Your search keyword '"Erikstein, B"' showing total 116 results

1. Flotillins as regulators of ErbB2 levels in breast cancer

Author

Pust, S, Klokk, T I, Musa, N, Jenstad, M, Risberg, B, Erikstein, B, Tcatchoff, L, Liestøl, K, Danielsen, H E, van Deurs, B, and Sandvig, K

Published

2013

2. Long-term follow-up of the SBG 9401 study comparing tailored FEC-based therapy versus marrow-supported high-dose therapy

Author

Wilking, N., Lidbrink, E., Wiklund, T., Erikstein, B., Lindman, H., Malmström, P., Kellokumpu-Lehtinen, P., Bengtsson, N-O, Söderlund, G., Anker, G., Wist, E., Ottosson, S., Salminen, E., Ljungman, P., Holte, H., Nilsson, J., Blomqvist, C., and Bergh, J.

Published

2007

3. Effects of dose-intensive chemotherapy and radiotherapy on serum n-terminal proatrial natriuretic peptide in high-risk breast cancer patients

Author

Hall, K. Sundby, Wiklund, T., Erikstein, B., Holte, H., Kvalheim, G., Sommer, H. Heen, Andersen, A., Skovlund, E., Bergh, J., and Hall, C.

Published

2001

4. Fulvestrant, Formerly ICI 182,780, Is as Effective as Anastrozole in Postmenopausal Women With Advanced Breast Cancer Progressing After Prior Endocrine Treatment

Author

Howell, A., Robertson, J.F.R., Albano, J. Quaresma, Aschermannova, A., Mauriac, L., Kleeberg, U.R., Vergote, I., Erikstein, B., Webster, A., and Morris, C.

Published

2002

5. 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

6. 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

7. RBC alloantibody prevalence and specificity in a Western Norwegian tertiary hospital

Author

Erikstein, B. S., primary, Hagen, K. G., additional, and Hervig, T., additional

Published

2018

8. RBC alloantibody prevalence and specificity in a Western Norwegian tertiary hospital.

Author

Erikstein, B. S., Hagen, K. G., and Hervig, T.

Subjects

*ERYTHROCYTES, *PREGNANT women, *BLOOD donors, *BLOOD products, *BLOOD transfusion

Abstract

SUMMARY Background and Objective: Although several studies focus on red blood cell (RBC) alloantibody distribution in selected patient populations, few address the specificity and frequency in all relevant groups. This study reports alloantibody frequency, distribution and the relationship to age and gender in blood donors, pregnant women and potential recipients of blood products. Methods: This historical cohort study included 55 462 consecutive antibody screening tests from a tertiary Western Norwegian Hospital. Descriptive statistics were performed, and the results were compared with the literature. Results: The detection and immunisation frequency for the whole cohort were 0·39 and 0·51%, respectively, whereas the RBC alloantibody prevalence was 0·73%. The most frequent RBC alloantibodies were anti‐E (20·1%), anti‐M (18·7%), anti‐K (9·8%), anti‐D (8·9%) and anti‐Fy(a) (7·0%). In pregnant women, the most frequent RBC alloantibodies were anti‐M, anti‐D and anti‐Le(a) (20·8, 18·9 and 18·9%, respectively), whereas there was no anti‐K detected. Anti‐E and anti‐M were the dominating RBC alloantibodies in the pre‐transfusion testing of in‐hospital patients (24·1 and 17·1%, respectively). Eighteen (9·2%) persons in the total cohort had two RBC alloantibodies, six persons had three alloantibodies, and two persons had four alloantibodies. Rh and K typing to prevent future immunisations was only performed in 21·0% of the individuals who presented with a new alloantibody; despite that, 50·5% of the detected alloantibodies had such specificities. Conclusions: The immunisation frequency and the level of anti‐K are low compared to national and international studies. Rh and K phenotype‐matched blood transfusions might be a feasible future strategy to further decrease RBC alloantibodies. [ABSTRACT FROM AUTHOR]

Published

2019

9. 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

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. Flotillins as regulators of ErbB2 levels in breast cancer

Author

Pust, S, primary, Klokk, T I, additional, Musa, N, additional, Jenstad, M, additional, Risberg, B, additional, Erikstein, B, additional, Tcatchoff, L, additional, Liestøl, K, additional, Danielsen, H E, additional, van Deurs, B, additional, and Sandvig, K, additional

Published

2012

12. Tailored fluorouracil, epirubicin, and cyclophosphamide compared withmarrow-supported high-dose chemotherapy as adjuvant treatment forhigh-risk breast cancer: a randomised trial. Scandinavian Breast G

Author

Bergh, J, Wiklund, T, Erikstein, B, Lidbrink, E, Lindman, H, Malmstrom, P, Kellokumpu-Lehtinen, P, Bengtsson, NO, Soderlund, G, Anker, G, Wist, E, Ottosson, S, Salminen, E, Ljungman, P, Holte, H, Nilsson, J, Blomqvist, C, Wilking, N, Bergh, J, Wiklund, T, Erikstein, B, Lidbrink, E, Lindman, H, Malmstrom, P, Kellokumpu-Lehtinen, P, Bengtsson, NO, Soderlund, G, Anker, G, Wist, E, Ottosson, S, Salminen, E, Ljungman, P, Holte, H, Nilsson, J, Blomqvist, C, and Wilking, N

Published

2000

13. Topoisomerase IIa gene amplification predicts favorable outcome of tailored and dose-escalated anthracycline-based adjuvant chemotherapy in HER-2 positive breast cancer. Results from the randomized trial SBG 9401

Author

Tanner, M. M., primary, Isola, J. J., additional, Wiklund, T., additional, Erikstein, B., additional, Kellokumpu-Lehtinen, P., additional, Malmstrom, P., additional, Wilking, N., additional, Nilsson, J., additional, and Bergh, J., additional

Published

2005

14. Monitoring of minimal residual cancer in bone marrow in high-risk breast cancer patients treated with high-dose chemotherapy

Author

Drageset, V, primary, Nesland, JM, additional, Erikstein, B, additional, Skovlund, E, additional, Sommer, H, additional, Anker, G, additional, Wist, E, additional, Lundgren, S, additional, Bergh, J, additional, and Kvalheim, G, additional

Published

2005

15. Dosage of adjuvant G-CSF (filgrastim)-supported FEC polychemotherapy based on equivalent haematological toxixity in high-risk breast cancer patients

