Page 27 - Read Online
P. 27

Arslan et al. Mini-invasive Surg 2018;2:4  I  http://dx.doi.org/10.20517/2574-1225.2017.31                                           Page 9 of 10


                   minimally affected by underlying hemodynamic conditions in patients with aortic stenosis. J Anesth 2017;31:692-702.
               23.  Baltayian S. A brief review: anesthesia for robotic surgery. J Robotic Surg 2008;2:59-66.
               24.  Robba C, Cardim D, Donnelly J, Bertuccio A, Bacigaluppi S, Bragazzi N, Cabella B, Liu X, Matta B, Lattuada M, Czosnyka M. Effects
                   of pneumoperitoneum and Trendelenburg position on intracranial pressure assessed using different non-invasive methods. Br J Anaesth
                   2016;117:783-91.
               25.  Kim MS, Bai SJ, Lee JR, Choi YD, Kim YJ, Choi SH. Increase in intracranial pressure during carbon dioxide pneumoperitoneum with steep
                   Trendelenburg positioning proven by ultrasonographic measurement of optic nerve sheath diameter. J Endourol 2014;28:801-6.
               26.  Lahaye L, Grasso M, Green J, Biddle CJ. Cerebral tissue O2 saturation during prolonged robotic surgery in the steep Trendelenburg
                   position: an observational case series in a diverse surgical population. J Robot Surg 2015;9:19-25.
               27.  Kalmar AF, Dewaele F, Foubert L, Hendrickx JF, Heeremans EH, Struys MM, Absalom A. Cerebral haemodynamic physiology during
                   steep Trendelenburg position and CO(2) pneumoperitoneum. Br J Anaesth 2012;108:478-84.
               28.  Sood J. Advancing frontiers in anaesthesiology with laparoscopy. World J Gastroenterol 2014;20:14308-14.
               29.  Haas S, Haese A, Goetz AE, Kubitz JC. Haemodynamics and cardiac function during robotic-assisted laparoscopic prostatectomy in steep
                   Trendelenburg position. Int J Med Robot 2011;7:408-13.
               30.  Hong JY, Kim JY, Choi YD, Rha KH, Yoon SJ, Kil HK. Incidence of venous gas embolism during robotic-assisted laparoscopic radical
                   prostatectomy is lower than that during radical retropubic prostatectomy. Br J Anaesth 2010;105:777-81.
               31.  Hong JY, Kim WO, Kil HK. Detection of subclinical CO2  Embolism by transesophageal echocardiography during laparoscopic radical
                   prostatectomy. Urology 2010;75:581- 4.
               32.  Joshi GP. Complications of laparoscopy. Anesthesiol Clin North America 2001;19:89-105.
               33.  Salihoglu Z, Demiroluk S, Dikmen Y. Respiratory mechanics in morbid obese patients with chronic obstructive pulmonary disease and
                   hypertension during pneumoperitoneum. Eur J Anaesthesiol 2003;20:658-61.
               34.  Bauman TM, Potretzke AM, Vetter JM, Bhayani SB, Figenshau RS. Cerebrovascular disease and chronic obstructive pulmonary disease
                   increase risk of complications with robotic partial nephrectomy. J Endourol 2016;30:293-9.
               35.  Assad OM, El Sayed AA, Khalil MA. Comparison of volume controlled ventilation and pressure-controlled ventilation volume guaranteed
                   during laparoscopic surgery in Trendelenburg position. J Clin Anesth 2016;34:55-61.
               36.  Balick-Weber CC, Nicolas P, Hedreville-Montout M, Blanchet P, Stéphan F. Respiratory and haemodynamic effects of volume-controlled vs
                   pressure-controlled ventilation during laparoscopy: a cross-over study with echocardiographic assessment. Br J Anaesth 2007;99:429-35.
               37.  Choi EM, Na S, Choi SH, An J, Rha KH, Oh YJ. Comparison of volume-controlled and pressure-controlled ventilation in steep
                   Trendelenburg position for robot-assisted laparoscopic radical prostatectomy. J Clin Anesth 2011;23:183-8.
