Surgeons as Educators A Guide for Academic Development and Teaching Excellence

(Ben Green) #1

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  1. Fernstrom I, Johansson B. Percutaneous pyelolithotomy. A new extraction technique. Scand
    J Urol Nephrol. 1976;10:257–9.

  2. Kim SC, Kuo RL, Lingeman JE. Percutaneous nephrolithotomy: an update. Curr Opin Urol.
    2003;13:235–41.

  3. Michel MS, Trojan L, Rassweiler JJ.  Complications in percutaneous nephrolithotomy. Eur
    Urol. 2007;51:899–906; discussion.

  4. Jang WS, Choi KH, Yang SC, Han WK. The learning curve for flank percutaneous neph-
    rolithotomy for kidney calculi: a single surgeon’s experience. Korean J Urol. 2011;52:
    284–8.

  5. Ziaee SA, Sichani MM, Kashi AH, Samzadeh M. Evaluation of the learning curve for percu-
    taneous nephrolithotomy. Urol J. 2010;7:226–31.

  6. Bird VG, Fallon B, Winfield HN.  Practice patterns in the treatment of large renal stones.
    J Endourol. 2003;17:355–63.

  7. Hammond L, Ketchum J, Schwartz BF.  A new approach to urology training: a laboratory
    model for percutaneous nephrolithotomy. J Urol. 2004;172:1950–2.

  8. Strohmaier WL, Giese A. Ex vivo training model for percutaneous renal surgery. Urol Res.
    2005;33:191–3.

  9. Zhang Y, Ou TW, Jia JG, et al. Novel biologic model for percutaneous renal surgery learning
    and training in the laboratory. Urology. 2008;72:513–6.

  10. Qiu Z, Yang Y, Zhang Y, Sun YC. Modified biological training model for percutaneous renal
    surgery with ultrasound and fluroscopy guidance. Chin Med J. 2011;124:1286–9.

  11. Zhang Y, Yu CF, Jin SH, Li NC, Na YQ. Validation of a novel non-biological bench model for
    the training of percutaneous renal access. Int Braz J Urol : Off J Braz Soc Urol. 2014;40:87–92.

  12. Stern J, Zeltser IS, Pearle MS. Percutaneous renal access simulators. J Endourol. 2007;21:
    270–3.

  13. Knudsen BE, Matsumoto ED, Chew BH, et al. A randomized, controlled, prospective study
    validating the acquisition of percutaneous renal collecting system access skills using a com-
    puter based hybrid virtual reality surgical simulator: phase I. J Urol. 2006;176:2173–8.

  14. Park S, Matsumoto ED, Knudsen BE, et al. Face, content and construct validity testing on a
    virtual reality percutaneous renal access simulator. J Endourol. 2006;20:A4.

  15. Margulis V, Matsumoto E, Knudsen B, et al. Percutaneous renal collecting system access: can
    virtual reality training shorten the learning curve? J Urol. 2005;173:315.

  16. Veneziano D, Smith A, Reihsen T, Speich J, Sweet RM. The SimPORTAL fluoro-less C-arm
    trainer: an innovative device for percutaneous kidney access. J Endourol. 2015;29:240–5.

  17. Aydin A, Ahmed K, Shafi AM, Khan MS, Dasgupta P. The role of simulation in urological
    training – a quantitative study of practice and opinions. Surgeon: J Royal Coll Surg Edinb
    Irel. 2016;14(6):301–7.


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