Janine R. Danko scite author profile

SummaryBackgroundInfluenza causes significant morbidity and mortality despite currently available treatments. Anecdotal reports suggest plasma with high antibody titers towards influenza may be of benefit in the treatment of severe influenza.MethodsWe conducted a randomized, open-label, multicenter phase 2 trial at 29 academic medical centers in the United States to assess the safety and efficacy of anti-influenza plasma with hemagglutination inhibition (HAI) antibody titers of ≥ 1:80 to the infecting strain. Hospitalized children and adults (including pregnant women) with severe influenza A or B (defined as hypoxia or tachypnea) were randomly assigned to receive either 2 units (or pediatric equivalent) of anti-influenza plasma plus standard care (P+S), versus standard care alone (S), and were followed for 28 days. The primary endpoint was time to normalization of patients’ respiratory status (respiratory rate of ≤ 20 for adults or age defined thresholds of 20–38 for children), and a room air saturation of oxygen ≥ 93%. ClinicalTrials.gov Identifier: NCT01052480FindingsBetween January 13, 2011 and March 2, 2015, 113 participants were screened, and 98 were randomized. Of the participants with confirmed influenza, 28 of 42 (67%) of P+S participants normalized their respiratory status by Day 28, as compared to 24 of 45 (53%) of S participants (p=0·069). The estimated hazard ratio comparing P+S to S was 1·71 (95% CI: 0·96 to 3·06). Six participants died, 1 (2%) and 5 (10%) from the P+S and S arms respectively (p=0·093). P+S participants had non-significant reductions in days in hospital (median 6 vs. 11 days, p=0·13) and days on mechanical ventilation (median 0 vs. 3 days, p=0·14), and significantly improved clinical status at Day 7 (p=0·020). Fewer P+S participants experienced SAEs compared to S recipients (20% vs. 38%, p= 0·041), the most frequent of which were acute respiratory distress syndrome (1 [2%] vs 2 [4%]) and stroke (1 [2%] vs 2 [4%]).InterpretationResults from this Phase II randomized trial of immune plasma for the treatment of severe influenza provides support for a possible benefit of immunotherapy across the primary and secondary endpoints. A Phase III randomized trial is now underway to further evaluate this intervention.

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Trauma-related Infections in Battlefield Casualties From Iraq

Petersen¹,

Riddle²,

Danko³

et al. 2007

193

130

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Evaluation of a prototype dengue-1 DNA vaccine in a Phase 1 clinical trial

Beckett

Tjaden

Burgess

et al. 2011

Vaccine

128

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Safety and Immunogenicity of a Tetravalent Dengue DNA Vaccine Administered with a Cationic Lipid-Based Adjuvant in a Phase 1 Clinical Trial

Danko

Kochel

Teneza-Mora

et al. 2018

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Abstract.We conducted an open label, dose escalation Phase 1 clinical trial of a tetravalent dengue DNA vaccine (TVDV) formulated in Vaxfectin® to assess safety and immunogenicity. A total of 40 dengue- and flavivirus-naive volunteers received either low-dose (1 mg) TVDV alone (N = 10, group 1), low-dose TVDV (1 mg) formulated in Vaxfectin (N = 10, group 2), or high-dose TVDV (2 mg, group 3) formulated in Vaxfectin® (N = 20). Subjects were immunized intramuscularly with three doses on a 0-, 30-, 90-day schedule and monitored. Blood samples were obtained after each immunization and various time points thereafter to assess anti-dengue antibody and interferon gamma (IFNγ) T-cell immune responses. The most common adverse events (AEs) across all groups included mild to moderate pain and tenderness at the injection site, which typically resolved within 7 days. Common solicited signs and symptoms included fatigue (42.5%), headache (45%), and myalgias (47.5%). There were no serious AEs related to the vaccine or study procedures. No anti-dengue antibody responses were detected in group 1 subjects who received all three immunizations. There were minimal enzyme-linked immunosorbent assay and neutralizing antibody responses among groups 2 and 3 subjects who completed the immunization schedule. By contrast, IFNγ T-cell responses, regardless of serotype specificity, occurred in 70%, 50%, and 79% of subjects in groups 1, 2, and 3, respectively. The largest IFNγ T-cell responses were among group 3 subjects. We conclude that TVDV was safe and well-tolerated and elicited predominately anti-dengue T-cell IFNγ responses in a dose-related fashion.

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Development of dengue DNA vaccines

Danko

Beckett

Porter

2011

Vaccine

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a b s t r a c tVaccination with plasmid DNA against infectious pathogens including dengue is an active area of investigation. By design, DNA vaccines are able to elicit both antibody responses and cellular immune responses capable of mediating long-term protection. Great technical improvements have been made in dengue DNA vaccine constructs and trials are underway to study these in the clinic. The scope of this review is to highlight the rich history of this vaccine platform and the work in dengue DNA vaccines accomplished by scientists at the Naval Medical Research Center. This work resulted in the only dengue DNA vaccine tested in a clinical trial to date. Additional advancements paving the road ahead in dengue DNA vaccine development are also discussed.Published by Elsevier Ltd.

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Janine R. Danko

Immune plasma for the treatment of severe influenza: an open-label, multicentre, phase 2 randomised study

Trauma-related Infections in Battlefield Casualties From Iraq

Evaluation of a prototype dengue-1 DNA vaccine in a Phase 1 clinical trial

Safety and Immunogenicity of a Tetravalent Dengue DNA Vaccine Administered with a Cationic Lipid-Based Adjuvant in a Phase 1 Clinical Trial

Development of dengue DNA vaccines

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