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4. Simultaneous pelvic exenteration and liver resection for primary rectal cancer with synchronous liver metastases: results from the PelvEx Collaborative

Author

Kelly, M. E., Aalbers, A. G. J., Abdul Aziz, N., Abecasis, N., Abraham‐Nordling, M., Akiyoshi, T., Alberda, W., Albert, M., Andric, M., Angenete, E., Antoniou, A., Auer, R., Austin, K. K., Aziz, O., Baker, R. P., Bali, M., Baseckas, G., Bebington, B., Bednarski, B. K., Beets, G. L., Berg, P. L., Beynon, J., Biondo, S., Boyle, K., Bordeianou, L., Bremers, A. B., Brunner, M., Buchwald, P., Bui, A., Burgess, A., Burger, J. W. A., Burling, D., Burns, E., Campain, N., Carvalhal, S., Castro, L., Caycedo‐Marulanda, A., Chan, K. K. L., Chang, G. J., Chew, M. H., Chong, P. C., Christensen, H. K., Clouston, H., Codd, M., Collins, D., Colquhoun, A. J., Corr, A., Coscia, M., Coyne, P. E., Creavin, B., Croner, R. S., Damjanovic, L., Daniels, I. R., Davies, M., Davies, R. J., Delaney, C. P., Denost, Q., Deutsch, C., Dietz, D., Domingo, S., Dozois, E. J., Duff, M., Eglinton, T., Enrique‐Navascues, J. M., Espin‐Basany, E., Evans, M. D., Fearnhead, N. S., Flatmark, K., Fleming, F., Frizelle, F. A., Gallego, M. A., Garcia‐Granero, E., Garcia‐Sabrido, J. L., Gentilini, L., George, M. L., Ghouti, L., Giner, F., Ginther, N., Glynn, R., Golda, T., Griffiths, B., Harris, D. A., Hagemans, J. A. W., Hanchanale, V., Harji, D. P., Helewa, R. M., Heriot, A. G., Hochman, D., Hohenberger, W., Holm, T., Hompes, R., Jenkins, J. T., Kaffenberger, S., Kandaswamy, G. V., Kapur, S., Kanemitsu, Y., Kelley, S. R., Keller, D. S., Khan, M. S., Kiran, R. P., Kim, H., Kim, H. J., Koh, C. E., Kok, N. F. M., Kokelaar, R., Kontovounisios, C., Kristensen, H. Ø., Kroon, H. M., Kusters, M., Lago, V., Larsen, S. G., Larson, D. W., Law, W. L., Laurberg, S., Lee, P. J., Limbert, M., Lydrup, M. L., Lyons, A., Lynch, A. C., Mantyh, C., Mathis, K. L., Margues, C. F. S., Martling, A., Meijerink, W. J. H. J., Merkel, S., Mehta, A. M., McArthur, D. R., McDermott, F. D., McGrath, J. S., Malde, S., Mirnezami, A., Monson, J. R. T., Morton, J. R., Mullaney, T. G., Negoi, I., Neto, J. W. M., Nguyen, B., Nielsen, M. B., Nieuwenhuijzen, G. A. P., Nilsson, P. J., O’Connell, P. R., O’Dwyer, S. T., Palmer, G., Pappou, E., Park, J., Patsouras, D., Pellino, G., Peterson, A. C., Poggioli, G., Proud, D., Quinn, M., Quyn, A., Radwan, R. W., van Ramshorst, G. H., Rasheed, S., Rasmussen, P. C., Regenbogen, S. E., Renehan, A., Rocha, R., Rochester, M., Rohila, J., Rothbarth, J., Rottoli, M., Roxburgh, C., Rutten, H. J. T., Ryan, É. J., Safar, B., Sagar, P. M., Sahai, A., Saklani, A., Sammour, T., Sayyed, R., Schizas, A. M. P., Schwarzkopf, E., Scripcariu, V., Selvasekar, C., Shaikh, I., Hellawell, G., Shida, D., Simpson, A., Smart, N. J., Smart, P., Smith, J. J., Solbakken, A. M., Solomon, M. J., Sørensen, M. M., Steele, S. R., Steffens, D., Stitzenberg, K., Stocchi, L., Stylianides, N. A., Sumrien, H., Sutton, P. A., Swartking, T., Taylor, C., Tekkis, P. P., Teras, J., Thurairaja, R., Toh, E. L., Tsarkov, P., Tsukada, Y., Tsukamoto, S., Tuech, J. J., Turner, W. H., Tuynman, J. B., Vasquez‐Jimenez, W., Verhoef, C., Vizzielli, G., Voogt, E. L. K., Uehara, K., Wakeman, C., Warrier, S., Wasmuth, H. H., Weber, K., Weiser, M. R., Wheeler, J. M. D., Wild, J., Wilson, M., de Wilt, J. H. W., Wolthuis, A., Yano, H., Yip, B., Yip, J., Yoo, R. N., van Zoggel, D., Winter, D. C., Kelly, M. E., Aalbers, A. G. J., Abdul Aziz, N., Abecasis, N., Abraham‐nordling, M., Akiyoshi, T., Alberda, W., Albert, M., Andric, M., Angenete, E., Antoniou, A., Auer, R., Austin, K. K., Aziz, O., Baker, R. P., Bali, M., Baseckas, G., Bebington, B., Bednarski, B. K., Beets, G. L., Berg, P. L., Beynon, J., Biondo, S., Boyle, K., Bordeianou, L., Bremers, A. B., Brunner, M., Buchwald, P., Bui, A., Burgess, A., Burger, J. W. A., Burling, D., Burns, E., Campain, N., Carvalhal, S., Castro, L., Caycedo‐marulanda, A., Chan, K. K. L., Chang, G. J., Chew, M. H., Chong, P. C., Christensen, H. K., Clouston, H., Codd, M., Collins, D., Colquhoun, A. J., Corr, A., Coscia, M., Coyne, P. E., Creavin, B., Croner, R. S., Damjanovic, L., Daniels, I. R., Davies, M., Davies, R. J., Delaney, C. P., Denost, Q., Deutsch, C., Dietz, D., Domingo, S., Dozois, E. J., Duff, M., Eglinton, T., Enrique‐navascues, J. M., Espin‐basany, E., Evans, M. D., Fearnhead, N. S., Flatmark, K., Fleming, F., Frizelle, F. A., Gallego, M. A., Garcia‐granero, E., Garcia‐sabrido, J. L., Gentilini, L., George, M. L., Ghouti, L., Giner, F., Ginther, N., Glynn, R., Golda, T., Griffiths, B., Harris, D. A., Hagemans, J. A. W., Hanchanale, V., Harji, D. P., Helewa, R. M., Heriot, A. G., Hochman, D., Hohenberger, W., Holm, T., Hompes, R., Jenkins, J. T., Kaffenberger, S., Kandaswamy, G. V., Kapur, S., Kanemitsu, Y., Kelley, S. R., Keller, D. S., Khan, M. S., Kiran, R. P., Kim, H., Kim, H. J., Koh, C. E., Kok, N. F. M., Kokelaar, R., Kontovounisios, C., Kristensen, H. Ø., Kroon, H. M., Kusters, M., Lago, V., Larsen, S. G., Larson, D. W., Law, W. L., Laurberg, S., Lee, P. J., Limbert, M., Lydrup, M. L., Lyons, A., Lynch, A. C., Mantyh, C., Mathis, K. L., Margues, C. F. S., Martling, A., Meijerink, W. J. H. J., Merkel, S., Mehta, A. M., Mcarthur, D. R., Mcdermott, F. D., Mcgrath, J. S., Malde, S., Mirnezami, A., Monson, J. R. T., Morton, J. R., Mullaney, T. G., Negoi, I., Neto, J. W. M., Nguyen, B., Nielsen, M. B., Nieuwenhuijzen, G. A. P., Nilsson, P. J., O’Connell, P. R., O’Dwyer, S. T., Palmer, G., Pappou, E., Park, J., Patsouras, D., Pellino, G., Peterson, A. C., Poggioli, G., Proud, D., Quinn, M., Quyn, A., Radwan, R. W., van Ramshorst, G. H., Rasheed, S., Rasmussen, P. C., Regenbogen, S. E., Renehan, A., Rocha, R., Rochester, M., Rohila, J., Rothbarth, J., Rottoli, M., Roxburgh, C., Rutten, H. J. T., Ryan, É. J., Safar, B., Sagar, P. M., Sahai, A., Saklani, A., Sammour, T., Sayyed, R., Schizas, A. M. P., Schwarzkopf, E., Scripcariu, V., Selvasekar, C., Shaikh, I., Hellawell, G., Shida, D., Simpson, A., Smart, N. J., Smart, P., Smith, J. J., Solbakken, A. M., Solomon, M. J., Sørensen, M. M., Steele, S. R., Steffens, D., Stitzenberg, K., Stocchi, L., Stylianides, N. A., Sumrien, H., Sutton, P. A., Swartking, T., Taylor, C., Tekkis, P. P., Teras, J., Thurairaja, R., Toh, E. L., Tsarkov, P., Tsukada, Y., Tsukamoto, S., Tuech, J. J., Turner, W. H., Tuynman, J. B., Vasquez‐jimenez, W., Verhoef, C., Vizzielli, G., Voogt, E. L. K., Uehara, K., Wakeman, C., Warrier, S., Wasmuth, H. H., Weber, K., Weiser, M. R., Wheeler, J. M. D., Wild, J., Wilson, M., de Wilt, J. H. W., Wolthuis, A., Yano, H., Yip, B., Yip, J., Yoo, R. N., van Zoggel, D., Winter, D. C., Kelly, ME, Aalbers, AGJ, Aziz, NA, Abecasis, N, Abraham-Nordling, M, Akiyoshi, T, Alberda, W, Albert, M, Andric, M, Angenete, E, Antoniou, A, Auer, R, Austin, KK, Aziz, O, Baker, RP, Bali, M, Baseckas, G, Bebington, B, Bednarski, BK, Beets, GL, Berg, PL, Beynon, J, Biondo, S, Boyle, K, Bordeianou, L, Bremers, AB, Brunner, M, Buchwald, P, Bui, A, Burgess, A, Burger, JWA, Burling, D, Burns, E, Campain, N, Carvalhal, S, Castro, L, Caycedo-Marulanda, A, Chan, KKL, Chew, GJH, Chong, PC, Christensen, HK, Clouston, H, Codd, M, Coffins, D, Colquhoun, AJ, Corr, A, Coscia, M, Coyne, PE, Creavin, B, Croner, RS, Damjanovic, L, Daniels, R, Davies, M, Davies, RJ, Delaney, CP, Denost, Q, Deutsch, C, Dietz, D, Domingo, S, Dozois, EJ, Duff, M, Eglinton, T, Enrique-Navascues, JM, Espin-Basany, E, Evans, MD, Fearnhead, NS, Flatmark, K, Fleming, F, Frizelle, FA, Gallego, MA, Garcia-Granero, E, Garcia-Sabrido, JL, Gentilini, L, George, ML, Ghouti, L, Giner, F, Ginther, N, Glynn, R, Golda, T, Griffiths, B, Harris, DA, Hagemans, JAW, Hanchanale, V, Harji, DP, Helewa, RM, Heriot, AG, Hochman, D, Hohenberger, W, Holm, T, Hompes, R, Jenkins, JT, Kaffenberger, S, Kandaswamy, GV, Kapur, S, Kanemitsu, Y, Kelley, SR, Keller, DS, Khan, MS, Kiran, RP, Kim, H, Kim, HJ, Koh, CE, Kok, NFM, Kokelaar, R, Kontovounisios, C, Kristensen, HO, Kroon, HM, Kusters, M, Lago, V, Larsen, SG, Larson, DW, Law, WL, Laurberg, S, Lee, PJ, Limbert, M, Lydrup, ML, Lyons, A, Lynch, AC, Mantyh, C, Mathis, KL, Margues, CFS, Martling, A, Meijerink, WJHJ, Merkel, S, Mehta, AM, McArthur, DR, McDermott, FD, McGrath, JS, Malde, S, Mimezami, A, Monson, JRT, Morton, JR, Mullaney, TG, Negoi, I, Neto, JWM, Nguyen, B, Nielsen, MB, Nieuwenhuijzen, GAP, Nilsson, PJ, O'Connell, PR, O'Dwyer, ST, Palmer, G, Pappou, E, Park, J, Patsouras, D, Pellino, G, Peterson, AC, Poggioli, G, Proud, D, Quinn, M, Quyn, A, Radwan, RW, van Ramshorst, GH, Rasheed, S, Rasmussen, PC, Regenbogen, SE, Renehan, A, Rocha, R, Rochester, M, Rohila, J, Rothbarth, J, Rottoli, M, Roxburgh, C, Rutten, HJT, Ryan, EJ, Safar, B, Sagar, PM, Sahai, A, Saklani, A, Sammour, T, Sayyed, R, Schizas, AMP, Schwarzkopf, E, Scripcariu, V, Selvasekar, C, Shaikh, I, Hellawell, G, Shida, D, Simpson, A, Smart, NJ, Smart, P, Smith, JJ, Solbakken, AM, Solomon, MJ, Sorensen, MM, Steele, SR, Steffens, D, Stitzenberg, K, Stocchi, L, Stylianides, NA, Sumrien, H, Sutton, PA, Swanking, T, Taylor, C, Tekkis, PP, Teras, J, Thurairaja, R, Toh, EL, Tsarkov, P, Tsukada, Y, Tsukamoto, S, Tuech, JJ, Turner, WH, Tuynman, JB, Vasquez-Jimenez, W, Verhoef, C, Vizzielli, G, Voogt, ELK, Uehara, K, Wakeman, C, Warner, S, Wasmuth, HH, Weber, K, Weiser, MR, Wheeler, JMD, Wild, J, Wilson, M, de Wilt, JHW, Wolthuis, A, Yano, H, Yip, B, Yip, J, Yoo, RN, van Zoggel, D, Winter, DC, Surgery, CCA - Cancer Treatment and quality of life, and Amsterdam Gastroenterology Endocrinology Metabolism