Author

Bergh, J, Wiklund, T, Erikstein, B, Fornander, T, Bengtsson, N-O, Malmstrom, P, Kellokumpu-Lehtinen, P, Anker, G, Bennmarker, H, Wilking, N, Bergh, J, Wiklund, T, Erikstein, B, Fornander, T, Bengtsson, N-O, Malmstrom, P, Kellokumpu-Lehtinen, P, Anker, G, Bennmarker, H, and Wilking, N

Published

1998

16. Adjuvant endocrine treatment (goserelin vs tamoxifen) in pre-menopausal patients with operable node positive stage II breast cancer. A prospective randomized national multicenter study

Author

Söreide, J.A., primary, Varhaug, J.E., additional, Fjösne, H.E., additional, Erikstein, B., additional, Jacobsen, A.-B., additional, Skovlund, E., additional, and Kvinnsland, S., additional

Published

2002

17. ICI 182,780 (‘FASLODEX’) is at least as effective as anatrozole (Arimidex™) in post-menopausal women with advanced breast cancer progressing on prior endocrine treatment

Author

Howell, A., primary, Robertson, J.F.R., additional, Albano, J.Quaresma, additional, Aschermannova, A., additional, Mauriac, L., additional, Kleeberg, U.R., additional, Bergote, I., additional, Erikstein, B., additional, Webster, A., additional, and Morris, C., additional

Published

2001

18. ICI 182,780 (‘FASLODEX’) 250 mg monthly Intramuscular (I.M.) injection shows consistent Pharmacokinetic (PK) profiles when given as either 1 × 5 ml or 2 × 2.5 ml injections in postmenopausal women with Advanced Breast Cancer (ABC)

Author

Robertson, J.F.R., primary, Erikstein, B., additional, Osborne, C.K., additional, Pippen, J., additional, and Harrison, M., additional

Published

2001

19. Screening breast cancer patients for Norwegian ATM mutations

Author

Laake, K, primary, Vu, P, additional, Andersen, T I, additional, Erikstein, B, additional, Kåresen, R, additional, Lønning, P E, additional, Skovlund, E, additional, and Børresen-Dale, A L, additional

Published

2000

20. Genetic variants of CYP19 (aromatase) and breast cancer risk

Author

Nedelcheva Kristensen, V, primary, Harada, N, additional, Yoshimura, N, additional, Haraldsen, E, additional, Lønning, PE, additional, Erikstein, B, additional, Kåresen, R, additional, Kristensen, T, additional, and Børresen-Dale, A-L, additional

Published

2000

21. HER-2 activation and TP53 inactivation as predictors of survival in breast cancer

Author

Andersen, TI, primary, Skovlund, E, additional, Bukholm, IK, additional, Jacobsen, U, additional, Kåresen, R, additional, Erikstein, B, additional, Nesland, J, additional, and Børresen-Dale, A-L, additional

Published

2000

22. Dosage of adjuvant G-CSF (filgrastim)-supported FEC polychemotherapy based on equivalent haematological toxicity in high-risk breast cancer patients

Author

Bergh, J., primary, Wiklund, T., additional, Erikstein, B., additional, Fornander, T., additional, Bengtsson, N.-O., additional, Malmström, P., additional, Kellokumpu-Lehtinen, P., additional, Anker, G., additional, Bennmarker, H., additional, and Wilking, N., additional

Published

1998

23. Regulation of growth in a neoplastic B cell line by transfected subunits of 3',5'-cyclic adenosine monophosphate-dependent protein kinase.

Author

Taskén, K, primary, Andersson, K B, additional, Erikstein, B K, additional, Hansson, V, additional, Jahnsen, T, additional, and Blomhoff, H K, additional

Published

1994

24. Binucleation and polyploidization patterns in developmental and regenerative rat liver growth

Author

Gerlyng, P., primary, Åbyholm, A., additional, Grotmol, T., additional, Erikstein, B., additional, Huitfeldt, H. S., additional, Stokke, T., additional, and Seglen, P. O., additional

Published

1993

25. Vitamin A is a key regulator for cell growth, cytokine production, and differentiation in normal B cells.

Author

Blomhoff, H.K., primary, Smeland, E.B., additional, Erikstein, B, additional, Rasmussen, A.M., additional, Skrede, B, additional, Skjønsberg, C, additional, and Blomhoff, R, additional

Published

1992

26. Cell cycle-specific expression and nuclear binding of DNA polymerase alpha

Author

Stokke, T, primary, Erikstein, B, additional, Holte, H, additional, Funderud, S, additional, and Steen, H B, additional

Published

1991

27. Use of Size Fractionation of in Vitro-Activated Human B Lymphocytes for Studies of Cell Cycle-Dependent Growth Regulation

Author

ERIKSTEIN, B. K., primary, SCHWARZE, P., additional, BLOMHOFF, H. KIIL, additional, FUNDERUD, S., additional, STOKKE, T., additional, and SMELAND, E. B., additional

Published

1991

28. A longitudinal study of the hyaluronan level in the serum of patients with malignant mesothelioma under treatment. Hyaluronan as an indicator of progressive disease.

Author

Dahl, Inger Marie S., Solheim, Øyvin Pleym, Erikstein, Bjørn, Müller, Erwin, Dahl, I M, Solheim, O P, Erikstein, B, and Müller, E

Published

1989

29. Genetic susceptibility and environmental estrogen-like compounds

Author

Kristensen, V. N., Kure, E. H., Erikstein, B., Harada, N., and Borresen-Dale, A. L.

Published

2001

30. Neuron specific enolase-positive breast carcinomas

Author

Erikstein, B., Nesland, J. M., Ottestad, L., Eiliv Lund, and Vincents Johannessen, J.

Subjects

endocrine system, nervous system, Breast carcinoma, 6 - Ciencias aplicadas::61 - Medicina::616 - Patología. Medicina clínica. Oncología [CDU], Immunocytochemistry

Abstract

Ninety-eight patients treated for breast carcinomas were followed from 54 to 75 months after primary diagnosis. All had undergone a modified radical mastectomy with removal of axillary lymph nodes. 36 breast carcinomas were NSE-positive and 62 were negative. NSE-positive tumours were significantly more frequently estrogen receptor-positive than the NSEnegative tumours, and the estrogen receptor values were higher in the NSE-positive groups. Patients with NSE-positive tumours and patients with NSE-negative tumours did not differ with regard to presence of lymph node metastases at the time of primary surgery. However, the study showed that patients with NSE-positive tumours had a tendency towards more lymph node metastases after primary surgical intervention, but a better outcome than patients with NSE-negative tumours and metastases. This study, with a 5-year follow up, failed to demonstrate any major prognostic significance of immunostaining for NSE.

