TY - JOUR
T1 - Comparative genomic hybridisation array and DNA sequencing to direct treatment of metastatic breast cancer
T2 - A multicentre, prospective trial (SAFIR01/UNICANCER)
AU - André, Fabrice
AU - Bachelot, Thomas
AU - Commo, Frederic
AU - Campone, Mario
AU - Arnedos, Monica
AU - Dieras, Véronique
AU - Lacroix-Triki, Magali
AU - Lacroix, Ludovic
AU - Cohen, Pascale
AU - Gentien, David
AU - Adélaide, Jose
AU - Dalenc, Florence
AU - Goncalves, Anthony
AU - Levy, Christelle
AU - Ferrero, Jean Marc
AU - Bonneterre, Jacques
AU - Lefeuvre, Claudia
AU - Jimenez, Marta
AU - Filleron, Thomas
AU - Bonnefoi, Hervé
PY - 2014/3/1
Y1 - 2014/3/1
N2 - Background: Breast cancer is characterised by genomic alterations. We did a multicentre molecular screening study to identify abnormalities in individual patients with the aim of providing targeted therapy matched to individuals' genomic alterations. Methods: From June 16, 2011, to July 30, 2012, we recruited patients who had breast cancer with a metastasis accessible for biopsy in 18 centres in France. Comparative genomic hybridisation (CGH) array and Sanger sequencing on PIK3CA (exon 10 and 21) and AKT1 (exon 4) were used to assess metastatic biopsy samples in five centres. Therapeutic targets were decided on the basis of identified genomic alterations. The primary objective was to include 30% of patients in clinical trials testing a targeted therapy and, therefore, the primary outcome was the proportion of patients to whom a targeted therapy could be offered. For the primary endpoint, the analyses were done on the overall population registered for the trial. This trial is registered with ClinicalTrials.gov, number NCT01414933. Findings: 423 patients were included, and biopsy samples were obtained from 407 (metastatic breast cancer was not found in four). CGH array and Sanger sequencing were feasible in 283 (67%) and 297 (70%) patients, respectively. A targetable genomic alteration was identified in 195 (46%) patients, most frequently in PIK3CA (74 [25%] of 297 identified genomic alterations), CCND1 (53 [19%]), and FGFR1 (36 [13%]). 117 (39%) of 297 patients with genomic tests available presented with rare genomic alterations (defined as occurring in less than 5% of the general population), including AKT1 mutations, and EGFR, MDM2, FGFR2, AKT2, IGF1R, and MET high-level amplifications. Therapy could be personalised in 55 (13%) of 423 patients. Of the 43 patients who were assessable and received targeted therapy, four (9%) had an objective response, and nine others (21%) had stable disease for more than 16 weeks. Serious (grade 3 or higher) adverse events related to biopsy were reported in four (1%) of enrolled patients, including pneumothorax (grade 3, one patient), pain (grade 3, one patient), haematoma (grade 3, one patient), and haemorrhagic shock (grade 3, one patient). Interpretation: Personalisation of medicine for metastatic breast cancer is feasible, including for rare genomic alterations. Funding: French National Cancer Institute, Breast Cancer Research Foundation, Odyssea, Operation Parrains Chercheurs.
AB - Background: Breast cancer is characterised by genomic alterations. We did a multicentre molecular screening study to identify abnormalities in individual patients with the aim of providing targeted therapy matched to individuals' genomic alterations. Methods: From June 16, 2011, to July 30, 2012, we recruited patients who had breast cancer with a metastasis accessible for biopsy in 18 centres in France. Comparative genomic hybridisation (CGH) array and Sanger sequencing on PIK3CA (exon 10 and 21) and AKT1 (exon 4) were used to assess metastatic biopsy samples in five centres. Therapeutic targets were decided on the basis of identified genomic alterations. The primary objective was to include 30% of patients in clinical trials testing a targeted therapy and, therefore, the primary outcome was the proportion of patients to whom a targeted therapy could be offered. For the primary endpoint, the analyses were done on the overall population registered for the trial. This trial is registered with ClinicalTrials.gov, number NCT01414933. Findings: 423 patients were included, and biopsy samples were obtained from 407 (metastatic breast cancer was not found in four). CGH array and Sanger sequencing were feasible in 283 (67%) and 297 (70%) patients, respectively. A targetable genomic alteration was identified in 195 (46%) patients, most frequently in PIK3CA (74 [25%] of 297 identified genomic alterations), CCND1 (53 [19%]), and FGFR1 (36 [13%]). 117 (39%) of 297 patients with genomic tests available presented with rare genomic alterations (defined as occurring in less than 5% of the general population), including AKT1 mutations, and EGFR, MDM2, FGFR2, AKT2, IGF1R, and MET high-level amplifications. Therapy could be personalised in 55 (13%) of 423 patients. Of the 43 patients who were assessable and received targeted therapy, four (9%) had an objective response, and nine others (21%) had stable disease for more than 16 weeks. Serious (grade 3 or higher) adverse events related to biopsy were reported in four (1%) of enrolled patients, including pneumothorax (grade 3, one patient), pain (grade 3, one patient), haematoma (grade 3, one patient), and haemorrhagic shock (grade 3, one patient). Interpretation: Personalisation of medicine for metastatic breast cancer is feasible, including for rare genomic alterations. Funding: French National Cancer Institute, Breast Cancer Research Foundation, Odyssea, Operation Parrains Chercheurs.
UR - http://www.scopus.com/inward/record.url?scp=84896730857&partnerID=8YFLogxK
U2 - 10.1016/S1470-2045(13)70611-9
DO - 10.1016/S1470-2045(13)70611-9
M3 - Article
C2 - 24508104
AN - SCOPUS:84896730857
SN - 1470-2045
VL - 15
SP - 267
EP - 274
JO - The Lancet Oncology
JF - The Lancet Oncology
IS - 3
ER -