[1] Bertrand, M. M. et al. (2014). MRI-based 3D pelvic autonomous innervation: a first step towards image-guided pelvic surgery. European radiology, 24(8),1989-1997.
[2] Fried, N. M., et al. (2015). Novel methods for mapping the cavernous nerves during radical prostatectomy. Nature Reviews Urology, 12(8),451.
[3] Chen, H., et al. "Correlation between the prostate size and location of the neurovascular bundles." J. Endourol 27 (2013): A34-A35.
[4] Haglind, Eva, et al. "Urinary incontinence and erectile dysfunction after robotic versus open radical prostatectomy: a prospective, controlled, nonrandomised trial." European urology 68.2 (2015): 216-225.
[5] Sung, Wooseuk, et al. "Neuroanatomical study of periprostatic nerve distributions using human cadaver prostate." Journal of Korean medical science 25.4 (2010): 608-612.
[6] Srivastava, Abhishek, et al. "Neuroanatomic basis for traction-free preservation of the neural hammock during athermal robotic radical prostatectomy." Current opinion in urology 21.1 (2011): 49-59.
[7] Sievert, Karl‐Dietrich, et al. "Extended periprostatic nerve distributions on the prostate surface confirmed using diffusion tensor imaging." BJU international (2019).
[8] Baur, Alexander DJ, et al. "Influence of fractional anisotropy thresholds on diffusion tensor imaging tractography of the periprostatic neurovascular bundle and selected pelvic tissues: do visualized tracts really represent nerves?." Acta Radiologica 58.4 (2017): 472-480.