Published

1988

31. An exploratory analysis examining proportion of patients responding for 1 year or more in two phase III studies of fulvestrant versus anastrozole

Author

Thurlimann, B, Erikstein, B, Mauriac, L, Jones, S, and Webster, A

Published

2004

32. 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.

33. Genetic variants of CYP19(aromatase) and breast cancer risk

Author

Nedelcheva Kristensen, V, Harada, N, Yoshimura, N, Haraldsen, E, Lønning, PE, Erikstein, B, Kåresen, R, Kristensen, T, and Børresen-Dale, A-L

Published

2000

34. Screening breast cancer patients for Norwegian ATMmutations

Author

Laake, K, Vu, P, Andersen, TI, Erikstein, B, Kåresen, R, Lønning, PE, Skovlund, E, and Børresen-Dale, A-L

Published

2000

35. HER-2activation and TP53inactivation as predictors of survival in breast cancer

Author

Andersen, TI, Skovlund, E, Bukholm, IK, Jacobsen, U, Kåresen, R, Erikstein, B, Nesland, J, and Børresen-Dale, A-L

Published

2000

36. Tailored fluorouracil, epirubicin, and cyclophosphamide compared with marrow-supported high-dose chemotherapy as adjuvant treatment for high-risk breast cancer: a randomised trial. Scandinavian Breast Group 9401 study.

Author

Bergh J, Wiklund T, Erikstein B, Lidbrink E, Lindman H, Malmström P, Kellokumpu-Lehtinen P, Bengtsson N, Söderlund G, Anker G, Wist E, Ottosson S, Salminen E, Ljungman P, Holte H, Nilsson J, Blomqvist C, Wilking N, Scandinavian Breast Group 9401 Study, and Bergh, J

Abstract

Background: Chemotherapy drug distribution varies greatly among individual patients. Therefore, we developed an individualised fluorouracil, epirubicin, cyclophosphamide (FEC) regimen to improve outcomes in patients with high-risk early breast cancer. We then did a randomised trial to compare this individually tailored FEC regimen with conventional adjuvant chemotherapy followed by consolidation with high-dose chemotherapy with stem-cell support.Methods: 525 women younger than 60 years of age with high-risk primary breast cancer were randomised after surgery to receive nine cycles of tailored FEC to haematological equitoxicity with granulocyte colony-stimulating factor (G-CSF) support (n=251), or three cycles of FEC at standard doses followed by high-dose chemotherapy with cyclophosphamide, thiotepa, and carboplatin (CTCb), and peripheral-blood stem-cell or bone-marrow support (n=274). Both groups received locoregional radiation therapy and tamoxifen for 5 years. The primary outcome measure was relapse-free survival, and analysis was by intention to treat.Findings: At a median follow-up of 34.3 months, there were 81 breast-cancer relapses in the tailored FEC group versus 113 in the CTCb group (double triangular method p=0.04). 60 deaths occurred in the tailored FEC group and 82 in the CTCb group (log-rank p=0.12). Patients in the CTCb group experienced more grade 3 or 4 acute toxicity compared with the tailored FEC group (p<0.0001). Two treatment-related deaths (0.7%) occurred in the CTCb group. Six patients in the tailored FEC group developed acute myeloid leukaemia and three developed myelodysplastic syndrome.Interpretation: Tailored FEC with G-CSF support resulted in a significantly improved relapse-free survival and fewer grade 3 and 4 toxicities compared with marrow-supported high-dose chemotherapy with CTCb as adjuvant therapy of women with high-risk primary breast cancer. [ABSTRACT FROM AUTHOR]

Published

2000

37. Overall Survival in Men With Bone Metastases From Castration-Resistant Prostate Cancer Treated With Bone-Targeting Radioisotopes: A Meta-analysis of Individual Patient Data From Randomized Clinical Trials.

Author

Terrisse S, Karamouza E, Parker CC, Sartor AO, James ND, Pirrie S, Collette L, Tombal BF, Chahoud J, Smeland S, Erikstein B, Pignon JP, Fizazi K, and Le Teuff G

Subjects

Bone Neoplasms radiotherapy, Bone Neoplasms secondary, Humans, Male, Prostatic Neoplasms, Castration-Resistant pathology, Prostatic Neoplasms, Castration-Resistant radiotherapy, Radioisotopes adverse effects, Radiopharmaceuticals adverse effects, Randomized Controlled Trials as Topic, Survival Analysis, Treatment Outcome, Bone Neoplasms mortality, Prostatic Neoplasms, Castration-Resistant mortality, Radioisotopes therapeutic use, Radiopharmaceuticals therapeutic use

