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Radical cystectomy (RC) is probably underused in elderly patients due to a potential increased postoperative complication risk, as reflected by their considerable comorbidities. Our objective was to estimate the overall complication rate and investigate a potential benefit to patients over the age of 75 subjected to RC in terms of disease-free survival.
A total of 81 patients, 61 men and 20 women, from two urological departments, with a mean age of 79.2±3.7years, participated in the study. The mean follow-up period was 2.6±1.6years. All patients underwent RC with pelvic lymphadenectomy. An ileal conduit, an orthotopic ileal neobladder and cutaneous ureterostomies were formed in 48.1%, 6.2% and 45.7% of the patients, respectively. The perioperative and 90-day postoperative complications were recorded and classified according to the modified Clavien classification system. Survival plots were created based on the oncological outcome and several study parameters.
The perioperative morbidity rate was 43.2%; the 90-day morbidity rate was 37%, while the 30-day, 90-day and overall mortality rates were 3.7%, 3.7% and 21%, respectively. Overall mortality rates were recorded at the final year of data gathering (2009). Increased age, increased body mass index (BMI), longer hospitalization and age-adjusted Charlson comorbidity index (ACCI) more than six, were associated with greater hazard for 90-day morbidity. The cumulative mortality / metastasis-free rates for one, two, three and five years were 88.7%, 77.5%, 70.4%, and 62.3%, respectively. Tumour stage and positive nodes were prognostic predictors for oncological outcome.
RC in patients over 75 is justified and feasible, due to acceptable complication rates and high 5-year cancer-specific survival, which support an aggressive approach. Prospective studies are needed for the verification of the above results.
Muscle-invasive bladder cancer incidence increases with age and peaks in the octogenarians [1,2]. Even though radical cystectomy (RC) is the gold standard for this disease , it is underused and possibly inappropriately denied, because the majority of these patients are either unfit for surgery or have considerable comorbidities. This selection bias might preclude a potential effective management in the older patients . The above argument is further strengthened by a recent report concluding that bladder-sparing protocols in octogenarians with>pT2 disease and American Society of Anesthesiologists (ASA) score 3–4 has a very bad prognosis .
Increased surgical experience and improvements in surgical techniques are constantly expanding the indications for aggressive treatment. This fact provided the rationale for our study, which attempted to investigate the feasibility of RC in these high-risk patients and establish a potential benefit on cancer-specific survival in the long term.
We reviewed the files of 81 patients, 61 men and 20 women, with a mean age of 79.2years (SD=3.7years) (range 75–95years). All patients, after providing informed consent, underwent RC and pelvic lymphadenectomy from 2000 through 2009. Ethical approval was not required due to the retrospective nature of the study, as stated by our institutions scientific committee. The clinical and demographic characteristics of the patients are shown in Table Table1.1. The indications for RC were muscle invasive disease, non muscle invasive disease refractory to intravesical chemotherapy and/or immunotherapy and palliation treatment for uncontrolled haemorrhage (in 11 out of 81 patients). No patient had distant metastasis at the time of the operation. No patient received neo-adjuvant chemotherapy or radiotherapy, while 12 (14.8%) and 3 patients (3.7%) received adjuvant chemotherapy and external beam radiotherapy, respectively.
Perioperative complications were defined as complications occurring within the first 10 postoperative days. 90-day morbidity and mortality were also recorded. The Martin criteria for standardized reporting of complications were used  (Table (Table2).2). The complications were classified according to the modified Clavien classification system  (Table (Table3).3). Follow-up of the patients was performed by scheduled hospital visits and telephone interviews.
Quantitative variables are expressed as mean (±SD) or as median values (interquartile range). Qualitative variables are expressed as absolute and relative frequencies. Life table analyses were used to calculate cumulative survival rate (standard errors) for specific time intervals. The prognostic value of each variable was first assessed by univariate Cox regression analysis. Variables that showed significant association with the outcome were included in the multivariate Cox proportional-hazard model in a stepwise method, in order to determine the independent predictors for morbidity and oncological outcome. The assumption of proportional hazards was evaluated by testing for interaction with a continuous time variable. Kaplan – Meier survival estimates for soft and hard events were graphed over the follow-up period. All reported p values are two-tailed. Statistical significance was set at p<0.05 and analyses were conducted using the SPSS statistical software (version 17.0).
The mean follow-up period was 2.6±1.6years with median equal to 2.4years (interquartile range from 1.2 to 3.9years). During the follow-up period, the perioperative morbidity rate was 43.2% (N=35), 90-day morbidity rate was 35.8% (N=29), the perioperative and overall mortality rates were 3.7% and 21.0%, respectively, while 6 patients had metastasis (7.4%). In salvage RC, perioperative morbidity rate was 45.4%, 90-day morbidity rate reached 36.4%, while perioperative mortality was 9%. Positive nodes were found in 25.9% of the patients. The mean length of hospitalization was 13.0±7.3days and 14.8% of the patients had an age-adjusted Charlson comorbidity index (ACCI) more than six. Table Table44 presents the results of univariate analysis for the association of study parameters with perioperative morbidity. Perioperative morbidity rate was not significantly different when adjusted to the clinical and demographic characteristics of the patients. Univariate Cox regression analysis for 90-day morbidity (Table (Table5)5) revealed that increased age, increased body mass index (BMI), hospital stay and ACCI more than six, were associated with greater hazard for 90-day morbidity. When multiple Cox regression analysis with stepwise-forward approach was applied (Table (Table6),6), it was found that age, BMI, hospital stay and ACCI were independently associated with morbidity. Specifically, for one day increase in hospital stay, the morbidity hazard increases by 6%, while for one unit increase in BMI, the morbidity hazard increases by 18%. Furthermore, patients aged 77 to 80years and those aged more than 80years had greater morbidity hazard compared to those aged less than 77years with adjusted hazard ratios equal to 4.92 and 5.86, respectively. Additionally, subjects with ACCI more than six had 2.51 times greater morbidity hazard compared to those with ACCI equal or less than six. Kaplan Meier morbidity estimations according to ACCI are presented in Figure Figure11.
