. Data were obtained from the National Health System Department of Informatics (DATASUS) using code C61 for malignant prostatic neoplasms. We presented the hospitalization and mortality rates in a temporal-, regional- and age-dependent manner. From 2008 to 2018, a year-dependent increase in hospital admissions due to PCa was reported in Brazil, in which the Southeast region showed the highest prevalence. Men aged ≥80 and those 70-79 years old had similar hospitalization rates, followed by men aged 60-69, 50-59, 40-49 and 30-39 years old. Similarly, an increase in deaths due to PCa was reported during this period, with the highest rates seen in the Southeast. Men aged ≥80 years had higher mortality rates, followed by those aged 70-79, 60-69, 50-59, 40-49 and 30-39 years old. The results obtained indicate an age- and region-dependent increase in PCa morbidity and mortality in Brazil overtime and may contribute to the ongoing discussion on the role and future perspective of the health care system in Brazil.

Keywords:
Prostate cancer; Brazilian epidemiology; Hospitalization rate; Mortality rate; Public health care

INTRODUCTION

Aging has emerged as a global public health concern. Its association with prolonged exposure to environmentally harmful factors and unhealthy lifestyle is considered an important risk factor for the development of chronic diseases, such as urological disease (Calmasini et al., 2016Calmasini FB, Silva FH, Alexandre EC, Rodrigues RL, Barbosa AP, Ferrucci DL, et al. Implication of Rho-Kinase and Soluble Guanylyl Cyclase Enzymes in Prostate Smooth Muscle Dysfunction in Middle-Aged Rats. Neurourol Urodyn. 2017; 36(6):589-596.; Lopes et al., 2022Lopes TDS, Fritoli RB, Silva FH, Calmasini FB. Aging-associated prostate smooth muscle hypercontractility in rats. Braz J Pharm Sci. 2022; 58:e21063.; Oliveira et al., 2019Oliveira MG, Alexandre EC, Bonilla-Becerra SM, Bertollotto GM, Justo AFO, Monica FZ, et al. Autonomic dysregulation at multiple sites is implicated in age associated underactive bladder in female mice. Neurourol Urodyn . 2019; 38(5):1212-1221.), cardiovascular disease (Brandes, Fleming, Busse, 2005Brandes RP, Fleming I, Busse R. Endothelial aging. Cardiovasc Res. 2005; 66(2):286-294.; Parreira et al., 2018Parreira LB, Vitorino PV, Jardim PCBV, Sousa ALL, Jardim TV, Sousa WM, et al. Comparison Between Supervised and Partly Supervised Cardiac Rehabilitation Protocols in Hypertensive Patients: A Randomized Controlled Trial. Curr Hypertens Rev. 2018; 14 (2):161-169.), Alzheimer’s (Xia et al., 2018Xia X, Jiang Q, Mcdermott J, Dong J. Aging and Alzheimer ’ s disease : Comparison and associations from molecular to system level. Aging Cell. 2018; 17:1-14.) and cancer (Schneider et al., 2019Schneider L, Su LJ, Arab L, Bensen JT, Farnan L, Fontham ETH, et al. Dietary patterns based on the Mediterranean diet and DASH diet are inversely associated with high aggressive prostate cancer in PCaP. Ann Epidemiol . 2019; 29:16-22.e1.).Studies in the literature have addressed several pathways in order to understand the link between aging and cancer, such as protein degradation, decreased enzyme activity, increased redox signalling and cellular proliferation (Ghatak, Ho, 1996Ghatak S, Ho SM. Age-Related Changes in the Activities of Antioxidant Enzymes and LipidPeroxidation Status in Ventral and Dorsolateral Prostate Lobes of Noble Rats. Biochem Biophys Res Commun. 1996; 222(2):362-367.; Lakkur et al., 2014Lakkur S, Goodman M, Bostick RM, Citronberg J, McClellan W, Flanders WD, et al. Oxidative balance score and risk for incident prostate cancer in a prospective U.S. cohort study. Ann Epidemiol. 2014; 24(6):475-478.e4.; Vaz et al., 2015Vaz CV, Marques R, Maia CJ, Socorro S. Aging-associated changes in oxidative stress, cell proliferation, and apoptosis are prevented in the prostate of transgenic rats overexpressing regucalcin. Transl Res. 2015; 166(6):693-705.). However, due to the multifactorial pathophysiology of cancer, the link between aging and cancer is still unclear.