Abstract

Importance: Both α-emitting and β-emitting bone-targeted radioisotopes (RIs) have been developed to treat men with metastatic castration-resistant prostate cancer (CRPC). Only 1 phase 3 randomized clinical trial has demonstrated an overall survival (OS) benefit from an α-emitting RI, radium 223 (223Ra), vs standard of care. Yet no head-to-head comparison has been done between α-emitting and β-emitting RIs., Objective: To assess OS in men with bone metastases from CRPC treated with bone-targeted RIs and to compare the effects of α-emitting RIs with β-emitting RIs., Data Sources: PubMed, Cochrane Library, ClinicalTrials.gov, and meeting proceedings between January 1993 and June 2013 were reviewed. Key terms included randomized trials, radioisotopes, radiopharmaceuticals, and prostate cancer. Data were collected, checked, and analyzed from February 2017 to October 2018., Study Selection: Selected trials included patients with prostate cancer, recruited more than 50 patients from January 1993 to June 2013, compared RI use with no RI use (placebo, external radiotherapy, or chemotherapy), and were randomized. Patients were diagnosed with histologically proven prostate cancer and disease progression after both surgical or chemical castration and have evidence of bone metastasis. Nine randomized clinical trials were identified as eligible, but 3 were excluded for insufficient data., Data Extraction and Synthesis: Individual patient data were requested for each eligible trial, and all data were checked with a standard procedure. The log-rank test stratified by trial was used to estimate hazard ratios (HRs), and a similar fixed-effects (FE) model was used to estimate odds ratios (ORs). The between-trial heterogeneity of treatment effects was evaluated by Cochran test and I2 and was accounted by a random-effects (RE) model., Main Outcomes and Measures: Overall survival; secondary outcomes were symptomatic skeletal event (SSE)-free survival and adverse events., Results: Based on 6 randomized clinical trials including 2081 patients, RI use was significantly associated with OS compared with no RI use (HR, 0.86; 95% CI, 0.77-0.95; P = .004) with high heterogeneity (χ25 = 24.46; P < .001; I2 = 80%), but this association disappeared when using an RE model (HR, 0.80; 95% CI, 0.61-1.06; P = .12; τ2 = 0.08). The heterogeneity is explained both by the type of RI and by the inclusion of 2 outlier trials that included 275 patients; the OS benefit was significantly higher with the α-emitting RI 223Ra (HR, 0.70; 95% CI, 0.58-0.83) but not significant with the β-emitting RI strontium-89 (HR, 0.96; 95% CI, 0.84-1.10) (P for interaction = .004). Excluding the outlier trials led to an overall HR of 0.82 (95% CI, 0.73-0.92; P < .001) (between-trial heterogeneity: χ23 = 6.51; P = .09; I2 = 54%) using an FE model and an HR of 0.80 (95% CI, 0.65-0.99; P = .04; τ2 = 0.02) using an RE model. The HR for SSE-free survival was 0.81 (95% CI, 0.69-0.93; P = .004) (between-trial heterogeneity: χ23 = 6.71; P = .08; I2 = 55%) when using an FE model and was 0.76 (95% CI, 0.58-1.01; P = .06; τ2 = 0.04) when using an RE model. There were more hematological toxic effects with RI use compared with no RI use (OR, 1.48; 95% CI, 1.17-1.88; P = .001)., Conclusions and Relevance: In metastatic CRPC, a significant improvement of OS and SSE-free survival was obtained with bone-targeted α-emitting but not β-emitting RIs. Caution is necessary for generalizability of these results, given the between-trial heterogeneity.

Published

2020

38. Germline glutathione S-transferase variants in breast cancer: relation to diagnosis and cutaneous long-term adverse effects after two fractionation patterns of radiotherapy.

Author

Edvardsen H, Kristensen VN, Grenaker Alnaes GI, Bøhn M, Erikstein B, Helland A, Børresen-Dale AL, and Fosså SD

Subjects

Adult, Aged, Breast Neoplasms genetics, Breast Neoplasms radiotherapy, Breast Neoplasms surgery, Case-Control Studies, Dose Fractionation, Radiation, Humans, Middle Aged, Neoplastic Stem Cells enzymology, Neoplastic Stem Cells radiation effects, Polymerase Chain Reaction methods, Radiotherapy, Adjuvant adverse effects, Breast Neoplasms enzymology, Glutathione S-Transferase pi genetics, Glutathione Transferase genetics, Polymorphism, Genetic

Abstract

Purpose: To explore whether certain glutathione S-transferase (GST) polymorphisms are associated with an increased risk of breast cancer or the level of radiation-induced adverse effects after two fractionation patterns of adjuvant radiotherapy., Methods and Materials: The prevalence of germline polymorphic variants in GSTM1, GSTP1, and GSTT1 was determined in 272 breast cancer patients and compared with that in a control group of 270 women from the general population with no known history of breast cancer. The genetic variants were determined using multiplex polymerase chain reaction followed by restriction enzyme fragment analysis. In 253 of the patients surveyed for radiotherapy-induced side effects after a median observation time of 13.7 years (range, 7-22.8 years), the genotypes were related to the long-term effects observed after two fractionation patterns (treatment A, 4.3 Gy in 10 fractions for 156 patients; and treatment B, 2.5 Gy in 20 fractions for 97; both administered within a 5-week period)., Results: None of the GST polymorphisms conferred an increased risk of breast cancer, either alone or in combination. Compared with treatment B, treatment A was followed by an increased level of moderate to severe radiation-induced side effects for all the endpoints studied (i.e., degree of telangiectasia, subcutaneous fibrosis and atrophy, lung fibrosis, costal fractures, and pleural thickening; p <0.001 for all endpoints). A significant association was found between the level of pleural thickening and the GSTP1 Ile105Val variant., Conclusion: The results of this study have illustrated the impact of hypofractionation on the level of adverse effects and indicated that the specific alleles of GSTP1, M1, and T1 studied here may be significant in determining the level of adverse effects after radiotherapy.

Published

2007

39. Basoluminal carcinoma: a new biologically and prognostically distinct entity between basal and luminal breast cancer.

Author

Laakso M, Tanner M, Nilsson J, Wiklund T, Erikstein B, Kellokumpu-Lehtinen P, Malmström P, Wilking N, Bergh J, and Isola J

Subjects

Aged, Cohort Studies, Disease-Free Survival, Female, Humans, Image Processing, Computer-Assisted, Keratin-14 biosynthesis, Keratin-5 biosynthesis, Keratins biosynthesis, Keratins metabolism, Male, Middle Aged, Prognosis, Breast Neoplasms classification, Breast Neoplasms diagnosis, Carcinoma classification, Carcinoma diagnosis, Gene Expression Regulation, Neoplastic

Abstract

Purpose: Breast carcinomas expressing basal epithelium cytokeratins constitute a tumor subgroup that is typically hormone receptor negative and shows a distinct gene expression profile. Based on variable basal cytokeratin immunostaining patterns, we hypothesized that the "basal phenotype" tumor group may comprise more than one biological entity., Experimental Design: Basal cytokeratins 5 and 14 (CK5/14) were stained by immunohistochemistry and the percentage of positive cells was defined by image analysis. The results thus obtained were compared with clinicopathologic characteristics and relapse-free survival., Results: Of the 506 breast tumors, 53 (10.5%) showed immunoreactivity for CK5/14. Basal cytokeratin expression showed up as two microscopically distinguishable subtypes, i.e., a uniformly positive type ("basal") and a partially positive type ("basoluminal") often displaying a checkerboard-type intratumoral heterogeneity. These subgroups could also be separated with a third basal cytokeratin (CK17, P < 0.0001). Both basal and basoluminal subtypes were hormone receptor negative and of high grade, but differed with respect to the Ki-67 labeling index (P = 0.0014), vimentin (P = 0.005), and c-kit (P = 0.02), which were more frequently expressed in basal than in basoluminal tumors. In contrast, the amplification of HER-2 was found almost exclusively in the basoluminal subgroup (P = 0.009). Compared with the basal tumors, basoluminal tumors associated with significantly shorter relapse-free survival (P = 0.01), which was not explained by their more frequent HER-2 amplification., Conclusions: We conclude that the intratumoral heterogeneity in basal cytokeratin expression can be used to define two distinct breast cancer subtypes, basal and basoluminal, with distinctive features related to proliferation activity, oncogene and biomarker status, and patient survival.

