ABSTRACT
Prior publications have demonstrated low rates of seroconversion to the SARS-CoV-2 mRNA vaccines in patients with chronic lymphocytic leukemia (CLL). In this national collaboration of 11 cancer centers around the United States, we aimed to further characterize and understand the vaccine-induced immune response, including T-cell responses and the impact of CLL therapeutics (NCT04852822). Eligible patients were enrolled into two cohorts: 1) at the time of the initial vaccination and 2) at the time of booster vaccination. Serologic response rates (anti-S) from the 210 patients in the initial vaccination cohort and 117 in the booster vaccination cohort were 56% (95% CI, 50-63%) and 68% (95% CI, 60-77%), respectively. Compared to patients not on therapy, those receiving B-cell-directed therapy were less likely to seroconvert (OR 0.27, 95% CI 0.15-0.49). Persistence of response was seen at 6 months;anti-S titers increased with administration of booster vaccinations. In the initial vaccination cohort, positive correlations were seen between quantitative serologic response and CD4 T-cell response for the Wuhan variant and to a lesser degree, for the Omicron variant (Spearman ρ = 0.45 for Wuhan, ρ = 0.25 for Omicron). In the booster vaccination cohort, positive correlations were seen between serologic response and CD4 T-cell responses for both variants (ρ = 0.58 Wuhan, ρ= 0.57 Omicron) and to a lesser degree for CD8 T-cell responses (ρ = 0.33 Wuhan, ρ = 0.22 Omicron). While no deaths from COVID-19 were reported after booster vaccinations, patients should use caution as newer variants emerge and escape vaccine-induced immunity.
ABSTRACT
Patients with hematologic malignancies have both an increased risk for SARS-CoV2 infections and higher morbidity/mortality. They have lower seroconversion rates post-vaccination, potentially leading to inferior COVID-19 outcomes, despite vaccination. We consequently evaluated the clinical outcomes of COVID-19 infections in 243 vaccinated and 175 unvaccinated patients with hematologic malignancies. Hospitalization rates were lower in the vaccinated group when compared to the unvaccinated group (31.3% vs 52.6%, p≤0.001). However, the rates of COVID-associated death were similar at 7.0% and 8.6% in vaccinated and unvaccinated patients, respectively (p=0.61). By univariate logistic regression, females (odds ratio (OR) 2.77, p=0.01), older patients (OR 1.03, p=0.02), and individuals with higher modified Charlson Co-morbidity Index scores (OR 1.32, p=0.003) were at a higher risk of death from COVID-19 infections. To account for the non-randomized nature of COVID-19 vaccination status, a propensity score weighting approach was utilized. In the final propensity weighted model, vaccination status was not significantly associated with the risk of death from COVID-19 infections (OR 0.70, p=0.36) but associated with the risk of hospitalizations (OR 0.38, p<0.001). The predicted benefit of vaccination was an absolute decrease in the probability of death and hospitalization from COVID-19 infections by 2.3% and 22.9%, respectively. In conclusion, COVID-19 vaccination status in patients with hematologic malignancies was associated with a decreased risk of hospitalization but not associated with a decreased risk of death from COVID-19 infections in the pre-Omicron era. Protective strategies, in addition to immunization, are warranted in this vulnerable patient population.
ABSTRACT
Prior publications have demonstrated low rates of seroconversion to the SARS-CoV-2 mRNA vaccines in patients with chronic lymphocytic leukemia (CLL). In this national collaboration of 11 cancer centers around the United States, we aimed to further characterize and understand the vaccine-induced immune response, including T-cell responses and the impact of CLL therapeutics (NCT04852822). Eligible patients were enrolled into two cohorts: 1) at the time of the initial vaccination and 2) at the time of booster vaccination. Serologic response rates (anti-S) from the 210 patients in the initial vaccination cohort and 117 in the booster vaccination cohort were 56% (95% CI, 50-63%) and 68% (95% CI, 60-77%), respectively. Compared to patients not on therapy, those receiving B-cell-directed therapy were less likely to seroconvert (OR 0.27, 95% CI 0.15-0.49). Persistence of response was seen at 6 months; anti-S titers increased with administration of booster vaccinations. In the initial vaccination cohort, positive correlations were seen between quantitative serologic response and CD4 T-cell response for the Wuhan variant and to a lesser degree, for the Omicron variant (Spearman P = 0.45 for Wuhan, P = 0.25 for Omicron). In the booster vaccination cohort, positive correlations were seen between serologic response and CD4 T-cell responses for both variants (P = 0.58 Wuhan, P = 0.57 Omicron) and to a lesser degree for CD8 T-cell responses (P = 0.33 Wuhan, P = 0.22 Omicron). While no deaths from COVID-19 were reported after booster vaccinations, patients should use caution as newer variants emerge and escape vaccine-induced immunity.
ABSTRACT
The coronavirus disease 2019 (COVID-19) pandemic poses several challenges to the management of patients with leukemia. The biology of each leukemia and its corresponding treatment with conventional intensive chemotherapy, with or without targeted therapies (venetoclax, FLT3 inhibitors, IDH1/2 inhibitors, Bruton's tyrosine kinase inhibitors), introduce additional layers of complexity during COVID-19 high-risk periods. The knowledge about COVID-19 is accumulating rapidly. An important distinction is the prevalence of "exposure" versus "clinical infectivity," which determine the risk versus benefit of modifying potentially highly curative therapies in leukemia. At present, the rate of clinical infection is <1-2% worldwide. With a mortality rate of 1-5% in CO-VID-19 patients in the general population and potentially of >30% in patients with cancer, careful consideration should be given to the risk of COVID-19 in leukemia. Instead of reducing patient access to specialized cancer centers and modifying therapies to ones with unproven curative benefit, there is more rationale for less intensive, yet effective therapies that may require fewer clinic visits or hospitalizations. Here, we offer recommendations on the optimization of leukemia management during high-risk COVID-19 periods.