Prostate cancer (PCa) is one of the most prevalent conditions affecting men, and lead to high hospitalization and mortality rates worldwide (Bergengren et al., 2023Bergengren O, Pekala KR, Matsoukas K, Fainberg J, Mungovan SF, Bratt O, et al. 2022 update on prostate cancer epidemiology and risk factors - A systematic review. Eur Urol. 2023; 84(2):191-206.). It is a silent disease, and a lack of symptoms may decrease the odds of early diagnosis and successful treatment, negatively affecting patient outcomes (Castro et al., 2011Castro HAS, Iared W, Shigueoka DC, Mourao JE, Ajzen S. Contribution of PSA density in the prediction of prostate cancer in patients with PSA values between 2.6 and 10 ng/mL. Radiol Bras. 2011; 44(4):205-209.; Guo et al., 2018Guo T, Wang X, Fu H, Tang Y, Meng B, Chen C. Early diagnostic role of PSA combined miR-155 detection in prostate cancer. Eur Rev Med Pharmacol Sci. 2018; 22(6):1615-1621.). Although newer drugs approved for PCa therapy exhibit fewer side effects and better efficacy, aggressive treatment may elicit several unwanted detrimental effects in the patient. Moreover, the cost of cancer treatment is very high, which negatively impacts the public health care system (Imber et al., 2019Imber BS, Varghese M, Ehdaie B, Gorovets D. Financial toxicity associated with treatment of localized prostate cancer. Nat Rev Urol. 2020; 17(1):28-40.).

In this regard, epidemiological studies are valuable tools for better understanding the trends related to a specific disease in a determinate region, population and sex. Such studies may help health systems and governments plan, execute and evaluate strategic interventions to prevent, control and treat specific diseases or conditions. Several epidemiological studies addressing PCa prevalence have been conducted across Europe and the United States (Duncan, Goldacre, 2010Duncan ME, Goldacre MJ. Mortality trends for benign prostatic hyperplasia and prostate cancer in English populations. BJU Int. 2011; 107(1):40-45.; Li, Siegel, King, 2018Li J, Siegel DA, King JB. Stage-specific incidence rates and trends of prostate cancer by age, race, and ethnicity, United States, 2004-2014. Ann Epidemiol . 2018; 28(5):328-330.; McMahon et al., 2019McMahon DM, Burch JB, Hébert JR, Hardin JW, Zhang J, Wirth MD, et al. Diet-related inflammation and risk of prostate cancer in the California Men’s Health Study. Ann Epidemiol . 2019; 29:30-38.); however, in developing countries such as Brazil, epidemiological reports are still scarce. This study aimed to understand the PCa profile in Brazil from 2008 to 2018. Specifically, we aimed to identify the PCa-associated hospitalization and mortality rates according to patient age and geographical region.

MATERIAL AND METHODS

This cross-sectional study was conducted between November and December 2019 and included hospital admission and deaths associated with malignant prostate neoplasia in male individuals over 30 years of age. The inclusion criterion was defined as subjects within the above-mentioned age who were living in Brazil between January 1^st, 2008 and December 31^st, 2018.

The data were retrieved from the National Health System Department of Informatics (DATASUS), which comprises registers collected through Municipal Health Secretaries and is freely available for consultation. DATASUS provides hospitalization and mortality data through the hospital and mortality information systems, respectively (Ministry of Health, 2019Brazil, Ministry of Health. DATASUS. Mortality Information System (SIM) and Hospital Information System (SIH) [Internet]. Brasilia (DF): Ministry of Health 2019. [cited 2019 Nov 11]. Available in: Available in: http://www2.datasus.gov.br
http://www2.datasus.gov.br... ). The methodology of data collection did not change during the study period.