Published

2006

40. Topoisomerase IIalpha gene amplification predicts favorable treatment response to tailored and dose-escalated anthracycline-based adjuvant chemotherapy in HER-2/neu-amplified breast cancer: Scandinavian Breast Group Trial 9401.

Author

Tanner M, Isola J, Wiklund T, Erikstein B, Kellokumpu-Lehtinen P, Malmström P, Wilking N, Nilsson J, and Bergh J

Subjects

Breast Neoplasms genetics, Breast Neoplasms pathology, Chemotherapy, Adjuvant, Clinical Trials as Topic, Female, Gene Expression Regulation, Neoplastic, Humans, In Situ Hybridization, Lymphatic Metastasis, Multivariate Analysis, Odds Ratio, Poly-ADP-Ribose Binding Proteins, Predictive Value of Tests, Prognosis, Proportional Hazards Models, Scandinavian and Nordic Countries, Treatment Outcome, Anthracyclines administration & dosage, Antigens, Neoplasm genetics, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Biomarkers, Tumor genetics, Breast Neoplasms drug therapy, Breast Neoplasms enzymology, DNA Topoisomerases, Type II genetics, DNA-Binding Proteins genetics, Gene Amplification, Receptor, ErbB-2 genetics

Abstract

Purpose: Amplification of the HER-2/neu and topoisomerase IIalpha (TOP2A) genes has been linked to the effects of anthracyclines. Their role in predicting the outcome of anthracycline-based adjuvant chemotherapy for breast cancer patients has remained controversial., Patients and Methods: The present substudy of the Scandinavian Breast Group trial 9401, in which an epirubicin-based regimen (nine courses of tailored and dose-escalated fluorouracil, epirubicin, and cyclophosphamide [FEC]) was compared with three or four courses of standard FEC followed by bone marrow-supported high-dose chemotherapy (cyclophosphamide, thiotepa, and carboplatin), included high-risk breast cancer patients (with eight or more positive axillary lymph nodes or at least five nodes with additional poor prognostic indicators). Amplification of HER-2/neu was determined retrospectively in paraffin-embedded tumor tissue sections by chromogenic in situ hybridization. TOP2A was tested only in HER-2/neu-amplified tumors., Results: HER-2/neu amplification alone, which was present in 32.7% of the tumors, was a strong prognostic factor for short relapse-free (P = .0034) and overall survival (P = .0008) but showed no direct association with treatment assignment. TOP2A coamplification, which was present in 37% of HER-2/neu-amplified tumors, was associated with better relapse-free survival in patients treated with tailored and dose-escalated FEC (hazard ratio [HR] = 0.45; P = .049). A statistical multivariate Cox's regression analysis confirmed the predictive significance of TOP2A coamplification (HR = 0.30; P = .020) in HER-2/neu-amplified tumors. There was no such association in patients with HER-2/neu-amplified tumors without TOP2A gene amplification., Conclusion: Coamplification of HER-2/neu and TOP2A may define a subgroup of high-risk breast cancer patients who benefit from individually tailored and dose-escalated adjuvant anthracyclines.

Published

2006

41. Monitoring of disseminated tumor cells in bone marrow in high-risk breast cancer patients treated with high-dose chemotherapy.

Author

Drageset V, Nesland JM, Erikstein B, Skovlund E, Sommer H, Anker G, Wist E, Lundgren S, Bergh J, and Kvalheim G

Subjects

Adult, Antineoplastic Combined Chemotherapy Protocols administration & dosage, Bone Marrow Cells, Cyclophosphamide administration & dosage, Epirubicin administration & dosage, Female, Fluorouracil administration & dosage, Humans, Keratins analysis, Middle Aged, Prognosis, Treatment Outcome, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Breast Neoplasms drug therapy, Breast Neoplasms pathology, Neoplastic Cells, Circulating

Abstract

The present study aimed to investigate the clinical relevance of disseminated tumor cells (DTC) in breast cancer patients before and after high-dose adjuvant chemotherapy with or without progenitor stem-cell support. One hundred and eighteen high-risk stage II breast cancer patients entering the Scandinavian Study Group multicenter trial were randomized to 9 cycles of tailored and dose-escalated FEC (5-fluorouracil, epirubicin, cyclophosphamide) or 3 cycles of standard FEC followed by high-dose chemotherapy. Bone marrow (BM) samples at diagnosis and 6 months after completion of chemotherapy were assessed for the presence of cytokeratin positive (CK+) cells. Before treatment, 29% of the patients were CK+ (21% in the dose-escalated group and 36% in the high-dose-group). Six months after treatment, 17% of the patients were CK+ (17 and 16% respectively). Of the 95 patients who were evaluated 6 months after treatment, 60% were consistently CK-. CK+ cells in BM was evaluated as a prognostic and predictive marker and compared to other defined prognostic factors of the primary tumor. Monitoring BM changes at the time of diagnosis and 6 months posttreatment is an independent predictive factor for breast-cancer-specific survival (BCS) (p = 0.001). Those who have consistent CK negative (-) BM findings constitute a group of patients with good prognosis. Our results suggest that changes in CK+ cells in BM before and after chemotherapy can be used clinically as a surrogate maker to predict outcome in breast cancer patients.

Published

2006

42. Effects of exemestane administered for 2 years versus placebo on bone mineral density, bone biomarkers, and plasma lipids in patients with surgically resected early breast cancer.