Subjects
Male, medicine.medical_specialty, Adolescent, Colorectal cancer, survival outcomes, medicine.medical_treatment, surgical outcome, surgical outcomes, Tumours of the digestive tract Radboud Institute for Health Sciences [Radboudumc 14], 03 medical and health sciences, 0302 clinical medicine, SDG 3 - Good Health and Well-being, Interquartile range, medicine, Humans, liver metastasi, Rectal cancer, Retrospective Studies, Pelvic exenteration, business.industry, Rectal Neoplasms, Mortality rate, Liver Neoplasms, Gastroenterology, Postoperative complication, Perioperative, medicine.disease, Surgery, Pelvic Exenteration, liver metastasis, Treatment Outcome, 030220 oncology & carcinogenesis, international collaboration, Resection margin, 030211 gastroenterology & hepatology, Hepatectomy, Neoplasm Recurrence, Local, business
Abstract

Aim: At presentation, 15–20% of patients with rectal cancer already have synchronous liver metastases. The aim of this study was to determine the surgical and survival outcomes in patients with advanced rectal cancer who underwent combined pelvic exenteration and liver (oligometastatic) resection. Method: Data from 20 international institutions that performed simultaneous pelvic exenteration and liver resection between 2007 and 2017 were accumulated. Primarily, we examined perioperative outcomes, morbidity and mortality. We also assessed the impact that margin status had on survival. Results: Of 128 patients, 72 (56.2%) were men with a median age of 60 years [interquartile range (IQR) 15 years]. The median size of the liver oligometastatic deposits was 2 cm (IQR 1.8 cm). The median duration of surgery was 406 min (IQR 240 min), with a median blood loss of 1090 ml (IQR 2010 ml). A negative resection margin (R0 resection) was achieved in 73.5% of pelvic exenterations and 66.4% of liver resections. The 30-day mortality rate was 1.6%, and 32% of patients had a major postoperative complication. The 5-year overall survival for patients in whom an R0 resection of both primary and metastatic disease was achieved was 54.6% compared with 20% for those with an R1/R2 resection (P = 0.006). Conclusion: Simultaneous pelvic exenteration and liver resection is feasible, with acceptable morbidity and mortality. Simultaneous resection should only be performed where an R0 resection of both pelvic and hepatic disease is anticipated.

Published
2020
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6. Outcomes of urinary diversion after surgery for locally advanced or locally recurrent rectal cancer with complete cystectomy: ileal and colon conduit

Author

Hagemans, J. A. W., Hagemans, J. A. W., Voogt, E. L. K., Rothbarth, J., Nieuwenhuijzen, G. A. P., Kirkels, W. J., Boormans, J. L., Koldewijn, E. L., Richardson, R., Verhoef, C., Rutten, H. J. T., Burger, J. W. A., Hagemans, J. A. W., Hagemans, J. A. W., Voogt, E. L. K., Rothbarth, J., Nieuwenhuijzen, G. A. P., Kirkels, W. J., Boormans, J. L., Koldewijn, E. L., Richardson, R., Verhoef, C., Rutten, H. J. T., and Burger, J. W. A.

Abstract

Introduction: Surgery for locally advanced rectal cancer (LARC) or locally recurrent rectal cancer (LRRC) may require total pelvic exenteration with the need for urinary diversion. The aim of this study was to describe outcomes for ileal and colon conduits after surgery for LARC and LRRC.Methods: All consecutive patients from two tertiary referral centers who underwent total pelvic exenteration for LARC or LRRC between 2000 and 2018 with cystectomy and urinary reconstruction using an ileal or colon conduit were retrospectively analyzed. Short- (30 days) complications were described for an ileal and colon conduit.Results: 259 patients with LARC (n = 131) and LRRC (n = 128) were included, of whom 214 patients received an ileal conduit and 45 patients a colon conduit. Anastomotic leakage of the ileo-ileal anastomosis occurred in 9 patients (4%) after performing an ileal conduit. Ileal conduit was associated with a higher rate of postoperative ileus (21% vs 7%, p = 0.024), but a lower proportion of wound infections than a colon conduit (14% vs 31%, p = 0.006). The latter did not remain significant in multivariate analysis. No difference was observed in the rate of uretero-enteric anastomotic leakage, urological complications, mortality rates, major complications (Clavien-Dindo >= 3), or hospital stay between both groups.Conclusion: Performing a colon conduit in patients undergoing total pelvic exenteration for LARC or LRRC avoids the risks of ileo-ileal anastomotic leakage and may reduce the risk of a post-operative ileus. Besides, there are no other differences in outcome for ileal and colon conduits. (C) 2020 Elsevier Ltd, BASO - The Association for Cancer Surgery, and the European Society of Surgical Oncology. All rights reserved.