Information regarding the male population residing in Brazil and its geographic regions was collected from the Brazilian Institute of Geography and Statistics (IBGE) website (Candiago, Abreu, 2007Candiago RH, Abreu PB De. Use of DATASUS to evaluate psychiatric inpatient care patterns in Southern Brazil. Rev Saude Publica. 2007; 41(5):821-9.). Demographic data on the population and cartographic bases of the Brazilian Federal Units and regions were obtained from the last census conducted in 2010.

In the present study, we used the International Classification of Diseases (ICD) version 10 (ICD-10) code C61 for malignant prostate neoplasia on DATASUS. Thus, the individuals for who information was extracted were not individually identified. This study did not require approval from the ethics committee.

For the proportional rates of hospitalization and deaths, we used the male population by age, region or calendar year as the denominators and the total number of hospitalizations and deaths as numerators. To understand the pattern of prostatic neoplasia, single linear regression was applied to evaluate trends in hospitalization and mortality rates by age and calendar year. The groups were compared using the Student’s t-test (parametric data). Data were analyzed using Prism version 6.0 (GraphPad Software, San Diego, CA, U.S.A) and a value of P<0.05 was considered statistically significant.

RESULTS

According to the last census from the IBGE, the total Brazilian population was 190,732,694, of which 44.28 million were men over 30 years old. Men aged 30-39 years old are the main age-related group included in this study, consisting of approximately 14.4 million people, followed by men aged 40-49 (12.02million), 50-59 (8.72 million), 60-69 (5.26 million), 70-79 (2.75 million) and 80 years old or older (1.13 million) (Figure 1A). In terms of population density, the Southeast region is the most populous geographic region in Brazil with 19.80 million male individuals over 30 years old, followed by the Northeast, South, Midwest and North with 11.31, 6.85, 3.27 and 3.14 million, respectively (Figure 1B). Considering men aged ≥30 years old, a total of 283,083 hospitalizations due to PCa have been reported in Brazil between 2008 and 2018 (Table I). To obtain a better understanding of the PCa profile in Brazil, we evaluated hospitalizations according to the geographic regions where they were registered. The total number of hospitalizations was analyzed before and after correction for the respective regional populations, as follows. We found 149,612 hospitalizations registered in the Southeast, 62,290 in the Northeast, 46,266 in the South, 7,599 in the North and 17,316 in the Midwest (Table I). Correcting these numbers by the proportional population per million inhabitants, the Southeast region still had the highest number of hospitalization (7,556 individuals), followed by the South (6,754), Northeast (5,508), Midwest (5,295) and North (2,420) (Figure 2A). It is important to note that the number of hospitalizations registered from 2008 to 2018 in Brazil increased over time, as indicated in Figure 2B.

FIGURE 1
Distribution of Brazilian population by regions and age.

FIGURE 2
Proportional hospitalization by prostate cancer (ICD-10: C61) according to region (A), calendar year (B) and hospitalization rates according to their respectively population (C). Note the increased hospitalization rates over time, the higher rates in the Southeast region and the similar rates between men aged 70-79 and 80 or older. Rates per million inhabitants; yo=years old.

The total number of hospitalizations was stratified by age and the highest number of hospitalization was seen in men aged 60-69 years, followed by men aged 70-79, 80 or older, 50-59, 40-49 and 30-39 years (Table I). However, if the total number of hospitalizations was corrected by the number of the respective age group, a similar rise in the hospitalization rate was seen between men aged 80 years or older (P<0.001, R2=0.901) and men aged 70-79 years (P<0.0001, R2=0.981), followed by a steady rise in men aged 60-69 (P<0.0001, R2=0.989), 50-59 (P<0.0001, R2=0.918) and 40-49 years (P=0.006, R2=0.584) (Figure 2C). In contrast, no increase was observed in men aged 30-39 years overtime (P=0.45, R2=0.062; Figure 2C).

