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2. 20-year risks of breast-cancer recurrence after stopping endocrine therapy at 5 years

Author

Pan, H, Gray, R, Braybrooke, J, Davies, C, Taylor, C, Mcgale, P, Peto, R, Pritchard, Ki, Bergh, J, Dowsett, M, Hayes, Df, Albain, K, Anderson, S, Arriagada, R, Barlow, W, Bartlett, J, Bergsten‐nordström, E, Bliss, J, Boccardo, F, Bradley, R, Brain, E, Cameron, D, Clarke, M, Coates, A, Coleman, R, Correa, C, Costantino, J, Cuzick, J, Davidson, N, Dodwell, D, Di Leo, A, Ewertz, M, Forbes, J, Gelber, R, Gnant, M, Goldhirsch, A, Goodwin, P, Hill, C, Ingle, J, Jagsi, R, Janni, W, Loibl, S, Mackinnon, E, Martin, M, Mukai, H, Norton, L, Ohashi, Y, Paik, S, Perez, E, Piccart, M, Pierce, L, Poortmans, P, Raina, V, Ravdin, P, Regan, M, Robertson, J, Rutgers, E, Slamon, D, Sparano, J, Swain, S, Tutt, A, Viale, G, Von Minckwitz, G, Wang, X, Whelan, T, Wilcken, N, Winer, E, Wolmark, N, Wood, W, Zambetti, M, Alberro, Ja, Ballester, B, Deulofeu, P, Fábregas, R, Fraile, M, Gubern, Jm, Janer, J, Moral, A, De Pablo Jl, Peñalva, G, Puig, P, Ramos, M, Rojo, R, Santesteban, P, Serra, C, Solà, M, Solarnau, L, Solsona, J, Veloso, E, Vidal, S, Abe, O, Abe, R, Enomoto, K, Kikuchi, K, Koyama, H, Masuda, H, Nomura, Y, Sakai, K, Sugimachi, K, Toi, M, Tominaga, T, Uchino, J, Yoshida, M, Haybittle, Jl, Leonard, Cf, Calais, G, Garaud, P, Collett, V, Delmestri, A, Sayer, J, Harvey, Vj, Holdaway, Im, Kay, Rg, Mason, Bh, Forbes, Jf, Balic, M, Bartsch, R, Fesl, C, Fitzal, F, Fohler, H, Greil, R, Jakesz, R, Marth, C, Mlineritsch, B, Pfeiler, G, Singer, Cf, Steger, Gg, Stöger, H, Canney, P, Yosef, Hma, Focan, C, Peek, U, Oates, Gd, Powell, J, Durand, M, Mauriac, L, Dolci, S, Larsimont, D, Nogaret, Jm, Philippson, C, Piccart, Mj, Masood, Mb, Parker, D, Price, Jj, Lindsay, Ma, Mackey, J, Hupperets, Psgj, Bates, T, Blamey, Rw, Chetty, U, Ellis, Io, Mallon, E, Morgan, Dal, Patnick, J, Pinder, S, Lohrisch, C, Nichol, A, Bramwell, Vh, Chen, Be, Gelmon, K, Goss, Pe, Levine, Mn, Parulekar, W, Pater, Jl, Shepherd, Le, Tu, D, Berry, D, Broadwater, G, Cirrincione, C, Muss, H, Weiss, Rb, Abu‐zahra, Ht, Portnoj, Sm, Bowden, S, Brookes, C, Dunn, J, Fernando, I, Lee, M, Poole, C, Rea, D, Spooner, D, Barrett‐lee, Pj, Mansel, Re, Monypenny, Ij, Gordon, Nh, Davis, Hl, Sestak, I, Lehingue, Y, Romestaing, P, Dubois, Jb, Delozier, T, Griffon, B, Mace Lesec’h, J, De La Lande, B, Mouret‐fourme, E, Mustacchi, G, Petruzelka, L, Pribylova, O, Owen, Jr, Harbeck, N, Jänicke, F, Meisner, C, Schmitt, M, Thomssen, C, Meier, P, Shan, Y, Shao, Yf, Zhao, Db, Chen, Zm, Howell, A, Swindell, R, Boddington, C, Burrett, Ja, Cutter, D, Duane, F, Evans, V, Gettins, L, Godwin, J, James, S, Kerr, A, Liu, H, Mannu, G, Mchugh, T, Morris, P, Read, S, Wang, Y, Wang, Z, Albano, J, De Oliveira Cf, Gervásio, H, Gordilho, J, Ejlertsen, B, Jensen, Mb, Johansen, H, Mouridsen, H, Palshof, T, Gelman, Rs, Harris, Jr, Henderson, C, Shapiro, Cl, Christiansen, P, Mouridsen, Ht, Fehm, T, Trampisch, Hj, Dalesio, O, De Vries Ege, Rodenhuis, S, Van Tinteren, H, Comis, Rl, Davidson, Ne, Robert, N, Sledge, G, Solin, Lj, Sparano, Ja, Tormey, Dc, Dixon, Jm, Forrest, P, Jack, W, Kunkler, I, Rossbach, J, Klijn, Jgm, Treurniet‐donker, Ad, Van Putten Wlj, Rotmensz, N, Veronesi, U, Bartelink, H, Bijker, N, Bogaerts, J, Cardoso, F, Cufer, T, Julien, Jp, Van De Velde Cjh, Cunningham, Mp, Brufsky, Am, Coleman, Re, Llombart, Ha, Huovinen, R, Joensuu, H, Costa, A, Bonadonna, G, Gianni, L, Valagussa, P, Goldstein, Lj, Bonneterre, J, Fargeot, P, Fumoleau, P, Kerbrat, P, Luporsi, E, Namer, M, Carrasco, E, Segui, Ma, Eiermann, W, Hilfrich, J, Jonat, W, Kaufmann, M, Kreienberg, R, Schumacher, M, Bastert, G, Rauschecker, H, Sauer, R, Sauerbrei, W, Schauer, A, Blohmer, Ju, Costa, Sd, Eidtmann, H, Gerber, B, Jackisch, C, De Schryver, A, Vakaet, L, Belfiglio, M, Nicolucci, A, Pellegrini, F, Pirozzoli, Mc, Sacco, M, Valentini, M, Mcardle, Cs, Smith, Dc, Stallard, S, Dent, Dm, Gudgeon, Ca, Hacking, A, Murray, E, Panieri, E, Werner, Id, Galligioni, E, Leone, B, Vallejo, Ct, Zwenger, A, Lopez, M, Erazo, A, Medina, Jy, Horiguchi, J, Takei, H, Fentiman, Is, Hayward, Jl, Rubens, Rd, Skilton, D, Scheurlen, H, Sohn, Hc, Untch, M, Dafni, U, Markopoulos, C, Fountzilas, G, Mavroudis, D, Klefstrom, P, Blomqvist, C, Saarto, T, Gallen, M, Tinterri, C, Margreiter, R, De Lafontan, B, Mihura, J, Roché, H, Asselain, B, Salmon, Rj, Vilcoq, Jr, André, F, Delaloge, S, Koscielny, S, Michiels, S, Rubino, C, A'Hern, R, Ellis, P, Kilburn, L, Yarnold, Jr, Benraadt, J, Kooi, M, Van De Velde Ao, Van Dongen Ja, Vermorken, Jb, Castiglione, M, Colleoni, M, Collins, J, Gelber, Rd, Lindtner, J, Price, Kn, Regan, Mm, Rudenstam, Cm, Senn, Hj, Thuerlimann, B, Bliss, Jm, Chilvers, Ced, Coombes, Rc, Hall, E, Marty, M, Buyse, M, Possinger, K, Schmid, P, Wallwiener, D, Bighin, C, Bruzzi, P, Del Mastro, L, Dozin, B, Pastorino, S, Pronzato, P, Sertoli, Mr, Foster, L, George, Wd, Stewart, Hj, Stroner, P, Borovik, R, Hayat, H, Inbar, Mj, Peretz, T, Robinson, E, Camerini, T, Formelli, F, Martelli, G, Di Mauro Mg, Perrone, F, Amadori, D, Martoni, A, Pannuti, F, Camisa, R, Musolino, A, Passalacqua, R, Iwata, H, Shien, T, Ikeda, T, Inokuchi, K, Sawa, K, Sonoo, H, Sadoon, M, Tulusan, Ah, Kohno, N, Miyashita, M, Takao, S, Ahn, Jh, Jung, Kh, Korzeniowski, S, Skolyszewski, J, Ogawa, M, Yamashita, J, Bastiaannet, E, Liefers, Gj, Christiaens, R, Neven, P, Paridaens, R, Van Den Bogaert, W, Braun, S, Martin, P, Romain, S, Janauer, M, Seifert, M, Sevelda, P, Zielinski, Cc, Hakes, T, Hudis, Ca, Wittes, R, Giokas, G, Kondylis, D, Lissaios, B, De La Huerta, R, Sainz, Mg, Ro, J, Camphausen, K, Danforth, D, Lichter, A, Lippman, M, Smart, D, Steinberg, S, D’Amico, C, Lioce, M, Paradiso, A, Ohno, S, Bass, G, Brown, A, Bryant, J, Dignam, J, Fisher, B, Geyer, C, Mamounas, Ep, Redmond, C, Wickerham, L, Aihara, T, Hozumi, Y, Baum, M, Jackson, Im, Palmer, Mk, Ingle, Jn, Suman, Vj, Bengtsson, No, Emdin, S, Jonsson, H, Venturini, M, Lythgoe, Jp, Kissin, M, Erikstein, B, Hannisdal, E, Jacobsen, Ab, Reinertsen, Kv, Varhaug, Je, Gundersen, S, Hauer‐jensen, M, Høst, H, Nissen‐meyer, R, Mitchell, Ak, Robertson, Jfr, Ueo, H, Di Palma, M, Mathé, G, Misset, Jl, Levine, M, Morimoto, K, Takatsuka, Y, Crossley, E, Harris, A, Talbot, D, Taylor, M, Cocconi, G, Di Blasio, B, Ivanov, V, Paltuev, R, Semiglazov, V, Brockschmidt, J, Cooper, Mr, Falkson, Ci, Hadji, P, A’Hern, R, Makris, A, Parton, M, Pennert, K, Powles, Tj, Smith, Ie, Gazet, Jc, Browne, L, Graham, P, Corcoran, N, Clack, G, Van Poznak, C, Deshpande, N, Di Martino, L, Douglas, P, Lindtner, A, Notter, G, Bryant, Ajs, Ewing, Gh, Firth, La, Krushen‐kosloski, Jl, Anderson, H, Killander, F, Malmström, P, Rydén, L, Arnesson, Lg, Carstensen, J, Dufmats, M, Fohlin, H, Nordenskjöld, B, Söderberg, M, Carpenter, Jt, Murray, N, Royle, Gt, Simmonds, Pd, Crowley, J, Gralow, J, Hortobagyi, G, Livingston, R, Martino, S, Osborne, Ck, Ravdin, Pm, Bondesson, T, Celebioglu, F, Dahlberg, K, Fornander, T, Fredriksson, I, Frisell, J, Göransson, E, Iiristo, M, Johansson, U, Lenner, E, Löfgren, L, Nikolaidis, P, Perbeck, L, Rotstein, S, Sandelin, K, Skoog, L, Svane, G, Af Trampe, E, Wadström, C, Maibach, R, Thürlimann, B, Holli, K, Rouhento, K, Safra, T, Brenner, H, Hercbergs, A, Yoshimoto, M, Paterson, Ahg, Fyles, A, Meakin, Jw, Panzarella, T, Bahi, J, Lemonnier, J, Martin, Al, Reid, M, Spittle, M, Bishop, H, Bundred, Nj, Forsyth, S, Pinder, Se, Deutsch, Gp, Kwong, Dlw, Pai, Vr, Senanayake, F, Rubagotti, A, Hackshaw, A, Houghton, J, Ledermann, J, Monson, K, Tobias, Js, Carlomagno, C, De Laurentiis, M, De Placido, S, Williams, L, Bell, R, Hinsley, S, Marshall, Hc, Pierce, Lj, Solomayer, E, Horsman, Jm, Lester, J, Winter, Mc, Buzdar, Au, Hsu, L, Love, Rr, Ahlgren, J, Garmo, H, Holmberg, L, Liljegren, G, Lindman, H, Wärnberg, F, Asmar, L, Jones, Se, Aft, R, Gluz, O, Liedtke, C, Nitz, U, Litton, A, Wallgren, A, Karlsson, P, Linderholm, Bk, Chlebowski, Rt, Caffier, H., Guided Treatment in Optimal Selected Cancer Patients (GUTS), Other departments, CCA - Cancer Treatment and Quality of Life, Radiotherapy, Pan, Hongchao, Gray, Richard, Braybrooke, Jeremy, Davies, Christina, Taylor, Carolyn, Mcgale, Paul, Peto, Richard, Pritchard, Kathleen I, Bergh, Jona, Dowsett, Mitch, Hayes, Daniel F, De Laurentiis, Michelino, MUMC+: MA Medische Oncologie (9), RS: GROW - R3 - Innovative Cancer Diagnostics & Therapy, and Interne Geneeskunde

Subjects
0301 basic medicine, Oncology, medicine.medical_treatment, Kaplan-Meier Estimate, law.invention, 0302 clinical medicine, Randomized controlled trial, law, Recurrence, Receptors, Neoplasm Metastasis, AMERICAN SOCIETY, Adjuvant, CLINICAL-PRACTICE GUIDELINE, Absolute risk reduction, Estrogen Antagonists, General Medicine, Estrogen Antagonist, CHEMOTHERAPY, Middle Aged, Prognosis, Neoplasm Metastasi, Local, POSTMENOPAUSAL WOMEN, Receptors, Estrogen, Chemotherapy, Adjuvant, 030220 oncology & carcinogenesis, Meta-analysis, Lymphatic Metastasis, Female, Human, Estrogen Antagonists/therapeutic use, Adult, Risk, medicine.medical_specialty, Prognosi, medicine.drug_class, DISCONTINUATION, Breast Neoplasms, Article, Drug Administration Schedule, LATE DISTANT RECURRENCE, 03 medical and health sciences, Breast cancer, Breast Neoplasms/drug therapy, Internal medicine, SCORE, medicine, Humans, SURGICAL ADJUVANT BREAST, Aged, Proportional Hazards Models, Chemotherapy, business.industry, Proportional hazards model, Lymphatic Metastasi, TAMOXIFEN THERAPY, ta3122, medicine.disease, Estrogen, RANDOMIZED-TRIALS, Discontinuation, Surgery, Neoplasm Recurrence, 030104 developmental biology, Proportional Hazards Model, Neoplasm Grading, Neoplasm Recurrence, Local, business
Abstract

Background The administration of endocrine therapy for 5 years substantially reduces recurrence rates during and after treatment in women with early-stage, estrogen-receptor (ER)–positive breast cancer. Extending such therapy beyond 5 years offers further protection but has additional side effects. Obtaining data on the absolute risk of subsequent distant recurrence if therapy stops at 5 years could help determine whether to extend treatment. Methods In this meta-analysis of the results of 88 trials involving 62,923 women with ER-positive breast cancer who were disease-free after 5 years of scheduled endocrine therapy, we used Kaplan–Meier and Cox regression analyses, stratified according to trial and treatment, to assess the associations of tumor diameter and nodal status (TN), tumor grade, and other factors with patients’ outcomes during the period from 5 to 20 years. Results Breast-cancer recurrences occurred at a steady rate throughout the study period from 5 to 20 years. The risk of distant recurrence was strongly correlated with the original TN status. Among the patients with stage T1 disease, the risk of distant recurrence was 13% with no nodal involvement (T1N0), 20% with one to three nodes involved (T1N1–3), and 34% with four to nine nodes involved (T1N4–9); among those with stage T2 disease, the risks were 19% with T2N0, 26% with T2N1–3, and 41% with T2N4–9. The risk of death from breast cancer was similarly dependent on TN status, but the risk of contralateral breast cancer was not. Given the TN status, the factors of tumor grade (available in 43,590 patients) and Ki-67 status (available in 7692 patients), which are strongly correlated with each other, were of only moderate independent predictive value for distant recurrence, but the status regarding the progesterone receptor (in 54,115 patients) and human epidermal growth factor receptor type 2 (HER2) (in 15,418 patients in trials with no use of trastuzumab) was not predictive. During the study period from 5 to 20 years, the absolute risk of distant recurrence among patients with T1N0 breast cancer was 10% for low-grade disease, 13% for moderate-grade disease, and 17% for high-grade disease; the corresponding risks of any recurrence or a contralateral breast cancer were 17%, 22%, and 26%, respectively. Conclusions After 5 years of adjuvant endocrine therapy, breast-cancer recurrences continued to occur steadily throughout the study period from 5 to 20 years. The risk of distant recurrence was strongly correlated with the original TN status, with risks ranging from 10 to 41%, depending on TN status and tumor grade. (Funded by Cancer Research UK and others.)

