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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT03945825
Other study ID # 18-0011
Secondary ID
Status Completed
Phase Phase 1
First received
Last updated
Start date June 10, 2019
Est. completion date September 18, 2020

Study information

Verified date February 19, 2021
Source National Institute of Allergy and Infectious Diseases (NIAID)
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

This is a Phase I, randomized, double blinded, clinical trial in up to 240 males and non-pregnant females, 18-45 years of age, inclusive, who are in good health and meet all eligibility criteria. This clinical trial is designed to assess the safety, reactogenicity and immunogenicity of either the 2018/2019 seasonal Fluzone or Flublok Quadrivalent Influenza Vaccine (QIV) manufactured by Sanofi Pasteur (SP) given without adjuvant or with one of two adjuvant formulations, AF03 or Advax-CpG55.2. Eight Vaccine and Treatment Evaluation Unit (VTEU) sites will be included in the study. Study duration is approximately 18 months, and subject participation duration is 12 months. The primary objectives of this study are: 1) to assess the safety and reactogenicity of 2018/2019 Fluzone and Flublok with and without AF03 or Advax-CpG55.2 adjuvant; 2) to assess the serum hemagglutination inhibition (HAI) antibody responses against 2018/2019 QIV strains from baseline (Day 1) to approximately Day 29 after receipt of 2018/2019 Fluzone and Flublok with and without AF03 or Advax-CpG55.2 adjuvant; 3) to assess the serum neuraminidase inhibition antibody (NAI) responses by enzyme-linked lectin assay (ELLA) against NA antigens in the 2018/2019 QIV from baseline (Day 1) to approximately Day 29 after receipt of 2018/2019 Fluzone and Flublok with and without AF03 or Advax-CpG55.2 adjuvant; 4) to assess the influenza neutralizing (Neut) antibody titer responses against 2018/2019 QIV strains from baseline (Day 1) to approximately Day 29 after receipt of 2018/2019 Fluzone and Flublok with and without AF03 or Advax- CpG55.2 adjuvant.


Description:

This is a Phase I, randomized, double blinded, clinical trial in up to 240 males and non-pregnant females, 18-45 years of age, inclusive, who are in good health and meet all eligibility criteria. This clinical trial is designed to assess the safety, reactogenicity and immunogenicity of either the 2018/2019 seasonal Fluzone or Flublok Quadrivalent Influenza Vaccine (QIV) manufactured by Sanofi Pasteur (SP) given without adjuvant or with one of two adjuvant formulations, AF03 or Advax-CpG55.2. Subjects will be stratified by prior receipt of licensed, seasonal influenza vaccine (defined as receipt of at least one of the 2017/2018 and/or 2018/2019 influenza vaccines) and will be randomly assigned to 1 of 6 treatment arms to receive a single dose of one of the two seasonal 2018/2019 QIV vaccine formulations with or without one of the two adjuvants (Day 1). On approximately Day 90, each subject will receive a single dose of the seasonal 2019/2020 QIV. Groups 1, 2 and 3 will receive 2019/2020 Fluzone QIV and Groups 4, 5 and 6 will receive 2019/2020 Flublok QIV. Eight Vaccine and Treatment Evaluation Unit (VTEU) sites will be included in the study. Study duration is approximately 18 months, and subject participation duration is 12 months. The primary objectives of this study are: 1) to assess the safety and reactogenicity of 2018/2019 Fluzone and Flublok with and without AF03 or Advax-CpG55.2 adjuvant; 2) to assess the serum hemagglutination inhibition (HAI) antibody responses against 2018/2019 QIV strains from baseline (Day 1) to approximately Day 29 after receipt of 2018/2019 Fluzone and Flublok with and without AF03 or Advax-CpG55.2 adjuvant; 3) to assess the serum neuraminidase inhibition antibody (NAI) responses by enzyme-linked lectin assay (ELLA) against NA antigens in the 2018/2019 QIV from baseline (Day 1) to approximately Day 29 after receipt of 2018/2019 Fluzone and Flublok with and without AF03 or Advax-CpG55.2 adjuvant; 4) to assess the influenza neutralizing (Neut) antibody titer responses against 2018/2019 QIV strains from baseline (Day 1) to approximately Day 29 after receipt of 2018/2019 Fluzone and Flublok with and without AF03 or Advax- CpG55.2 adjuvant. The secondary objectives of this study are: 1) to assess protocol specified adverse events of special interest (AESI), medically-attended adverse events (MAAEs), including new-onset chronic medical conditions (NOCMCs) and potentially immune-mediated medical conditions (PIMMCs) that occur after receipt of study product; 2) to assess the HAI, Neut and NAI ELLA responses to the 2019/2020 QIV strains prior to (Day 1) and approximately 28 days after vaccination with the 2019/2020 QIV in all study groups; 3) to assess the HAI antibody responses against heterologous influenza A/H1 and H3 strains from baseline (Day 1) to approximately Days 8, 29, 57, 90 and 118 after receipt of 2018/2019 Fluzone or Flublok with and without AF03 or Advax-CpG55.2 adjuvant; 4) to assess NAI ELLA responses against heterologous N1 and N2 NA antigens from baseline (Day 1) to approximately Days 8, 29, 57, 90 and 118 after administration of 2018/2019 Fluzone with and without AF03 or Advax-CpG55.2 adjuvant; 5) to assess the influenza neutralizing (Neut) antibody titer responses against heterologous influenza A/H1 and H3 strains from baseline (Day 1) to approximately Days 8, 29, 57, 90 and 118 after administration of 2018/2019 Fluzone and Flublok with and without AF03 or Advax-CpG55.2 adjuvant; 6) to assess the longitudinal kinetics and durability of the HAI, NAI, and Neut responses against the 2018/2019 QIV strains on approximately Days 8, 57, 90 and 118 following receipt of the 2018/2019 Fluzone and Flublok with and without AF03 or Advax-CpG55.2 adjuvant.