Published
2020

7. Perioperative management and anaesthetic considerations in pelvic exenterations using Delphi methodology: results from the PelvEx Collaborative

Author

PelvEx Collaborative, [missing], Chok, A Y, Oliver, A, Rasheed, S, Tan, E J, Kelly, M E, Aalbers, A G J, Abdul Aziz, N, Abecasis, N, Abraham-Nordling, M, Akiyoshi, T, Alberda, W, Albert, M, Andric, M, Angenete, E, Antoniou, A, Auer, R, Austin, K K, Aziz, O, Baker, R P, Bali, M, Baseckas, G, Bebington, B, Bedford, M, Bednarski, B K, Beets, G L, Berg, P L, Beynon, J, Biondo, S, Boyle, K, Bordeianou, L, Bremers, A B, Brunner, M, Buchwald, P, Bui, A, Burgess, A, Burger, J W A, Burling, D, Burns, E, Campain, N, Carvalhal, S, Castro, L, Caycedo-Marulanda, A, Chan, K K L, Chang, G J, Chew, M H, Chong, P, Christensen, H K, Clouston, H, Codd, M, Collins, D, Colquhoun, A J, Corr, A, Coscia, M, Coyne, P E, Creavin, B, Croner, R S, Damjanovic, L, Daniels, I R, Davies, M, Davies, R J, Delaney, C P, de Wilt, J H W, Denost, Q, Deutsch, C, Dietz, D, Domingo, S, Dozois, E J, Duff, M, Eglinton, T, Enrique-Navascues, J M, Espin-Basany, E, Evans, M D, Fearnhead, N S, Flatmark, K, Fleming, F, Frizelle, F A, Gallego, M A, Garcia-Granero, E, Garcia-Sabrido, J L, Gentilini, L, George, M L, George, V, Ghouti, L, Giner, F, Ginther, N, Glynn, R, Golda, T, Griffiths, B, Harris, D A, Hagemans, J A W, Hanchanale, V, Harji, D P, Helewa, R M, Hellawell, G, Heriot, A G, Hochman, D, Hohenberger, W, Holm, T, Holmström, A, Hompes, R, Jenkins, J T, Kaffenberger, S, Kandaswamy, G V, Kapur, S, Kanemitsu, Y, Kelley, S R, Keller, D S, Khan, M S, Kim, H, Kim, H J, Koh, C E, Kok, N F M, Kokelaar, R, Kontovounisios, C, Kristensen, H Ø, Kroon, H M, Kusters, M, Lago, V, Larsen, S G, Larson, D W, Law, W L, Laurberg, S, Lee, P J, Limbert, M, Lydrup, M L, Lyons, A, Lynch, A C, Mantyh, C, Mathis, K L, Margues, C F S, Martling, A, Meijerink, W J H J, Merkel, S, Mehta, A M, McArthur, D R, McDermott, F D, McGrath, J S, Malde, S, Mirnezami, A, Monson, J R T, Morton, J R, Mullaney, T G, Negoi, I, Neto, J W M, Nguyen, B, Nielsen, M B, Nieuwenhuijzen, G A P, Nilsson, P J, O’Dwyer, S T, Palmer, G, Pappou, E, Park, J, Patsouras, D, Pellino, G, Peterson, A C, Poggioli, G, Proud, D, Quinn, M, Quyn, A, Radwan, R W, Rasmussen, P C, Rausa, E, Regenbogen, S E, Renehan, A, Rocha, R, Rochester, M, Rohila, J, Rothbarth, J, Rottoli, M, Roxburgh, C, Rutten, H J T, Ryan, É J, Safar, B, Sagar, P M, Sahai, A, Saklani, A, Sammour, T, Sayyed, R, Schizas, A M P, Schwarzkopf, E, Scripcariu, V, Selvasekar, C, Shaikh, I, Shida, D, Simpson, A, Smart, N J, Smart, P, Smith, J J, Solbakken, A M, Solomon, M J, Sørensen, M M, Steele, S R, Steffens, D, Stitzenberg, K, Stocchi, L, Stylianides, N A, Swartling, T, Sumrien, H, Sutton, P A, Swartking, T, Taylor, C, Teras, J, Thurairaja, R, Toh, E L, Tsarkov, P, Tsukada, Y, Tsukamoto, S, Tuech, J J, Turner, W H, Tuynman, J B, van Ramshorst, Gabriëlle, Zoggel, D van, Vasquez-Jimenez, W, Verhoef, C, Vizzielli, G, Voogt, E L K, Uehara, K, Wakeman, C, Warrier, S, Wasmuth, H H, Weber, K, Weiser, M R, Wheeler, J M D, Wild, J, Wilson, M, Wolthuis, A, Yano, H, Yip, B, Yip, J, Yoo, R N, Winter, D C, Tekkis, P P, Surgery, Chok, A Y, Oliver, A, Rasheed, S, Tan, E J, Kelly, M E, Aalbers, A G J, Abdul Aziz, N, Abecasis, N, Abraham-Nordling, M, Akiyoshi, T, Alberda, W, Albert, M, Andric, M, Angenete, E, Antoniou, A, Auer, R, Austin, K K, Aziz, O, Baker, R P, Bali, M, Baseckas, G, Bebington, B, Bedford, M, Bednarski, B K, Beets, G L, Berg, P L, Beynon, J, Biondo, S, Boyle, K, Bordeianou, L, Bremers, A B, Brunner, M, Buchwald, P, Bui, A, Burgess, A, Burger, J W A, Burling, D, Burns, E, Campain, N, Carvalhal, S, Castro, L, Caycedo-Marulanda, A, Chan, K K L, Chang, G J, Chew, M H, Chong, P, Christensen, H K, Clouston, H, Codd, M, Collins, D, Colquhoun, A J, Corr, A, Coscia, M, Coyne, P E, Creavin, B, Croner, R S, Damjanovic, L, Daniels, I R, Davies, M, Davies, R J, Delaney, C P, de Wilt, J H W, Denost, Q, Deutsch, C, Dietz, D, Domingo, S, Dozois, E J, Duff, M, Eglinton, T, Enrique-Navascues, J M, Espin-Basany, E, Evans, M D, Fearnhead, N S, Flatmark, K, Fleming, F, Frizelle, F A, Gallego, M A, Garcia-Granero, E, Garcia-Sabrido, J L, Gentilini, L, George, M L, George, V, Ghouti, L, Giner, F, Ginther, N, Glynn, R, Golda, T, Griffiths, B, Harris, D A, Hagemans, J A W, Hanchanale, V, Harji, D P, Helewa, R M, Hellawell, G, Heriot, A G, Hochman, D, Hohenberger, W, Holm, T, Holmström, A, Hompes, R, Jenkins, J T, Kaffenberger, S, Kandaswamy, G V, Kapur, S, Kanemitsu, Y, Kelley, S R, Keller, D S, Khan, M S, Kim, H, Kim, H J, Koh, C E, Kok, N F M, Kokelaar, R, Kontovounisios, C, Kristensen, H Ø, Kroon, H M, Kusters, M, Lago, V, Larsen, S G, Larson, D W, Law, W L, Laurberg, S, Lee, P J, Limbert, M, Lydrup, M L, Lyons, A, Lynch, A C, Mantyh, C, Mathis, K L, Margues, C F S, Martling, A, Meijerink, W J H J, Merkel, S, Mehta, A M, McArthur, D R, McDermott, F D, McGrath, J S, Malde, S, Mirnezami, A, Monson, J R T, Morton, J R, Mullaney, T G, Negoi, I, Neto, J W M, Nguyen, B, Nielsen, M B, Nieuwenhuijzen, G A P, Nilsson, P J, O’Dwyer, S T, Palmer, G, Pappou, E, Park, J, Patsouras, D, Pellino, G, Peterson, A C, Poggioli, G, Proud, D, Quinn, M, Quyn, A, Radwan, R W, Rasmussen, P C, Rausa, E, Regenbogen, S E, Renehan, A, Rocha, R, Rochester, M, Rohila, J, Rothbarth, J, Rottoli, M, Roxburgh, C, Rutten, H J T, Ryan, É J, Safar, B, Sagar, P M, Sahai, A, Saklani, A, Sammour, T, Sayyed, R, Schizas, A M P, Schwarzkopf, E, Scripcariu, V, Selvasekar, C, Shaikh, I, Shida, D, Simpson, A, Smart, N J, Smart, P, Smith, J J, Solbakken, A M, Solomon, M J, Sørensen, M M, Steele, S R, Steffens, D, Stitzenberg, K, Stocchi, L, Stylianides, N A, Swartling, T, Sumrien, H, Sutton, P A, Swartking, T, Taylor, C, Teras, J, Thurairaja, R, Toh, E L, Tsarkov, P, Tsukada, Y, Tsukamoto, S, Tuech, J J, Turner, W H, Tuynman, J B, Ramshorst, G H van, Zoggel, D van, Vasquez-Jimenez, W, Verhoef, C, Vizzielli, G, Voogt, E L K, Uehara, K, Wakeman, C, Warrier, S, Wasmuth, H H, Weber, K, Weiser, M R, Wheeler, J M D, Wild, J, Wilson, M, Wolthuis, A, Yano, H, Yip, B, Yip, J, Yoo, R N, Winter, D C, Tekkis, P P, Mcarthur, D R, Mcdermott, F D, Mcgrath, J S, Psychiatrie & Neuropsychologie, RS: MHeNs - R1 - Cognitive Neuropsychiatry and Clinical Neuroscience, RS: GROW - R3 - Innovative Cancer Diagnostics & Therapy, Faculteit FHML Centraal, Health Services Research, RS: CAPHRI - R1 - Ageing and Long-Term Care, RS: FdR IC Goederenrecht, School Office GROW, and Amsterdam Gastroenterology Endocrinology Metabolism