Published
2017

3. Long-term outcomes for neoadjuvant versus adjuvant chemotherapy in early breast cancer: meta-analysis of individual patient data from ten randomised trials

Author

Alberro, JA, Ballester, B, Deulofeu, P, Fabregas, R, Fraile, M, Gubern, JM, Janer, J, Moral, A, de Pablo, JL, Penalva, G, Puig, P, Ramos, M, Rojo, R, Santesteban, P, Serra, C, Sola, M, Solarnau, L, Solsona, J, Veloso, E, Vidal, S, Abe, O, Abe, R, Enomoto, K, Kikuchi, K, Koyama, H, Masuda, H, Nomura, Y, Ohashi, Y, Sakai, K, Sugimachi, K, Toi, M, Tominaga, T, Uchino, J, Yoshida, M, Coles, CE, Haybittle, JL, Moebus, V, Leonard, CF, Calais, G, Garaud, P, Collett, V, Davies, C, Delmestri, A, Sayer, J, Harvey, VJ, Holdaway, IM, Kay, RG, Mason, BH, Forbe, JF, Franci, PA, Wilcken, N, Balic, M, Bartsch, R, Fesl, C, Fitzal, F, Fohler, H, Gnant, M, Greil, R, Jakesz, R, Marth, C, Mlineritsch, B, Pfeiler, G, Singer, CF, Steger, GG, Stoeger, H, Canney, P, Yosef, HMA, Focan, C, Peek, U, Oates, GD, Powell, J, Durand, M, Mauriac, L, Di Leo, A, Dolci, S, Larsimont, D, Nogaret, JM, Philippson, C, Piccart, MJ, Masood, MB, Parker, D, Price, JJ, Lindsay, MA, Mackey, J, Martin, M, Hupperets, PSGJ, Bates, T, Blamey, RW, Chetty, U, Ellis, IO, Mallon, E, Morgan, DAL, Patnick, J, Pinder, S, Lohrisch, C, Nichol, A, Bartlett, JMS, Bramwell, VH, Chen, BE, Chia, SKL, Gelmon, K, Goss, PE, Levine, MN, Parulekar, W, Pater, JL, Pritchard, KI, Shepherd, LE, Tu, D, Whelan, T, Berry, D, Broadwater, G, Cirrincione, C, Muss, H, Norton, L, Weiss, RB, Abu-Zahara, HT, Karpov, A, Portnoj, SL, Bowden, S, Brookes, C, Dunn, J, Fernando, I, Lee, M, Poole, C, Rea, D, Spooner, D, Barrett-Lee, PJ, Manse, RE, Monypenny, IJ, Gordon, NH, Davis, HL, Cuzick, J, Sestak, I, Lehingue, Y, Romestaing, P, Dubois, JB, Delozier, T, Griffon, B, Lesec'h, J Mace, Mustacchi, G, Petruzelka, L, Pribylova, O, Owen, JR, Meier, P, Shan, Y, Shao, YF, Wang, X, Zhao, DB, Howell, A, Swindell, R, Albano, J, de Oliveira, CF, Gervasio, H, Gordilho, J, Ejlertsen, B, Jensen, M-B, Mouridsen, H, Gelman, RS, Harris, JR, Hayes, D, Henderson, C, Shapiro, CL, Christiansen, P, Ewertz, M, Jensen, MB, Mouridsen, HT, Fehm, T, Trampisch, HJ, Dalesio, O, de Vries, EGE, Rodenhuis, S, van Tinteren, H, Comis, RL, Davidson, NE, Gray, R, Robert, N, Sledge, G, Solin, LJ, Sparano, JA, Tormey, DC, Wood, W, Cameron, D, Dixon, JM, Forrest, P, Jack, W, Kunkler, I, Rossbach, J, Klijn, JGM, Treurniet-Donker, AD, van Putten, WLJ, Rotmensz, N, Veronesi, U, Viale, G, Bartelink, H, Bijker, N, Bogaerts, J, Cardoso, F, Cufer, T, Julien, JP, Poortmans, PM, Rutgers, E, van de Velde, CJH, Cunningham, MP, Huovinen, R, Joensuu, H, Costa, A, Bonadonna, G, Gianni, L, Valagussa, P, Goldstein, LJ, Bonneterre, J, Fargeot, P, Fumoleau, P, Kerbrat, P, Lupors, E, Namer, M, Carrasco, E, Segui, MA, Eierman, W, Hilfrich, J, Jonat, W, Kaufmann, M, Kreienberg, R, Schumacher, M, Bastert, G, Rauschecker, H, Sauer, R, Sauerbrei, W, Schauer, A, Blohmer, JU, Costa, SD, Eidtmann, H, Gerber, B, Jackisch, C, Loib, S, von Minckwitz, G, de Schryver, A, Vakaet, L, Belfiglio, M, Nicolucci, A, Pellegrini, F, Pirozzoli, MC, Sacco, M, Valentini, M, McArdle, CS, Smith, DC, Stallard, S, Dent, DM, Gudgeon, CA, Hacking, A, Murray, E, Panieri, E, Werner, ID, De Salvo, GL, Del Bianco, P, Zavagno, G, Leone, B, Vallejo, CT, Zwenger, A, Galligioni, E, Lopez, M, Erazo, A, Medina, JY, Horiguchi, J, Takei, H, Fentiman, IS, Hayward, JL, Rubens, RD, Skilton, D, Scheurlen, H, Sohn, HC, Untch, M, Dafni, U, Markopoulos, C, Bamia, C, Fountzilas, G, Koliou, G-A, Manousou, K, Mavroudis, D, Klefstrom, P, Blomqvist, C, Saarto, T, Gallen, M, Canavese, G, Tinterri, C, Margreiter, R, de Lafontan, B, Mihura, J, Roche, H, Asselain, B, Salmon, RJ, Vilcoq, JR, Brain, E, de La Lande, B, Mouret-Fourme, E, Andre, F, Arriagada, R, Delaloge, S, Hill, C, Koscienly, S, Michiels, S, Rubino, C, A'Hern, R, Bliss, J, Ellis, P, Kilburn, L, Yarnold, JR, Benraadt, J, Kooi, M, van de Velde, AO, van Dongen, JA, Vermorken, JB, Castiglione, M, Coates, A, Colleoni, M, Collins, J, Forbes, J, Gelbe, RD, Goldhirsch, A, Lindtner, J, Price, KN, Regan, MM, Rudenstam, CM, Senn, HJ, Thuerlimann, B, Bliss, JM, Chilvers, CED, Coombes, RC, Hall, E, Marty, M, Buyse, M, Possinger, K, Schmid, P, Wallwiener, D, Foster, L, George, WD, Stewart, HJ, Stroner, P, Borovik, R, Hayat, H, Inbar, MJ, Peretz, T, Robinson, E, Camerini, T, Formelli, F, Martelli, G, Di Mauro, MG, Perrone, F, Amadori, D, Martoni, A, Pannuti, F, Camisa, R, Musolino, A, Passalacqua, R, Iwata, H, Shien, T, Ikeda, T, Inokuchi, K, Sawa, K, Sonoo, H, Sadoon, M, Tulusan, AH, Kohno, N, Miyashita, M, Takao, S, Ahn, J-H, Jung, KH, Korzeniowski, S, Skolyszewski, J, Ogawa, M, Yamashita, J, Bastiaannet, E, Liefers, GJ, Christiaens, R, Neven, P, Paridaens, R, Van den Bogaert, W, Gazet, JC, Corcoran, N, Deshpande, N, di Martino, L, Douglas, P, Host, H, Lindtner, A, Notter, G, Bryant, AJS, Ewing, GH, Firth, LA, Krushen-Kosloski, JL, Nissen-Meyer, R, Anderson, H, Killander, F, Malmstrom, P, Ryden, L, Arnesson, L-G, Carstense, J, Dufmats, M, Fohlin, H, Nordenskjold, B, Soderberg, M, Sundqvist, M, Carpenter, TJ, Murray, N, Royle, GT, Simmonds, PD, Albain, K, Barlow, W, Crowley, J, Gralow, J, Hortobagyi, G, Livingston, R, Martino, S, Osborne, CK, Ravdin, PM, Bergh, J, Bondesso, T, Celebiogl, F, Dahlberg, K, Fornander, T, Fredriksson, I, Frisell, J, Goransson, E, Iiristo, M, Johansson, U, Lenner, E, Lofgren, L, Nikolaidis, P, Perbeck, L, Rotstein, S, Sandelin, K, Skoog, L, Svane, G, af Trampe, E, Wadstrom, C, Janni, W, Maibach, R, Thurlimann, B, Hadji, P, Hozumi, J, Holli, K, Rouhento, K, Safra, T, Brenner, H, Hercbergs, A, Yoshimoto, M, Paterson, AHG, Fyles, A, Meakin, JW, Panzarella, T, Bahi, J, Lemonnier, J, Martin, AL, Reid, M, Spittle, M, Bishop, H, Bundred, NJ, Forbes, JF, Forsyth, S, George, WS, Pinder, SE, Deutsch, GP, Kwong, DLW, Pai, VR, Peto, R, Senanayake, F, Boccardo, F, Rubagotti, A, Baum, M, Hackshaw, A, Houghton, J, Ledermann, J, Monson, K, Tobias, JS, Carlomagno, C, De Laurentiis, M, De Placido, S, Schem, C, Williams, L, Bell, R, Coleman, RE, Dodwell, D, Hinsley, S, Marshall, HC, Pierce, LJ, Basso, SMM, Lumachi, F, Solomayer, E, Horsman, JM, Lester, J, Winter, MC, Buzdar, AU, Hsu, L, Love, RR, Ahlgren, J, Garmo, H, Holmberg, L, Lindman, H, Warnberg, F, Asmar, L, Jones, SE, Aft, R, Gluz, O, Harbeck, N, Liedtke, C, Nitz, U, Litton, A, Wallgren, A, Karlsson, P, Linderholm, BK, Chlebowski, RT, Caffier, H, Brufsky, AM, Llombart, HA, Asselain, B, Barlow, W, Bartlett, J, Bradley, R, Braybrooke, J, Davies, C, Dodwell, D, Gray, R, Mannu, G, Taylor, C, Peto, R, McGale, P, Pan, H, Wang, Y, Wang, Z, Department of Oncology, Clinicum, HUS Comprehensive Cancer Center, Medical Oncology, Cancer Research UK, and Pfizer Limited

Subjects
0301 basic medicine, Oncology, Time Factors, SURGERY, medicine.medical_treatment, menopause, chemotherapy, Mastectomy, Segmental, Rate ratio, THERAPY, aromatase inhibitors, CEA, 0302 clinical medicine, Risk Factors, Medicine and Health Sciences, Breast, Neoplasm Metastasis, Randomized Controlled Trials as Topic, RISK, tamoxifen, breast tumor, CA15-3, axillary dissection, mastectomy, Middle Aged, Neoadjuvant Therapy, METHOTREXATE, 3. Good health, trastuzumab, Treatment Outcome, quadrantectomy, Chemotherapy, Adjuvant, axillary lymphnodes, 030220 oncology & carcinogenesis, Meta-analysis, SURVIVAL, Disease Progression, Female, Life Sciences & Biomedicine, axillary clearance, RADIOTHERAPY, medicine.drug, Adult, medicine.medical_specialty, Anthracycline, 3122 Cancers, Antineoplastic Agents, Breast Neoplasms, axillary nodes, sentinel node biopsy, 03 medical and health sciences, breast cancer, Breast cancer, SDG 3 - Good Health and Well-being, HER2, Internal medicine, Journal Article, medicine, cancer, Humans, Breast, breast cancer, breast diseases, cancer, malignancy, menopause, surgery, mastectomy, quadrantectomy, lumpectomy, axillary nodes, axillary lymphnodes, axillary dissection, axillary clearance, sentinel node biopsy, sentinel node, BRCA1, BRCA2, tamoxifen, aromatase inhibitors, breast tumor, osteoporosis, bisphosphonates, denosumab, trastuzumab, HER2, CEA, CA15-3, tumor marker, chemotherapy, endocrine therapy, Oncology & Carcinogenesis, RECURRENCE, bisphosphonates, Pathological, Neoplasm Staging, lumpectomy, Chemotherapy, Science & Technology, breast diseases, endocrine therapy, business.industry, denosumab, BRCA1, medicine.disease, BRCA2, osteoporosis, Radiation therapy, STIMULATING FACTOR, 030104 developmental biology, sentinel node, tumor marker, Methotrexate, Neoplasm Recurrence, Local, business, 1112 Oncology And Carcinogenesis, malignancy
Abstract

BACKGROUND: Neoadjuvant chemotherapy (NACT) for early breast cancer can make breast-conserving surgery more feasible and might be more likely to eradicate micrometastatic disease than might the same chemotherapy given after surgery. We investigated the long-term benefits and risks of NACT and the influence of tumour characteristics on outcome with a collaborative meta-analysis of individual patient data from relevant randomised trials. METHODS: We obtained information about prerandomisation tumour characteristics, clinical tumour response, surgery, recurrence, and mortality for 4756 women in ten randomised trials in early breast cancer that began before 2005 and compared NACT with the same chemotherapy given postoperatively. Primary outcomes were tumour response, extent of local therapy, local and distant recurrence, breast cancer death, and overall mortality. Analyses by intention-to-treat used standard regression (for response and frequency of breast-conserving therapy) and log-rank methods (for recurrence and mortality). FINDINGS: Patients entered the trials from 1983 to 2002 and median follow-up was 9 years (IQR 5-14), with the last follow-up in 2013. Most chemotherapy was anthracycline based (3838 [81%] of 4756 women). More than two thirds (1349 [69%] of 1947) of women allocated NACT had a complete or partial clinical response. Patients allocated NACT had an increased frequency of breast-conserving therapy (1504 [65%] of 2320 treated with NACT vs 1135 [49%] of 2318 treated with adjuvant chemotherapy). NACT was associated with more frequent local recurrence than was adjuvant chemotherapy: the 15 year local recurrence was 21·4% for NACT versus 15·9% for adjuvant chemotherapy (5·5% increase [95% CI 2·4-8·6]; rate ratio 1·37 [95% CI 1·17-1·61]; p=0·0001). No significant difference between NACT and adjuvant chemotherapy was noted for distant recurrence (15 year risk 38·2% for NACT vs 38·0% for adjuvant chemotherapy; rate ratio 1·02 [95% CI 0·92-1·14]; p=0·66), breast cancer mortality (34·4% vs 33·7%; 1·06 [0·95-1·18]; p=0·31), or death from any cause (40·9% vs 41·2%; 1·04 [0·94-1·15]; p=0·45). INTERPRETATION: Tumours downsized by NACT might have higher local recurrence after breast-conserving therapy than might tumours of the same dimensions in women who have not received NACT. Strategies to mitigate the increased local recurrence after breast-conserving therapy in tumours downsized by NACT should be considered-eg, careful tumour localisation, detailed pathological assessment, and appropriate radiotherapy. FUNDING: Cancer Research UK, British Heart Foundation, UK Medical Research Council, and UK Department of Health. ispartof: LANCET ONCOLOGY vol:19 issue:1 pages:27-39 ispartof: location:England status: published