Recruitment information / eligibility

Status Completed
Enrollment 241
Est. completion date September 18, 2020
Est. primary completion date September 18, 2020
Accepts healthy volunteers Accepts Healthy Volunteers
Gender All
Age group 18 Years to 45 Years
Eligibility Inclusion Criteria: 1. Provide written informed consent prior to initiation of any study procedures. 2. Are able to understand and comply with planned study procedures and be available for all study visits. 3. Must agree to the collection of venous blood per protocol. 4. Are males or non-pregnant females, 18 to 45 years of age, inclusive at time of enrollment. 5. Are in good health*. *As determined by medical history and physical examination to evaluate acute or currently ongoing chronic medical or psychiatric diagnoses or conditions, defined as those that have been present for at least 90 days, which would affect the assessment of the safety of subjects or the immunogenicity of study vaccinations. Chronic medical diagnoses or conditions should be stable for the last 60 days (no hospitalizations, emergency room or urgent care for condition, or invasive medical procedure and no adverse symptoms that need medical intervention such as medication change/supplemental oxygen). This includes no change in chronic prescription medication, dose or in the 60 days prior to enrollment. Any prescription change that is due to change of health care provider, insurance company, etc., or that is done for financial reasons, as long as in the same class of medication, will not be considered a deviation of this inclusion criterion. Subjects may be on chronic or as needed (prn) medications if, in the opinion of the site PI or appropriate sub-investigator, they pose no additional risk to subject safety or assessment of reactogenicity and immunogenicity and do not indicate a worsening or treatment of continued symptoms of medical diagnosis or condition. Note: Low dose topical, corticosteroids as outlined in the Subject Exclusion Criteria as well as herbals, vitamins and supplements are permitted. 6. Oral temperature is less than 100.0 degrees Fahrenheit. 7. Pulse is 47 to 100 beats per minute, inclusive. 8. Systolic blood pressure is 85 to 140 mmHg, inclusive. 9. Diastolic blood pressure is 55 to 90 mmHg, inclusive. 10. Screening laboratories (Erythrocyte Sedimentation Rate (ESR), White Blood Cells (WBC), Hemoglobin (Hgb), Platelets (PLTs), Alanine Aminotransferase (ALT), Total Bilirubin (T. Bili), Aspartate Aminotransferase (AST), Gamma-glutamyl Transferase (GGT), Alkaline Phosphatase (ALP) serum lipase, serum amylase and Creatinine (Cr)) are within acceptable parameters*. *ESR must be below 30 mm/hr; WBC >3.90 K/MM3 and <10.60 K/MM3; Hgb >/= 11.5 g/dl (women) or >/= 12.5 g/dl (men); PLTs (EDTA) 140-415 K/MM3; PLTs (Citrate) 125-325 K/MM3 ALT </= 43 U/L (women) or </= 60 U/L (men); T Bili </=1.20 mg/dl; Cr < 1.1 mg/dl (women) or < 1.4 mg/dl (men); AST 10-36 U/L (women) or 10-43 U/L (men); GGT 5--32 U/L (women) or 10-49 U/L (men); ALP 30-115 U/L (women) or 43-115 U/L (men); lipase 13-60 U/L; amylase (Total) 35-121 U/L, for subjects to qualify for randomization and vaccination. 11. Women of childbearing potential* must use an acceptable contraception method** from at least 30 days before the first study vaccination until 60 days after the second study vaccination. *Not sterilized via bilateral oophorectomy, tubal ligation/ salpingectomy, hysterectomy, or successful Essure(R) placement (permanent, non-surgical, non-hormonal sterilization) with documented radiological confirmation test at least 90 days after the procedure, and still menstruating or <1 year has passed since the last menses if menopausal. - Includes non-male sexual relationships, full abstinence from sexual intercourse with a male partner, monogamous relationship with vasectomized partner who has been vasectomized for 180 days or more and shown to be azoospermic prior to the subject receiving the study vaccination, barrier methods such as condoms or diaphragms/cervical cap with spermicide, effective intrauterine devices, NuvaRing(R), and licensed hormonal methods such as implants, injectables or oral contraceptives ("the pill"). 12. Women of childbearing potential must have a negative urine or serum pregnancy test within 24 hours prior to the first study vaccination. 13. For a woman with potential to become pregnant, she understands that in the event of pregnancy during the study she will be approached to enroll in the Sanofi Pregnancy Registry. 14. Must agree to have residual specimens (i.e. residual/excess of per protocol specifications). Exclusion Criteria: 1. Have an acute illness*, as determined by the site Principal Investigator (PI) or appropriate sub-investigator, within 72 hours prior to study vaccination. *An acute illness which is nearly resolved with only minor residual symptoms remaining is allowable if, in the opinion of the site PI or appropriate sub-investigator, the residual symptoms will not interfere with the ability to assess safety parameters as required by the protocol. 2. Have any medical disease or condition that, in the opinion of the site PI or appropriate sub-investigator, is a contraindication to study participation*. *Including acute, subacute, intermittent or chronic medical disease or condition that would place the subject at an unacceptable risk of injury, render the subject unable to meet the requirements of the protocol, or may interfere with the evaluation of responses or the subject's successful completion of this trial. 3. Have immunosuppression as a result of an underlying illness or treatment, a recent history or current use of immunosuppressive or immunomodulating disease therapy. 4. Use of anticancer chemotherapy or radiation therapy (cytotoxic) within 3 years prior to study vaccination. 5. Have known active or recently active (12 months) neoplastic disease or a history of any hematologic malignancy. Non-melanoma, treated, skin cancers are permitted. 6. Have known human immunodeficiency virus (HIV), hepatitis B or hepatitis C infection. 7. Have known hypersensitivity or allergy to eggs, egg or chicken protein, squalene-based adjuvants, or other components of the study vaccine. 8. Have a history of severe reactions following previous immunization with licensed or unlicensed influenza vaccines. 9. Have a history of Guillain-Barré Syndrome (GBS). 10. Have a history of convulsions or encephalomyelitis within 90 days prior to study vaccination. 11. Have a history of Potentially Immune-Mediated Medical Conditions (PIMMCs). 12. Have a history of alcohol or drug abuse within 5 years prior to study vaccination. 13. Have any diagnosis, current or past, of schizophrenia, bipolar disease or other psychiatric diagnosis that may interfere* with subject compliance or safety evaluations. *As determined by the site PI or appropriate sub-investigator. 14. Have been hospitalized for psychiatric illness, history of suicide attempt, or confinement for danger to self or others within 5 years prior to study vaccination. 15. Have taken oral or parenteral (including intra-articular) corticosteroids of any dose within 30 days prior to study vaccination. 16. Have taken high-dose inhaled corticosteroids* within 30 days prior to study vaccination. *High-dose defined as per age as using inhaled high-dose per reference chart in the National Heart, Lung and Blood Institute Guidelines for the Diagnosis and Management of Asthma (EPR-3) or other lists published in UPTODATE. 17. Received or plan to receive a licensed, live vaccine (excluding all licensed, seasonal LAIVs) within 30 days before or after the study vaccination. 18. Received or plan to receive a licensed, inactivated vaccine (excluding all licensed, seasonal IIVs) within 14 days before or after each study vaccination. 19. Have received any 2018/2019 seasonal influenza vaccine within the 6 months prior to enrollment. 20. Plans to receive any 2019/2020 seasonal influenza vaccine within approximately 90 days of receipt of the first study vaccination. 21. Have a known history of documented influenza infection within the past 6 months. 22. Received immunoglobulin or other blood products (except Rho D immunoglobulin) within 90 days prior to study vaccination. 23. Received an experimental agent* within 30 days prior to the study vaccination or expect to receive another experimental agent* during the trial-reporting period*. *Including vaccine, drug, biologic, device, blood product, or medication. **Other than from participation in this trial. ***Approximately 12 months after the first study vaccination. 24. Are participating or plan to participate in another clinical trial with an interventional agent* that will be received during the trial-reporting period**. *Including licensed or unlicensed vaccine, drug, biologic, device, blood product, or medication. **Approximately 12 months after the first study vaccination. 25. Female subjects who are breastfeeding or plan to breastfeed from the time of the first study vaccination through 30 days after the last study vaccination. 26. Plan to travel outside the US (continental US, Hawaii and Alaska) from the time of study vaccination through approximately 90 days after the first study vaccination. 27. Planning to donate blood within 4 months following first vaccination. Exclusion Criteria for Second Study Vaccination: All study participants will be expected to receive the second study vaccination except under the circumstances listed below. The second study vaccination will not be administered to a subject if any of the following criteria are met: - Meets the contraindication on the package insert to receipt of licensed influenza vaccine. - As deemed necessary by the site principal investigator or appropriate sub-investigator for noncompliance or other reasons. - Subject refusal of further study vaccination. - Withdrawal of consent. - Subject is lost to follow-up. - Termination of this trial. - New information becomes available that makes further participation unsafe.