               38.  Maltby JR, Beriault MT, Watson NC, Liepert D, Fick GH. The LMA-ProSeal is an effective alternative to tracheal intubation for
                   laparoscopic cholecystectomy. Can J Anaesth 2002;49:857-62.
               39.  Lan S, Zhou Y, Li JT, Zhao ZZ, Liu Y. Influence of lateral position and pneumoperitoneum on oropharyngeal leak pressure with two types
                   of laryngeal mask airways. Acta Anaesthesiol Scand 2017;61:1114-21.
               40.  Rustagi P, Patkar GA, Ourasang AK, Tendolkar BA. Effect of pneumoperitoneum and lateral position on oropharyngeal seal pressures of
                   ProsealLMA in laparoscopic urological procedures. J Clin Diagn Res 2017;11:UC05-9.
               41.  Chang CH, Lee HK, Nam SH. The displacement of the tracheal tube during robot-assisted radical prostatectomy. Eur J Anaesthesiol
                   2010;27:478-80.
               42.  McAllister JD, D’Altorio RA, Snyder A. CT findings after uncomplicated percutaneous laparoscopic cholecsytectomy. J Comput Assist
                   Tomogr 1991;15:770-2.
               43.  Özgök A, Kazanci D. Anesthesiology in robotic surgery and robotic radical prostatectomy. Robot Lap Endosurg 2016;2:30-3.
               44.  Mari A, Antonelli A, Bertolo R, Bianchi G, Borghesi M, Ficarra V, Fiori C, Furlan M, Giancane S, Longo N, Mirone V, Morgia G, Porpiglia
                   F, Rovereto B, Schiavina R, Serni S, Simeone C, Volpe A, Carini M, Minervini A. Predictive factors of overall and major postoperative
                   complications after partial nephrectomy: results from a multicenter prospective study (The RECORd 1 project). Eur J Surg Oncol
                   2017;43:823-30.
               45.  Zhao LC, Han JS, Loeb S, Tenggardjaja C, Rubenstein RA, Smith ND, Nadler RB. Thoracic complications of urologic laparoscopy:
                   correlation between radiographic findings and clinical manifestations. J Endourol 2008;22:607-14.
               46.  Nguyen NT, Perez RV, Fleming N, Rivers R, Wolfe BM. Effect of prolonged pneumoperitoneum on intraoperative urine output during
                   laparoscopic gastric bypass. J Am Coll Surg 2002;195:476-83.
               47.  Sodha S, Nazarian S, Adshead JM, Vasdev N, Mohan-S G.  Effect of pneumoperitoneum on renal function and physiology in patients
                   undergoing robotic renal surgery. Curr Urol 2016;9:1-4.
               48.  Wever KE, Bruintjes MH, Warlé MC, Hooijmans CR. Renal perfusion and function during pneumoperitoneum: a systematic review and
                   meta-analysis of animal studies. PLoS One 2016;11:e0163419.
               49.  Lee JY, Choi SH. Results of hepatic and renal function tests to different CO2 pneumoperitoneum conditions: an experimental
                   capnoperitoneum study in dogs. Res Vet Sci 2015;101:1-5.
               50.  Russo A, Bevilacqua F, Scagliusi A, Scarano A, Di Stasio E, Marana R, Marana E. Dopamine infusion and fluid administration improve
                   renal function during laparoscopic surgery. Minerva Anestesiol 2014;80:452-60.
               51.  Huh H, Kim NY, Park SJ, Cho JE. Effect of nicardipine on renal function following robot-assisted laparoscopic radical prostatectomy in
                   patients with pre-existing renal insufficiency. J Int Med Res 2014;42:427-35.
               52.  Deem S, Davis CR, Tierney JP. Transient paralysis after robotic prostatectomy. J Robot Surg 2008;2:45-6.
               53.  Pandey R, Garg R, Darlong V, Punj J, Chandralekha. Hemiparesis after robotic laparoscopic radical cystectomy and ileal conduit formation
                   in steep Trendelenburg position. J Robot Surg 2012;6:269-71.
               54.  Adisa AO, Onakpoya OH, Adenekan AT, Awe OO. Intraocular pressure changes with positioning during laparoscopy. JSLS
                   2016;20:e2016.00078.
   22   23   24   25   26   27   28   29   30   31   32