Published
2017

4. Effect of radiotherapy after mastectomy and axillary surgery on 10-year recurrence and 20-year breast cancer mortality: meta-analysis of individual patient data for 8135 women in 22 randomised trials

Author

Mcgale, P., Taylor, C., Correa, C., Cutter, D., Duane, F., Ewertz, M., Gray, R., Mannu, G., Peto, R., Whelan, T., Wang, Y., Wang, Z., Darby, S., Albain, K., Anderson, S., Arriagada, R., Barlow, W., Bergh, J., Bergsten Nordström, E., Bliss, J., Burrett, J. A., Buyse, M., Cameron, D., Carrasco, E., Clarke, M., Coleman, R., Coates, A., Collins, R., Costantino, J., Cuzick, J., Davidson, N., Davies, C., Davies, K., Delmestri, A., Di Leo, A., Dowsett, M., Elphinstone, P., Evans, V., Forbes, J., Gelber, R., Gettins, L., Geyer, C., Gianni, L., Gnant, M., Goldhirsch, A., Godwin, J., Gregory, C., Hayes, D., Hill, C., Ingle, J., Jakesz, R., James, S., Janni, W., Kaufmann, M., Kerr, A., Liu, H., Mackinnon, E., Martín, M., Mchugh, T., Morris, P., Norton, L., Ohashi, Y., Paik, S., Pan, H. C., Perez, E., Piccart, M., Pierce, L., Pritchard, K., Pruneri, G., Raina, V., Ravdin, P., Robertson, J., Rutgers, E., Shao, Y. F., Sparano, J., Swain, S., Valagussa, P., Viale, G., Von Minckwitz, G., Winer, E., Wiang, X., Wood, Abe O, W., Abe, R, Enomoto, K, Kikuchi, K, Koyama, H, Masuda, H, Nomura, Y, Ohashi, Y, Sakai, K, Sugimachi, K, Toi, M, Tominaga, T, Uchino, J, Yoshida, M, Haybittle, Jl, Leonard, Cf, Calais, G, Geraud, P, Collett, V, Davies, C, Delmestri, A, Sayer, J, Harvey, Vj, Holdaway, Im, Kay, Rg, Mason, Bh, Forbes, Jf, Wilcken, N, Bartsch, R, Dubsky, P, Fesl, C, Fohler, H, Gnant, M, Greil, R, Jakesz, R, Lang, A, Luschin-Ebengreuth, G, Marth, C, Mlineritsch, B, Samonigg, H, Singer, Cf, Steger, Gg, Stöger, H, Canney, P, Yosef, Hm, Focan, C, Peek, U, Oates, Gd, Powell, J, Durand, M, Mauriac, L, Di Leo, A, Dolci, S, Larsimont, D, Nogaret, Jm, Philippson, C, Piccart, Mj, Masood, Mb, Parker, D, Price, Jj, Lindsay, Ma, Mackey, J, Martin, M, Hupperets, Ps, Bates, T, Blamey, Rw, Chetty, U, Ellis, Io, Mallon, E, Morgan, Da, Patnick, J, Pinder, S, Olivotto, I, Ragaz, J, Berry, D, Broadwater, G, Cirrincione, C, Muss, H, Norton, L, Weiss, Rb, Abu-Zahra, Ht, Portnoj, Sm, Bowden, S, Brookes, C, Dunn, J, Fernando, I, Lee, M, Poole, C, Rea, D, Spooner, D, Barrett-Lee, Pj, Mansel, Re, Monypenny, Ij, Gordon, Nh, Davis, Hl, Cuzick, J, Lehingue, Y, Romestaing, P, Dubois, Jb, Delozier, T, Griffon, B, Mace Lesech, J, Brain, E, de La Lande, B, Mouret-Fourme, E, Mustacchi, G, Petruzelka, L, Pribylova, O, Owen, Jr, Harbeck, N, Jänicke, F, Meisner, C, Schmitt, M, Thomssen, C, Meier, P, Shan, Y, Shao, Yf, Wang, X, Zhao, Db, Chen, Zm, Pan, Hc, Howell, A, Swindell, R, Burrett, Ja, Clarke, M, Collins, R, Correa, C, Cutter, D, Darby, S, Davies, K, Elphinstone, P, Evans, V, Gettins, L, Godwin, J, Gray, R, Gregory, C, Hermans, D, Hicks, C, James, S, Kerr, A, Liu, H, Mackinnon, E, Lay, M, Mcgale, P, Mchugh, T, Morris, P, Peto, R, Taylor, C, Wang, Y, Albano, J, de Oliveira CF, Gervásio, H, Gordilho, J, Ejlertsen, B, Jensen, Mb, Johansen, H, Mouridsen, H, Palshof, T, Gelman, Rs, Harris, Jr, Hayes, D, Henderson, C, Shapiro, Cl, Winer, E, Christiansen, P, Ewertz, M, Møller, S, Mouridsen, Ht, Trampisch, Hj, Dalesio, O, de Vries EG, Rodenhuis, S, van Tinteren, H, Comis, Rl, Davidson, Ne, Robert, N, Sledge, G, Solin, Lj, Sparano, Ja, Tormey, Dc, Wood, W, Cameron, D, Dixon, Jm, Forrest, P, Jack, W, Kunkler, I, Rossbach, J, Klijn, Jg, Treurniet-Donker, Ad, van Putten WL, Rotmensz, N, Veronesi, U, Viale, G, Bartelink, H, Bijker, N, Bogaerts, J, Cardoso, F, Cufer, T, Julien, Jp, Rutgers, E, van de Velde CJ, Cunningham, Mp, Huovinen, R, Joensuu, H, Costa, A, Bonadonna, G, Gianni, L, Valagussa, P, Goldstein, Lj, Bonneterre, J, Fargeot, P, Fumoleau, P, Kerbrat, P, Luporsi, E, Namer, M, Eiermann, W, Hilfrich, J, Jonat, W, Kaufmann, M, Kreienberg, R, Schumacher, M, Bastert, G, Rauschecker, H, Sauer, R, Sauerbrei, W, Schauer, A, Blohmer, Ju, Costa, Sd, Eidtmann, H, Gerber, B, Jackisch, C, Loibl, S, von Minckwitz, G, de Schryver, A, Vakaet, L, Belfiglio, M, Nicolucci, A, Pellegrini, F, Pirozzoli, Mc, Sacco, M, Valentini, M, Mcardle, Cs, Smith, Dc, Stallard, S, Dent, Dm, Gudgeon, Ca, Hacking, A, Murray, E, Panieri, E, Werner, Id, Carrasco, E, Segui, Ma, Galligioni, E, Lopez, M, Erazo, A, Medina, Jy, Horiguchi, J, Takei, H, Fentiman, Is, Hayward, Jl, Rubens, Rd, Skilton, D, Scheurlen, H, Sohn, Hc, Untch, M, Dafni, U, Markopoulos, C, Fountzilas, G, Mavroudis, D, Klefstrom, P, Blomqvist, C, Saarto, T, Gallen, M, Tinterri, C, Margreiter, R, de Lafontan, B, Mihura, J, Roché, H, Asselain, B, Salmon, Rj, Vilcoq, Jr, André, F, Arriagada, R, Delaloge, S, Hill, C, Koscielny, S, Michiels, S, Rubino, C, A'Hern, R, Bliss, J, Ellis, P, Kilburn, L, Yarnold, Jr, Benraadt, J, Kooi, M, van de Velde AO, van Dongen JA, Vermorken, Jb, Castiglione, M, Coates, A, Colleoni, M, Collins, J, Forbes, J, Gelber, Rd, Goldhirsch, A, Lindtner, J, Price, Kn, Regan, Mm, Rudenstam, Cm, Senn, Hj, Thuerlimann, B, Bliss, Jm, Chilvers, Ce, Coombes, Rc, Hall, E, Marty, M, Buyse, M, Possinger, K, Schmid, P, Wallwiener, D, Foster, L, George, Wd, Stewart, Hj, Stroner, P, Borovik, R, Hayat, H, Inbar, Mj, Peretz, T, Robinson, E, Bruzzi, P, Del Mastro, L, Pronzato, P, Sertoli, Mr, Venturini, M, Camerini, T, De Palo, G, Di Mauro MG, Formelli, F, Amadori, D, Martoni, A, Pannuti, F, Camisa, R, Cocconi, G, Colozza, A, Passalacqua, R, Aogi, K, Takashima, S, Abe, O, Ikeda, T, Inokuchi, K, Sawa, K, Sonoo, H, Korzeniowski, S, Skolyszewski, J, Ogawa, M, Yamashita, J, Bastiaannet, E, van de Water, W, van Nes JG, Christiaens, R, Neven, P, Paridaens, R, Van den Bogaert, W, Braun, S, Martin, P, Romain, S, Janauer, M, Seifert, M, Sevelda, P, Zielinski, Cc, Hakes, T, Hudis, Ca, Wittes, R, Giokas, G, Kondylis, D, Lissaios, B, de la Huerta, R, Sainz, Mg, Altemus, R, Camphausen, K, Cowan, K, Danforth, D, Lichter, A, Lippman, M, O'Shaughnessy, J, Pierce, Lj, Steinberg, S, Venzon, D, Zujewski, Ja, D'Amico, C, Lioce, M, Paradiso, A, Chapman, Ja, Gelmon, K, Goss, Pe, Levine, Mn, Meyer, R, Parulekar, W, Pater, Jl, Pritchard, Ki, Shepherd, Le, Tu, D, Whelan, T, Ohno, S, Anderson, S, Bass, G, Brown, A, Bryant, J, Costantino, J, Dignam, J, Fisher, B, Geyer, C, Mamounas, Ep, Paik, S, Redmond, C, Swain, S, Wickerham, L, Wolmark, N, Baum, M, Jackson, Im, Palmer, Mk, Perez, E, Ingle, Jn, Suman, Vj, Bengtsson, No, Emdin, S, Jonsson, H, Lythgoe, Jp, Kissin, M, Erikstein, B, Hannisdal, E, Jacobsen, Ab, Varhaug, Je, Gundersen, S, Hauer-Jensen, M, Høst, H, Nissen-Meyer, R, Reinertsen, K, Mitchell, Ak, Robertson, Jf, Ueo, H, Di Palma, M, Mathé, G, Misset, Jl, Levine, M, Morimoto, K, Takatsuka, Y, Crossley, E, Harris, A, Talbot, D, Taylor, M, di Blasio, B, Ivanov, V, Paltuev, R, Semiglazov, V, Brockschmidt, J, Cooper, Mr, Falkson, Ci, Dowsett, M, Makris, A, Parton, M, Pennert, K, Powles, Tj, Smith, Ie, Gazet, Jc, Browne, L, Graham, P, Corcoran, N, Businico, A, Deshpande, N, di Martino, L, Douglas, P, Lindtner, A, Notter, G, Bryant, Aj, Ewing, Gh, Firth, La, Krushen-Kosloski, Jl, Anderson, H, Killander, F, Malmström, P, Rydén, L, Arnesson, Lg, Carstensen, J, Dufmats, M, Fohlin, H, Nordenskjöld, B, Söderberg, M, Carpenter, Jt, Murray, N, Royle, Gt, Simmonds, Pd, Albain, K, Barlow, W, Crowley, J, Gralow, J, Hortobagyi, G, Livingston, R, Martino, S, Osborne, Ck, Ravdin, Pm, Adolfsson, J, Bergh, J, Bondesson, T, Celebioglu, F, Dahlberg, K, Fornander, T, Fredriksson, I, Frisell, J, Göransson, E, Iiristo, M, Johansson, U, Lenner, E, Löfgren, L, Nikolaidis, P, Perbeck, L, Rotstein, S, Sandelin, K, Skoog, L, Svane, G, af Trampe, E, Wadström, C, Janni, W, Maibach, R, Thürlimann, B, Hakama, M, Holli, K, Isola, J, Rouhento, K, Saaristo, R, Brenner, H, Hercbergs, A, Yoshimoto, M, Paterson, Ah, Fyles, A, Meakin, Jw, Panzarella, T, Bahi, J, Reid, M, Spittle, M, Bishop, H, Bundred, Nj, Forsyth, S, Pinder, Se, Sestak, I, Deutsch, Gp, Kwong, Dl, Pai, Vr, Senanayake, F, Martin, Al, Boccardo, F, Rubagotti, A, Hackshaw, A, Houghton, J, Ledermann, J, Monson, K, Tobias, Js, Carlomagno, C, De Laurentiis, M, De Placido, S, Williams, L, Broglio, K, Buzdar, Au, Hsu, L, Love, Rr, Ahlgren, J, Garmo, H, Holmberg, L, Liljegren, G, Lindman, H, Wärnberg, F, Asmar, L, Jones, Se, Gluz, O, Liedtke, C, Nitz, U, Litton, A, Wallgren, A, Karlsson, P, Linderholm, Bk, Chlebowski, Rt, Caffier, H., McGale, P, Taylor, C, Correa, C, Cutter, D, Duane, F, Ewertz, M, Gray, R, Mannu, G, Peto, R, Whelan, T, Wang, Y, Wang, Z, Darby, S, Biomedische Technologie, RS: GROW - Oncology, RS: GROW - R3 - Innovative Cancer Diagnostics & Therapy, Mcgale, P, DE LAURENTIIS, Michelino, Other departments, CCA -Cancer Center Amsterdam, and Radiotherapy

Subjects
medicine.medical_specialty, medicine.medical_treatment, Breast Neoplasms, Rate ratio, Lower risk, Systemic therapy, Statistical significance, Medicine, Humans, Mastectomy, Randomized Controlled Trials as Topic, business.industry, Articles, General Medicine, Surgery, Radiation therapy, Axilla, Neoplasm Recurrence, medicine.anatomical_structure, Local, Meta-analysis, Lymphatic Metastasis, Lymph Node Excision, Female, Neoplasm Recurrence, Local, business, Breast Neoplasm, Human
Abstract

BACKGROUND: Postmastectomy radiotherapy was shown in previous meta-analyses to reduce the risks of both recurrence and breast cancer mortality in all women with node-positive disease considered together. However, the benefit in women with only one to three positive lymph nodes is uncertain. We aimed to assess the effect of radiotherapy in these women after mastectomy and axillary dissection.METHODS: We did a meta-analysis of individual data for 8135 women randomly assigned to treatment groups during 1964-86 in 22 trials of radiotherapy to the chest wall and regional lymph nodes after mastectomy and axillary surgery versus the same surgery but no radiotherapy. Follow-up lasted 10 years for recurrence and to Jan 1, 2009, for mortality. Analyses were stratified by trial, individual follow-up year, age at entry, and pathological nodal status.FINDINGS: 3786 women had axillary dissection to at least level II and had zero, one to three, or four or more positive nodes. All were in trials in which radiotherapy included the chest wall, supraclavicular or axillary fossa (or both), and internal mammary chain. For 700 women with axillary dissection and no positive nodes, radiotherapy had no significant effect on locoregional recurrence (two-sided significance level [2p]>0·1), overall recurrence (rate ratio [RR], irradiated vs not, 1·06, 95% CI 0·76-1·48, 2p>0·1), or breast cancer mortality (RR 1·18, 95% CI 0·89-1·55, 2p>0·1). For 1314 women with axillary dissection and one to three positive nodes, radiotherapy reduced locoregional recurrence (2pINTERPRETATION: After mastectomy and axillary dissection, radiotherapy reduced both recurrence and breast cancer mortality in the women with one to three positive lymph nodes in these trials even when systemic therapy was given. For today's women, who in many countries are at lower risk of recurrence, absolute gains might be smaller but proportional gains might be larger because of more effective radiotherapy.FUNDING: Cancer Research UK, British Heart Foundation, UK Medical Research Council.