Study Design


Related Conditions & MeSH terms


Intervention

Drug:
AF03
A squalene-in-PBS emulsion stabilized by nonionic surfactants, sorbitan oleate and macrogol cetostearyl ether
Biological:
Delta Inulin-CpG55.2
A combination adjuvant supplied as two separate components, Delta Inulin (Sypharma Pty Ltd.) and CpG55.2 (Nikko Denka Avecia and Sypharma Pty Ltd)
Influenza Virus Quadrivalent Inactivated Vaccine
2018/2019 Fluzone QIV and 2019/2020 Fluzone QIV vaccines will be given with 90 days interval
Quadrivalent Recombinant Seasonal Influenza Vaccine
2018/2019 Flublok QIV and 2019/2020 Flublok QIV vaccines will be given with 90 days interval

Locations

Country Name City State
United States Emory University School of Medicine Atlanta Georgia
United States University of Maryland Baltimore - School of Medicine - Medicine Baltimore Maryland
United States Cincinnati Children's Hospital Medical Center Vaccine Research Center Cincinnati Ohio
United States Duke Vaccine and Trials Unit Durham North Carolina
United States Baylor College of Medicine Houston Texas
United States University of Iowa - Vaccine Research and Education Unit Iowa City Iowa
United States Vanderbilt University - Pediatric - Vanderbilt Vaccine Research Center Nashville Tennessee
United States Saint Louis University Center for Vaccine Development Saint Louis Missouri

Sponsors (1)

Lead Sponsor Collaborator
National Institute of Allergy and Infectious Diseases (NIAID)