Subjects
BLOOD-TRANSFUSION, CARDIAC RISK, AcademicSubjects/MED00910, medicine.medical_treatment, Delphi method, Computer-assisted web interviewing, Tumours of the digestive tract Radboud Institute for Health Sciences [Radboudumc 14], 0302 clinical medicine, 030202 anesthesiology, Multidisciplinary approach, Medicine and Health Sciences, Medicine, humans, RISK, COMPLICATIONS, Perioperative management - anaesthetic - pelvic exenterations - rectal cancer - Delphi - PelvEx Collaborative, Manchester Cancer Research Centre, General Medicine, SYSTEMIC INFLAMMATORY RESPONSE, 030220 oncology & carcinogenesis, Original Article, Medical emergency, EPIDURAL-ANESTHESIA, AcademicSubjects/MED00010, Life Sciences & Biomedicine, Consensus, ENHANCED RECOVERY, Best practice, education, MEDLINE, patient care team/organization & administration, 03 medical and health sciences, anesthetics, Humans, MAJOR ABDOMINAL-SURGERY, METAANALYSIS, RECTAL-CANCER, Anesthetics, Patient Care Team, Science & Technology, Pelvic exenteration, business.industry, ResearchInstitutes_Networks_Beacons/mcrc, MORTALITY, LONG-TERM SURVIVAL, Perioperative, COMPARTMENT SYNDROME, medicine.disease, pelvic exenteration, Pelvic Exenteration, Subject-matter expert, consensus, Surgery, business
Abstract

Background The multidisciplinary perioperative and anaesthetic management of patients undergoing pelvic exenteration is essential for good surgical outcomes. No clear guidelines have been established, and there is wide variation in clinical practice internationally. This consensus statement consolidates clinical experience and best practice collectively, and systematically addresses key domains in the perioperative and anaesthetic management. Methods The modified Delphi methodology was used to achieve consensus from the PelvEx Collaborative. The process included one round of online questionnaire involving controlled feedback and structured participant response, two rounds of editing, and one round of web-based voting. It was held from December 2019 to February 2020. Consensus was defined as more than 80 per cent agreement, whereas less than 80 per cent agreement indicated low consensus. Results The final consensus document contained 47 voted statements, across six key domains of perioperative and anaesthetic management in pelvic exenteration, comprising preoperative assessment and preparation, anaesthetic considerations, perioperative management, anticipating possible massive haemorrhage, stress response and postoperative critical care, and pain management. Consensus recommendations were developed, based on consensus agreement achieved on 34 statements. Conclusion The perioperative and anaesthetic management of patients undergoing pelvic exenteration is best accomplished by a dedicated multidisciplinary team with relevant domain expertise in the setting of a specialized tertiary unit. This consensus statement has addressed key domains within the framework of current perioperative and anaesthetic management among patients undergoing pelvic exenteration, with an international perspective, to guide clinical practice, and has outlined areas for future clinical research., The PelvEx Collaborative consensus statement systematically addresses the perioperative and anaesthetic management of patients undergoing pelvic exenteration (PE). Using the modified Delphi methodology, recommendations across six key clinical domains comprising preoperative assessment and preparation, anaesthetic considerations, perioperative management, anticipating possible massive haemorrhage, stress response and postoperative critical care, and pain management were developed. pelvic exenteratio and recommendation

Published
2021
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8. Predicting outcomes of pelvic exenteration using machine learning