Published
2016

5. Effect of radiotherapy after breast-conserving surgery on 10-year recurrence and 15-year breast cancer death: meta-analysis of individual patient data for 10,801 women in 17 randomised trials

Author

EARLY BREAST CANCER TRIALISTS' COLLABORATIVE GROUP (EBCTCG), Darby, S., Mcgale, P., Correa, C., Taylor, C., Arriagada, R., Clarke, M., Cutter, D., Davies, C., Ewertz, M., Godwin, J., Gray, R., Pierce, L., Whelan, T., Wang, Y., Peto, R., Albain, K, Anderson, S, Arriagada, R, Barlow, W, Bergh, J, Bliss, J, Buyse, M, Cameron, D, Carrasco, E, Clarke, M, Correa, C, Coates, A, Collins, R, Costantino, J, Cutter, D, Cuzick, J, Darby, S, Davidson, N, Davies, C, Davies, K, Delmestri, A, Di Leo, A, Dowsett, M, Elphinstone, P, Evans, V, Ewertz, M, Gelber, R, Gettins, L, Geyer, C, Goldhirsch, A, Godwin, J, Gray, R, Gregory, C, Hayes, D, Hill, C, Ingle, J, Jakesz, R, James, S, Kaufmann, M, Kerr, A, Mackinnon, E, Mcgale, P, Mchugh, T, Norton, L, Ohashi, Y, Paik, S, Pan, Hc, Perez, E, Peto, R, Piccart, M, Pierce, L, Pritchard, K, Pruneri, G, Raina, V, Ravdin, P, Robertson, J, Rutgers, E, Shao, Yf, Swain, S, Taylor, C, Valagussa, P, Viale, G, Whelan, T, Winer, E, Wang, Y, Wood, W, Abe, O, Abe, R, Enomoto, K, Kikuchi, K, Koyama, H, Masuda, H, Nomura, Y, Sakai, K, Sugimachi, K, Toi, M, Tominaga, T, Uchino, J, Yoshida, M, Haybittle, Jl, Leonard, Cf, Calais, G, Geraud, P, Collett, V, Sayer, J, Harvey, Vj, Holdaway, Im, Kay, Rg, Mason, Bh, Forbes, Jf, Wilcken, N, Bartsch, R, Dubsky, P, Fesl, C, Fohler, H, Gnant, M, Greil, R, Lang, A, Luschin-Ebengreuth, G, Marth, C, Mlineritsch, B, Samonigg, H, Singer, Cf, Steger, Gg, Stöger, H, Canney, P, Yosef, Hm, Focan, C, Peek, U, Oates, Gd, Powell, J, Durand, M, Mauriac, L, Dolci, S, Larsimont, D, Nogaret, Jm, Philippson, C, Piccart, Mj, Masood, Mb, Parker, D, Price, Jj, Lindsay, Ma, Mackey, J, Martin, M, Hupperets, Ps, Bates, T, Blamey, Rw, Chetty, U, Ellis, Io, Mallon, E, Morgan, Da, Patnick, J, Pinder, S, Olivotto, I, Ragaz, J, Berry, D, Broadwater, G, Cirrincione, C, Muss, H, Weiss, Rb, Abu-Zahra, Ht, Portnoj, Sm, Bowden, S, Brookes, C, Dunn, J, Fernando, I, Lee, M, Poole, C, Rea, D, Spooner, D, Barrett-Lee, Pj, Mansel, Re, Monypenny, Ij, Gordon, Nh, Davis, Hl, Lehingue, Y, Romestaing, P, Dubois, Jb, Delozier, T, Griffon, B, Mace Lesec'h, J, Rambert, P, Mustacchi, G, Petruzelka, Pribylova, O, Owen, Jr, Harbeck, N, Jänicke, F, Meisner, C, Schmitt, M, Thomssen, C, Meier, P, Shan, Y, Wang, X, Zhao, Db, Chen, Zm, Howell, A, Swindell, R, Burrett, Ja, Hermans, D, Hicks, C, Lay, M, Albano, J, de Oliveira CF, Gervásio, H, Gordilho, J, Johansen, H, Mouridsen, Ht, Gelman, Rs, Harris, Jr, Henderson, C, Shapiro, Cl, Christiansen, P, Ejlertsen, B, Jensen, Mb, Møller, S, Carstensen, B, Palshof, T, Trampisch, Hj, Dalesio, O, de Vries EG, Rodenhuis, S, van Tinteren, H, Comis, Rl, Davidson, Ne, Robert, N, Sledge, G, Solin, Lj, Sparano, Ja, Tormey, Dc, Dixon, Jm, Forrest, P, Jack, W, Kunkler, I, Rossbach, J, Klijn, Jg, Treurniet-Donker, Ad, van Putten WL, Rotmensz, N, Veronesi, U, Bartelink, H, Bijker, N, Bogaerts, J, Cardoso, F, Cufer, T, Julien, Jp, van de Velde CJ, Cunningham, Mp, Huovinen, R, Joensuu, H, Costa, A, Tinterri, C, Bonadonna, G, Gianni, L, Goldstein, Lj, Bonneterre, J, Fargeot, P, Fumoleau, P, Kerbrat, P, Luporsi, E, Namer, M, Eiermann, W, Hilfrich, J, Jonat, W, Kreienberg, R, Schumacher, M, Bastert, G, Rauschecker, H, Sauer, R, Sauerbrei, W, Schauer, A, Blohmer, Ju, Costa, Sd, Eidtmann, H, Gerber, G, Jackisch, C, Loibl, S, von Minckwitz, G, de Schryver, A, Vakaet, L, Belfiglio, M, Nicolucci, A, Pellegrini, F, Pirozzoli, Mc, Sacco, M, Valentini, M, Mcardle, Cs, Smith, Dc, Stallard, S, Dent, Dm, Gudgeon, Ca, Hacking, A, Murray, E, Panieri, E, Werner, Id, Segui, Ma, Galligioni, E, Lopez, M, Erazo, A, Medina, Jy, Horiguchi, J, Takei, H, Fentiman, Is, Hayward, Jl, Rubens, Rd, Skilton, D, Scheurlen, H, Sohn, Hc, Untch, M, Dafni, U, Markopoulos, C, Dafni, D, Fountzilas, G, Mavroudis, D, Klefstrom, P, Saarto, T, Gallen, M, Margreiter, R, de Lafontan, B, Mihura, J, Roché, H, Asselain, B, Salmon, Rj, Vilcoq, Jr, Bourgier, C, Koscielny, S, Laplanche, A, Lê, Mg, Spielmann, M, A'Hern, R, Ellis, P, Kilburn, L, Yarnold, Jr, Benraadt, J, Kooi, M, van de Velde AO, van Dongen JA, Vermorken, Jb, Castiglione, M, Colleoni, M, Collins, J, Forbes, J, Gelber, Rd, Lindtner, J, Price, Kn, Regan, Mm, Rudenstam, Cm, Senn, Hj, Thuerlimann, B, Bliss, Jm, Chilvers, Ce, Coombes, Rc, Hall, E, Marty, M, Possinger, K, Schmid, P, Wallwiener, D, Foster, L, George, Wd, Stewart, Hj, Stroner, P, Borovik, R, Hayat, H, Inbar, Mj, Robinson, E, Bruzzi, P, Del Mastro, L, Pronzato, P, Sertoli, Mr, Venturini, M, Camerini, T, De Palo, G, Di Mauro MG, Formelli, F, Amadori, D, Martoni, A, Pannuti, F, Camisa, R, Cocconi, G, Colozza, A, Passalacqua, R, Aogi, K, Takashima, S, Ikeda, T, Inokuchi, K, Sawa, K, Sonoo, H, Korzeniowski, S, Skolyszewski, J, Ogawa, M, Yamashita, J, Bastiaannet, E, van de Water, W, van Nes JG, Christiaens, R, Neven, P, Paridaens, R, Van den Bogaert, W, Braun, S, Janni, W, Martin, P, Romain, S, Janauer, M, Seifert, M, Sevelda, P, Zielinski, Cc, Hakes, T, Hudis, Ca, Wittes, R, Giokas, G, Kondylis, D, Lissaios, B, de la Huerta, R, Sainz, Mg, Altemus, R, Camphausen, K, Cowan, K, Danforth, D, Lichter, A, Lippman, M, O'Shaughnessy, J, Pierce, Lj, Steinberg, S, Venzon, D, Zujewski, Ja, D'Amico, C, Lioce, M, Paradiso, A, Chapman, Ja, Gelmon, K, Goss, Pe, Levine, Mn, Meyer, R, Parulekar, W, Pater, Jl, Pritchard, Ki, Shepherd, Le, Tu, D, Ohno, S, Anderson, A, Bass, G, Brown, A, Bryant, J, Dignam, J, Fisher, B, Mamounas, Ep, Redmond, C, Wickerham, L, Wolmark, N, Baum, M, Jackson, Im, Palmer, Mk, Ingle, Jn, Suman, Vj, Bengtsson, No, Emdin, S, Jonsson, H, Lythgoe, Jp, Kissin, M, Erikstein, B, Hannisdal, E, Jacobsen, Ab, Varhaug, Je, Gundersen, S, Hauer-Jensen, M, Høst, H, Nissen-Meyer, R, Mitchell, Ak, Robertson, Jf, Ueo, H, Di Palma, M, Mathé, G, Misset, Jl, Levine, M, Morimoto, K, Takatsuka, Y, Crossley, E, Harris, A, Talbot, D, Taylor, M, Martin, Al, di Blasio, B, Ivanov, V, Paltuev, R, Semiglazov, V, Brockschmidt, J, Cooper, Mr, Falkson, Ci, Ashley, S, Makris, A, Powles, Tj, Smith, Ie, Gazet, Jc, Browne, L, Graham, P, Corcoran, N, Deshpande, N, di Martino, L, Douglas, P, Lindtner, A, Notter, G, Bryant, Aj, Ewing, Gh, Firth, La, Krushen-Kosloski, Jl, Anderson, H, Killander, F, Malmström, P, Rydén, L, Arnesson, Lg, Carstensen, J, Dufmats, M, Fohlin, H, Nordenskjöld, B, Söderberg, M, Carpenter, Jt, Murray, N, Royle, Gt, Simmonds, Pd, Crowley, J, Gralow, J, Green, S, Hortobagyi, G, Livingston, R, Martino, S, Osborne, Ck, Adolfsson, J, Bondesson, T, Celebioglu, F, Dahlberg, K, Fornander, T, Fredriksson, I, Frisell, J, Göransson, E, Iiristo, M, Johansson, U, Lenner, E, Löfgren, L, Nikolaidis, P, Perbeck, L, Rotstein, S, Sandelin, K, Skoog, L, Svane, G, af Trampe, E, Wadström, C, Maibach, R, Thürlimann, B, Hakama, M, Holli, K, Isola, J, Rouhento, K, Saaristo, R, Brenner, H, Hercbergs, A, Yoshimoto, M, Paterson, Ah, Fyles, A, Meakin, Jw, Panzarella, T, Bahi, J, Reid, M, Spittle, M, Bishop, H, Bundred, Nj, Forsyth, S, Pinder, Se, Sestak, I, Deutsch, Gp, Kwong, Dl, Pai, Vr, Senanayake, F, Boccardo, F, Rubagotti, A, Hackshaw, A, Houghton, J, Ledermann, J, Monson, K, Tobias, Js, Carlomagno, C, De Laurentiis, M, De Placido, S, Williams, L, Broglio, K, Buzdar, Au, Love, Rr, Ahlgren, J, Garmo, H, Holmberg, L, Liljegren, G, Lindman, H, Wärnberg, F, Asmar, L, Jones, Se, Gluz, O, Liedtke, C, Nitz, U, Litton, A, Wallgren, A, Karlsson, P, Linderholm, Bk, Chlebowski, Rt, Caffier, H, Mcgale, P, Correa, C, Taylor, C, Arriagada, R, Clarke, M, Cutter, D, Davies, C, Ewertz, M, Godwin, J, Gray, R, Pierce, L, Whelan, T, Wang, Y, Peto, R, Early Breast Cancer Trialists' Collaborative, Group, DE LAURENTIIS, Michelino, DE PLACIDO, Sabino, Carlomagno, Chiara, Darby, S, McGale, P, Interne Geneeskunde, RS: GROW - School for Oncology and Reproduction, Other departments, CCA -Cancer Center Amsterdam, and Radiotherapy

Subjects
Oncology, medicine.medical_specialty, Neoplasm Recurrence, Local - epidemiology, medicine.medical_treatment, Population, Breast Neoplasms, Mastectomy, Segmental, Breast cancer, breast cancer, Internal medicine, medicine, Breast-conserving surgery, Humans, education, skin and connective tissue diseases, radiotherapy, Randomized Controlled Trials as Topic, education.field_of_study, business.industry, Estrogen Antagonists - therapeutic use, Mortality rate, Age Factors, Estrogen Antagonists, General Medicine, Breast Neoplasms - mortality - therapy, medicine.disease, Surgery, Unilateral Breast Neoplasms, Radiation therapy, Clinical trial, meta-analysis, Tamoxifen, Receptors, Estrogen, Lymphatic Metastasis, Female, Radiotherapy, Adjuvant, Neoplasm Grading, Neoplasm Recurrence, Local, business, Mastectomy
Abstract

BACKGROUND: After breast-conserving surgery, radiotherapy reduces recurrence and breast cancer death, but it may do so more for some groups of women than for others. We describe the absolute magnitude of these reductions according to various prognostic and other patient characteristics, and relate the absolute reduction in 15-year risk of breast cancer death to the absolute reduction in 10-year recurrence risk. METHODS: We undertook a meta-analysis of individual patient data for 10,801 women in 17 randomised trials of radiotherapy versus no radiotherapy after breast-conserving surgery, 8337 of whom had pathologically confirmed node-negative (pN0) or node-positive (pN+) disease. FINDINGS: Overall, radiotherapy reduced the 10-year risk of any (ie, locoregional or distant) first recurrence from 35.0% to 19.3% (absolute reduction 15.7%, 95% CI 13.7-17.7, 2p/=20%), intermediate (10-19%), or lower (, link_to_OA_fulltext

Published
2011

6. [Guideline 'Treatment of breast cancer 2008' (revision)]

Author

Struikmans H, Jw, Nortier, Ej, Rutgers, Hm, Zonderland, Bontenbal M, Ph, Elkhuizen, van Tienhoven G, Vc, Tjan-Heijnen, van Vegchel T, Mariska Tuut, and Benraadt J

Subjects
Breast Neoplasms, Prognosis, Combined Modality Therapy, Neoadjuvant Therapy, Treatment Outcome, Antineoplastic Combined Chemotherapy Protocols, Practice Guidelines as Topic, Humans, Female, Practice Patterns, Physicians', Mastectomy, Societies, Medical, Neoplasm Staging, Netherlands
Abstract

The Dutch evidence-based guideline 'Treatment of breast cancer' has been revised, and integrated with the guideline 'Screening for and diagnosis of breast cancer'. The guideline can be found on www. oncoline.nl and on www.cbo.nl. The Internet programme 'Adjuvant!' (www.adjuvantonline.com) can be used to predict both the prognosis and the efficacy of systemic adjuvant therapy for each patient. The indications for adjuvant chemotherapy and endocrine therapy have been widened. The aim is to reduce the absolute probability of death by at least 4-5% within 10 years. The goal of neoadjuvant chemotherapy in operable breast cancer is to enable breast-conserving therapy for large tumours in relatively small breasts. One could consider transferring responsibility for follow-up after 5 years from the hospital to the screening organisation following mastectomy, to the family doctor following breast-conserving therapy, and to an outpatient clinic for hereditary tumours in carriers of gene mutation. Cessation of follow-up above the age of 75 could also be considered.