Author

Lønning PE, Geisler J, Krag LE, Erikstein B, Bremnes Y, Hagen AI, Schlichting E, Lien EA, Ofjord ES, Paolini J, Polli A, and Massimini G

Subjects

Aged, Androstadienes administration & dosage, Aromatase Inhibitors administration & dosage, Breast Neoplasms surgery, Double-Blind Method, Female, Humans, Lipids blood, Middle Aged, Placebos, Postmenopause, Androstadienes adverse effects, Androstadienes therapeutic use, Aromatase Inhibitors adverse effects, Aromatase Inhibitors therapeutic use, Bone Density drug effects, Bone Resorption, Breast Neoplasms drug therapy

Abstract

Purpose: To evaluate potential detrimental effects of exemestane on bone and lipid metabolism., Patients and Methods: Postmenopausal women with early breast cancer were randomly assigned to exemestane 25 mg daily or placebo for 2 years in a double-blind setting. Primary objective was to evaluate the effect of exemestane on bone mineral density. Secondary objectives were effects on bone biomarkers, plasma lipids, coagulation factors, and homocysteine. Planned size was 128 patients., Results: One hundred forty-seven patients were enrolled. All patients completed their 24-month visit except for those discontinuing treatment at an earlier stage. The mean annual rate of bone mineral density loss was 2.17% v 1.84% in the lumbar spine (P = .568) and 2.72% v 1.48% in the femoral neck (P = .024) in the exemestane and placebo arm, respectively. The mean change in T-score after 2 years was -0.21 for exemestane and -0.11 on placebo in the hip, and -0.30 and -0.21, respectively, in the lumbar spine. Exemestane significantly increased serum level and urinary excretion of bone resorption, but also bone formation markers. Except for a modest reduction in high-density lipoprotein cholesterol (P < .001) and apolipoprotein A1 (P = .004), exemestane had no major effect on lipid profile, homocysteine levels, or coagulation parameters., Conclusion: Exemestane modestly enhanced bone loss from the femoral neck without significant influence on lumbar bone loss. Except for a 6% to 9% drop in plasma high-density lipoprotein cholesterol, no major effects on serum lipids, coagulation factors, or homocysteine were recorded. Bone mineral density should be assessed according to the US Preventive Services Task Force guidelines.

Published

2005

43. Pharmacokinetic profile of intramuscular fulvestrant in advanced breast cancer.

Author

Robertson JF, Erikstein B, Osborne KC, Pippen J, Come SE, Parker LM, Gertler S, Harrison MP, and Clarke DA

Subjects

Adult, Aged, Antineoplastic Agents, Hormonal blood, Antineoplastic Agents, Hormonal therapeutic use, Area Under Curve, Breast Neoplasms metabolism, Breast Neoplasms radiotherapy, Double-Blind Method, Estradiol blood, Estradiol therapeutic use, Estrogen Antagonists blood, Estrogen Antagonists therapeutic use, Female, Fulvestrant, Half-Life, Humans, Metabolic Clearance Rate, Middle Aged, Postmenopause, Antineoplastic Agents, Hormonal pharmacokinetics, Breast Neoplasms drug therapy, Estradiol analogs & derivatives, Estradiol pharmacokinetics, Estrogen Antagonists pharmacokinetics

Abstract

Objective: To characterise the pharmacokinetics of a long-acting formulation of fulvestrant following intramuscular administration of single and multiple doses., Study Design: Pharmacokinetic investigations of single and multiple doses of fulvestrant were conducted within two global phase III efficacy studies that compared intramuscular fulvestrant with oral anastrozole in postmenopausal women with hormone-sensitive advanced breast cancer (study 0020, conducted in Europe, Australia and South Africa, and study 0021, conducted in North America)., Methods: Patients received once-monthly intramuscular injections of fulvestrant 250 mg (1 x 5 mL for < or =21 months in study 0020; 2 x 2.5 mL for < or =30 months in study 0021). Serial blood samples were collected for the first 28 days after the initial dose and immediately prior to all subsequent monthly doses. Plasma fulvestrant concentrations were determined by high-performance liquid chromatography-tandem mass spectrometry., Patients: Twenty-six (study 0020) and 193 (study 0021) postmenopausal women, comprising the pharmacokinetic subgroups of the phase III efficacy trials, were studied. Patients had shown disease progression or recurrence following previous hormonal therapy for advanced disease or had relapsed after adjuvant endocrine therapy with a nonsteroidal antiestrogen., Outcome Measures and Results: For single-dose fulvestrant 250 mg, area under the concentration-time curve from time zero to 28 days (AUC(28)), maximum observed plasma concentration (C(max)), minimum observed plasma concentration at 28 days (C(min)) and time to maximum plasma concentration (t(max)) were determined. For multiple-dose fulvestrant 250 mg once monthly, steady-state trough concentrations (C(trough)) were determined. Plasma fulvestrant concentrations reached a peak at a median of 7 days (range 2-8 days) postdose, and declined biexponentially with a slower phase commencing approximately 2-3 weeks postdose. Intersubject variability in C(max) and AUC(28) was approximately 6-fold and 4-fold, respectively. Mean parameters for single-dose fulvestrant were: AUC(28), 148 microg. day/L; C(max), 8.2 microg/L; C(min), 2.6 microg/L; t(max), 7.0 days. Geometric mean C(trough) increased from 2.57 to 6.15 microg/L (study 0020) and from 2.38 to 6.52 microg/L (study 0021) over the first 6 months, reaching steady-state concentrations of approximately 6-7 microg/L (study 0020) or 9 microg/L (study 0021). Preliminary pharmacokinetic analysis, using a naive pooled data approach, suggests that observed single- and multiple-dose plasma profiles can be adequately described with a two-compartment kinetic model. Model-generated steady-state AUC(28) values were approximately 300 microg. day/L., Conclusions: The intramuscular formulation of fulvestrant displays predictable kinetics and approximately 2-fold accumulation on administration once monthly. At the proposed therapeutic dosage (250 mg once monthly), plasma fulvestrant concentrations are maintained within a narrow range throughout the administration interval, thus ensuring stable systemic drug exposure during long-term treatment.

Published

2004

44. Quality of life in women with breast cancer during the first year after random assignment to adjuvant treatment with marrow-supported high-dose chemotherapy with cyclophosphamide, thiotepa, and carboplatin or tailored therapy with Fluorouracil, epirubicin, and cyclophosphamide: Scandinavian Breast Group Study 9401.