The cumulative mortality / metastasis-free rates for one, two, three and five years were 88.7% [Standard Error (SE)=3.6%], 77.5% (SE=4.8%), 70.4% (SE=5.5%) and 62.3% (SE=7.3%), respectively. Both univariate and multiple analysis concerning death or metastasis (Table (Table5)5) revealed that tumour stage and nodes were prognostic predictors for oncological outcome. Specifically, as resulted from multiple analysis, patients with tumour stage pT4a to pT4b had 9.19 times greater hazard for death or metastasis compared to those with in situ tumours. Moreover, patients with one or two positive nodes had 2.4 times greater hazard for death or metastasis. Kaplan Meier estimates for death or metastasis according to tumour stage and nodes are presented in Figures2 and and3,3, respectively.
Octogenarians are per se, a high-risk group, due to their comorbidities. Using the age-adjusted Charlson comorbidity index, for each decade over the age of 40years, one point is added to the total score, a fact that reflects the significance of age in the performance status of a patient . Koppie et al recently suggested the association between ACCI and the clinical and oncological outcome after a RC . Other authors also reported that postoperative morbidity is higher in patients with higher ASA score and more than 2 comorbidities . The same conclusion was reached by a collaborative review, which however, stated that age alone does not preclude RC in the elderly .
Our results of perioperative mortality and 90-day morbidity are comparable to those of the above mentioned reviews, which range between 0-11% and as high as 64% , respectively, support the notion of an aggressive treatment offered to octogenarians. The 90-day instead of the 30-day or the 60-day morbidity was selected because it is already established as a more potent and realistic description tool of the postoperative risks of the RC morbidity, as several reports are suggesting [11,12]. The 90-day morbidity along with the use of the Clavien classification system, give a distinct advantage in our study in terms of complication reporting quality [11-13].
The incidence of wound complications was surprisingly high in our series (11%) and it could be attributed to poor healing capacity and poor patient hygiene. In order to avoid this kind of complication, we now routinely use tension sutures along with Nylon sutures or clips for wound closure at the end of the operation, which are removed approximately one month later.
The complication rates did not vary between salvage and primary RC. The main difference was that perioperative mortality was significantly higher in the salvage RC (9% vs. 3.7%), which was somewhat expected, due to the nature of the disease and the performance status of the patient at the time of the operation. The above observation is in accordance to other authors [14,15]. Furthermore, obesity and longer hospital stay have been identified as risk factors for higher postoperative morbidity.
The selected type of urinary diversion does not seem to alter the morbidity/mortality outcome, as shown in other studies as well [11,16]. It is however important to notice, that high-volume centers, performing>50 RC’s per year should be involved in these cases, because the surgical experience in these centers is more advanced and is associated with improved postoperative outcomes, including decreased mortality, shorter length of hospital stay and lower rehospitalization rates [11,17].
Cancer-specific survival is another major concern when the decision to perform RC in an octogenarian should be taken, as the reported results are rather controversial. Two retrospective studies, reviewing a total of approximately 1120 patients have reported unfavourable oncological outcomes in elderly patients [18,19]. In the first study, the 5-year was 28.1%, while in the second the 3-year and 7-year cancer-specific survival rates were between 70% and 55.2%, respectively. On the other hand, Chamie et al and Hollenbeck et al provided some evidence that RC has some benefit in the elderly, when compared to watchful waiting, or radiotherapy and chemotherapy [4,20]. Chamie and colleaques also stated that pelvic lymphadenectomy should be performed in order for RC to show any survival advantage in the octogenarians . Based on our results, we advocate RC and lymphadenectomy in the elderly patients, since the 5-year survival rate in our series was significantly high (62.3%) and tumour stage and node status were prognostic predictors for the oncological outcome. Clinical tumour stage and grade remain the best predictors of cancer specific survival . Therefore, it is imperative for the RC candidates to undergo a meticulous clinical and imaging examination.
Age should not hamper RC, particularly when it takes place in specialized, high-volume centers. The reported complication rates of this particular group of patients, especially when standardized with validated methodologies, are acceptable. Strict selection of non obese patients, with non metastatic disease and an ACCI less than six, may result in a better postoperative outcome.
The authors declare that they have no competing interests.
IA performed surgical procedures, participated in the study concept and design and critically revised the manuscript. SIT conceived the study, performed statistical analysis, drafted the manuscript, analyzed and interpreted the data. KGS performed surgical procedures, assisted in the study concept and design and revised the manuscript. AA participated in the acquisition of data. AK performed surgical procedures and provided patient data. AB participated in the acquisition of data. VM participated in the acquisition of data. DM performed surgical procedures, assisted in the study concept and design and revised the manuscript. CAC performed surgical procedures, assisted in the study concept and design and revised the manuscript. All authors read and approved the final manuscript.
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