Published
2008

7. [Revised practice guideline 'Screening and diagnosis of breast cancer']

Author

Hm, Zonderland, Mk, Tuut, Gj, Den Heeten, Cj, Asperen, Gh, Bock, Ej, Rutqers, Pieter Westenend, Gm, Smit, and Benraadt J

Subjects
Time Factors, Age Factors, Breast Self-Examination, Breast Neoplasms, Magnetic Resonance Imaging, Risk Factors, Practice Guidelines as Topic, Humans, Mass Screening, Female, Diagnosis, Computer-Assisted, Ultrasonography, Mammary, Physical Examination, Societies, Medical, Mammography, Netherlands
Abstract

Revised practice guideline 'Screening and diagnosis of breast cancer' The evidence-based revision of the practice guideline 'Screening and diagnosis of breast cancer' was necessitated by new insights, for instance on the cost-effectiveness of screening modalities other than mammography. Mammography is the only screening modality that is recommended for the general population. In the Netherlands, women from 50-75 years of age are invited for screening. However, in view of the ongoing increase in the incidence of breast cancer and of the image quality advantages of radiological digitalization, a study on the decrease of the lower age limit--preferably 45 years--is recommended. Screening with MRI is indicated for carriers of breast cancer gene mutations. Evaluation of risk factors has resulted in a rearrangement of screening recommendations, based on relative risks (RRs): screening apart from the population screening is only recommended in case the RRis 4 or more and in patients with a positive family history in case of a RR of 2 or more. Additional risks require further genetic evaluation. The 'Breast imaging reporting and data system' (BI-RADS) is now recommended for both screening and diagnostic imaging. Its application has had an impact on the triple diagnostic approach, which has now evolved into a consensus between surgeon, radiologist and pathologist. Axillary ultrasound should be carried out ifa sentinel node procedure is being considered. MRI should be included if the cancer cannot be reliably delineated on mammography or ultrasound. The increased complexity of the diagnostic work-up often means that the final diagnosis is not arrived within one day. Every effort should be made to achieve this goal within 5 working days. Ned Tijdschr Geneeskd. 2008;I52:2336-9

Published
2008

8. Richtlijn 'Behandeling van het mammacarcinoom 2008' (herziening)

Author

Struikmans, H., Nortier, J. W. R., Rutgers, E. J. Th, Zonderland, H. M., Bontenbal, M., Elkhuizen, P. H. M., van Tienhoven, G., Tjan-Heijnen, V. C. G., van Vegchel, T., Tuut, M. K., Benraadt, J., Radiology and Nuclear Medicine, Cancer Center Amsterdam, and Radiotherapy

Abstract

The Dutch evidence-based guideline 'Treatment of breast cancer' has been revised, and integrated with the guideline 'Screening for and diagnosis of breast cancer'. The guideline can be found on www. oncoline.nl and on www.cbo.nl. The Internet programme 'Adjuvant!' (www.adjuvantonline.com) can be used to predict both the prognosis and the efficacy of systemic adjuvant therapy for each patient. The indications for adjuvant chemotherapy and endocrine therapy have been widened. The aim is to reduce the absolute probability of death by at least 4-5% within 10 years. The goal of neoadjuvant chemotherapy in operable breast cancer is to enable breast-conserving therapy for large tumours in relatively small breasts. One could consider transferring responsibility for follow-up after 5 years from the hospital to the screening organisation following mastectomy, to the family doctor following breast-conserving therapy, and to an outpatient clinic for hereditary tumours in carriers of gene mutation. Cessation of follow-up above the age of 75 could also be considered

Published
2008

10. Effects of chemotherapy and hormonal therapy for early breast cancer on recurrence and 15-year survival: an overview of the randomised trials

Author

EBCTCG, Abe, O., Abe, R., Enomoto, K., Kikuchi, K., Koyama, H., Masuda, H., Nomura, Y., Sakai, K., Sugimachi, K., Tominaga, T., Uchino, J., Yoshida, M., Haybittle, Jl, Davies, C., Harvey, Vj, Holdaway, Tm, Kay, Rg, Mason, Bh, Forbes, Jf, Wilcken, N., Gnant, M., Jakesz, R., Ploner, M., Yosef, Hma, Focan, C., Lobelle, Jp, Peek, U., Oates, Gd, Powell, J., Durand, M., Mauriac, L., Di Leo, A., Dolci, S., Piccart, Mj, Masood, Mb, Parker, D., Price, Jj, Hupperets, Psgj, Jackson, S., Ragaz, J., Berry, D., Broadwater, G., Cirrincione, C., Muss, H., Norton, L., Weiss, Rb, Abu-Zahra, Ht, Portnoj, Sm, Baum, M., Cuzick, J., Houghton, J., Riley, D., Gordon, Nh, Davis, Hl, Beatrice, A., Mihura, J., Naja, A., Lehingue, Y., Romestaing, P., Dubois, Jb, Delozier, T., Mace-Lesec H, J., Rambert, P., Andrysek, O., Barkmanova, J., Owen, Jr, Meier, P., Howell, A., Ribeiro, Gc, Swindell, R., Alison, R., Boreham, J., Clarke, M., Collins, R., Darby, S., Elphinstone, P., Evans, V., Godwin, J., Gray, R., Harwood, C., Hicks, C., James, S., Mackinnon, E., Mcgale, P., Mchugh, T., Mead, G., Peto, R., Wang, Y., Albano, J., Oliveira, Cf, Gervasio, H., Gordilho, J., Johansen, H., Mouridsen, Ht, Gelman, Rs, Harris, Jr, Henderson, Ic, Shapiro, Cl, Andersen, Kw, Axelsson, Ck, Blichert-Toft, M., Moller, S., Overgaard, J., Overgaard, M., Rose, C., Cartensen, B., Palshof, T., Trampisch, Hj, Dalesio, O., Vries, Ege, Rodenhuis, S., Tinteren, H., Comis, Rl, Davidson, Ne, Robert, N., Sledge, G., Tormey, Dc, Wood, W., Cameron, D., Chetty, U., Forrest, P., Jack, W., Rossbach, J., Klijn, Jgm, Treurniet-Donker, Ad, Putten, Wlj, Costa, A., Veronesi, U., Bartelink, H., Duchateau, L., Legrand, C., Sylvester, R., Hage, Ja, Velde, Cjh, Cunningham, Mp, Catalano, R., Creech, Rh, Bonneterre, J., Fargeot, P., Fumoleau, P., Kerbrat, P., Namer, M., Jonat, W., Kaufmann, M., Schumacher, M., Minckwitz, G., Bastert, G., Rauschecker, H., Sauer, R., Sauerbrei, W., Schauer, A., Schryver, A., Vakaet, L., Belfiglio, M., Nicolucci, A., Pellegrini, F., Sacco, M., Valentini, M., Mcardle, Cs, Smith, Dc, Galligioni, E., Boccardo, F., Rubagotti, A., Dent, Dm, Gudgeon, Ca, Hacking, A., Erazo, A., Medina, Jy, Izuo, M., Morishita, Y., Takei, H., Fentiman, Is, Hayward, Jl, Rubens, Rd, Skilton, D., Graeff, H., Janicke, F., Meisner, C., Scheurlen, H., Fournier, D., Dafni, U., Fountzilas, G., Klefstrom, P., Blomqvist, C., Saarto, T., Margreiter, R., Asselain, B., Salmon, Rj, Vilcoq, Jr, Rodrigo Arriagada, Hill, C., Laplanche, A., Le, Mg, Spielmann, M., Bruzzi, P., Montanaro, E., Rosso, R., Sertoli, MR, Venturini, M., Amadori, D., Benraadt, J., Kooi, M., Velde, Ao, Dongen, Ja, Vermorken, Jb, Castiglione, M., Cavalli, F., Coates, A., Collins, J., Forbes, J., Gelber, Rd, Goldhirsch, A., Lindtner, J., Price, Kn, Rudenstam, Cm, Senn, Hj, Bliss, Jm, Chilvers, Ced, Coombes, Rc, Hall, E., Marty, M., Borovik, R., Brufman, G., Hayat, H., Robinson, E., Wigler, N., Bonadonna, G., Camerini, T., Palo, G., Del Vecchio, M., Formelli, F., Valagussa, P., Martoni, A., Pannuti, F., Cocconi, G., Colozza, A., Camisa, R., Aogi, K., Takashima, S., Ikeda, T., Inokuchi, K., Sawa, K., Sonoo, H., Korzeniowski, S., Skolyszewski, J., Ogawa, M., Yamashita, J., Bonte, J., Christiaens, R., Paridaens, R., Den Boegart, W., Martin, P., Romain, S., Hakes, T., Hudis, Ca, Wittes, R., Giokas, G., Kondylis, D., Lissaios, B., La Huerta, R., Sainz, Mg, Altemus, R., Cowan, K., Danforth, D., Lichter, A., Lippman, M., O Shaughnessy, J., Pierce, Lj, Steinberg, S., Venzon, D., Zujewski, J., Paradiso, A., Lena, M., Schittulli, F., Myles, Jd, Pater, Jl, Pritchard, Ki, Anderson, S., Bass, G., Brown, A., Bryant, J., Costantino, J., Dignam, J., Fisher, B., Redmond, C., Wieand, S., Wolmark, N., Jackson, Im, Palmer, Mk, Ingle, Jn, Suman, Vj, Bengtsson, No, Jonsson, H., Larsson, Lg, Lythgoe, Jp, Kissin, M., Erikstein, B., Hannisdal, E., Jacobsen, Ab, Varhaug, Je, Gundersen, S., Hauer-Jensen, M., Host, H., Nissen-Meyer, R., Blamey, Rw, Mitchell, Ak, Morgan, Dal, Robertson, Jfr, Di Palma, M., Mathe, G., Misset, Jl, Clark, Rm, Levine, M., Morimoto, K., Takatsuka, Y., Crossley, E., Harris, A., Talbot, D., Taylor, M., Di Blasio, B., Ivanov, V., Semiglazov, V., Brockschmidt, J., Cooper, MR, Ueo, H., Falkson, Ci, A Hern, R., Ashley, S., Powles, Tj, Smith, Ie, Yarnold, Jr, Gazet, Jc, Cocoran, N., Deshpande, N., Di Martino, L., Douglas, P., Lindtner, A., Notter, G., Bryant, Ajs, Ewing, Gh, Firth, La, Krushen-Kosloski, Jl, Foster, L., George, Wd, Stewart, Hj, Stroner, P., Malmstrom, P., Moller, Tr, Ryden, S., Tengrup, I., Tennvall-Nittby, L., Carstenssen, J., Dufmats, M., Hatschek, T., Nordenskjold, B., Soderberg, M., Carpenter, Jt, Albain, K., Crowley, J., Green, S., Martino, S., Osborne, Ck, Ravdin, Pm, Glas, U., Johansson, U., Rutqvist, Le, Singnomklao, T., Wallgren, A., Maibach, R., Thurlimann, B., Brenner, H., Hercbergs, A., Yoshimoto, M., Deboer, G., Paterson, Ahg, Meakin, Jw, Panzarella, T., Shan, Y., Shao, Yf, Wang, X., Zhao, Db, Chen, Zm, Pan, Hc, Bahi, J., Reid, M., Spittle, M., Deutsch, Gp, Senanayake, F., Kwong, Dlw, Bianco, Ar, Carlomagno, C., Laurentiis, M., Placido, S., Buzdar, Au, Smith, T., Bergh, J., Holmberg, L., Liljegren, G., Nilsson, J., Seifert, M., Sevelda, P., Zielinsky, Cc, Buchanan, Rb, Cross, M., Royle, Gt, Dunn, Ja, Hills, Rk, Lee, M., Morrison, Jm, Spooner, D., Litton, A., Chlebowski, Rt, Caffier, H., Faculteit Medische Wetenschappen/UMCG, Guided Treatment in Optimal Selected Cancer Patients (GUTS), Early Breast Cancer Trialists' Collaborative, Group, DE LAURENTIIS, Michelino, and DE PLACIDO, Sabino

Subjects
Oncology, medicine.medical_specialty, Antineoplastic Agents, Hormonal, DEATHS, Ovariectomy, Antineoplastic Agents, Breast Neoplasms, Aged, Anthracyclines, Antineoplastic Combined Chemotherapy Protocols, Cause of Death, Chemotherapy, Adjuvant, Female, Humans, Middle Aged, Neoplasm Metastasis, Neoplasm Recurrence, Local, Ovary, Randomized Controlled Trials as Topic, Receptors, Estrogen, Survival Rate, Tamoxifen, Medicine (all), Breast cancer, MammaPrint, Internal medicine, Receptors, medicine, Chemotherapy, TAMOXIFEN, skin and connective tissue diseases, Survival rate, Adjuvant, Gynecology, Hormonal, medicine.diagnostic_test, Oncotype DX Breast Cancer Assay, business.industry, General Medicine, medicine.disease, Estrogen, Neoplasm Recurrence, Local, Hormonal therapy, Oncotype DX, business, medicine.drug, Epirubicin
Abstract

Background Quinquennial overviews (1985–2000) of the randomised trials in early breast cancer have assessed the 5 year and 10-year effects of various systemic adjuvant therapies on breast cancer recurrence and survival. Here, we report the 10-year and 15-year effects. Methods Collaborative meta-analyses were undertaken of 194 unconfounded randomised trials of adjuvant chemotherapy or hormonal therapy that began by 1995. Many trials involved CMF (cyclophosphamide, methotrexate, fluorouracil), anthracycline-based combinations such as FAC (fluorouracil, doxorubicin, cyclophosphamide) or FEC (fluorouracil, epirubicin, cyclophosphamide), tamoxifen, or ovarian suppression: none involved taxanes, trastuzumab, raloxifene, or modern aromatase inhibitors. Findings Allocation to about 6 months of anthracycline-based polychemotherapy (eg, with FAC or FEC) reduces the annual breast cancer death rate by about 38% (SE 5) for women younger than 50 years of age when diagnosed and by about 20% (SE 4) for those of age 50–69 years when diagnosed, largely irrespective of the use of tamoxifen and of oestrogen receptor (ER) status, nodal status, or other tumour characteristics. Such regimens are significantly (2p=0·0001 for recurrence, 2p For ER-positive disease only, allocation to about 5 years of adjuvant tamoxifen reduces the annual breast cancer death rate by 31% (SE 3), largely irrespective of the use of chemotherapy and of age ( These results combine six meta-analyses: anthracycline-based versus no chemotherapy (8000 women); CMF-based versus no chemotherapy (14 000); anthracycline-based versus CMF-based chemotherapy (14 000); about 5 years of tamoxifen versus none (15 000); about 1–2 years of tamoxifen versus none (33 000); and about 5 years versus 1–2 years of tamoxifen (18 000). Finally, allocation to ovarian ablation or suppression (8000 women) also significantly reduces breast cancer mortality, but appears to do so only in the absence of other systemic treatments. For middle-aged women with ER-positive disease (the commonest type of breast cancer), the breast cancer mortality rate throughout the next 15 years would be approximately halved by 6 months of anthracycline-based chemotherapy (with a combination such as FAC or FEC) followed by 5 years of adjuvant tamoxifen. For, if mortality reductions of 38% (age Interpretation Some of the widely practicable adjuvant drug treatments that were being tested in the 1980s, which substantially reduced 5-year recurrence rates (but had somewhat less effect on 5-year mortality rates), also substantially reduce 15-year mortality rates. Further improvements in long-term survival could well be available from newer drugs, or better use of older drugs.

