Sarcopenia in urologic oncology: Identification and strategies to improve patient outcomes

Unveiling the Intricate Dance: How Cancer Orchestrates Muscle Wasting and Sarcopenia

Sarcopenia is a prevalent and clinically significant condition, particularly among older age groups and those with chronic disease. Patients with cancer frequently suffer from sarcopenia and progressive loss of muscle mass, strength, and function. The complex interplay between cancer and its treatment, including medical therapy, radiotherapy, and surgery, significantly contributes to the onset and worsening of sarcopenia. Cancer induces muscle wasting through inflammatory processes, metabolic alterations, and hormonal imbalance. Moreover, medical and radiation therapies exert direct toxic effects on muscles, contributing to the impairment of physical function. Loss of appetite, malnutrition, and physical inactivity further exacerbate muscle wasting in cancer patients. Imaging techniques are the cornerstones for sarcopenia diagnosis. Magnetic resonance imaging, computed tomography, and dual-energy X-ray absorptiometry provide valuable insights into muscle structure and quality. Although each modality has advantages and limitations, magnetic resonance imaging produces high-resolution images and provides dynamic information about muscle function. Despite these challenges, addressing sarcopenia is essential for optimizing treatment outcomes and improving survival rates in patients with cancer. This review explored the factors contributing to sarcopenia in oncologic patients, emphasizing the importance of early detection and comprehensive management strategies.

Utility of the Age Discrepancy between Frailty-Based Biological Age and Expected Life Age in Patients with Urological Cancers

Background: The estimation of biological age is challenging in patients with cancers. We aimed to investigate frailty-based biological ages using frailty-discriminant scores (FDS) and examined the effect of biological-expected life age discrepancy on the prognosis of patients with urological cancers. Methods: We retrospectively evaluated frailty in 1035 patients having urological cancers. Their frailty-based biological age was then defined by the FDS, which is a comprehensive frailty assessment tool, using 1790 noncancer individuals as controls. An expected life age (=chronological age + life expectancy) was subsequently calculated using the 2019 life expectancy table. The primary outcome was the estimation of the biological-expected life age discrepancy between the frailty-based biological age and expected life age in patients with urological cancers. Secondary outcomes were the evaluation of the effect of the biological-expected life age discrepancy on overall survival. Results: We included 405, 466, and 164 patients diagnosed with prostate cancer, urothelial carcinoma, and renal cell carcinoma, respectively. The median chronological age, life expectancy, and estimated frailty-based biological age were 71, 17, and 83 years, respectively. The biological-expected life age discrepancy in any urological cancers, localized diseases, and metastatic diseases was −4.8, −6.3, and +0.15 years, respectively. The biological-expected life age discrepancy of >5 years was significantly associated with poor overall survival. Conclusions: The biological-expected life age discrepancy between frailty-based biological age and expected life age may be helpful in understanding the role of frailty and patient/doctor conversation.

[Sarcopenia: a geriatric syndrome that impacts urology]

With increasing age, people lose muscle strength and muscle mass. Acute illnesses, surgical interventions or chronic illnesses can quickly lead to immobility and even more muscle loss. For the elderly, there is a risk of reduced functionality and everyday skills. This syndrome, referred to sarcopenia, is characterized by a progressive and generalized loss of muscle mass and strength with negative consequences such as functional impairment and frailty. In the case of serious illnesses or surgical interventions, this is particularly noticeable in prolonged convalescence. Sarcopenia is associated with reduced quality of life and increased mortality. It is important to diagnose sarcopenia with the help of specific anamnesis questions and clinical functional examinations and to initiate adequate interventions, if possible preoperatively, for example. In addition to treating the underlying disease, it is crucial to always pay attention to the combination of a balanced protein-rich diet and appropriate physical training. Use of only one of the components or even the drug therapy approach is not effective.

CT-Based Sarcopenic Nomogram for Predicting Progressive Disease in Advanced Non-Small-Cell Lung Cancer

Background

It is prudent to identify the risk for progressive disease (PD) in patients with non-small-cell lung cancer (NSCLC) who undergo platinum-based chemotherapy. The present study aimed to develop a CT imaging-based sarcopenic nomogram for predicting the risk of PD prior to chemotherapy treatment.

Methods

We retrospectively enrolled patients with NSCLC who underwent platinum-based chemotherapy. Imaging-based body composition parameters such as skeletal muscle index (SMI) for assessment of sarcopenia were obtained from pre-chemotherapy chest CT images at the level of the eleventh thoracic vertebral body (T11). Sarcopenic nomogram was constructed using multivariate logistic regression and performance of the nomogram was evaluated by discrimination, calibration curve, and decision curve.

Results

Sixty (14.7%) of the 408 patients in the study cohort developed PD during chemotherapy. The prediction nomogram for developing PD achieved a moderate efficiency with an area under the curve (AUC) of 0.75 (95% CI: 0.69-0.80) for the training cohort, and 0.76 (95%CI: 0.68-0.84) for the validation cohort, as well as a good performance of consistence (bootstrap for training cohort: 0.75 ± 0.02; validation cohort: 0.74 ± 0.06). Favorable clinical application was observed in the decision curve analysis.

Conclusion

Our CT-based sarcopenic nomogram showed the potential for an individualized prediction of progression for patients with NSCLC receiving platinum-based chemotherapy.

Impact of sarcopenia on post-operative outcomes following nephrectomy and tumor thrombectomy for renal cell carcinoma with inferior vena cava thrombus

OBJECTIVE

Sarcopenia is associated with oncological outcomes in various types of cancer. However, the impact of sarcopenia in renal cell carcinoma with inferior vena cava thrombus remains unclear. We herein evaluated the prognostic significance of sarcopenia for renal cell carcinoma with inferior vena cava thrombus following nephrectomy and thrombectomy.

METHODS

Patients who underwent nephrectomy and thrombectomy for renal cell carcinoma with inferior vena cava thrombus at our department between 2004 and 2019 were retrospectively evaluated. Their sarcopenic status, determined by sex, body mass index and skeletal muscle index, was calculated using pre-surgical radiographic imaging. We compared the post-operative cancer-specific survival and overall survival, surgical data and duration of post-operative hospitalization of sarcopenic and non-sarcopenic patients.

RESULTS

Out of 83 patients, 54 (65%) were sarcopenic. Sarcopenic patients had significantly shorter cancer-specific survival (median: 33.3 months vs. not reached, P = 0.0323) and overall survival (32.0 months vs. not reached, P = 0.0173) than non-sarcopenic patients. Furthermore, multivariate analyses showed that sarcopenia was an independent factor for cancer-specific survival (hazard ratio: 2.76, P = 0.0212) and overall survival (hazard ratio: 2.93, P = 0.014). The incidence rate of surgical complications (any grade: 35.2% vs. 27.6%, P = 0.482; grades ≥ 3: 7.4% vs. 10.3%, P = 0.648) or duration of post-operative hospitalization (median: 11 vs. 10 days, P = 0.148) was not significantly different between sarcopenic and non-sarcopenic patients.

CONCLUSIONS

In conclusion, this study showed that sarcopenia was an independent prognostic factor for renal cell carcinoma with inferior vena cava thrombus after nephrectomy and tumor thrombectomy. Thus, sarcopenia evaluation can be utilized as an effective prognosticator of post-operative survival.