TY - JOUR
T1 - High frequency of multiclass HCV resistance-associated mutations in patients failing direct-acting antivirals
T2 - Real-life data
AU - Gozlan, Yael
AU - Bucris, Efrat
AU - Shirazi, Rachel
AU - Rakovsky, Avia
AU - Ben-Ari, Ziv
AU - Davidov, Yana
AU - Veizman, Ella
AU - Saadi, Tarek
AU - Braun, Marius
AU - Cohen-Naftaly, Michal
AU - Shlomai, Amir
AU - Shibolet, Oren
AU - Zigmond, Ehud
AU - Katchman, Helena
AU - Menachem, Yoram
AU - Safadi, Rifaat
AU - Galun, Eitan
AU - Zuckerman, Eli
AU - Nimer, Assy
AU - Hazzan, Rawi
AU - Maor, Yaakov
AU - Saif, Abu Moch
AU - Etzion, Ohad
AU - Lurie, Yoav
AU - Mendelson, Ella
AU - Mor, Orna
N1 - Publisher Copyright:
© 2019 International Medical Press 1359-6535 (print) 2040-2058 (online)
PY - 2019
Y1 - 2019
N2 - Background: Direct-acting antiviral (DAA) therapy has dramatically increased sustained virological response rates in HCV-infected patients. However, resistance-associated substitutions (RAS) interfering with NS3- and NS5A-targeted therapy, still emerge. This real-life study analysed the type and frequency of RAS in rare cases of patients failing DAA regimens in 12 clinical centres in Israel. Methods: Blood samples and clinical data from 49 patients who failed various DAAs were collected. RAS identified in the NS3 and NS5A regions by population (Sanger) and next-generation sequencing (NGS) were compared by treatment regimen and HCV subtypes. Results: The majority (71.4%, 35/49) of patients were infected with the genotype (GT)1b strain, while 12.2% (6/49) carried GT1a and 14.3% GT3a/b (7), GT4a (1) and GT1b/GT3a. RAS were identified in 85.7% (42/49) of failures, of which 90.5% (38/42) were clinically relevant RAS (known to be associated with a specific GT and DAA in patients failing therapy or those with more than twofold change in in vitro replicon assays). The most abundant RAS were 168A/E/Q/G/N/V (32.6%, 16/49) identified in NS3, and 93H/N (61.2%, 30/49), 31I/M/V (34.7%, 17/49) and 30R/H/K (12.2%, 6/49), identified in NS5A. Significantly more clinically relevant RAS were identified in NS5A (82.2%, 37/45) than in NS3 (35.7%, 10/28; P<0.01). While RAS were identified in all GT1a, GT3b and GT4a failures (100%, 10/10), only 71.8% (28/39) of GT1b or GT3a failures had RAS (P=0.09). In four cases, NGS identified additional clinically relevant RAS and in one patient, NGS deciphered coexistence of GT3a and GT1b infections. Conclusions: Our findings, together with additional real-life data, will contribute to the optimization of retreatment in DAA failure, when cost-related and suboptimal regimens must be employed.
AB - Background: Direct-acting antiviral (DAA) therapy has dramatically increased sustained virological response rates in HCV-infected patients. However, resistance-associated substitutions (RAS) interfering with NS3- and NS5A-targeted therapy, still emerge. This real-life study analysed the type and frequency of RAS in rare cases of patients failing DAA regimens in 12 clinical centres in Israel. Methods: Blood samples and clinical data from 49 patients who failed various DAAs were collected. RAS identified in the NS3 and NS5A regions by population (Sanger) and next-generation sequencing (NGS) were compared by treatment regimen and HCV subtypes. Results: The majority (71.4%, 35/49) of patients were infected with the genotype (GT)1b strain, while 12.2% (6/49) carried GT1a and 14.3% GT3a/b (7), GT4a (1) and GT1b/GT3a. RAS were identified in 85.7% (42/49) of failures, of which 90.5% (38/42) were clinically relevant RAS (known to be associated with a specific GT and DAA in patients failing therapy or those with more than twofold change in in vitro replicon assays). The most abundant RAS were 168A/E/Q/G/N/V (32.6%, 16/49) identified in NS3, and 93H/N (61.2%, 30/49), 31I/M/V (34.7%, 17/49) and 30R/H/K (12.2%, 6/49), identified in NS5A. Significantly more clinically relevant RAS were identified in NS5A (82.2%, 37/45) than in NS3 (35.7%, 10/28; P<0.01). While RAS were identified in all GT1a, GT3b and GT4a failures (100%, 10/10), only 71.8% (28/39) of GT1b or GT3a failures had RAS (P=0.09). In four cases, NGS identified additional clinically relevant RAS and in one patient, NGS deciphered coexistence of GT3a and GT1b infections. Conclusions: Our findings, together with additional real-life data, will contribute to the optimization of retreatment in DAA failure, when cost-related and suboptimal regimens must be employed.
UR - http://www.scopus.com/inward/record.url?scp=85071702260&partnerID=8YFLogxK
U2 - 10.3851/IMP3301
DO - 10.3851/IMP3301
M3 - ???researchoutput.researchoutputtypes.contributiontojournal.article???
C2 - 30880684
AN - SCOPUS:85071702260
SN - 1359-6535
VL - 24
SP - 221
EP - 228
JO - Antiviral Therapy
JF - Antiviral Therapy
IS - 3
ER -