Published
2005

11. Diagnostiek en behandeling van het distale galweg- of pancreascarcinoom; richtlijn van de Integrale Kankercentra Amsterdam en Stedendriehoek Twente

Author

Gouma, D. J., Tilleman, E. H., Benraadt, J., Bossuyt, P. M., and Other departments

Abstract

A project on the diagnostic work-up and treatment of distal bile duct and pancreatic carcinoma was carried out in the region covered by the Comprehensive Cancer Centre in Amsterdam, the Netherlands. It consisted of (a) describing the diagnostic work-up in the area, (b) developing the guidelines, (c) spreading the recommendations. The implementation and application of the guidelines are currently being evaluated

Published
2001

12. Diagnostiek en behandeling van het pancreascarcinoom in de regio van het Integraal Kankercentrum Amsterdam in 1997

Author

Tilleman, E. H., Benraadt, J., Bossuyt, P. M., Obertop, H., Gouma, D. J., and Other departments

Abstract

OBJECTIVE: To describe the diagnostic work-up and treatment of patients with a pancreatic carcinoma in the Amsterdam area, the Netherlands, particularly in general hospitals. DESIGN: Retrospective, descriptive. METHOD: During 1997, 286 patients with a pancreatic carcinoma were diagnosed in 20 hospitals in the Amsterdam area. Diagnostic work-up and treatment data were collected from the medical records and analysed. RESULTS: Ninety percent of the patients presented in one of the 17 general hospitals (n = 252; 132 men and 154 women; mean age: 70 years). Thirty-five percent of them underwent diagnostic investigations which did not focus directly on pancreatic pathology. Ultrasound was performed in 97% of patients (4% in combination with Doppler) and CT in 60% (4% spiral CT). Endoscopic retrograde cholangiopancreatography (ERCP) was performed in 39% of these patients and endoprostheses were only inserted in half the cases. Thirty-five percent of the patients who underwent both CT and ERCP underwent ERCP first. Ninety-nine patients (39%) were referred to a reference hospital for further investigation or treatment. The period between the first investigation and the histological diagnosis was 4 weeks. CONCLUSION: In the diagnostic work-up of patients with a pancreatic carcinoma, invasive diagnostic procedures were often performed before the non-invasive tests. Spiral CT was used minimally and ERCP was frequently performed without subsequent biliary drainage. The mean duration of diagnostic work-up was relatively long

Published
2001

13. Toxicity of high-dose radiotherapy combined with daily cisplatin in non-small cell lung cancer: results of the EORTC 08912 phase I/II study. European Organization for Research and Treatment of Cancer

Author

Uitterhoeve, A. L., Belderbos, J. S., Koolen, M. G., van der Vaart, P. J., Rodrigus, P. T., Benraadt, J., Koning, C. C., González González, D., Bartelink, H., and Other departments

Abstract

The purpose of this work was to study the feasibility of concurrent chemoradiation in patients with inoperable non-small cell lung cancer (NSCLC). 40 patients with inoperable NSCLC were treated with escalating doses of radiotherapy and cisplatin (cDDP). The radiation dose was increased step by step from 60.5 to 66 Gy in daily fractions of 2.75 Gy. Chemotherapy was also increased step by step from 20 to 24 daily doses of cDDP 6 mg/m(2) and given concurrently with radiotherapy. A dose of 40 Gy/2 Gy/20 fractions (fx) was given to the EPTV (elective planning target volume) which included the gross tumour volume with a margin of 2 cm and part of or the entire mediastinum. During each session a boost dose of 0.75 Gy was given simultaneously to the BPTV (boost planning target volume), which encompassed the GTV (gross tumour volume) with a margin of 1 cm, for the first 20 fx, so the total dose to the tumour was 55 Gy. Cisplatin 6 mg/m(2) was given 1 h prior to radiotherapy at each fraction. From then on the dose of radiation to the BPTV and the dose of cDDP were increased step by step. In group I the BPTV was irradiated with two extra fractions of 2.75 Gy to a total dose of 60. 5 Gy without cDDP. In group II the same total dose of 60.5 Gy was given but the last two fractions were combined with cDDP. In group III four extra fractions of 2.75 Gy were given to the BPTV to a total dose of 66 Gy, only two of these fractions combined with cDDP. Finally, in group IV a total dose of 66 Gy was given in 24 fractions, all fractions combined with cDDP. All patients were planned by means of a CT-based conformal treatment planning. The maximal length of the oesophagus receiving >/=60.5 Gy was 11 cm. 40 patients were evaluable for acute and late toxicity and for survival. Acute toxicity grade >/=3 (common toxicity criteria, CTC) was rarely observed; nausea/vomiting in 3 patients (8%), leucopenia in 2 patients (5%), thrombocytopenia in 2 patients (5%), whilst 2 patients (5%) suffered from severe weight loss. Late side-effects (European Organization for Research and Treatment of Cancer/Radiation Therapy Oncology Group, EORTC/RTOG) were: oesophageal toxicity >/=grade 3 in 2 patients (5%) and radiation pneumonitis grades 1 (3%) and 2 (3%) in 1 patient each. Overall actuarial 1- and 2-year survival was 53% and 40%, respectively. The 1- and 2-year local disease-free interval was 65% and 58% respectively. Radiotherapy at a dose of 66 Gy/2.75 Gy/24 fx combined with daily cDDP 6 mg/m(2) given over 5 weeks is feasible and results in a good local disease-free interval and a good survival rate. This treatment schedule is at present being tested as one of the two treatment arms of EORTC phase III study protocol 08972/22973

Published
2000

15. Risk of endometrial cancer after tamoxifen treatment of breast cancer.

Author

van Leeuwen FE, Benraadt J, Coebergh JWW, Kiemeney LAL, Gimbrere CHF, Otter R, Schouten LJ, Damhuis RAM, Bontenbal M, Diepenhorst FW, van den Belt-Dusebout AW, van Tinteren H, van Leeuwen, F E, Benraadt, J, Coebergh, J W, Kiemeney, L A, Gimbrère, C H, Otter, R, Schouten, L J, and Damhuis, R A

Abstract

Since large trials have been set up to assess whether tamoxifen decreases the risk of breast cancer in healthy women, it has become important to investigate the drug's potential adverse effects, including occurrence of endometrial cancer. We undertook a case-control study in the Netherlands to assess the effect of tamoxifen on the risk of endometrial cancer after breast cancer. Through the population-based Netherlands Cancer Registry and two older, hospital-based, registries, we identified 98 patients who had endometrial cancer diagnosed at least 3 months after a diagnosis of primary breast cancer. Detailed information about treatment was obtained for all these patients, and for 285 controls, who were matched to the cases for age, year of breast cancer diagnosis, and survival time with intact uterus. Tamoxifen had been used by 24% of patients with subsequent endometrial cancer and 20% of controls (relative risk 1.3 [95% CI 0.7-2.4]). Women who had used tamoxifen for more than 2 years had a 2.3 (0.9-5.9) times greater risk of endometrial cancer than never users. There was a significant trend of increasing risk of endometrial cancer with duration of tamoxifen use (p = 0.049), and also with cumulative dose (p = 0.046). The duration-response trends were similar with daily doses of 40 mg or 30 mg and less. These findings support the hypothesis that tamoxifen use increases the risk of endometrial cancer. This oestrogenic effect on the endometrium was not related to the dose intensity. Physicians should be aware of the higher risk of endometrial cancer in tamoxifen users. [ABSTRACT FROM AUTHOR]

Published
1994
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17. Risk of endometrial cancer after tamoxifen treatment of breast cancer

Author

Leeuwen, F.E. (Flora) van, Benraadt, J. (J.), Coebergh, J.W.W. (Jan Willem), Kiemeney, L.A.L.M. (Bart), Gimbrère, C.H.F. (Charles), Otter, R. (Renée), Scheuten, L.J. (Leo), Damhuis, R.A. (Ronald), Bontenbal, M. (Marijke), Diepenhorst, A.I., Belt-Dusebout, A.W. (Alexandra) van den, Tinteren, H. (Harm) van, Leeuwen, F.E. (Flora) van, Benraadt, J. (J.), Coebergh, J.W.W. (Jan Willem), Kiemeney, L.A.L.M. (Bart), Gimbrère, C.H.F. (Charles), Otter, R. (Renée), Scheuten, L.J. (Leo), Damhuis, R.A. (Ronald), Bontenbal, M. (Marijke), Diepenhorst, A.I., Belt-Dusebout, A.W. (Alexandra) van den, and Tinteren, H. (Harm) van

Abstract

Since large trials have been set up to assess whether tamoxifen decreases the risk of breast cancer in healthy women, it has become important to investigate the drug's potential adverse effects, including occurrence of endometrial cancer. We undertook a case-contr

Published
1994
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21. Cyclin A is a prognostic indicator in early breast cancer with and without tamoxifen treatment.

Author

Michalides, R., van Tinteren, H., Balkenende, A., Vermoken, J.B., Benraadt, J., Huldij, J., and van Diest, P.

Subjects
TUMOR markers, BREAST cancer, TAMOXIFEN
Abstract

Overexpression of GI-S regulators cyclin DI or cyclin A is frequently observed in breast cancer and is also to result in ligandindependent activation of oestrogen receptor in vitro. This might therefore, provide a mechanism for failure of tamoxifen treatment. We examined by immunohistochemical staining the effect of deregulation of these, and other cell cycle regulators on tamoxifen treatment in a group of 394 patients with early stage breast cancer. In univariate analysis, expression of cyclin A, Neu, Ki-67 index, and lack of OR expression were significantly associated with worse prognosis. When adjusted by the clinical model (for lymph node status, age, performance status, T-classification, grade, prior surgery, oestrogen receptor status and tamoxifen use), only overexpression of cyclin A and Neu were significantly associated with worse prognosis with hazard ratios of, respectively, 1.709 (P = 0.0195) and 1.884 (P = 0.0151). Overexpression of cyclin A was found in 86 out of the 201 ORpositive cases treated with tamoxifen, and was the only independent marker associated with worse prognosis (hazard ratio 2.024, P = 0.0462). In conclusion, cyclin A is an independent predictor of recurrence of early stage breast cancer and is as such a marker for response in patients treated with tamoxifen. [ABSTRACT FROM AUTHOR]

Published
2002
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22. Comprehensive Cancer Centre Amsterdam Barrett Advisory Committee11The Barrett Advisory Committee consists of the following members (besides the authors): B. Aleman (Dutch Cancer Institure/Antoni van Leeuwenhoekhospital) H. Boot (Dutch Cancer Institute/Antoni van Leeuwenhoekhospital), M.E. Craanen (Academic Hospital Free University), W. Dekker (Kennemer Gasthuis lokation EG), F.J.W. ten Kate (Academic Medical Center), H. Obertop (Academic Medical Center), H.A.R.E. Tuynman (Medical Center Alkmaar) en J.A. van de Velde-Muusers (Comprehensive Cancer Center Amsterdam).: first results

Author

Hulscher, J.B.F, Haringsma, J, Benraadt, J, Offerhaus, G.J.A, ten Kate, F.J.W, Baak, J.P.A, Tytgat, G.N.J, and van Lanschot, J.J.B

Abstract

Background:Treatment and follow-up policy for Barrett’s oesophagus are dependent on the grade of dysplasia. However, sampling error of random biopsy protocols and subjectivity of pathological grading may hamper endoscopic surveillance. Methods:The Amsterdam Comprehensive Cancer Center Barrett Advisory Committee (BAC) is a regional multidisciplinary consultative working-group, offering revision of pathology, revision of pathology plus additional endoscopic diagnostics, or referral for treatment. Results:Between July 1998 and July 1999 30 patients were referred to the B.A.C for advice; eighteen patients were referred because of suspicion of high grade dysplasia. Reassessment of biopsies, including additional quantitative pathology, with or without additional endoscopic diagnostics, led to adjustment of the grading of dysplasia in 15 patients (50%). A suspicion of low grade dysplasia was rejected in nine out of ten cases. Adjustment of the original diagnosis often influenced further therapy or follow-up. Conclusions:Reassessment of conventional pathology, quantitative pathology, and additional diagnostic procedures might improve the accuracy of diagnosis and staging of malignant degeneration of Barrett’s oesophagus, although experience is still limited. The complexity of the management of these patients demands a specialised multidisciplinary approach. A Barrett Advisory Committee can offer valuable contributions to the treatment of patients with Barrett’s oesophagus.