During the period analyzed, 25,017 deaths from PCa were reported in Brazilian men aged >30 years old (Table I). Similar to the hospitalization rates, the Southeast region had the highest number of deaths (13,002), followed by the Northeast (4,898 deaths), South (4,419 deaths), Midwest (1,719 deaths) and North (979 deaths) (Table I). However, when the mortality numbers were divided by the proportional population per million inhabitants, a different profile was obtained. The Southwest region had the highest mortality rate (657 deaths), followed by the South (645), Midwest (526), Northeast (433) and North (312) regions (Figure 3A). Importantly, total mortality increased drastically from 2008 to 2018 (Figure 3B).

FIGURE 3
Proportional of deaths by prostate cancer (ICD-10: C61) according to region (A), calendar year (B) and mortality rates according to their respectively population (C). Note the increased mortality rates over time, especially in men aged 80 or older and 70-79, and the higher rates in the South and Southeast regions. Rates per million inhabitants; yo=years old.

Considering the age groups, the highest mortality rate was found in men aged 70-79 years, followed by those aged 80 or older, 60-69, 50-59, 40-49 and 30-39 years old (Table I).When the mortality data were corrected for the number of patients in each age group, we found a steady increase in deaths due to prostatic neoplasia, especially in older subjects (Figure 3C). The above-mentioned increase was greater in men aged 80 or older (P<0.0001, R2=0.967), followed by men aged 70-79 (P<0.0001, R2=0.977), 60-69 (P<0.0001, R2=0.931) and 50-59 years (P<0.0001, R2=0.815) (Table I). No statistically significant differences were observed in men aged 40-49 years (P=0.38, R2=0.0833) and no deaths were reported in subjects aged 30-39 years (Figure 3C).

DISCUSSION

In the present epidemiological study, we have demonstrated an increase in hospitalization and mortality rates by PCa in Brazilian men over 30 years old between 2008 and 2018. Specifically, the results obtained here indicate higher absolute and relative numbers of hospitalizations and deaths due to PCa in the Southeast region of Brazil. In contrast, the Northern region exhibited the lowest rates of hospitalization and deaths due to PCa. We also found age-dependent rates of hospitalization and mortality in Brazilian men, which is in accordance with epidemiological data from other countries.

Over the analysis period, an increased number of overall hospitalizations were observed among Brazilian men. The prevalence was highest in men aged 80 years or older and those aged 70-79 years, followed by 60-69, 50-59 and 40-49 years old, indicating an age-dependent tendency. The results presented here are in accordance with previous clinical reports, indicating a well-described relationship between aging and PCa (Bergengren, et al., 2023Bergengren O, Pekala KR, Matsoukas K, Fainberg J, Mungovan SF, Bratt O, et al. 2022 update on prostate cancer epidemiology and risk factors - A systematic review. Eur Urol. 2023; 84(2):191-206.). Similarly, mortality rates were higher in aged men than in young men, further corroborating this age-dependent phenomenon. A possible explanation for both conditions could be the increase in life expectancy in the Brazilian population, which could account for the increased PCa prevalence and mortality in older men. However, considering that 1) life expectancy has increased worldwide and 2) developed countries have decreased mortality due to PCa in recent decades (Duncan, Goldacre, 2010Duncan ME, Goldacre MJ. Mortality trends for benign prostatic hyperplasia and prostate cancer in English populations. BJU Int. 2011; 107(1):40-45.; Rawla, 2019Rawla P. Epidemiology of Prostate Cancer. World J Oncol. 2019; 10(2):63-89.), such an explanation is not accurate. Therefore, we suggest that the increased mortality in Brazil, which is in contrast to that in some developed countries, may be considered an indication that 1) the National Health Service is not resolving the demand for this type of cancer and/or 2) there is a lack or inefficient implementation of awareness programs for prostate cancer screening.