Author

Brandberg Y, Michelson H, Nilsson B, Bolund C, Erikstein B, Hietanen P, Kaasa S, Nilsson J, Wiklund T, Wilking N, and Bergh J

Subjects

Adult, Antineoplastic Combined Chemotherapy Protocols administration & dosage, Antineoplastic Combined Chemotherapy Protocols adverse effects, Body Image, Breast Neoplasms pathology, Breast Neoplasms surgery, Carboplatin administration & dosage, Chemotherapy, Adjuvant, Cyclophosphamide administration & dosage, Emotions, Epirubicin administration & dosage, Female, Fluorouracil administration & dosage, Granulocyte Colony-Stimulating Factor administration & dosage, Health Status, Humans, Middle Aged, Patient Satisfaction, Peripheral Blood Stem Cell Transplantation, Thiotepa administration & dosage, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Breast Neoplasms drug therapy, Quality of Life

Abstract

Purpose: To compare, in high-risk breast cancer patients, the effects on health-related quality of life (HRQoL) of two adjuvant treatments. Treatments were compared at eight points during the first year after random assignment to treatment with tailored fluorouracil, epirubicin, and cyclophosphamide (FEC) therapy for nine courses versus induction FEC therapy for three courses followed by high-dose chemotherapy with cyclophosphamide, thiotepa, and carboplatin (CTCb) supported by peripheral-blood stem cells., Patients and Methods: From March 1994 to March 1998, 525 breast cancer patients (estimated relapse risk > 70% within 5 years with standard therapy) were included in the Scandinavian Breast Group 9401 study. HRQoL evaluation, using the European Organization for Research and Treatment of Cancer Quality of Life Questionnaire (EORTC QLQ)-C30 and EORTC Breast Cancer Module-23, included 408 of 446 eligible patients in Finland, Norway, and Sweden., Results: Eighty-four percent to 95% of the patients completed questionnaires at eight points of assessment. Nostatistically significant overall differences were found between the tailored FEC group and the CTCb group for any of the HRQoL variables. Statistically significant differences over time were found for all HRQoL variables. HRQoL in the CTCb group demonstrated a steeper decrease, but a faster recovery than in the tailored FEC group. Emotional functioning improved with increased time from randomization. Higher levels of problems in body image and arm symptoms were reported in the tailored FEC group compared with the CTCb group. Sexual functioning and satisfaction were impaired during the study period., Conclusion: Both treatments had a negative influence on HRQoL during the treatment period. Despite the aggressive therapies, the patient's HRQoL returned to levels found at inclusion on most variables.

Published

2003

45. Role of strontium-89 as adjuvant to palliative external beam radiotherapy is questionable: results of a double-blind randomized study.

Author

Smeland S, Erikstein B, Aas M, Skovlund E, Hess SL, and Fosså SD

Subjects

Aged, Aged, 80 and over, Bone Neoplasms mortality, Double-Blind Method, Female, Humans, Male, Middle Aged, Palliative Care, Quality of Life, Bone Neoplasms radiotherapy, Bone Neoplasms secondary, Strontium Radioisotopes therapeutic use

Abstract

Purpose: To explore the efficacy of adjuvant (89)Sr applied with external beam radiotherapy (EBRT) to treat bone metastases., Methods and Materials: Ninety-five patients were randomized to (89)Sr (Arm A) or saline (Arm B) on Day 1 of EBRT to demonstrate a reduction in 3-month physician-assessed subjective progression from 70% to 45%., Results: At 3 and 6 months, no difference between treatment arms was observed in the progression rate. At 3 months, the physician-assessed response rate for all patients was 25%, with 46% of the patients progressing. The pretreatment use of opiates was independently associated with short progression-free survival. On the basis of the quality-of-life assessments, pain relief occurred in 50% of patients and 32% experienced improvement in global quality of life, without impact from (89)Sr. Differences were observed between the physician evaluation of radiotherapy efficacy and the patient assessment. In Arm A, serum alkaline phosphatase, but not serum prostate-specific antigen, decreased during the first 3 months after treatment., Conclusion: (89)Sr, adjuvant to ERBT, does not seem to reduce the number of patients with subjective progression at 3 months. Patients should be referred for palliative RT before their bone pain requires high doses of opiates. In radiotherapy trials, the evaluation of pain and pain relief remains problematic because of the confounding use of analgesics.

Published

2003

46. The potential for aromatase inhibition in breast cancer prevention.

Author

Lønning PE, Kragh LE, Erikstein B, Hagen A, Risberg T, Schlichting E, and Geisler J

Subjects

Anticarcinogenic Agents therapeutic use, Breast Neoplasms drug therapy, Breast Neoplasms genetics, Female, Genetic Predisposition to Disease, Humans, Menopause, Receptors, Estrogen metabolism, Selective Estrogen Receptor Modulators therapeutic use, Aromatase Inhibitors, Breast Neoplasms prevention & control, Enzyme Inhibitors therapeutic use

Abstract

Although SERMs are currently being evaluated and are approved for breast cancer prevention in several countries, aromatase inhibitors and inactivators may represent interesting options in this setting. The encouraging results revealing these drugs to be superior to conventional therapy in metastatic breast cancer confirm their therapy efficacy and suggest that they may also have a role in adjuvant therapy and even for breast cancer prevention. Secondly, whereas the bulk of "high-risk" breast cancer patients with confirmed founder mutations in the BRCA1 or BRCA2 genes develop their cancers earlier in life (during the premenopausal period), 75-80% of all breast cancers, in general, develop in postmenopausal women. Thus, in considering prevention of breast cancer in moderate-risk groups, strategies for prevention in postmenopausal women may play an important role. Also, among high-risk patients who have not developed breast cancer by the time of the menopause, aromatase inhibition could be a feasible option. Considering the potential hazards of long-term use of SERMs, switching to an aromatase inhibitor or inactivator in this setting may be beneficial. Finally, the observation that postmenopausal estrogen levels are related to subsequent risk of breast cancer in the general population underlines the potential for estrogen suppression as a preventive strategy. Results from ongoing studies examining the toxicity of aromatase inhibitors and inactivators in postmenopausal women will set the stage for future trials that explore them as preventive treatment options.

Published

2001

47. Quantitative analysis of chromosomal CGH in human breast tumors associates copy number abnormalities with p53 status and patient survival.