Country where clinical trial is conducted

United States, 

Outcome

Type Measure Description Time frame Safety issue
Primary Number of Participants Reporting Local and Systemic Solicited Reactogenicity Events Post First Vaccination Local adverse events (AEs) solicited on a memory aid provided to participants included Pain, Tenderness, Itching/Pruritus, Ecchymosis/Bruising (functional grade based on interference with daily activities), Ecchymosis/Bruising (any measured value >0mm), Erythema/Redness (functional grade), Erythema/ Redness (any measured value >0mm), Induration/Swelling (functional grade), and Induration/Swelling (any measured value >0mm).
Systemic AEs solicited on a memory aid provided to participants included Elevated Oral Temperature, Feverishness, Fatigue, Malaise, Myalgia, Arthralgia, Headache, and Nausea. Participants are considered reporting the local or systemic AE if they reported mild or greater severity at any time during the 8 days at or following the first vaccination.
Day 1 through Day 8
Primary Number of Participants Reporting Serious and Non-serious Adverse Events (AE) Through Day 29 Adverse events were defined as any untoward medical occurrence in a participant administered a pharmaceutical product regardless of its causal relationship to the study treatment. Non-serious AEs were collected from participants at follow up visits through 28 days after the first study vaccination while serious adverse events (SAEs) were collected at follow up visits through approximately 12 months after the first study vaccination. Adverse events were MedDRA coded and are summarized by MedDRA System Organ Class (SOC). Day 1 through Day 29
Primary Number of Participants Reporting Serious Adverse Events (SAEs) SAEs included any untoward medical occurrence that resulted in death; was life threatening; was a persistent/significant disability/incapacity; required inpatient hospitalization or prolongation or a congenital anomaly/birth defect. All SAEs were reported from time of first study vaccination through approximately 12 months after the first study vaccination. Day 1 through Day 365
Primary Number of Participants Reporting Clinical Safety Laboratory Adverse Events (AEs) Post First Vaccination Laboratory parameters include white blood cells (WBC), hemoglobin, platelets, alanine aminotransferase (ALT), aspartate aminotransferase (AST), bilirubin, Gamma-Glutamyl Transferase (GGT), alkaline phosphatase (ALP), amylase, lipase, and creatinine. Thresholds for adverse events were considered WBC of 3.90 x10^3/uL or lower or 10.60 x10^3/uL or higher; hemoglobin 11.4 g/dL or lower (female) or 12.4 g/dL or lower (male); platelets 139 x10^3/uL or below or 416 x10^3/uL or greater when using EDTA tubes or platelets 124 x10^3/uL or below or 550 x10^3/uL or greater when using Citrate tubes; ALT 44 IU/L or greater (female) or 61 IU/L or greater (male); AST 37 IU/L or greater (female) or 44 IU/L or greater (male); bilirubin 1.30 mg/dL or greater; GGT 33 IU/L or greater (female) or 50 IU/L or greater (male); ALP 116 IU/L or greater; amylase 122 IU/L or greater; lipase 61 IU/L or greater; creatinine 1.1 mg/dL or greater (female) or 1.4 mg/dL or greater (male). Day 1 through Day 8
Primary Geometric Mean Titers (GMTs) of Serum Hemagglutination Inhibition (HAI) Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for HAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. The geometric mean titer was calculated for each study arm from the available results at Day 1 and Day 29 post first study vaccination. Day 1, Day 29
Primary Ratio of Geometric Mean Titers (GMTs) of Serum Hemagglutination Inhibition (HAI) Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Between Adjuvanted and Unadjuvanted Study Arms Blood was collected for HAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. The geometric mean titer was calculated for each study arm from the available results at Day 1 and Day 29 post first study vaccination and the ratio of these GMTs between adjuvanted and unadjuvanted study arms were calculated.
Unadjuvanted Fluzone and Flublok study arms are considered as reference groups for the analysis of ratio of GMTs.
Ratio of GMTs is defined as the ratio of the GMT from the adjuvanted group divided by the GMT from the corresponding unadjuvanted group.
Day 1, Day 29
Primary Percentage of Participants Achieving Hemagglutination Inhibition (HAI) Titer Seroconversion Against 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for HAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. HAI seroconversion was defined as either a pre-vaccination titer < 1:10 and a post-vaccination titer >= 1:40 or a pre-vaccination titer >= 1:10 and a minimum four-fold rise in post-vaccination antibody titer. Day 29
Primary Percentage of Participants With Hemagglutination Inhibition (HAI) Titer of 1:40 or Greater Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for HAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. Day 1, Day 29
Primary Geometric Mean Fold Rise (GMFR) in Hemagglutination Inhibition (HAI) Titers Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for HAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. Fold-rises from baseline were calculated as the Day 29 titer divided by the baseline titers for each participant. The geometric mean of these fold rises was then calculated to obtain the GMFR. Day 29
Primary Geometric Mean Titers (GMTs) of Serum Neuraminidase Inhibition (NAI) Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for NAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. The geometric mean titer was calculated for each study arm from the available results at Day 1 and Day 29 post first study vaccination. Day 1, Day 29
Primary Ratio of Geometric Mean Titers (GMTs) of Serum Neuraminidase Inhibition (NAI) Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Between Adjuvanted and Unadjuvanted Study Arms Blood was collected for NAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. The geometric mean titer was calculated for each study arm from the available results at Day 1 and Day 29 post first study vaccination and the ratio of these GMTs between adjuvanted and unadjuvanted study arms were calculated.
Unadjuvanted Fluzone and Flublok study arms are considered as reference groups for the analysis of ratio of GMTs.
