ABSTRACT
Amplification and/or overexpression of HER2 in breast cancer (BCa) patients is associated with aggressive disease and poor prognosis. Herceptin® (trastuzumab), a monoclonal antibody targeting HER2, has an established role in the treatment of HER2 positive BCa. Addition of trastuzumab to anthracycline-and taxane-based neoadjuvant treatment in women with HER2-positive BCa has resulted in improvements in pathological complete response (pCR, a strong predictor for long-term clinical outcome), event-free survival (EFS) and overall survival (OS). This study is designed to compare efficacy (pCR) and safety between the originator Herceptin and the proposed trastuzumab biosimilar EG12014. The study is conducted during the COVID-19 pandemic (last patient in: March 2020, last patient last visit: planned Jan 2022) in Belarus, Chile, Colombia, Georgia, India, Russia, South Africa, South Korea, Taiwan, and the Ukraine. Methods: Neoadjuvant phase: 807 patients were randomized (1:1) into 2 arms receiving epirubicin (90 mg/m 2) and cyclophosphamide (600 mg/m2) every 3 weeks for 4 cycles, followed by EG12014 (arm 1) or Herceptin (arm 2) (both at loading dose: 8 mg/kg and maintenance dose: 6 mg/kg) and paclitaxel (175 mg/m2) every 3 weeks Sfor 4 cycles. Subsequently, the patients underwent surgery, and primary endpoint (pCR [ypT0/is ypN0]) was assessed. Adjuvant phase: After surgery, the patients received EG12014 or Herceptin (both at loading dose: 8 mg/kg and maintenance dose: 6 mg/kg) to complete 12 months of overall trastuzumab treatment. COVID-19 infections in the study population were not expected to affect primary endpoint analysis;thus, no sensitivity analysis was performed regarding COVID-19 status (symptomatic/asymptomatic). Differences between the 2 arms regarding delays in study treatments and procedures due to COVID-19 were assessed. Results (at interim data base lock, blinded as study is ongoing): Study population: the mean age was 50 years, the majority were white Europeans with tumor stage II, estrogen receptor positive and progesterone receptor negative. The median time from date of first diagnosis was 0.5 months. Primary endpoint pCR (ypT0/is ypN0) was reached with relative risk ratio (RR) for the full analysis set: 0.992 (90% CI 0.880 to 1.118) between the 2 treatment arms. Secondary pCR endpoints (defined as ypT0 ypN0 and ypT0/is) were also reached, with RR between the treatment arms: 0.917 and 0.992, respectively. Objective clinical response prior to surgery was similar for the 2 treatment arms: 83.8% and 83.6%, respectively. EFS, OS, safety endpoints (e.g., adverse events [most frequently reported: alopecia], serious adverse events, and deaths), and toxicity assessments, supported similarity between EG12014 and Herceptin. Sixty-two patients (7.7%) were infected with COVID-19;the infections were equally distributed between the 2 treatment arms. COVID-19 did not cause any discontinuations or deaths in the study. Among all reported COVID-19 events, 13 (21%) were asymptomatic, 11 (18%) were graded as 3 (severe), and 1 (1.6%) was graded as grade 4 (life threatening). Conclusion: EG12014 has shown equivalent efficacy to Herceptin in regard to clinical response (pCR) and has also demonstrated a similar safety profile. The impact of the COVID-19 pandemic has been comparable between the two treatment arms. The influence of the pandemic on this clinical study has been relatively low considering timing and the participating countries.
ABSTRACT
The cause of death in patients with the SARS-CoV-2 infection, along with respiratory failure, is infectious-toxic shock, complicated by multiple organ failure. Under the development of systemic inflammatory response syndrome (SIRS), excessive formation of pro-inflammatory cytokines and thrombosis can lead to the death of the macroorganism. When signs of systemic inflammatory response syndrome (SIRS) appear, the administration of blood clotting enzyme inhibitors (heparin preparations) together with antiviral, antibacterial and detoxification therapy can prevent the development of disseminated intravascular coagulation (DIC) caused by intoxication and the immune system's response to microbial/viral antigens, through virus-altered antigens of its own tissues.