Published
2001
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26. Effects of radiotherapy and of differences in the extent of surgery for early breast cancer on local recurrence and 15-year survival: an overview of the randomised trials

Author

Abe, O., Abe, R., Enomoto, K., Kikuchi, K., Koyama, H., Masuda, H., Nomura, Y., Sakai, K., Sugimachi, K., Tominaga, T., Uchino, J., Yoshida, M., Haybittle, J. L., Davies, C., Harvey, V. J., Holdaway, T. M., Kay, R. G., Mason, B. H., Forbes, J. F., Wilcken, N., Gnant, M., Jakesz, R., Ploner, M., Yosef, H. M. A., Focan, C., Lobelle, J. P., Peek, U., Oates, G. D., Powell, J., Durand, M., Mauriac, L., Di Leo, A., Dolci, S., Piccart, M. J., Masood, M. B., Parker, D., Price, J. J., Hupperets, P. S. G. J., Jackson, S., Ragaz, J., Berry, D., Broadwater, G., Cirrincione, C., Muss, H., Norton, L., Weiss, R. B., Abu-Zahra, H. T., Portnoj, S. M., Baum, M., Cuzick, J., Houghton, J., Riley, D., Mansel, R. E., Gordon, N. H., Davis, H. L., Beatrice, A., Mihura, J., Naja, A., Lehingue, Y., Romestaing, P., Dubois, J. B., Delozier, T., Mace Lesec'h, J., Rambert, P., Petruzelka, L., Pribylova, O., Owen, J. R., Harbeck, N., Jänicke, F., Meisner, C., Meier, P., Howell, A., Ribeiro, G. C., Swindell, R., Burrett, J., Clarke, M., Collins, R., Darby, S., Elphinstone, P., Evans, V., Godwin, J., Gray, R., Harwood, C., Hicks, C., Jackson, D., James, S., Mackinnon, E., Mcgale, P., Mchugh, T., Mead, G., Morris, P., Oulds, J., Peto, R., Taylor, C., Wang, Y., Albano, J., De Oliveira, C. F., Gervásio, H., Gordilho, J., Johansen, H., Mouridsen, H. T., Gelman, R. S., Harris, J. R., Henderson, I. C., Shapiro, C. L., Christiansen, P., Ejlertsen, B., Møller, S., Overgaard, M., Carstensen, B., Palshof, T., Trampisch, H. J., Dalesio, O., De Vries, E. G. E., Rodenhuis, S., Van Tinteren, H., Comis, R. L., Davidson, N. E., Robert, N., Sledge, G., Tormey, D. C., Wood, W., Cameron, D., Chetty, U., Forrest, P., Jack, W., Rossbach, J., Klijn, J. G. M., Treurniet-Donker, A. D., Van Putten, W. L. J., Costa, A., Veronesi, U., Bartelink, H., Duchateau, L., Legrand, C., Sylvester, R., Van Der Hage, J. A., Van De Velde, C. J. H., Cunningham, M. P., Catalano, R., Creech, R. H., Bonneterre, J., Fargeot, P., Fumoleau, P., Kerbrat, P., Namer, M., Jonat, W., Kaufmann, M., Schumacher, M., Von Minckwitz, G., Bastert, G., Rauschecker, H., Sauer, R., Sauerbrei, W., Schauer, A., De Schryver, A., Vakaet, L., Belfiglio, M., Nicolucci, A., Pellegrini, F., Sacco, M., Valentini, M., Mcardle, C. S., Smith, D. C., Galligioni, E., Boccardo, F., Rubagotti, A., Dent, D. M., Gudgeon, C. A., Hacking, A., Erazo, A., Medina, J. Y., Izuo, M., Morishita, Y., Takei, H., Fentiman, I. S., Hayward, J. L., Rubens, R. D., Skilton, D., Scheurlen, H., Von Fournier, D., Dafni, U., Fountzilas, G., Klefstrom, P., Blomqvist, C., Saarto, T., Margreiter, R., Asselain, B., Salmon, R. J., Vilcoq, J. R., Arriagada, R., Hill, C., Laplanche, A., M. G., Lê, Spielmann, M., Bruzzi, P., Montanaro, E., Rosso, R., Sertoli, M. R., Venturini, M., Amadori, D., Benraadt, J., Kooi, M., Van De Velde, A. O., Van Dongen, J. A., Vermorken, J. B., Castiglione, M., Cavalli, F., Coates, A., Collins, J., Forbes, J., Gelber, R. D., Goldhirsch, A., Lindtner, J., Price, K. N., Rudenstam, C. M., Senn, H. J., Bliss, J. M., Chilvers, C. E. D., Coombes, R. C., Hall, E., Marty, M., Borovik, R., Brufman, G., Hayat, H., Robinson, E., Wigler, N., Bonadonna, G., Camerini, T., De Palo, G., Del Vecchio, M., Formelli, F., Valagussa, P., Martoni, A., Pannuti, F., Cocconi, G., Colozza, A., Camisa, R., Aogi, K., Takashima, S., Ikeda, T., Inokuchi, K., Sawa, K., Sonoo, H., Korzeniowski, S., Skolyszewski, J., Ogawa, M., Yamashita, J., Bonte, J., Christiaens, R., Paridaens, R., Van Den Bogaert, W., Martin, P., Geniez, ROMAIN SYLVAIN JEAN, Hakes, T., Hudis, C. A., Wittes, R., Giokas, G., Kondylis, D., Lissaios, B., De La Huerta, R., Sainz, M. G., Altemus, R., Cowan, K., Danforth, D., Lichter, A., Lippman, M., O'Shaughnessy, J., Pierce, L. J., Steinberg, S., Venzon, D., Zujewski, J. A., Paradiso, A., De Lena, M., Schittulli, F., Myles, J. D., Pater, J. L., Pritchard, K. I., Whelan, T., Anderson, S., Bass, G., Brown, A., Bryant, J., Costantino, J., Dignam, J., Fisher, B., Redmond, C., Wieand, S., Wolmark, N., Jackson, I. M., Palmer, M. K., Ingle, J. N., Suman, V. J., Bengtsson, N. O., Jonsson, H., Larsson, L. G., Lythgoe, J. P., Kissin, M., Erikstein, B., Hannisdal, E., Jacobsen, A. B., Varhaug, J. E., Gundersen, S., Hauer-Jensen, M., Høst, H., Nissen-Meyer, R., Blamey, R. W., Mitchell, A. K., Morgan, D. A. L., Robertson, J. F. R., Di Palma, M., Mathé, G., Misset, J. L., Clark, R. M., Levine, M., Morimoto, K., Takatsuka, Y., Crossley, E., Harris, A., Talbot, D., Taylor, M., Di Blasio, B., Ivanov, V., Semiglazov, V., Brockschmidt, J., Cooper, M. R., Ueo, H., Falkson, C. I., A'Hern, R., Ashley, S., Powles, T. J., Smith, I. E., Yarnold, J. R., Gazet, J. C., Corcoran, N., Deshpande, N., Di Martino, L., Douglas, P., Lindtner, A., Notter, G., Bryant, A. J. S., Ewing, G. H., Firth, L. A., Krushen-Kosloski, J. L., Foster, L., George, W. D., Stewart, H. J., Stroner, P., Malmström, P., Möller, T. R., Rydén, S., Tengrup, I., Tennvall-Nittby, L., Carstenssen, J., Dufmats, M., Hatschek, T., Nordenskjöld, B., Söderberg, M., Carpenter, J. T., Albain, K., Crowley, J., Green, S., Martino, S., Osborne, C. K., Ravdin, P. M., Glas, U., Johansson, U., Rutqvist, L. E., Singnomklao, T., Wallgren, A., Maibach, R., Thürlimann, B., Brenner, H., Hercbergs, A., Yoshimoto, M., Deboer, G., Paterson, A. H. G., Meakin, J. W., Panzarella, T., Shan, Y., Shao, Y. F., Wang, X., Zhao, D. B., Chen, Z. M., Pan, H. C., Bahi, J., Reid, M., Spittle, M., Deutsch, G. P., Senanayake, F., Kwong, D. L. W., Bianco, A. R., Carlomagno, C., De Laurentiis, M., De Placido, S., Buzdar, A. U., Smith, T., Bergh, J., Holmberg, L., Liljegren, G., Nilsson, J., Seifert, M., Sevelda, P., Zielinsky, C. C., Buchanan, R. B., Cross, M., Royle, G. T., Dunn, J. A., Hills, R. K., Lee, M., Morrison, J. M., Spooner, D., Litton, A., Chlebowski, R. T., Caffier, H., Clarke, M, Collins, R, Darby, S, Davies, C, Elphinstone, P, Evans, E, Godwin, J, Gray, R, Hicks, C, James, S, MacKinnon, E, McGale, P, McHugh, T, Peto, R, Taylor, C, and Wang, Y

Subjects
medicine.medical_specialty, Time Factors, medicine.medical_treatment, Breast Neoplasms, Rate ratio, Breast Conservation Treatment, Disease-Free Survival, Breast cancer, Cause of Death, Breast-conserving surgery, Medicine, Humans, Lung cancer, Aged, Probability, Randomized Controlled Trials as Topic, business.industry, Female, Middle Aged, Neoplasm Recurrence, Local, Medicine (all), General Medicine, medicine.disease, Surgery, Radiation therapy, Unilateral Breast Neoplasms, Neoplasm Recurrence, Local, business, Mastectomy
Abstract

Background In early breast cancer, variations in local treatment that substantially affect the risk of locoregional recurrence could also affect long-term breast cancer mortality. To examine this relationship, collaborative meta-analyses were undertaken, based on individual patient data, of the relevant randomised trials that began by 1995. Methods Information was available on 42 000 women in 78 randomised treatment comparisons (radiotherapy vs no radiotherapy, 23 500; more vs less surgery, 9300; more surgery vs radiotherapy, 9300). 24 types of local treatment comparison were identified. To help relate the effect on local (ie, locoregional) recurrence to that on breast cancer mortality, these were grouped according to whether or not the 5-year local recurrence risk exceeded 10% (10%, 25 000 women). Findings About three-quarters of the eventual local recurrence risk occurred during the first 5 years. In the comparisons that involved little (10%) differences, however, 5-year local recurrence risks were 7% active versus 26% control (absolute reduction 19%), and 15-year breast cancer mortality risks were 44·6% versus 49·5% (absolute reduction 5·0%, SE 0·8, 2p These 25 000 women included 7300 with breast-conserving surgery (BCS) in trials of radiotherapy (generally just to the conserved breast), with 5-year local recurrence risks (mainly in the conserved breast, as most had axillary clearance and node-negative disease) 7% versus 26% (reduction 19%), and 15-year breast cancer mortality risks 30·5% versus 35·9% (reduction 5·4%, SE 1·7, 2p=0·0002; overall mortality reduction 5·3%, SE 1·8, 2p=0·005). They also included 8500 with mastectomy, axillary clearance, and node-positive disease in trials of radiotherapy (generally to the chest wall and regional lymph nodes), with similar absolute gains from radiotherapy; 5-year local recurrence risks (mainly at these sites) 6% versus 23% (reduction 17%), and 15-year breast cancer mortality risks 54·7% versus 60·1% (reduction 5·4%, SE 1·3, 2p=0·0002; overall mortality reduction 4·4%, SE 1·2, 2p=0·0009). Radiotherapy produced similar proportional reductions in local recurrence in all women (irrespective of age or tumour characteristics) and in all major trials of radiotherapy versus not (recent or older; with or without systemic therapy), so large absolute reductions in local recurrence were seen only if the control risk was large. To help assess the life-threatening side-effects of radiotherapy, the trials of radiotherapy versus not were combined with those of radiotherapy versus more surgery. There was, at least with some of the older radiotherapy regimens, a significant excess incidence of contralateral breast cancer (rate ratio 1·18, SE 0·06, 2p=0·002) and a significant excess of non-breast-cancer mortality in irradiated women (rate ratio 1·12, SE 0·04, 2p=0·001). Both were slight during the first 5 years, but continued after year 15. The excess mortality was mainly from heart disease (rate ratio 1·27, SE 0·07, 2p=0·0001) and lung cancer (rate ratio 1·78, SE 0·22, 2p=0·0004). Interpretation In these trials, avoidance of a local recurrence in the conserved breast after BCS and avoidance of a local recurrence elsewhere (eg, the chest wall or regional nodes) after mastectomy were of comparable relevance to 15-year breast cancer mortality. Differences in local treatment that substantially affect local recurrence rates would, in the hypothetical absence of any other causes of death, avoid about one breast cancer death over the next 15 years for every four local recurrences avoided, and should reduce 15-year overall mortality.

28. Richtlijn 'screening en diagnostiek van het mammacarcinoom' (herziening)

Author

Zonderland, H. M., Tuut, M. K., Den Heeten, G. J., Asperen, C. J., Geertruida H. de Bock, Rutqers, E. J., Westenend, P. J., Smit, G. M., Benraadt, J., Science in Healthy Ageing & healthcaRE (SHARE), Damage and Repair in Cancer Development and Cancer Treatment (DARE), Life Course Epidemiology (LCE), Radiology and Nuclear Medicine, Cancer Center Amsterdam, and Amsterdam Public Health

Abstract

Revised practice guideline 'Screening and diagnosis of breast cancer' The evidence-based revision of the practice guideline 'Screening and diagnosis of breast cancer' was necessitated by new insights, for instance on the cost-effectiveness of screening modalities other than mammography. Mammography is the only screening modality that is recommended for the general population. In the Netherlands, women from 50-75 years of age are invited for screening. However, in view of the ongoing increase in the incidence of breast cancer and of the image quality advantages of radiological digitalization, a study on the decrease of the lower age limit--preferably 45 years--is recommended. Screening with MRI is indicated for carriers of breast cancer gene mutations. Evaluation of risk factors has resulted in a rearrangement of screening recommendations, based on relative risks (RRs): screening apart from the population screening is only recommended in case the RRis 4 or more and in patients with a positive family history in case of a RR of 2 or more. Additional risks require further genetic evaluation. The 'Breast imaging reporting and data system' (BI-RADS) is now recommended for both screening and diagnostic imaging. Its application has had an impact on the triple diagnostic approach, which has now evolved into a consensus between surgeon, radiologist and pathologist. Axillary ultrasound should be carried out ifa sentinel node procedure is being considered. MRI should be included if the cancer cannot be reliably delineated on mammography or ultrasound. The increased complexity of the diagnostic work-up often means that the final diagnosis is not arrived within one day. Every effort should be made to achieve this goal within 5 working days. Ned Tijdschr Geneeskd. 2008;I52:2336-9

29. Risk of endometrial cancer after tamoxifen treatment of breast cancer

Author

Vanleeuwen, F.E., Benraadt, J., Coebergh, J.W.W., Kiemeney, L.A.L.M., Gimbrere, C.H.F., Otter, R., Schouten, L.J., Damhuis, R.A.M., Bontenbal, M., Diepenhorst, F.W., Vandenbeltdusebout, A.W., and Vantinteren, H.

Subjects
Complications and side effects, Risk factors, Chemotherapy, Endometrial cancer -- Risk factors -- Complications and side effects, Tamoxifen -- Complications and side effects, Breast cancer -- Risk factors -- Complications and side effects, Cancer -- Chemotherapy
Abstract

SOURCE: Lancet, February 19, 1994;343(8895):448-452. According to the authors' abstract of an article published in the Lancet, 'Since large trials have been set up to assess whether tamoxifen decreases the [...]

Published
1994

31. Risk and prognosis of endometrial cancer after tamoxifen for breast cancer. Comprehensive Cancer Centres' ALERT Group. Assessment of Liver and Endometrial cancer Risk following Tamoxifen.