Ratio of GMTs is defined as the ratio of the GMT from the adjuvanted group divided by the GMT from the corresponding unadjuvanted group.
Day 1, Day 29
Primary Percentage of Participants Achieving Neuraminidase Inhibition (NAI) Titer Seroconversion Against 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for NAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. NAI seroconversion was defined as >4 four-fold rise in post-vaccination antibody titer at Day 29. Day 29
Primary Geometric Mean Fold Rise (GMFR) in Neuraminidase Inhibition (NAI) Titers Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for NAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. Fold-rises from baseline were calculated as the Day 29 titer divided by the baseline titers for each participant. The geometric mean of these fold rises was then calculated to obtain the GMFR. Day 29
Primary Geometric Mean Titers (GMTs) of Serum Neutralizing (Neut) Titers Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for Neut assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which a geometric mean titer of the replicates was reported by the lab. The geometric mean titer was calculated for each study arm from the available results at Day 1 and Day 29 post first study vaccination. Day 1, Day 29
Primary Ratio of Serum Neutralizing (Neut) Geometric Mean Titers (GMT) Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Between Adjuvanted and Unadjuvanted Study Arms Blood was collected for Neut assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which a geometric mean titer of the replicates was reported by the lab. The geometric mean titer was calculated for each study arm from the available results at Day 1 and Day 29 post first study vaccination and the ratio of these GMTs between adjuvanted and unadjuvanted study arms were calculated.
Unadjuvanted Fluzone and Flublok study arms are considered as reference groups for the analysis of ratio of GMTs.
Ratio of GMTs is defined as the ratio of the GMT from the adjuvanted group divided by the GMT from the corresponding unadjuvanted group.
Day 1, Day 29
Primary Percentage of Participants Achieving Neutralizing (Neut) Titer Seroconversion Against 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for Neut assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which a geometric mean titer of the replicates was reported by the lab. Neut seroconversion was defined as either a pre-vaccination titer < 1:10 and a post-vaccination titer >= 1:40 or a pre-vaccination titer >= 1:10 and a minimum four-fold rise in post-vaccination antibody titer. Day 29
Primary Percentage of Participants With Neutralizing (Neut) Titer of 1:40 or Greater Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for Neut assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which a geometric mean titer of the replicates was reported by the lab. Day 1, Day 29
Primary Geometric Mean Fold Rise (GMFR) in Neutralizing (Neut) Titers Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for Neut assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which a geometric mean titer of the replicates was reported by the lab. Fold-rises from baseline were calculated as the Day 29 titer divided by the baseline titers for each participant. The geometric mean of these fold rises was then calculated to obtain the GMFR. Day 29
Secondary Number of Participants Reporting Protocol Specified Adverse Events of Special Interest (AESIs) Participants were queried at each visit for the occurrence of adverse events of special interest (AESIs) through approximately 12 months following the first study vaccination. AESIs include reports of tearing, dry mouth, and dry eyes. Day 1 through Day 365
Secondary Number of Participants Reporting Medically-Attended Adverse Events (MAAEs), New-Onset Chronic Medical Conditions (NOCMCs), and Potentially Immune-Mediated Medical Conditions (PIMMCs) Participants were queried at each visit for the occurrence of medically-attended adverse events (MAAEs), including new-onset chronic medical conditions (NOCMCs) and potentially immune-mediated medical conditions (PIMMCs) through approximately 12 months following the first study vaccination. Day 1 through Day 365
Secondary Geometric Mean Titers (GMTs) of Serum Hemagglutination Inhibition (HAI) Against the 2019/2020 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for HAI assay which was conducted with the 2019/2020 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. The geometric mean titer was calculated for each study arm from the available results at Day 90 and Day 118 post first study vaccination. Day 90 through Day 118
Secondary Ratio of Geometric Mean Titers (GMTs) of Serum Hemagglutination Inhibition (HAI) Against the 2019/2020 Quadrivalent Influenza Vaccine (QIV) Strains Between Adjuvanted and Unadjuvanted Study Arms Blood was collected for HAI assay which was conducted with the 2019/2020 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. The geometric mean titer was calculated for each study arm from the available results at Day 90 and Day 118 post first study vaccination and the ratio of these GMTs between adjuvanted and unadjuvanted study arms were calculated.
Unadjuvanted Fluzone and Flublok study arms are considered as reference groups for the analysis of ratio of GMTs.
Ratio of GMTs is defined as the ratio of the GMT from the adjuvanted group divided by the GMT from the corresponding unadjuvanted group.
Day 90 through Day 118
Secondary Percentage of Participants Achieving Hemagglutination Inhibition (HAI) Titer Seroconversion Against 2019/2020 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for HAI assay which was conducted with the 2019/2020 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. HAI seroconversion was defined as either a pre-second vaccination titer < 1:10 and a post- second vaccination titer >= 1:40 or a pre-second vaccination titer >= 1:10 and a minimum four-fold rise in post-vaccination antibody titer. Day 118
Secondary Percentage of Participants With Hemagglutination Inhibition (HAI) Titer of 1:40 or Greater Against the 2019/2020 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for HAI assay which was conducted with the 2019/2020 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. Day 90 through Day 118