Author

Dudurych I., Kelly M. E., Aalbers A. G. J., Abdul Aziz N., Abecasis N., Abraham-Nordling M., Akiyoshi T., Alberda W., Albert M., Andric M., Angenete E., Antoniou A., Auer R., Austin K. K., Aziz O., Baker R. P., Bali M., Baseckas G., Bebington B., Bedford M., Bednarski B. K., Beets G. L., Berg P. L., Beynon J., Biondo S., Boyle K., Bordeianou L., Bremers A. B., Brunner M., Buchwald P., Bui A., Burgess A., Burger J. W. A., Burling D., Burns E., Campain N., Carvalhal S., Castro L., Caycedo-Marulanda A., Chan K. K. L., Chang G. J., Chew M. H., Chok A. K., Chong P., Christensen H. K., Clouston H., Codd M., Collins D., Colquhoun A. J., Corr A., Coscia M., Coyne P. E., Creavin B., Croner R. S., Damjanovic L., Daniels I. R., Davies M., Davies R. J., Delaney C. P., Wilt J. H. W., Denost Q., Deutsch C., Dietz D., Domingo S., Dozois E. J., Duff M., Eglinton T., Enrique-Navascues J. M., Espin-Basany E., Evans M. D., Fearnhead N. S., Flatmark K., Fleming F., Frizelle F. A., Gallego M. A., Garcia-Granero E., Garcia-Sabrido J. L., Gentilini L., George M. L., George V., Ghouti L., Giner F., Ginther N., Glynn R., Golda T., Griffiths B., Harris D. A., Hagemans J. A. W., Hanchanale V., Harji D. P., Helewa R. M., Heriot A. G., Hochman D., Hohenberger W., Holm T., Hompes R., Jenkins J. T., Kaffenberger S., Kandaswamy G. V., Kapur S., Kanemitsu Y., Kelley S. R., Keller D. S., Khan M. S., Kiran R. P., Kim H., Kim H. J., Koh C. E., Kok N. F. M., Kokelaar R., Kontovounisios C., Kristensen H. O., Kroon H. M., Kusters M., Lago V., Larsen S. G., Larson D. W., Law W. L., Laurberg S., Lee P. J., Limbert M., Lydrup M. L., Lyons A., Lynch A. C., Mantyh C., Mathis K. L., Margues C. F. S., Martling A., Meijerink W. J. H. J., Merkel S., Mehta A. M., McArthur D. R., McDermott F. D., McGrath J. S., Malde S., Mirnezami A., Monson J. R. T., Morton J. R., Mullaney T. G., Negoi I., Neto J. W. M., Nguyen B., Nielsen M. B., Nieuwenhuijzen G. A. P., Nilsson P. J., Oliver A., O'Connell P. R., O'Dwyer S. T., Palmer G., Pappou E., Park J., Patsouras D., Pellino G., Peterson A. C., Poggioli G., Proud D., Quinn M., Quyn A., Radwan R. W., Rasheed S., Rasmussen P. C., Regenbogen S. E., Renehan A., Rocha R., Rochester M., Rohila J., Rothbarth J., Rottoli M., Roxburgh C., Rutten H. J. T., Ryan E. J., Safar B., Sagar P. M., Sahai A., Saklani A., Sammour T., Sayyed R., Schizas A. M. P., Schwarzkopf E., Scripcariu V., Selvasekar C., Shaikh I., Shellawell G., Shida D., Simpson A., Smart N. J., Smart P., Smith J. J., Solbakken A. M., Solomon M. J., Sorensen M. M., Steele S. R., Steffens D., Stitzenberg K., Stocchi L., Stylianides N. A., Swartling T., Sumrien H., Sutton P. A., Swartking T., Tan E. J., Taylor C., Tekkis P. P., Teras J., Thurairaja R., Toh E. L., Tsarkov P., Tsukada Y., Tsukamoto S., Tuech J. J., Turner W. H., Tuynman J. B., van Ramshorst G. H., van Zoggel D., Vasquez-Jimenez W., Verhoef C., Vizzielli G., Voogt E. L. K., Uehara K., Wakeman C., Warrier S., Wasmuth H. H., Weber K., Weiser M. R., Wheeler J. M. D., Wild J., Wilson M., Wolthuis A., Yano H., Yip B., Yip J., Yoo R. N., Winter D. C., Dudurych I., Kelly M.E., Aalbers A.G.J., Abdul Aziz N., Abecasis N., Abraham-Nordling M., Akiyoshi T., Alberda W., Albert M., Andric M., Angenete E., Antoniou A., Auer R., Austin K.K., Aziz O., Baker R.P., Bali M., Baseckas G., Bebington B., Bedford M., Bednarski B.K., Beets G.L., Berg P.L., Beynon J., Biondo S., Boyle K., Bordeianou L., Bremers A.B., Brunner M., Buchwald P., Bui A., Burgess A., Burger J.W.A., Burling D., Burns E., Campain N., Carvalhal S., Castro L., Caycedo-Marulanda A., Chan K.K.L., Chang G.J., Chew M.H., Chok A.K., Chong P., Christensen H.K., Clouston H., Codd M., Collins D., Colquhoun A.J., Corr A., Coscia M., Coyne P.E., Creavin B., Croner R.S., Damjanovic L., Daniels I.R., Davies M., Davies R.J., Delaney C.P., Wilt J.H.W., Denost Q., Deutsch C., Dietz D., Domingo S., Dozois E.J., Duff M., Eglinton T., Enrique-Navascues J.M., Espin-Basany E., Evans M.D., Fearnhead N.S., Flatmark K., Fleming F., Frizelle F.A., Gallego M.A., Garcia-Granero E., Garcia-Sabrido J.L., Gentilini L., George M.L., George V., Ghouti L., Giner F., Ginther N., Glynn R., Golda T., Griffiths B., Harris D.A., Hagemans J.A.W., Hanchanale V., Harji D.P., Helewa R.M., Heriot A.G., Hochman D., Hohenberger W., Holm T., Hompes R., Jenkins J.T., Kaffenberger S., Kandaswamy G.V., Kapur S., Kanemitsu Y., Kelley S.R., Keller D.S., Khan M.S., Kiran R.P., Kim H., Kim H.J., Koh C.E., Kok N.F.M., Kokelaar R., Kontovounisios C., Kristensen H.O., Kroon H.M., Kusters M., Lago V., Larsen S.G., Larson D.W., Law W.L., Laurberg S., Lee P.J., Limbert M., Lydrup M.L., Lyons A., Lynch A.C., Mantyh C., Mathis K.L., Margues C.F.S., Martling A., Meijerink W.J.H.J., Merkel S., Mehta A.M., McArthur D.R., McDermott F.D., McGrath J.S., Malde S., Mirnezami A., Monson J.R.T., Morton J.R., Mullaney T.G., Negoi I., Neto J.W.M., Nguyen B., Nielsen M.B., Nieuwenhuijzen G.A.P., Nilsson P.J., Oliver A., O'Connell P.R., O'Dwyer S.T., Palmer G., Pappou E., Park J., Patsouras D., Pellino G., Peterson A.C., Poggioli G., Proud D., Quinn M., Quyn A., Radwan R.W., Rasheed S., Rasmussen P.C., Regenbogen S.E., Renehan A., Rocha R., Rochester M., Rohila J., Rothbarth J., Rottoli M., Roxburgh C., Rutten H.J.T., Ryan E.J., Safar B., Sagar P.M., Sahai A., Saklani A., Sammour T., Sayyed R., Schizas A.M.P., Schwarzkopf E., Scripcariu V., Selvasekar C., Shaikh I., Shellawell G., Shida D., Simpson A., Smart N.J., Smart P., Smith J.J., Solbakken A.M., Solomon M.J., Sorensen M.M., Steele S.R., Steffens D., Stitzenberg K., Stocchi L., Stylianides N.A., Swartling T., Sumrien H., Sutton P.A., Swartking T., Tan E.J., Taylor C., Tekkis P.P., Teras J., Thurairaja R., Toh E.L., Tsarkov P., Tsukada Y., Tsukamoto S., Tuech J.J., Turner W.H., Tuynman J.B., van Ramshorst G.H., van Zoggel D., Vasquez-Jimenez W., Verhoef C., Vizzielli G., Voogt E.L.K., Uehara K., Wakeman C., Warrier S., Wasmuth H.H., Weber K., Weiser M.R., Wheeler J.M.D., Wild J., Wilson M., Wolthuis A., Yano H., Yip B., Yip J., Yoo R.N., Winter D.C., Surgery, Dudurych, I., Kelly, M. E., Aalbers, A. G. J., Abdul Aziz, N., Abecasis, N., Abraham-Nordling, M., Akiyoshi, T., Alberda, W., Albert, M., Andric, M., Angenete, E., Antoniou, A., Auer, R., Austin, K. K., Aziz, O., Baker, R. P., Bali, M., Baseckas, G., Bebington, B., Bedford, M., Bednarski, B. K., Beets, G. L., Berg, P. L., Beynon, J., Biondo, S., Boyle, K., Bordeianou, L., Bremers, A. B., Brunner, M., Buchwald, P., Bui, A., Burgess, A., Burger, J. W. A., Burling, D., Burns, E., Campain, N., Carvalhal, S., Castro, L., Caycedo-Marulanda, A., Chan, K. K. L., Chang, G. J., Chew, M. H., Chok, A. K., Chong, P., Christensen, H. K., Clouston, H., Codd, M., Collins, D., Colquhoun, A. J., Corr, A., Coscia, M., Coyne, P. E., Creavin, B., Croner, R. S., Damjanovic, L., Daniels, I. R., Davies, M., Davies, R. J., Delaney, C. P., Wilt, J. H. W., Denost, Q., Deutsch, C., Dietz, D., Domingo, S., Dozois, E. J., Duff, M., Eglinton, T., Enrique-Navascues, J. M., Espin-Basany, E., Evans, M. D., Fearnhead, N. S., Flatmark, K., Fleming, F., Frizelle, F. A., Gallego, M. A., Garcia-Granero, E., Garcia-Sabrido, J. L., Gentilini, L., George, M. L., George, V., Ghouti, L., Giner, F., Ginther, N., Glynn, R., Golda, T., Griffiths, B., Harris, D. A., Hagemans, J. A. W., Hanchanale, V., Harji, D. P., Helewa, R. M., Heriot, A. G., Hochman, D., Hohenberger, W., Holm, T., Hompes, R., Jenkins, J. T., Kaffenberger, S., Kandaswamy, G. V., Kapur, S., Kanemitsu, Y., Kelley, S. R., Keller, D. S., Khan, M. S., Kiran, R. P., Kim, H., Kim, H. J., Koh, C. E., Kok, N. F. M., Kokelaar, R., Kontovounisios, C., Kristensen, H. O., Kroon, H. M., Kusters, M., Lago, V., Larsen, S. G., Larson, D. W., Law, W. L., Laurberg, S., Lee, P. J., Limbert, M., Lydrup, M. L., Lyons, A., Lynch, A. C., Mantyh, C., Mathis, K. L., Margues, C. F. S., Martling, A., Meijerink, W. J. H. J., Merkel, S., Mehta, A. M., Mcarthur, D. R., Mcdermott, F. D., Mcgrath, J. S., Malde, S., Mirnezami, A., Monson, J. R. T., Morton, J. R., Mullaney, T. G., Negoi, I., Neto, J. W. M., Nguyen, B., Nielsen, M. B., Nieuwenhuijzen, G. A. P., Nilsson, P. J., Oliver, A., O'Connell, P. R., O'Dwyer, S. T., Palmer, G., Pappou, E., Park, J., Patsouras, D., Pellino, G., Peterson, A. C., Poggioli, G., Proud, D., Quinn, M., Quyn, A., Radwan, R. W., Rasheed, S., Rasmussen, P. C., Regenbogen, S. E., Renehan, A., Rocha, R., Rochester, M., Rohila, J., Rothbarth, J., Rottoli, M., Roxburgh, C., Rutten, H. J. T., Ryan, E. J., Safar, B., Sagar, P. M., Sahai, A., Saklani, A., Sammour, T., Sayyed, R., Schizas, A. M. P., Schwarzkopf, E., Scripcariu, V., Selvasekar, C., Shaikh, I., Shellawell, G., Shida, D., Simpson, A., Smart, N. J., Smart, P., Smith, J. J., Solbakken, A. M., Solomon, M. J., Sorensen, M. M., Steele, S. R., Steffens, D., Stitzenberg, K., Stocchi, L., Stylianides, N. A., Swartling, T., Sumrien, H., Sutton, P. A., Swartking, T., Tan, E. J., Taylor, C., Tekkis, P. P., Teras, J., Thurairaja, R., Toh, E. L., Tsarkov, P., Tsukada, Y., Tsukamoto, S., Tuech, J. J., Turner, W. H., Tuynman, J. B., van Ramshorst, G. H., van Zoggel, D., Vasquez-Jimenez, W., Verhoef, C., Vizzielli, G., Voogt, E. L. K., Uehara, K., Wakeman, C., Warrier, S., Wasmuth, H. H., Weber, K., Weiser, M. R., Wheeler, J. M. D., Wild, J., Wilson, M., Wolthuis, A., Yano, H., Yip, B., Yip, J., Yoo, R. N., and Winter, D. C.