Author

Jain AN, Chin K, Børresen-Dale AL, Erikstein BK, Eynstein Lonning P, Kaaresen R, and Gray JW

Subjects

Breast Neoplasms mortality, Chromosomes, Human, Pair 5, Chromosomes, Human, Pair 8, Chromosomes, Human, Pair 9, Female, Humans, Mutation, Nucleic Acid Hybridization, Oligonucleotide Array Sequence Analysis, Survival Analysis, Breast Neoplasms genetics, Chromosome Aberrations, Chromosome Disorders, Genes, p53

Abstract

We present a general method for rigorously identifying correlations between variations in large-scale molecular profiles and outcomes and apply it to chromosomal comparative genomic hybridization data from a set of 52 breast tumors. We identify two loci where copy number abnormalities are correlated with poor survival outcome (gain at 8q24 and loss at 9q13). We also identify a relationship between abnormalities at two loci and the mutational status of p53. Gain at 8q24 and loss at 5q15-5q21 are linked with mutant p53. The 9q and 5q losses suggest the possibility of gene products involved in breast cancer progression. The analytical techniques are general and also are applicable to the analysis of array-based expression data.

Published

2001

48. Elevated CA125 in breast cancer--A sign of advanced disease.

Author

Norum LF, Erikstein B, and Nustad K

Subjects

Adult, Aged, Breast Neoplasms blood, Breast Neoplasms pathology, Carcinoembryonic Antigen blood, Disease Progression, Female, Humans, Middle Aged, Mucin-1 blood, Neoplasm Staging, Prognosis, Biomarkers, Tumor blood, Breast Neoplasms diagnosis, CA-125 Antigen blood

Abstract

The serum tumor markers CA 125, MUC1 and CEA were measured in 221 breast cancer patients over a period of 2 years. Patients examined on at least three occasions were included in the study. Thirty-three patients had increasing or continuously high concentrations of CA 125. Thirty (91%) of these had involvement of the pleura, either as pleural metastasis or metastasis in surrounding tissue i.e. bone structures in the thorax cavity or lung parenchyma. MUC1 and CEA were elevated in 27 (82%) and 24 (73%) of the 33 patients, respectively. Increased concentrations of these two markers did not relate to the site of metastasis. However, the three tumor markers complemented each other in detecting early metastases. Increased CA 125 was associated with metastasis in or near the pleura, and in stage IV breast cancer it was related to poor prognosis., (Copyright 2001 S. Karger AG, Basel)

Published

2001

49. Genetic variants of CYP19 (aromatase) and breast cancer risk.

Author

Kristensen VN, Harada N, Yoshimura N, Haraldsen E, Lonning PE, Erikstein B, Kåresen R, Kristensen T, and Børresen-Dale AL

Subjects

3' Untranslated Regions genetics, Adipose Tissue, Breast Neoplasms genetics, Estrogens metabolism, Exons, Female, Genotype, Humans, Linkage Disequilibrium, Odds Ratio, Point Mutation, Repetitive Sequences, Nucleic Acid, Risk Factors, Aromatase genetics, Breast Neoplasms etiology, Genetic Variation

Abstract

The effect of a SNP in exon 10 of CYP19 on tumor mRNA levels and splice variants were studied and correlated with clinical parameters and risk of breast cancer. In the vast majority of breast cancers, the estrogen levels modulate the tumor growth and depend on the activity of CYP19. Patients (n=481) and controls (n=236) were genotyped by T-tracks in a single sequencing reaction (SSR). The frequency of TT genotypes was significantly higher in patients versus controls (P=0.007) particularly among those with stage III and IV disease (P=0.004) and with tumors larger than 5 cm (P=0.001). A significant association between presence of the T allele and the level of aromatase mRNA in the tumors was observed (P=0.018), as well as with a switch from adipose promoter to ovary promoter (P=0. 004). Previously, we reported a rare polymorphic allele of CYP19 (repeat (TTTA)12) to be significantly more frequent in breast cancer patients than in controls. Here we describe another polymorphism, a C - T substitution in exon 10 of the CYP19 gene which is in strong linkage disequilibrium with the (TTTA)n polymorphism but with higher frequency of the variant allele. Our data suggest that the T-allele of the CYP19 gene is associated with a 'high activity' phenotype. Oncogene (2000) 19, 1329 - 1333.

Published

2000

50. Lovastatin inhibits G1/S transition of normal human B-lymphocytes independent of apoptosis.

Author

Naderi S, Blomhoff R, Myklebust J, Smeland EB, Erikstein B, Norum KR, and Blomhoff HK

Subjects

Apoptosis drug effects, B-Lymphocytes physiology, Calcium metabolism, DNA biosynthesis, G1 Phase drug effects, Humans, In Vitro Techniques, Kinetics, Lymphocyte Activation drug effects, Protein Prenylation drug effects, S Phase drug effects, B-Lymphocytes cytology, B-Lymphocytes drug effects, Cell Cycle drug effects, Lovastatin pharmacology

Abstract

Lovastatin is a potent inhibitor of protein prenylation, and it has been reported to have pleiotropic cellular effects. In the present study we have elucidated the effects of lovastatin on cell cycle progression and apoptosis of normal human B-lymphocytes. When added to B-lymphocytes stimulated with anti-immunoglobulin (anti-mu) and SAC, lovastatin (20 microM) inhibited the cells in the late G1 phase of the cell cycle. Thus, no early activation parameters such as Ca(2+) flux or MYC induction were affected by lovastatin, whereas progression of cells into the second cell cycle as well as DNA synthesis was markedly reduced. We therefore examined the effects of lovastatin on components of the cell cycle machinery responsible for regulating the G1/S transition. We demonstrated that pRB phosphorylation, cdk2 activity needed for this phosphorylation, and the levels of cyclin A, D, and E were inhibited after 24 h of lovastatin treatment, while the levels of p27(Kip1) were elevated. There was no effect on p21(Cip1), cyclin D2, cdk4, and cdk6. These data are consistent with the cells being inhibited by lovastatin between 24 and 32 h into G1. Lovastatin added to stimulated B-cells in late G1 still inhibited the DNA synthesis by 60%, but at this point only minor effects were noted on the cell cycle machinery. We therefore looked for induced apoptosis as an explanation for reduced S-phase entry of the cells. However, despite the ability to enhance the apoptosis of unstimulated B-cells from 48 to 61% as judged by the TUNEL method, lovastatin only marginally affected apoptosis when administered to stimulated B-cells. Thus, it appears that accelerated apoptosis cannot account for the effect of lovastatin on cell cycle progression., (Copyright 1999 Academic Press.)

Published

1999