Secondary Geometric Mean Fold Rise in Hemagglutination Inhibition (HAI) Titers Against the 2019/2020 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for HAI assay which was conducted with the 2019/2020 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. Fold-rises at Day 118 were calculated as the Day 118 titer divided by the Day 90 titers for each participant. The geometric mean of these fold rises was then calculated to obtain the GMFR. Day 90 through Day 118
Secondary Geometric Mean Titers (GMTs) of Serum Neuraminidase Inhibition (NAI) Against the 2019/2020 Quadrivalent Influenza Vaccine (QIV) Strains for the Fluzone Study Arms Blood was collected for NAI assay which was conducted with the 2019/2020 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. The geometric mean titer was calculated for each study arm from the available results at Day 90 and Day 118 post first study vaccination. Day 90 through Day 118
Secondary Ratio of Geometric Mean Titers (GMTs) of Serum Neuraminidase Inhibition (NAI) Against the 2019/2020 Quadrivalent Influenza Vaccine (QIV) Strains Between Adjuvanted and Unadjuvanted Study Arms for the Fluzone Study Arms Blood was collected for NAI assay which was conducted with the 2019/2020 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. The geometric mean titer was calculated for each study arm from the available results at Day 90 and Day 118 post first study vaccination and the ratio of these GMTs between adjuvanted and unadjuvanted study arms were calculated.
The unadjuvanted Fluzone study arm is considered a reference group for the analysis of ratio of GMTs.
Ratio of GMTs is defined as the ratio of the GMT from the adjuvanted group divided by the GMT from the corresponding unadjuvanted group.
Day 90 through Day 118
Secondary Percentage of Participants Achieving Neuraminidase Inhibition (NAI) Titer Seroconversion Against 2019/2020 Quadrivalent Influenza Vaccine (QIV) Strains for the Fluzone Study Arms Blood was collected for NAI assay which was conducted with the 2019/2020 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. NAI seroconversion was defined as >4 four-fold rise in post-vaccination antibody titer at Day 90 through Day 118. Day 118
Secondary Geometric Mean Fold Rise (GMFR) in Neuraminidase Inhibition (NAI) Titers Against the 2019/2020 Quadrivalent Influenza Vaccine (QIV) Strains for the Fluzone Study Arms Blood was collected for NAI assay which was conducted with the 2019/2020 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. Fold-rises at Day 118 were calculated as the Day 118 titer divided by the Day 90 titers for each participant. The geometric mean of these fold rises was then calculated to obtain the GMFR. Day 118
Secondary Geometric Mean Titers (GMTs) of Serum Neutralizing (Neut) Titers Against the 2019/2020 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for Neut assay which was conducted with the 2019/2020 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which a geometric mean titer of the replicates was reported by the lab. The geometric mean titer was calculated for each study arm from the available results at Day 90 and Day 118 post first study vaccination. Day 90 through Day 118
Secondary Ratio of Serum Neutralizing (Neut) Geometric Mean Titers (GMT) Against the 2019/2020 Quadrivalent Influenza Vaccine (QIV) Strains Between Adjuvanted and Unadjuvanted Study Arms Blood was collected for Neut assay which was conducted with the 2019/2020 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which a geometric mean titer of the replicates was reported by the lab. The geometric mean titer was calculated for each study arm from the available results at Day 90 and Day 118 post first study vaccination and the ratio of these GMTs between adjuvanted and unadjuvanted study arms were calculated.
Unadjuvanted Fluzone and Flublok study arms are considered as reference groups for the analysis of ratio of GMTs.
Ratio of GMTs is defined as the ratio of the GMT from the adjuvanted group divided by the GMT from the corresponding unadjuvanted group.
Day 90 through Day 118
Secondary Percentage of Participants Achieving Neutralizing (Neut) Titer Seroconversion Against 2019/2020 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for Neut assay which was conducted with the 2019/2020 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which a geometric mean titer of the replicates was reported by the lab. Neut seroconversion was defined as either a pre-second vaccination titer < 1:10 and a post-second vaccination titer >= 1:40 or a pre-second vaccination titer >= 1:10 and a minimum four-fold rise in post-vaccination antibody titer. Day 118
Secondary Geometric Mean Fold Rise (GMFR) in Neutralizing (Neut) Titers Against the 2019/2020 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for Neut assay which was conducted with the 2019/2020 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which a geometric mean titer of the replicates was reported by the lab. Fold-rises at Day 118 were calculated as the Day 118 titer divided by the Day 90 titers for each participant. The geometric mean of these fold rises was then calculated to obtain the GMFR. Day 118
Secondary Geometric Mean Titers (GMTs) of Serum Hemagglutination Inhibition (HAI) Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for HAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. The geometric mean titer was calculated for each study arm from the available results at Day 8, Day 57, Day 90, and Day 118 Post first study vaccination. Day 8, Day 57, Day 90, Day 118
Secondary Ratio of Geometric Mean Titers (GMTs) of Serum Hemagglutination Inhibition (HAI) Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Between Adjuvanted and Unadjuvanted Study Arms Blood was collected for HAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. The geometric mean titer was calculated for each study arm from the available results at Day 8, Day 57, Day 90, and Day 118 Post first study vaccination and the ratio of these GMTs between adjuvanted and unadjuvanted study arms were calculated.
Unadjuvanted Fluzone and Flublok study arms are considered as reference groups for the analysis of ratio of GMTs.
Ratio of GMTs is defined as the ratio of the GMT from the adjuvanted group divided by the GMT from the corresponding unadjuvanted group.
Day 8, Day 57, Day 90, Day 118