Subjects
Artificial intelligence, medicine.medical_treatment, Machine learning, computer.software_genre, Logistic regression, Tumours of the digestive tract Radboud Institute for Health Sciences [Radboudumc 14], SDG 3 - Good Health and Well-being, Medicine, Humans, Pelvic exenteration, Receiver operating characteristic, Artificial neural network, business.industry, Rectal Neoplasms, Deep learning, Gastroenterology, Prognosis, pelvic exenteration, Support vector machine, machine learning, Test set, colorectal surgery, Neoplasm Recurrence, Local, business, computer, Predictive modelling, artificial neural network
Abstract

Aim: We aim to compare machine learning with neural network performance in predicting R0 resection (R0), length of stay >14days (LOS), major complication rates at 30days postoperatively (COMP) and survival greater than 1 year (SURV) for patients having pelvic exenteration for locally advanced and recurrent rectal cancer. Method: A deep learning computer was built and the programming environment was established. The PelvEx Collaborative database was used which contains anonymized data on patients who underwent pelvic exenteration for locally advanced or locally recurrent colorectal cancer between 2004 and 2014. Logistic regression, a support vector machine and an artificial neural network (ANN) were trained. Twenty per cent of the data were used as a test set for calculating prediction accuracy for R0, LOS, COMP and SURV. Model performance was measured by plotting receiver operating characteristic (ROC) curves and calculating the area under the ROC curve (AUROC). Results: Machine learning models and ANNs were trained on 1147 cases. The AUROC for all outcome predictions ranged from 0.608 to 0.793 indicating modest to moderate predictive ability. The models performed best at predicting LOS >14days with an AUROC of 0.793 using preoperative and operative data. Visualized logistic regression model weights indicate a varying impact of variables on the outcome in question. Conclusion: This paper highlights the potential for predictive modelling of large international databases. Current data allow moderate predictive ability of both complex ANNs and more classic methods.

Published
2020

9. Changing outcomes following pelvic exenteration for locally advanced and recurrent rectal cancer

Author

Kelly, M. E., Aalbers, A. G. J., Aziz, N. Abdul, Abraham-Nordling, M., Alberda, W., Antoniou, A., Austin, K. K., Baker, R., Bali, M., Baseckas, G., Bednarski, B. K., Beets, G. L., Berg, P. L., Beynon, J., Biondo, S., Bordeianou, L., Brunner, M., Buchwald, P., Burger, J. W. A., Burling, D., Campain, N., Chan, K. K. L., Chang, G., Chew, M. H., Chong, P. C., Christensen, H. K., Codd, M., Colquhoun, A. J., Corr, A., Coscia, M., Coyne, P. E., Creavin, B., Damjanovic, L., Daniels, I. R., Davies, M., Davies, R. J., de Wilt, J. H. W., Denost, Q., Deutsch, C., Dietz, D., Dozois, E. J., Duff, M., Eglinton, T., Evans, M., Evans, M. D., Fearnhead, N. S., Frizelle, F. A., Garcia-Granero, E., Garcia-Sabrido, J. L., Gentilini, L., George, M. L., Glynn, R., Golda, T., Griffiths, B., Hagemans, J. A. W., Harji, D. P., Harris, D. A., Heriot, A. A. G., Hohenberger, W., Holm, T., Jenkins, J. T., Kanemitsu, Y., Kapur, S., Keller, D. S., Kelley, S. R., Kim, H., Koh, C. E., Kok, N. F. M., Kokelaar, R., Kontovounisios, C., Kusters, M., Larson, D. W., Laurberg, S., Law, W. L., Lee, P., Lydrup, M. L., Lynch, A. C., Martling, A., Mathis, K. L., Meijerink, W. J. H. J., Mentha, A. M., Merkel, S., McDermott, F. D., McGrath, J. S., Mihailo, A., Mirnezami, A., Morton, J. R., Mullaney, T. G., Nielsen, M. B., Nieuwenhuijzen, G. A. P., Nilsson, P. J., O'Connell, P. R., Palmer, G., Patsouras, D., Pellino, G., Poggioli, G., Quinn, M., Quyn, A., Radwan, R. W., Rasheed, S., Rasmussen, P. C., Rocha, R., Rothbarth, J., Roxburgh, C., Rutten, H. J. T., Ryan, E., Sagar, P. M., Sammour, T., Schizas, A. M. P., Schwarzkopf, E., Scripcariu, V, Shaikh, I, Shida, D., Simpson, A., Smart, N. J., Smith, J., Solomon, M. J., Sorensen, M. M., Steele, S. R., Steffens, D., Stocchi, L., Stylianides, N. A., Taylor, C., Tekkis, P. P., Tsukamoto, S., Turner, W. H., Tuynman, J. B., van Ramshorst, Gabriëlle, van Zoggel, D., Vasquez-Jimenez, W., Verhoef, C., Verstegen, M., Wakeman, C., Warrier, S., Wasmuth, H. H., Weiser, M. R., Wheeler, J. M. D., Wild, J., Winter, D. C., Yip, J., Kelly, M. E., Aalbers, A. G. J., Aziz, N. Abdul, Abraham‐Nordling, M., Alberda, W., Antoniou, A., Austin, K. K., Baker, R., Bali, M., Baseckas, G., Bednarski, B. K., Beets, G. L., Berg, P. L., Beynon, J., Biondo, S., Bordeianou, L., Brunner, M., Buchwald, P., Burger, J. W. A., Burling, D., Campain, N., Chan, K. K. L., Chang, G., Chew, M. H., Chong, P. C., Christensen, H. K., Codd, M., Colquhoun, A. J., Corr, A., Coscia, M., Coyne, P. E., Creavin, B., Damjanovic, L., Daniels, I. R., Davies, M., Davies, R. J., Wilt, J. H. W., Denost, Q., Deutsch, C., Dietz, D., Dozois, E. J., Duff, M., Eglinton, T., Evans, M., Evans, M.D., Fearnhead, N. S., Frizelle, F. A., Garcia‐Granero, E., Garcia‐Sabrido, J. L., Gentilini, L., George, M. L., Glynn, R., Golda, T., Griffiths, B., Hagemans, J. A.W., Harji, D. P., Harris, D. A., Heriot, A. A. G., Hohenberger, W., Holm, T., Jenkins, J. T., Kanemitsu, Y., Kapur, S., Keller, D. S., Kelley, S. R., Kim, H., Koh, C. E., Kok, N. F. M., Kokelaar, R., Kontovounisios, C., Kusters, M., Larson, D. W., Laurberg, S., Law, W. L., Lee, P., Lydrup, M. L., Lynch, A. C., Martling, A., Mathis, K. L., Meijerink, W. J. H. J., Mentha, A. M., Merkel, S., McDermott, F. D., McGrath, J. S., Mihailo, A., Mirnezami, A., Morton, J. R., Mullaney, T. G., Nielsen, M. B., Nieuwenhuijzen, G. A. P., Nilsson, P. J., O'Connell, P. R., Palmer, G., Patsouras, D., Pellino, G., Poggioli, G., Quinn, M., Quyn, A., Radwan, R. W., Rasheed, S., Rasmussen, P. C., Rocha, R., Rothbarth, J., Roxburgh, C., Rutten, H. J. T., Ryan, É., Sagar, P. M., Sammour, T., Schizas, A. M. P., Schwarzkopf, E., Scripcariu, V., Shaikh, I., Shida, D., Simpson, A., Smart, N. J., Smith, J., Solomon, M. J., Sørensen, M.M., Steele, S. R., Steffens, D., Stocchi, L., Stylianides, N. A., Taylor, C., Tekkis, P. P., Tsukamoto, S., Turner, W. H., Tuynman, J. B., Ramshorst, G. H., Zoggel, D., Vasquez‐Jimenez, W., Verhoef, C., Verstegen, M., Wakeman, C., Warrier, S., Wasmuth, H. H., Weiser, M. R., Wheeler, J. M. D., Wild, J., Winter, D. C., Yip, J., Kelly, Me, Aalbers, Agj, Aziz, Na, Abraham-Nordling, M, Alberda, W, Antoniou, A, Austin, Kk, Baker, R, Bali, M, Baseckas, G, Bednarski, Bk, Beets, Gl, Berg, Pl, Beynon, J, Biondo, S, Bordeianou, L, Brunner, M, Buchwald, P, Burger, Jwa, Burling, D, Campain, N, Chan, Kkl, Chang, G, Chew, Mh, Chong, Pc, Christensen, Hk, Codd, M, Colquhoun, Aj, Corr, A, Coscia, M, Coyne, Pe, Creavin, B, Damjanovic, L, Daniels, Ir, Davies, M, Davies, Rj, de Wilt, Jhw, Denost, Q, Deutsch, C, Dietz, D, Dozois, Ej, Duff, M, Eglinton, T, Evans, M, Evans, Md, Fearnhead, N, Frizelle, Fa, Garcia-Granero, E, Garcia-Sabrido, Jl, Gentilini, L, George, Ml, Glynn, R, Golda, T, Griffiths, B, Hagemans, Jaw, Harji, Dp, Harris, Da, Heriot, Aag, Hohenberger, W, Holm, T, Jenkins, Jt, Kanemitsu, Y, Kapur, S, Keller, D, Kelley, Sr, Kim, H, Koh, Ce, Kok, Nfm, Kokelaar, R, Kontovounisios, C, Kusters, M, Larson, Dw, Laurberg, S, Law, Wl, Lee, P, Lydrup, Ml, Lynch, Ac, Martling, A, Mathis, Kl, Meijerink, Wjhj, Mentha, Am, Merkel, S, Mcdermott, Fd, Mcgrath, J, Mihailo, A, Mirnezami, A, Morton, Jr, Mullaney, Tg, Nielsen, Mb, Nieuwenhuijzen, Gap, Nilsson, Pj, O'Connell, Pr, Palmer, G, Patsouras, D, Pellino, G, Poggioli, G, Quinn, M, Quyn, A, Radwan, Rw, Rasheed, S, Rasmussen, Pc, Rocha, R, Rothbarth, J, Roxburgh, C, Rutten, Hjt, Ryan, E, Sagar, Pm, Sammour, T, Schizas, Amp, Schwarzkopf, E, Scripcariu, V, Shaikh, I, Shida, D, Simpson, A, Smart, Nj, Smith, J, Solomon, Mj, Sorensen, Mm, Steele, Sr, Steffens, D, Stocchi, L, Stylianides, Na, Taylor, C, Tekkis, Pp, Tsukamoto, S, Turner, Wh, Tuynman, Jb, van Ramshorst, Gh, van Zoggel, D, Vasquez-Jimenez, W, Verhoef, C, Verstegen, M, Wakeman, C, Warrier, S, Wasmuth, Hh, Weiser, Mr, Wheeler, Jmd, Wild, J, Winter, Dc, and Yip, J