One of the most clinically employed examinations used as an indicator of prostate health is the digital rectal examination. Despite some limitations, such as invasiveness and nonpalpable prostatic areas, this examination is a cheap, simple and reliable method for evaluating prostate anatomy (Castro et al., 2011Castro HAS, Iared W, Shigueoka DC, Mourao JE, Ajzen S. Contribution of PSA density in the prediction of prostate cancer in patients with PSA values between 2.6 and 10 ng/mL. Radiol Bras. 2011; 44(4):205-209.). This anatomical evaluation may be further associated with biochemical measurements such as prostate-specific antigen (PSA) levels, thereby increasing the accuracy of prostate screening (Castro et al., 2011Castro HAS, Iared W, Shigueoka DC, Mourao JE, Ajzen S. Contribution of PSA density in the prediction of prostate cancer in patients with PSA values between 2.6 and 10 ng/mL. Radiol Bras. 2011; 44(4):205-209.). Although digital rectal examination and PSA test are currently the standard protocols for the initial prostatic cancer diagnosis (Nogueira, Corradi, Eastham, 2009Nogueira L, Corradi R, Eastham JA. Prostatic Specific Antigen for Prostate Cancer detection. Int Brazilian J Urol. 2009; 35(5):521-531.), there is no medical consensus regarding the PSA periodicity especially for older patients (Chen et al., 2018Chen Y, Fan Y, Yang Y, Jin J, Zhou L, He Z, et al. Are prostate biopsies necessary for all patients 75 years and older? J Geriatr Oncol. 2018; 9(2):124-129.; Steffen et al., 2018Steffen RE, Trajman A, Santos M, Caetano R. Population screening for prostate cancer: more risks than benefits. Physis. 2018; 28(2):1-12.). Nonetheless, after the implementation of PSA testing in clinical practice, the incidence of undiagnosed PCa has decreased worldwide. For instance, studies addressing the British population showed a steady increase in mortality due to PCa until the early 80s, which stabilized around 1992 and declined thereafter, suggesting that PSA examination implementation in the clinic led to early PCa diagnosis and higher efficacy of PCa treatments (Duncan, Goldacre, 2010Duncan ME, Goldacre MJ. Mortality trends for benign prostatic hyperplasia and prostate cancer in English populations. BJU Int. 2011; 107(1):40-45.; Hussain et al., 2009Hussain S, Gunnell D, Donovan J, McPhail S, Hamdy F, Neal D, et al. Secular trends in prostate cancer mortality , incidence and treatment : England and Wales , 1975-2004. BJU Int . 2008; 101(5):547-555.). Therefore, increased access to this clinical advancement might explain the higher rate of hospitalization in Brazil overtime. It is important to note that both examinations are considered indicative of prostate health and for cancer diagnosis, other specific examinations are required (Sanda et al., 2008Sanda MG, Dun RL, Michalski J, Sandler HM, Northhouse L, Hembroff L, et al. Quality of life and satisfaction with outcome among prostate-cancer survivors. N Engl J Med. 2008; 358(12):1250-1261.).

Several interventions have been employed to treat PCa, including androgen deprivation therapy (Beck et al., 2019Beck M, Böhmer D, Aebersold DM, Albrecht C, Flentje M, Ganswindt U, et al. Role of combined radiation and androgen deprivation therapy in intermediate-risk prostate cancer Statement from the DEGRO working group on prostate cancer. Strahlentherapie und Onkol. 2020; 196(2):109-116.), chemotherapy/radionuclide drugs (Cetin, Ozet, 2019Cetin B, Ozet A. The Potential for Chemotherapy-Free Strategies in Advanced Prostate Cancer. Curr Urol. 2019; 13(2):57-63.) and total or partial prostatectomy (Imber et al., 2019Imber BS, Varghese M, Ehdaie B, Gorovets D. Financial toxicity associated with treatment of localized prostate cancer. Nat Rev Urol. 2020; 17(1):28-40.). However, these are often accompanied by adverse effects, including lower urinary tract symptoms, which are present in approximately 80% of men treated for PCa, such as urinary incontinence, urinary obstruction and erectile dysfunction (Alemozaffar et al., 2011Alemozaffar M, Regan M, Cooperberg M, Wei JT, Michslski JM, Sandler HM, et al. Prediction of erectile function following treatment for prostate cancer. JAMA. 2011; 306(11):1205-14.; Tang et al., 2019Tang J, Zhong L, Paoli C, Paciorek A, Carroll P, Wilson L. Longitudinal Comparison of Patient-Level Outcomes and Costs Across Prostate Cancer Treatments With Urinary Problems. Am J Mens Health. 2019; 13(2):1557988319835326.). In addition to urological symptoms, medical conditions related to the cardiovascular system such as myocardial infarction, coronary heart disease and stroke are the most frequently reported events in patients under pharmacological treatment (Riihimaki et al., 2011Riihimaki M, Thomsen H, Brandt A, Sundquist J, Hemminki K. What Do Prostate Cancer Patients Die Of? Oncol. 2011; 16(2):175-181.). Thus, the higher prevalence of PCa in Brazilian men and consequently the increased number of patients undergoing treatment may reflect the increase in hospitalization rates observed in the present study over the years in Brazil (Riihimaki et al., 2011Riihimaki M, Thomsen H, Brandt A, Sundquist J, Hemminki K. What Do Prostate Cancer Patients Die Of? Oncol. 2011; 16(2):175-181.).

