RESUMEN
BACKGROUND: In 2023, an estimated 82,290 individuals were diagnosed with bladder cancer in the United States. For muscle-invasive bladder cancer (MIBC), the American Urological Association recommends offering radical cystectomy with cisplatin-based neoadjuvant chemotherapy. However, patients are increasingly requesting alternative treatments. OBJECTIVE: To describe factors influencing selection of radical cystectomy with cisplatin-based neoadjuvant chemotherapy (NACâ+âRC), radical cystectomy monotherapy (RC), or tri-modality therapy (TMT) among patients with MIBC. METHODS: Individual, semi-structured phone interviews were conducted with 18 adults who underwent MIBC treatment at the University of North Carolina, recruiting six patients each from three treatment groups: 1) NACâ+âRC, 2) RC, and 3) TMT. Interview transcriptions were qualitatively analyzed using QSR NVivo, with major themes and sub-themes extracted. Patients also completed the Shared Decision-Making Questionnaire (SDM-Q-9; range 0-100). RESULTS: Concern for survival and risks, quality of life, and varied patient preferences for involvement influenced the decision-making process. Concern surrounding sexual function, bladder preservation, and urostomy bags drove patients towards TMT. High levels of shared decision-making were observed overall, with a median SDM-Q-9 score of 95 (IQR 89-100). Patients undergoing TMT reported the highest median SDM-Q-9 score (97, IQR 94-100), while those receiving radical cystectomy alone had the lowest (66, IQR 37-96). CONCLUSIONS: Patients with MIBC described a multifaceted treatment decision-making process, highlighting key influences, concerns, and unmet needs. Understanding this process can help address misconceptions and align treatment choices with patient goals. Physicians can use these insights to engage in shared decision-making, ultimately improving patient experiences and outcomes.
RESUMEN
Activation of AT1 (type 1 Ang) receptors stimulates cardiomyocyte hypertrophy in vitro. Accordingly, it has been suggested that regression of cardiac hypertrophy associated with renin-Ang system blockade is due to inhibition of cellular actions of Ang II in the heart, above and beyond their effects to reduce pressure overload. We generated 2 distinct mouse lines with cell-specific deletion of AT1A receptors, from cardiomyocytes. In the first line (C-SMKO), elimination of AT1A receptors was achieved using a heterologous Cre recombinase transgene under control of the Sm22 promoter, which expresses in cells of smooth muscle lineage including cardiomyocytes and vascular smooth muscle cells of conduit but not resistance vessels. The second line (R-SMKO) utilized a Cre transgene knocked-in to the Sm22 locus, which drives expression in cardiac myocytes and vascular smooth muscle cells in both conduit and resistance arteries. Thus, although both groups lack AT1 receptors in the cardiomyocytes, they are distinguished by presence (C-SMKO) or absence (R-SMKO) of peripheral vascular responses to Ang II. Similar to wild-types, chronic Ang II infusion caused hypertension and cardiac hypertrophy in C-SMKO mice, whereas both hypertension and cardiac hypertrophy were reduced in R-SMKOs. Thus, despite the absence of AT1A receptors in cardiomyocytes, C-SMKOs develop robust cardiac hypertrophy. By contrast, R-SMKOs developed identical levels of hypertrophy in response to pressure overload-induced by transverse aortic banding. Our findings suggest that direct activation of AT1 receptors in cardiac myocytes has minimal influence on cardiac hypertrophy induced by renin-Ang system activation or pressure overload.