Subjects
Male, Blood transfusion, Colorectal cancer, medicine.medical_treatment, Surgical Flaps, COLORECTAL-CANCER, Tumours of the digestive tract Radboud Institute for Health Sciences [Radboudumc 14], Postoperative Complications, Retrospective Studie, Medicine and Health Sciences, Mortality rate, General Medicine, Middle Aged, Treatment Outcome, medicine.anatomical_structure, HOSPITAL VOLUME, SURVIVAL, Original Article, Female, Life Sciences & Biomedicine, Human, medicine.medical_specialty, lcsh:Surgery, Rectum, Subgroup analysis, SDG 3 - Good Health and Well-being, medicine, Humans, Blood Transfusion, Retrospective Studies, Aged, Science & Technology, Pelvic exenteration, Rectal Neoplasms, business.industry, MORTALITY, PelvEx Collaborative, Retrospective cohort study, Original Articles, lcsh:RD1-811, Length of Stay, medicine.disease, SURGEON VOLUME, Pelvic Exenteration, Surgery, Surgical Flap, Postoperative Complication, Neoplasm Recurrence, Local, business, Complication
Abstract

Contains fulltext : 215764.pdf (Publisher’s version ) (Open Access) Background: Pelvic exenteration for locally advanced rectal cancer (LARC) and locally recurrent rectal cancer (LRRC) is technically challenging but increasingly performed in specialist centres. The aim of this study was to compare outcomes of exenteration over time. Methods: This was a multicentre retrospective study of patients who underwent exenteration for LARC and LRRC between 2004 and 2015. Surgical outcomes, including rate of bone resection, flap reconstruction, margin status and transfusion rates, were examined. Outcomes between higher- and lower-volume centres were also evaluated. Results: Some 2472 patients underwent pelvic exenteration for LARC and LRRC across 26 institutions. For LARC, rates of bone resection or flap reconstruction increased from 2004 to 2015, from 3.5 to 12.8 per cent, and from 12.0 to 29.4 per cent respectively. Fewer units of intraoperative blood were transfused over this interval (median 4 to 2 units; P = 0.040). Subgroup analysis showed that bone resection and flap reconstruction rates increased in lower- and higher-volume centres. R0 resection rates significantly increased in low-volume centres but not in high-volume centres over time (low-volume: from 62.5 to 80.0 per cent, P = 0.001; high-volume: from 83.5 to 88.4 per cent, P = 0.660). For LRRC, no significant trends over time were observed for bone resection or flap reconstruction rates. The median number of units of intraoperative blood transfused decreased from 5 to 2.5 units (P < 0.001). R0 resection rates did not increase in either low-volume (from 51.7 to 60.4 per cent; P = 0.610) or higher-volume (from 48.6 to 65.5 per cent; P = 0.100) centres. No significant differences in length of hospital stay, 30-day complication, reintervention or mortality rates were observed over time. Conclusion: Radical resection, bone resection and flap reconstruction rates were performed more frequently over time, while transfusion requirements decreased.

Published
2019

10. The clinical relevance of indeterminate lung nodules in patients with locally recurrent rectal cancer.

Author

van Rees JM, Höppener DJ, Hagemans JAW, Rothbarth J, Grünhagen DJ, Nuyttens JJME, van Meerten E, de Vries M, and Verhoef C

Subjects
Aged, Female, Humans, Male, Middle Aged, Neoplasm Recurrence, Local pathology, Neoplasm Staging, Netherlands, Progression-Free Survival, Retrospective Studies, Lung Neoplasms diagnostic imaging, Lung Neoplasms secondary, Rectal Neoplasms pathology, Tomography, X-Ray Computed
Abstract

Aim: To evaluate the clinical relevance of indeterminate lung nodules (ILN) in patients with locally recurrent rectal cancer (LRRC) treated in a tertiary referral centre., Methods: All patients with LRRC diagnosed between 2000 and 2017 were retrospectively reviewed. Reports of staging chest CT-scans were evaluated for ILN. Patients with distant metastases including lung metastases at time of LRRC diagnosis were excluded. Overall (OS), progression-free survival (PFS) and the cumulative incidence of lung metastases were compared between patients with and without ILN., Results: In total 556 patients with LRRC were treated during the study period. In the 243 patients eligible for analysis, 68 (28%) had ILN at LRRC diagnosis. Median OS was 37 months for both the patients with and without ILN (p = 0.37). Median PFS was 14 months for the patients with ILN and 16 months for patients without ILN (p = 0.80). After correction for potential confounding, ILN present at LRRC diagnosis was not associated with impaired OS or PFS (adjusted hazards ratio [95% confidence interval]: 0.81 [0.54-1.22] and 1.09 [0.75-1.59]). The 5-year cumulative incidence of lung metastases was 31% in patients with ILN and 28% in patients without ILN (p = 0.19)., Conclusion: Our study shows that ILN are present in roughly a quarter of patients with LRRC. No differences in OS, PFS, or the cumulative incidence of lung metastases were found between patients with and without ILN at LRRC diagnosis. These results suggest that ILN are of little to no clinical relevance in patients with LRRC., (Copyright © 2020. Published by Elsevier Ltd.)

Published
2021
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11. Outcomes of urinary diversion after surgery for locally advanced or locally recurrent rectal cancer with complete cystectomy; ileal and colon conduit.

Author

Hagemans JAW, Voogt ELK, Rothbarth J, Nieuwenhuijzen GAP, Kirkels WJ, Boormans JL, Koldewijn EL, Richardson R, Verhoef C, Rutten HJT, and Burger JWA

Subjects
Aged, Anastomosis, Surgical, Female, Humans, Male, Middle Aged, Neoplasm Recurrence, Local diagnosis, Neoplasm Staging, Rectal Neoplasms diagnosis, Retrospective Studies, Urinary Reservoirs, Continent, Colon surgery, Cystectomy methods, Ileum surgery, Neoplasm Recurrence, Local surgery, Rectal Neoplasms surgery, Urinary Bladder surgery, Urinary Diversion methods
Abstract

Introduction: Surgery for locally advanced rectal cancer (LARC) or locally recurrent rectal cancer (LRRC) may require total pelvic exenteration with the need for urinary diversion. The aim of this study was to describe outcomes for ileal and colon conduits after surgery for LARC and LRRC., Methods: All consecutive patients from two tertiary referral centers who underwent total pelvic exenteration for LARC or LRRC between 2000 and 2018 with cystectomy and urinary reconstruction using an ileal or colon conduit were retrospectively analyzed. Short- (≤30 days) and long-term (>30 days) complications were described for an ileal and colon conduit., Results: 259 patients with LARC (n = 131) and LRRC (n = 128) were included, of whom 214 patients received an ileal conduit and 45 patients a colon conduit. Anastomotic leakage of the ileo-ileal anastomosis occurred in 9 patients (4%) after performing an ileal conduit. Ileal conduit was associated with a higher rate of postoperative ileus (21% vs 7%, p = 0.024), but a lower proportion of wound infections than a colon conduit (14% vs 31%, p = 0.006). The latter did not remain significant in multivariate analysis. No difference was observed in the rate of uretero-enteric anastomotic leakage, urological complications, mortality rates, major complications (Clavien-Dindo≥3), or hospital stay between both groups., Conclusion: Performing a colon conduit in patients undergoing total pelvic exenteration for LARC or LRRC avoids the risks of ileo-ileal anastomotic leakage and may reduce the risk of a post-operative ileus. Besides, there are no other differences in outcome for ileal and colon conduits., Competing Interests: Declaration of competing interest None., (Copyright © 2020 Elsevier Ltd, BASO ~ The Association for Cancer Surgery, and the European Society of Surgical Oncology. All rights reserved.)

Published
2020
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12. Locally recurrent rectal cancer; long-term outcome of curative surgical and non-surgical treatment of 447 consecutive patients in a tertiary referral centre.