Author

Bergman L, Beelen MLR, Gallee MPW, Hollema H, Benraadt J, van Leeuwen FE, Comprehensive Cancer Centres' ALERT Group, Bergman, L, Beelen, M L, Gallee, M P, Hollema, H, Benraadt, J, and van Leeuwen, F E

Abstract

Background: Tamoxifen increases the risk of endometrial cancer. However, few studies have produced reliable risk estimates by duration, dose, and recency of use, or addressed the prognosis of endometrial cancers in tamoxifen-treated women.Methods: We did a nationwide case-control study on the risk and prognosis of endometrial cancer after tamoxifen use for breast cancer. Information on tamoxifen use and other risk factors for endometrial cancer was obtained from 309 women with endometrial cancer after breast cancer (cases), and 860 matched controls with breast cancer but without endometrial cancer. For 276 cases, we obtained tissue blocks of endometrial cancer to review the diagnosis, and used immunohistochemistry to examine hormone-receptor status and overexpression of p53.Findings: Tamoxifen had been used by 108 (36.1%) of 299 cases and 245 (28.5%) controls (relative risk 1.5 [95% CI 1.1-2.0]). Risk of endometrial cancer increased with longer duration of tamoxifen use (p < 0.001), with relative risks of 2.0 (1.2-3.2) for 2-5 years and 6.9 (2.4-19.4) for at least 5 years compared with non-users. Endometrial cancers of stage III and IV occurred more frequently in long-term tamoxifen users (> or = 2 years) than in non-users (17.4% vs 5.4%, p=0.006). Long-term users were more likely than non-users to have had malignant mixed mesodermal tumours or sarcomas of the endometrium (15.4% vs 2.9%, p < or = 0.02), p53-positive tumours (31.4% vs 18.2%, p=0.05), and negative oestrogen-receptor concentrations (60.8% vs 26.2%, p < or = 0.001). 3-year endometrial-cancer-specific survival was significantly worse for long-term tamoxifen users than for non-users (76% for > or = 5 years, 85% for 2-5 years vs 94% for non-users, p=0.02).Interpretation: Long-term tamoxifen users have a worse prognosis of endometrial cancers, which seems to be due to less favourable histology and higher stage. However, the benefit of tamoxifen on breast-cancer survival far outweighs the increased mortality from endometrial cancer. Nevertheless, we seriously question widespread use of tamoxifen as a preventive agent against breast cancer in healthy women. [ABSTRACT FROM AUTHOR]

Published
2000
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32. [Revised practice guideline 'Screening and diagnosis of breast cancer'].

Author

Zonderland HM, Tuut MK, den Heeten GJ, Asperen CJ, de Bock GH, Rutqers EJ, Westenend PJ, Smit GM, and Benraadt J

Subjects
Age Factors, Female, Humans, Magnetic Resonance Imaging, Netherlands, Physical Examination, Risk Factors, Societies, Medical, Time Factors, Ultrasonography, Mammary, Breast Neoplasms diagnosis, Breast Self-Examination, Diagnosis, Computer-Assisted, Mammography methods, Mass Screening methods, Practice Guidelines as Topic
Abstract

Revised practice guideline 'Screening and diagnosis of breast cancer' The evidence-based revision of the practice guideline 'Screening and diagnosis of breast cancer' was necessitated by new insights, for instance on the cost-effectiveness of screening modalities other than mammography. Mammography is the only screening modality that is recommended for the general population. In the Netherlands, women from 50-75 years of age are invited for screening. However, in view of the ongoing increase in the incidence of breast cancer and of the image quality advantages of radiological digitalization, a study on the decrease of the lower age limit--preferably 45 years--is recommended. Screening with MRI is indicated for carriers of breast cancer gene mutations. Evaluation of risk factors has resulted in a rearrangement of screening recommendations, based on relative risks (RRs): screening apart from the population screening is only recommended in case the RRis 4 or more and in patients with a positive family history in case of a RR of 2 or more. Additional risks require further genetic evaluation. The 'Breast imaging reporting and data system' (BI-RADS) is now recommended for both screening and diagnostic imaging. Its application has had an impact on the triple diagnostic approach, which has now evolved into a consensus between surgeon, radiologist and pathologist. Axillary ultrasound should be carried out ifa sentinel node procedure is being considered. MRI should be included if the cancer cannot be reliably delineated on mammography or ultrasound. The increased complexity of the diagnostic work-up often means that the final diagnosis is not arrived within one day. Every effort should be made to achieve this goal within 5 working days. Ned Tijdschr Geneeskd. 2008;I52:2336-9

Published
2008

33. Prospective multicenter validation confirms the prognostic superiority of the endometrial carcinoma prognostic index in international Federation of gynecology and obstetrics stage 1 and 2 endometrial carcinoma.

Author

Baak JP, Snijders W, van Diermen B, van Diest PJ, Diepenhorst FW, and Benraadt J

Subjects
Adult, Aged, Aged, 80 and over, Biomarkers, Tumor, Female, Flow Cytometry, Follow-Up Studies, Humans, Image Processing, Computer-Assisted, Incidence, Middle Aged, Neoplasm Invasiveness, Neoplasm Staging, Ploidies, Prognosis, Prospective Studies, Receptors, Progesterone analysis, Survival Rate, Cell Nucleus pathology, DNA, Neoplasm analysis, Endometrial Neoplasms diagnosis
Abstract

Purpose: To validate the prognostic value of the endometrial carcinoma prognostic index (ECPI; combined myometrium invasion, flow cytometric DNA ploidy, and morphometric mean shortest nuclear axis [MSNA]) versus classic prognosticators., Patients and Methods: Prospective multicenter ECPI analysis was conducted in 463 endometrial carcinomas with a median of 6.5 years (range, 1 to 10 years) follow-up, review of pathology features, and univariate (Kaplan-Meier) and multivariate (Cox) analyses., Results: Initial routine and review diagnoses varied considerably (invasion depth, 11%; type, 20%; grade, 34%; vessel invasion, 72%); the review diagnoses were stronger prognostically. In International Federation of Gynecology and Obstetrics stage 1 (after histopathologic examination; pFIGO-1; n = 372; 38 deaths occurred as a result of disease [10.2%]), DNA ploidy was prognostic in hysterectomies (P <.00001) but not in curettages (P =.06). ECPI was a stronger prognostic indicator than other features. ECPI, MSNA, and DNA ploidy were also prognostic in pFIGO-1B and -1C subgroups. Multivariate analysis in pFIGO-1 showed that uterine MSNA < or = versus > 7.93 microm (hazard ratio [HR], 3.4) and grade (as 1 + 2 v 3; HR, 2.6) added to the ECPI (HR, 32), but only in patients with an unfavorable ECPI of > 0.87. Adjuvant radiotherapy was not an independent prognostic factor in any of the subgroups. In pFIGO-2 (n = 46), ECPI, DNA-ploidy, and age (< or = 64, > 64 years) were significant. In FIGO-3 (n = 31) and FIGO-4 (n = 14), none of the classic or other features analyzed was of prognostic value, which explains why in previous studies using different mixtures of FIGO stages, DNA ploidy prognostic results varied., Conclusion: In endometrial carcinoma, DNA-ploidy is prognostic in hysterectomy and not in curettage samples. The ECPI is prognostically much stronger than the classic features widely used for therapy triage in pFIGO-1 and -2.

Published
2003
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34. [Diagnostics and treatment of distal bile duct or pancreatic carcinoma; guidelines of the Amsterdam and Twente Comprehensive Cancer Centers].

Author

Gouma DJ, Tilleman EH, Benraadt J, and Bossuyt PM

Subjects
Cancer Care Facilities standards, Carcinoma diagnosis, Carcinoma therapy, Decision Trees, Diagnosis, Differential, Humans, Netherlands, Program Evaluation, Prospective Studies, Bile Duct Neoplasms diagnosis, Bile Duct Neoplasms therapy, Pancreatic Neoplasms diagnosis, Pancreatic Neoplasms therapy, Practice Guidelines as Topic
Abstract

A project on the diagnostic work-up and treatment of distal bile duct and pancreatic carcinoma was carried out in the region covered by the Comprehensive Cancer Centre in Amsterdam, the Netherlands. It consisted of (a) describing the diagnostic work-up in the area, (b) developing the guidelines, (c) spreading the recommendations. The implementation and application of the guidelines are currently being evaluated.

Published
2001

35. [Diagnosis and treatment of pancreatic carcinoma in the region of Amsterdam Comprehensive Cancer Care Center in 1997].

Author

Tilleman EH, Benraadt J, Bossuyt PM, Obertop H, and Gouma DJ

Subjects
Adult, Aged, Aged, 80 and over, Carcinoma epidemiology, Cholangiopancreatography, Endoscopic Retrograde statistics & numerical data, Diagnosis, Differential, Female, Humans, Male, Middle Aged, Netherlands epidemiology, Pancreatic Neoplasms epidemiology, Registries, Retrospective Studies, Stents statistics & numerical data, Tomography, X-Ray Computed statistics & numerical data, Carcinoma diagnosis, Carcinoma therapy, Pancreatic Neoplasms diagnosis, Pancreatic Neoplasms therapy
Abstract

Objective: To describe the diagnostic work-up and treatment of patients with a pancreatic carcinoma in the Amsterdam area, the Netherlands, particularly in general hospitals., Design: Retrospective, descriptive., Method: During 1997, 286 patients with a pancreatic carcinoma were diagnosed in 20 hospitals in the Amsterdam area. Diagnostic work-up and treatment data were collected from the medical records and analysed., Results: Ninety percent of the patients presented in one of the 17 general hospitals (n = 252; 132 men and 154 women; mean age: 70 years). Thirty-five percent of them underwent diagnostic investigations which did not focus directly on pancreatic pathology. Ultrasound was performed in 97% of patients (4% in combination with Doppler) and CT in 60% (4% spiral CT). Endoscopic retrograde cholangiopancreatography (ERCP) was performed in 39% of these patients and endoprostheses were only inserted in half the cases. Thirty-five percent of the patients who underwent both CT and ERCP underwent ERCP first. Ninety-nine patients (39%) were referred to a reference hospital for further investigation or treatment. The period between the first investigation and the histological diagnosis was 4 weeks., Conclusion: In the diagnostic work-up of patients with a pancreatic carcinoma, invasive diagnostic procedures were often performed before the non-invasive tests. Spiral CT was used minimally and ERCP was frequently performed without subsequent biliary drainage. The mean duration of diagnostic work-up was relatively long.

Published
2001

36. Toxicity of high-dose radiotherapy combined with daily cisplatin in non-small cell lung cancer: results of the EORTC 08912 phase I/II study. European Organization for Research and Treatment of Cancer.

Author

Uitterhoeve AL, Belderbos JS, Koolen MG, van der Vaart PJ, Rodrigus PT, Benraadt J, Koning CC, González González D, and Bartelink H

Subjects
Adult, Aged, Carcinoma, Non-Small-Cell Lung drug therapy, Carcinoma, Non-Small-Cell Lung radiotherapy, Combined Modality Therapy, Feasibility Studies, Female, Follow-Up Studies, Forced Expiratory Volume, Humans, Lung Neoplasms drug therapy, Lung Neoplasms radiotherapy, Male, Middle Aged, Neoplasm Recurrence, Local, Survival Analysis, Time Factors, Vital Capacity, Antineoplastic Agents adverse effects, Carcinoma, Non-Small-Cell Lung therapy, Cisplatin adverse effects, Lung Neoplasms therapy, Radiotherapy adverse effects
Abstract

The purpose of this work was to study the feasibility of concurrent chemoradiation in patients with inoperable non-small cell lung cancer (NSCLC). 40 patients with inoperable NSCLC were treated with escalating doses of radiotherapy and cisplatin (cDDP). The radiation dose was increased step by step from 60.5 to 66 Gy in daily fractions of 2.75 Gy. Chemotherapy was also increased step by step from 20 to 24 daily doses of cDDP 6 mg/m(2) and given concurrently with radiotherapy. A dose of 40 Gy/2 Gy/20 fractions (fx) was given to the EPTV (elective planning target volume) which included the gross tumour volume with a margin of 2 cm and part of or the entire mediastinum. During each session a boost dose of 0.75 Gy was given simultaneously to the BPTV (boost planning target volume), which encompassed the GTV (gross tumour volume) with a margin of 1 cm, for the first 20 fx, so the total dose to the tumour was 55 Gy. Cisplatin 6 mg/m(2) was given 1 h prior to radiotherapy at each fraction. From then on the dose of radiation to the BPTV and the dose of cDDP were increased step by step. In group I the BPTV was irradiated with two extra fractions of 2.75 Gy to a total dose of 60. 5 Gy without cDDP. In group II the same total dose of 60.5 Gy was given but the last two fractions were combined with cDDP. In group III four extra fractions of 2.75 Gy were given to the BPTV to a total dose of 66 Gy, only two of these fractions combined with cDDP. Finally, in group IV a total dose of 66 Gy was given in 24 fractions, all fractions combined with cDDP. All patients were planned by means of a CT-based conformal treatment planning. The maximal length of the oesophagus receiving >/=60.5 Gy was 11 cm. 40 patients were evaluable for acute and late toxicity and for survival. Acute toxicity grade >/=3 (common toxicity criteria, CTC) was rarely observed; nausea/vomiting in 3 patients (8%), leucopenia in 2 patients (5%), thrombocytopenia in 2 patients (5%), whilst 2 patients (5%) suffered from severe weight loss. Late side-effects (European Organization for Research and Treatment of Cancer/Radiation Therapy Oncology Group, EORTC/RTOG) were: oesophageal toxicity >/=grade 3 in 2 patients (5%) and radiation pneumonitis grades 1 (3%) and 2 (3%) in 1 patient each. Overall actuarial 1- and 2-year survival was 53% and 40%, respectively. The 1- and 2-year local disease-free interval was 65% and 58% respectively. Radiotherapy at a dose of 66 Gy/2.75 Gy/24 fx combined with daily cDDP 6 mg/m(2) given over 5 weeks is feasible and results in a good local disease-free interval and a good survival rate. This treatment schedule is at present being tested as one of the two treatment arms of EORTC phase III study protocol 08972/22973.

Published
2000
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37. [Cancer incidence in the Schiphol area in 1988-1993].

Author

Visser O, van Wijnen JH, Benraadt J, and van Leeuwen FE

Subjects
Adolescent, Adult, Aged, Aircraft, Child, Confidence Intervals, Epidemiologic Methods, Female, Humans, Incidence, Male, Middle Aged, Neoplasms chemically induced, Netherlands epidemiology, Registries, Air Pollutants adverse effects, Neoplasms epidemiology
Abstract

Objective: To calculate the cancer incidence in the region surrounding Schiphol., Design: Descriptive epidemiological study based on cancer registry data., Setting: Comprehensive Cancer Centre Amsterdam. The Netherlands., Methods: Using noise levels expressed as Kosten-cenheden (Ke) of the air traffic around Schiphol (Amsterdam International Airport) as well as 4-digit postal code areas, two study areas were defined, a central area and an adjacent zone. All cancer cases diagnosed in 1988-1993 in the study areas were selected from the population-based Amsterdam Cancer Registry. Observed numbers of cancer cases were compared with expected numbers on the basis of national and regional cancer incidence rates., Results: Cancer incidence (4535 cases) in 1988-1993 in the Schiphol region was slightly higher than national incidence rates (observed/expected (O/E) ratio: 1.93; 95% confidence interval; 1.00-1.06) and almost equal to regional rates. This was largely due to relatively high rates for breast (O/E ratio: 1.08) and prostate (O/E ratio: 1.11) cancer in the Schiphol region as well as in the total area covered by the Amsterdam Cancer Registry. In addition, leukaemia, lymphoma/multiple myeloma and bladder cancer were more frequent, the last-named especially in males. The incidence of cancer of the respiratory tract was not the same in the central area and the adjacent zone. As compared with national rates, it was increased in the central area (O/E ratio: 1.19), while it was decreased in the adjacent zone (O/E ratio: 0.86). The incidence of cancer of all sites (O/E ratio: 1.10) was also increased in the central area, largely due to smoking related cancers., Conclusion: During 1988-1993, cancer incidence in the area surrounding Schiphol was a little higher than the national incidence rates and almost equal to the regional incidence. We could not demonstrate an association between air traffic and increased cancer risk. It is most likely that the differences for certain types of cancer as well as those between the two study areas were due to differences in lifestyle, such as smoking habits.

Published
1997

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