To overcome PCa t reatment-associated hospitalization and improve treatment efficacy, the Brazilian Ministry of Health has published guidelines addressing PCa diagnosis and therapeutics (Ministry of Health, 2016Brazil, Ministry of Health. Diretrizes diagnósticas e terapêuticas do adenocarcinoma de próstata[Internet]. Brasilia (DF): Ministry of Health 2016. Available in: http://antigo-conitec.saude.gov.br/images/Protocolos/DDT/DDT_AdenocarcinomadeProstata_.pdf
http://antigo-conitec.saude.gov.br/image... ). Accordingly, one of the suggested clinical protocols to reduce adverse effects related to pharmacological PCa treatment and ensure its efficacy is intermittent treatment with androgenic inhibitors. Although still controversial, some studies have indicated similar efficacy between intermittent and continuous hormonal inhibition clinical protocols, but a better quality of life for patients who are subjected to the intermittent protocol (Magnan et al., 2015Magnan S, Zarychanski R, Pilote L, Bernier L, Shemilt M, Vigneault E, et al. Intermittent vs continuous androgen deprivation therapy for prostate cancer: A systematic review and meta-analysis. JAMA Oncol. 2015; 1(9):1261-9.). Other clinical alternatives to improve PCa pharmacological treatment and avoid adverse effects are: 1) early onset of androgenic inhibition therapy and 2) docetaxel treatment as the first choice for metastatic PCa resistant to androgen deprivation. Early hormonal treatment is associated with reduced PCa progression and increased overall 10-year patient survival. (Nair et al., 2002Nair B, Wilt T, MacDonald R, Rutks I. Early versus deferred androgen supression in the treatment od advanced prostatic cancer. Cochrane Database Syst Rev . 2002; (1):CD003506.; Kunath F et al., 2019Kunath F, Jensen K, Pinart M, Kahlmeyer A, Schmidt S, Price CL, et al. Early versus deffered standard androgen suppression therapy for advanced hormone-sensitive prostate cancer. Cochrane Database Syst Rev. 2019; 6(6):CD003506.). Similarly, docetaxel treatment has been shown to have higher efficacy in PCa treatment, with less impact on the patients’ quality of life (Tannock et al., 2004Tannock IF, de Wit R, Berry WR, Horti J, Pluzanska A, Chi KN, et al. Docetaxel plus prednisone or mitoxantrone plus prednisone for advance prostate cancer. N Engl J Med . 2004; 351(15):1502-12.). Collectively, these clinical options may contribute to lower hospitalization and mortality rates in PCa. Moreover, these guidelines are a valuable contribution from the Brazilian government for PCa treatment and may contribute to restraining the increasing number of hospitalization due to PCa over time in Brazil.