Secondary Percentage of Participants Achieving Hemagglutination Inhibition (HAI) Titer Seroconversion Against 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for HAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. HAI seroconversion was defined as either a pre-vaccination titer < 1:10 and a post-vaccination titer >= 1:40 or a pre-vaccination titer >= 1:10 and a minimum four-fold rise in post-vaccination antibody titer. Day 8, Day 57, Day 90, Day 118
Secondary Percentage of Participants With Hemagglutination Inhibition (HAI) Titer of 1:40 or Greater Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for HAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. Day 8, Day 57, Day 90, Day 118
Secondary Geometric Mean Fold Rise (GMFR) in Hemagglutination Inhibition (HAI) Titers Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for HAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. Fold-rises from baseline were calculated as the Day 8 (or Day 57, Day 90, Day 118) titer divided by the baseline titers for each participant. The geometric mean of these fold rises was then calculated to obtain the GMFR. Day 8, Day 57, Day 90, Day 118
Secondary Geometric Mean Titers (GMTs) of Serum Neuraminidase Inhibition (NAI) Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains for the Fluzone Study Arms Blood was collected for NAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. The geometric mean titer was calculated for each study arm from the available results at Day 8, Day 57, Day 90, and Day 118 Post first study vaccination. Day 8, Day 57, Day 90, Day 118
Secondary Ratio of Geometric Mean Titers (GMTs) of Serum Neuraminidase Inhibition (NAI) Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Between Adjuvanted and Unadjuvanted Study Arms for the Fluzone Study Arms Blood was collected for NAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. The geometric mean titer was calculated for each study arm from the available results at Day 8, Day 57, Day 90, and Day 118 Post first study vaccination and the ratio of these GMTs between adjuvanted and unadjuvanted study arms were calculated.
The unadjuvanted Fluzone study arm is considered a reference group for the analysis of ratio of GMTs.
Ratio of GMTs is defined as the ratio of the GMT from the adjuvanted group divided by the GMT from the corresponding unadjuvanted group.
Day 8, Day 57, Day 90, Day 118
Secondary Percentage of Participants Achieving Neuraminidase Inhibition (NAI) Titer Seroconversion Against 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains for the Fluzone Study Arms Blood was collected for NAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. NAI seroconversion was defined as >4 four-fold rise in post-vaccination antibody titer at Day 8, 57, 90, and 118. Day 8, Day 57, Day 90, Day 118
Secondary Geometric Mean Fold Rise (GMFR) in Neuraminidase Inhibition (NAI) Titers Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains for the Fluzone Study Arms Blood was collected for NAI assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. Fold-rises from baseline were calculated as the Day 8 (or Day 57, Day 90, Day 118) titer divided by the baseline titers for each participant. The geometric mean of these fold rises was then calculated to obtain the GMFR. Day 8, Day 57, Day 90, Day 118
Secondary Geometric Mean Titers (GMTs) of Serum Neutralizing (Neut) Titers Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for Neut assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which is a geometric mean titer of the replicates was reported by the lab. The geometric mean titer was calculated for each study arm from the available results at Day 8, Day 57, Day 90, and Day 118 Post first study vaccination. Day 8, Day 57, Day 90, Day 118
Secondary Ratio of Serum Neutralizing (Neut) Geometric Mean Titers (GMT) Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Between Adjuvanted and Unadjuvanted Study Arms Blood was collected for Neut assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which is a geometric mean titer of the replicates was reported by the lab. The geometric mean titer was calculated for each study arm from the available results at Day 8, Day 57, Day 90, and Day 118 Post first study vaccination and the ratio of these GMTs between adjuvanted and unadjuvanted study arms were calculated.
Unadjuvanted Fluzone and Flublok study arms are considered as reference groups for the analysis of ratio of GMTs.
Ratio of GMTs is defined as the ratio of the GMT from the adjuvanted group divided by the GMT from the corresponding unadjuvanted group.
Day 8, Day 57, Day 90, Day 118
Secondary Percentage of Participants Achieving Neutralizing (Neut) Titer Seroconversion Against 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for Neut assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which is a geometric mean titer of the replicates was reported by the lab. Neut seroconversion was defined as either a pre-vaccination titer < 1:10 and a post-vaccination titer >= 1:40 or a pre-vaccination titer >= 1:10 and a minimum four-fold rise in post-vaccination antibody titer. Day 8, Day 57, Day 90, Day 118
Secondary Percentage of Participants With Neutralizing (Neut) Titer of 1:40 or Greater Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for Neut assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which is a geometric mean titer of the replicates was reported by the lab. Day 8, Day 57, Day 90, Day 118
Secondary Geometric Mean Fold Rise (GMFR) in Neutralizing (Neut) Titers Against the 2018/2019 Quadrivalent Influenza Vaccine (QIV) Strains Blood was collected for Neut assay which was conducted with the 2018/2019 QIV viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which a geometric mean titer of the replicates was reported by the lab. Fold-rises from baseline were calculated as the Day 8 (or Day 57, Day 90, Day 118) titer divided by the baseline titers for each participant. The geometric mean of these fold rises was then calculated to obtain the GMFR. Day 8, Day 57, Day 90, Day 118
Secondary Geometric Mean Titers (GMTs) of Serum Hemagglutination Inhibition (HAI) Against Heterologous H1 and H3 Influenza Strains Blood was collected for HAI assay which was conducted with the heterologous H1 and H3 influenza viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. The geometric mean titer was calculated for each study arm from the available results at Day 1, Day 8, Day 29, Day 57, Day 90, and Day 118 post first study vaccination. Day 1, Day 8, Day 29, Day 57, Day 90, Day 118