Author

Hagemans JAW, van Rees JM, Alberda WJ, Rothbarth J, Nuyttens JJME, van Meerten E, Verhoef C, and Burger JWA

Subjects
Aged, Female, Follow-Up Studies, Humans, Incidence, Male, Middle Aged, Neoadjuvant Therapy methods, Neoplasm Recurrence, Local diagnosis, Netherlands epidemiology, Rectal Neoplasms diagnosis, Retrospective Studies, Treatment Outcome, Digestive System Surgical Procedures methods, Neoplasm Recurrence, Local epidemiology, Neoplasm Staging, Rectal Neoplasms therapy, Tertiary Care Centers statistics & numerical data
Abstract

Introduction: The majority of patients with locally recurrent rectal cancer (LRRC) present with extensive metastatic disease or an unresectable recurrence, and will be treated palliatively. Only a minority of patients will be eligible for potential cure by surgical treatment. The aim of this study is to evaluate the long-term outcome of surgical treatment and non-surgical treatment of patients with LRRC., Methods: All patients with LRRC referred to our tertiary institute between 2000 and 2015 were retrospectively analysed. Patients were discussed in a multidisciplinary tumour board (MDT) and eventually received curative surgical or non-surgical treatment. Overall survival (OS) was compared by resection margin status and non-surgical treatment., Results: A total of 447 patients were discussed in our MDT of which 193 patients underwent surgical treatment and 254 patients received non-surgical treatment. Surgically treated patients were significantly younger, received less neoadjuvant therapy for the primary tumour, had less metastasis at diagnosis and more central recurrences. The 5-year OS was 51% for R0-resections and 34% for R1-resections. Although numbers with R2-resections were too small to implicate prognostic significance, there was no difference in 5-year OS between R2-resections and non-surgical treatment (10% vs. 4%, p = 0.282). In a subgroup analysis the OS of R2-patients was even poorer compared to optimal palliative treated patients with combined chemotherapy and radiotherapy (22 vs 29 months, p = 0.413)., Conclusion: R2-resections do not result in a survival benefit compared to non-surgical treatment in this non-randomized series. Patients with a high chance on a R2-resection could be offered non-surgical treatment, without local resection., Competing Interests: Declaration of competing interest None., (Copyright © 2019. Published by Elsevier Ltd.)

Published
2020
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13. Hospital volume and outcome in rectal cancer patients; results of a population-based study in the Netherlands.

Author

Hagemans JAW, Alberda WJ, Verstegen M, de Wilt JHW, Verhoef C, Elferink MA, and Burger JWA

Subjects
Age Factors, Aged, Female, Humans, Male, Neoadjuvant Therapy, Neoplasm Metastasis, Neoplasm Staging, Netherlands, Proportional Hazards Models, Rectal Neoplasms therapy, Registries, Survival Rate, Hospitals, High-Volume statistics & numerical data, Hospitals, Low-Volume statistics & numerical data, Rectal Neoplasms pathology, Rectal Neoplasms surgery
Abstract

Background: Clinically staged T1-3 rectal cancer (cT1-3) is generally treated by total mesorectal excision(TME) with or without neoadjuvant therapy and sometimes requires beyond TME-surgery, whereas cT4 rectal cancer often requires both. This study evaluates the outcome of cT1-3 and cT4 rectal cancer according to hospital volume., Methods: Patients undergoing rectal cancer surgery between 2005 and 2013 in the Netherlands were included from the National Cancer Registry. Hospitals were divided into low(1-20), medium(21-50) and high(>50 resections/year) volume for cT1-3 and low(1-4), medium(5-9) and high(≥10 resections/year) volume for cT4 rectal cancer. Cox-proportional hazards model was used for multivariable analysis of overall survival (OS)., Results: A total of 14.050 confirmed cT1-3 patients and 2.104 cT4 patients underwent surgery. In cT1-3 rectal cancer, there was no significant difference in 5-year OS related to high, medium and low hospital volume (70% vs. 69% vs. 69%). In cT4 rectal cancer, treatment in a high volume cT4 hospital was associated with a survival benefit compared to low volume cT4 hospitals (HR 0.81 95%CI 0.67-0.98) adjusted for non-treatment related confounders, but this was not significant after adjustment for neoadjuvant treatment. Patients with cT4-tumours treated in high volume hospitals had a significantly lower age, more synchronous metastases, more patients treated with neoadjuvant therapy and a higher pT-stage., Conclusion: Hospital volume was not associated with survival in cT1-3 rectal cancer. In cT4 rectal cancer, treatment in high volume cT4 hospitals was associated with improved survival compared to low volume cT4 hospitals, although this association lost statistical significance after correction for neoadjuvant treatment., (Copyright © 2019 Elsevier Ltd, BASO ~ The Association for Cancer Surgery, and the European Society of Surgical Oncology. All rights reserved.)

Published
2019
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14. Total pelvic exenteration for locally advanced and locally recurrent rectal cancer in the elderly.

Author

Hagemans JAW, Rothbarth J, Kirkels WJ, Boormans JL, van Meerten E, Nuyttens JJME, Madsen EVE, Verhoef C, and Burger JWA

Subjects
Age Factors, Aged, Anastomotic Leak etiology, Chemoradiotherapy, Adjuvant, Humans, Middle Aged, Neoadjuvant Therapy, Neoplasm Invasiveness, Neoplasm Recurrence, Local pathology, Neoplasm Recurrence, Local therapy, Neoplasm, Residual, Pelvic Exenteration mortality, Rectal Neoplasms pathology, Rectal Neoplasms therapy, Retrospective Studies, Survival Rate, Neoplasm Recurrence, Local surgery, Pelvic Exenteration adverse effects, Rectal Neoplasms surgery
Abstract

Background: Total pelvic exenteration (TPE) is a radical approach for locally advanced rectal cancer (LARC) and locally recurrent rectal cancer (LRRC) in case of tumour invasion into the urogenitary tract. The aim of this study is to assess surgical and oncological outcomes of TPE for LARC and LRRC in elderly patients compared to younger patients., Methods: All patients who underwent TPE for LARC and LRRC between January 1990 and March 2017 were retrospectively analyzed. Patients aged <70 years were classified as younger and ≥70 years as elderly patients., Results: In total 126 patients underwent TPE, of whom 88 younger and 38 elderly patients. Elderly patients had a significantly higher number of ASA > II patients (p = 0.01). Indication for surgery LARC (n = 73) and LRRC (n = 53) did not differ significantly. The 30-day mortality rate was significantly higher (p = 0.01) in elderly (13%) compared to younger patients (3%). Elderly patients experienced more anastomotic leakage (p = 0.02). Median overall survival (OS) was 75 months [95%CI 37.1; 112.9] for elderly and 45 months [95%CI 22.4; 67.8] for younger patients (p = 0.77). The 5-year OS rate was 44% in both groups. Median disease specific survival (DSS) was 78 months [95%CI 69.1; 86.9] for elderly and 60 months [95%CI 36.6; 83.4] for younger patients (p = 0.34). The 5-year DSS rate was 57% and 49%, respectively., Conclusion: TPE is an invasive treatment for rectal cancer with high 30-day mortality in elderly patients. Oncological outcomes are similar in elderly and younger patients. Therefore, TPE should not be withheld because of high age only, but careful patient selection is needed., (Copyright © 2018. Published by Elsevier Ltd.)

Published
2018
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15. The impact of hospital volume on perioperative outcomes of rectal cancer.

Author

Jonker FHW, Hagemans JAW, Verhoef C, and Burger JWA

Subjects
Aged, Female, Hospital Mortality trends, Humans, Incidence, Male, Middle Aged, Netherlands epidemiology, Outcome and Process Assessment, Health Care, Rectal Neoplasms diagnosis, Rectal Neoplasms mortality, Retrospective Studies, Survival Rate trends, Digestive System Surgical Procedures methods, Hospitals, High-Volume statistics & numerical data, Hospitals, Low-Volume statistics & numerical data, Neoplasm Staging, Postoperative Complications epidemiology, Rectal Neoplasms surgery, Registries
Abstract

Background: The purpose of this study was to investigate the impact of hospital volume on perioperative outcomes of clinical tumour stage (cT)1-3 and cT4 rectal cancer., Methods: 16.162 patients operated for rectal cancer enrolled in the Dutch Surgical Colorectal Audit were included. Hospitals were divided into low (<20 cases/year), medium (21-50 cases/year) and high (>50 cases/year) volume for cT1-3 rectal cancer, and for cT4 rectal cancer into low (1-4 cases/year), medium (5-9 cases/year) and high (≥10 cases/year) volume. The influence of hospital volume on perioperative outcomes was investigated., Results: With regards to cT1-3 tumours, low volume had lower rates of complications (33.8% vs. 36.6% and 38.1%, p = 0.009), anastomotic leakage (5.4% vs. 8.1% and 8.6%), and reinterventions (11.5% vs. 12.6% and 14.8%, p = 0.002) as compared to medium and high volume hospitals. Thirty-day mortality and R0 rates were comparable between groups. In high cT4 volume hospitals, rates of extensive resection of tumour involvement (49.4% vs. 25.4% and 15.5%, p < 0.001) and additional resection of metastasis (17.5% vs. 14.4% and 3.0%, p < 0.001) were increased as compared to medium and low volume hospitals. Thirty-day mortality and R0 rates were comparable between groups. In a sub-analysis of pathologic tumour stage 4 patients, irradical resections were increased in low volume hospitals (33.8% vs. 22.5% and 20.8% in medium and high volume hospitals, p = 0.031)., Conclusions: For cT4 rectal cancer, high volume hospitals may offer a better multimodality treatment, while for cT1-3 rectal cancer there appears no benefit for centralization., (Copyright © 2017 Elsevier Ltd, BASO ~ The Association for Cancer Surgery, and the European Society of Surgical Oncology. All rights reserved.)

Published
2017
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