Fonseca et al. (2021Fonseca PB, Albuquerque PC, Saldanha RF, Zicker F. Geographic accessibility to cancer treatment in Brazil: A network analysis. The Lancet Regional Health. 2021; 7:100153.) reported a significant increase in procedures related to patients with cancer in Brazil between 2009-2010 and 2017-2018. Surgical intervention, radiotherapy and chemotherapy increased by 56,8%, 45,3% and 55,2%, respectively. Notably, the proportion of patients commuting to other municipalities for treatment has increased slightly. In 2009-2010, 54.6%, 59.0%, and 49.2% of patients undergoing surgery, radiotherapy and chemotherapy, respectively, traveled to other municipalities. By 2017-2018, these figures increased to 56.9%, 60.7%, and 54.2%, respectively. In both time periods, cancer patients who had to travel for treatment covered an average distance of 166.9 km, 167.8 km, and 139.2 km for surgical, radiotherapy, or chemotherapy treatment, respectively. These travel distances remained similar in 2017-2018, with 152.8 km for surgeries, 167.1 km for radiotherapy, and 139.0 km for chemotherapy. These data showed an increased in the number of procedures over time, which suggests better diagnosis, availability of medical services and better management of reference services. However, it also shows that Brazil still faces a geographic accessibility issue, similar to other low-and middle-income countries such as Malaysia and Colombia (Yahya et al. 2019Yahya N, Sukiman NK, Suhaimi NA, Azmi NA, Manan HA. How many roads must a Malaysian walk down? Mapping the accessibility of radiotherapy facilities in Malaysia. PLoS ONE. 2019; 14(3):e0213583.; de Vries et al. 2018de Vries E, Buitrago G, Quitian H, Wiesner C, Castillo JS. Access to cancer care in Colombia, a middle-income country with universal health coverage. J Cancer Policy. 2018; 15(Part B):104-12.). A previous report showed that 7.1% of deaths in Brazil were related to a lack of medical support, highlighting the differences between regions (Santo, 2003Santo AH. Causas mal definidas de morte e óbito sem assistência. Rev Ass Med Bras. 2008; 54(1):23-28.). This region-dependent phenomenon may be related to massive inequalities and differences in regional health policies, resulting in different levels of access to medical support (Albuquerque et al., 2017Albuquerque MV, Viana ALD, Lima LD, Ferreira MP, Fusaro ER, Iozzi FL. Regional health inequalities: Changes observed in Brazil from 2000-2016. Cien Saude Colet. 2017; 22(4):1055-1064.; Santo, 2003Santo AH. Causas mal definidas de morte e óbito sem assistência. Rev Ass Med Bras. 2008; 54(1):23-28.). In our study, we found that the Northeast and North were the most affected regions, with deaths due to inefficient medical support representing 18.1% and 13.5% of all cases, respectively. Intriguingly, we showed for the first time that the hospitalization and mortality rates associated with PCa, between 2008 and 2018 were higher in the Southeast and lower in the Northern regions of Brazil. However, we must consider the possibility of underestimated rates caused by deficits in medical conditions in regions with less access to basic health care, such as North and Northeast, resulting in fewer hospitalizations and death records.

Finally, it is important to highlight some methodological limitations of the present study: 1) our data were collected from electronic records and, although mandatory, a potential lack of data or incorrect records should be considered, 2) in some regions of Brazil, access to medical care is minimal and the records of accurate data can be underestimated, 3) in this study, we cannot distinguish between first hospitalization and re-hospitalization among the participants and 4) there is no official Brazilian platform/website in which data related to medication prescription and consumption in Brazil are freely available for public consultation. The lack of government information related to medication consumption in Brazil prevents us from establishing a parallel between the number and type of medications used during PCa treatment and the efficacy of these clinical protocols in PCa outcomes.

Altogether, we present here a comprehensive report on hospitalizations and deaths from PCa in Brazil. The 10-year study period and the numbers exceeding 283000 subjects provide a valuable demonstration of hospitalization and mortality rates divided by age, year and geographic region. The results presented here indicate an increased number of hospitalizations and deaths due to PCa in Brazil, highlighting the need for greater efforts by the Brazilian government to avoid increased rates of morbidity and mortality related to PCa. Moreover, we demonstrated age- and region-related trends in the PCa-associated rates of hospitalization and death. Early prostatic cancer diagnosis and medical intervention in younger patients are crucial for better cancer therapy outcomes.

ACKNOWLEDGMENTS

This work was supported by São Paulo Research Foundation (FAPESP; 2023/05123-5, 2021/14171-8 and 2019/09912-9).

REFERENCES

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