Secondary Ratio of Geometric Mean Titers (GMTs) of Serum Hemagglutination Inhibition (HAI) Against Heterologous H1 and H3 Influenza Strains Between Adjuvanted and Unadjuvanted Study Arms Blood was collected for HAI assay which was conducted with the heterologous H1 and H3 influenza viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. The geometric mean titer was calculated for each study arm from the available results at Day 1, Day 8, Day 29, Day 57, Day 90, and Day 118 post first study vaccination and the ratio of these GMTs between adjuvanted and unadjuvanted study arms was calculated.
Unadjuvanted Fluzone and Flublok study arms are considered as reference groups for the analysis of ratio of GMTs.
Ratio of GMTs is defined as the ratio of the GMT from the adjuvanted group divided by the GMT from the corresponding unadjuvanted group.
Day 1, Day 8, Day 29, Day 57, Day 90, Day 118
Secondary Percentage of Participants Achieving Hemagglutination Inhibition (HAI) Titer Seroconversion Against Heterologous H1 and H3 Influenza Strains Blood was collected for HAI assay which was conducted with the heterologous H1 and H3 influenza viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. HAI seroconversion was defined as either a pre-vaccination titer < 1:10 and a post-vaccination titer >= 1:40 or a pre-vaccination titer >= 1:10 and a minimum four-fold rise in post-vaccination antibody titer. Day 8, Day 29, Day 57, Day 90, Day 118
Secondary Percentage of Participants With Hemagglutination Inhibition (HAI) Titer of 1:40 or Greater Against Heterologous H1 and H3 Influenza Strains Blood was collected for HAI assay which was conducted with the heterologous H1 and H3 influenza viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. Day 1, Day 8, Day 29, Day 57, Day 90, Day 118
Secondary Geometric Mean Fold Rise (GMFR) in Hemagglutination Inhibition (HAI) Titers Against Heterologous H1 and H3 Influenza Strains Blood was collected for HAI assay which was conducted with the heterologous H1 and H3 influenza viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. Fold-rises from baseline were calculated as the Day 8 (or Day 29, Day 57, Day 90, Day 118) titer divided by the baseline titers for each participant. The geometric mean of these fold rises was then calculated to obtain the GMFR. Day 8, Day 29, Day 57, Day 90, Day 118
Secondary Geometric Mean Titers (GMTs) of Serum Neuraminidase Inhibition (NAI) Against Heterologous N1 and N2 Neuraminidase (NA) Antigens for the Fluzone Study Arms Blood was collected for NAI assay which was conducted with the heterologous N1 and N2 NA viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. The geometric mean titer was calculated for each study arm from the available results at Day 1, Day 8, Day 29, Day 57, Day 90, and Day 118 Post first study vaccination. Day 1, Day 8, Day 29, Day 57, Day 90, Day 118
Secondary Ratio of Geometric Mean Titers (GMTs) of Serum Neuraminidase Inhibition (NAI) Against Heterologous N1 and N2 Neuraminidase (NA) Antigens Between Adjuvanted and Unadjuvanted Study Arms for the Fluzone Study Arms Blood was collected for NAI assay which was conducted with the heterologous N1 and N2 NA viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. The geometric mean titer was calculated for each study arm from the available results at Day 1, Day 8, Day 29, Day 57, Day 90, and Day 118 Post first study vaccination and the ratio of these GMTs between adjuvanted and unadjuvanted study arms were calculated.
The unadjuvanted Fluzone study arm is considered a reference group for the analysis of ratio of GMTs.
Ratio of GMTs is defined as the ratio of the GMT from the adjuvanted group divided by the GMT from the corresponding unadjuvanted group.
Day 1, Day 8, Day 29, Day 57, Day 90, Day 118
Secondary Percentage of Participants Achieving Neuraminidase Inhibition (NAI) Titer Seroconversion Against Heterologous N1 and N2 Neuraminidase (NA) Antigens for the Fluzone Study Arms Blood was collected for NAI assay which was conducted with the heterologous N1 and N2 NA viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. NAI seroconversion was defined as >4 four-fold rise in post-vaccination antibody titer at Day 8, 29, 57, 90, and 118. Day 8, Day 29, Day 57, Day 90, Day 118
Secondary Geometric Mean Fold Rise (GMFR) in Neuraminidase Inhibition (NAI) Titers Against Heterologous N1 and N2 Neuraminidase (NA) Antigens for the Fluzone Study Arms Blood was collected for NAI assay which was conducted with the heterologous N1 and N2 NA viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, and the geometric mean of the replicate results of each antigen was calculated as that sample's result. Fold-rises from baseline were calculated as the Day 8 (or Day 29, Day 57, Day 90, Day 118) titer divided by the baseline titers for each participant. The geometric mean of these fold rises was then calculated to obtain the GMFR. Day 8, Day 29, Day 57, Day 90, Day 118
Secondary Geometric Mean Titers (GMTs) of Serum Neutralizing (Neut) Titers Against Heterologous H1 and H3 Influenza Strains Blood was collected for Neut assay which was conducted with the heterologous H1 and H3 influenza viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which a geometric mean titer of the replicates was reported by the lab. The geometric mean titer was calculated for each study arm from the available results at Day 1, Day 8, Day 29, Day 57, Day 90, and Day 118 Post first study vaccination. Day 1, Day 8, Day 29, Day 57, Day 90, Day 118
Secondary Ratio of Serum Neutralizing (Neut) Geometric Mean Titers (GMT) Against Heterologous H1 and H3 Influenza Strains Between Adjuvanted and Unadjuvanted Study Arms Blood was collected for Neut assay which was conducted with the heterologous H1 and H3 influenza viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which a geometric mean titer of the replicates was reported by the lab. The geometric mean titer was calculated for each study arm from the available results at Day 1, Day 8, Day 29, Day 57, Day 90, and Day 118 Post first study vaccination and the ratio of these GMTs between adjuvanted and unadjuvanted study arms were calculated.
Unadjuvanted Fluzone and Flublok study arms are considered as reference groups for the analysis of ratio of GMTs.
Ratio of GMTs is defined as the ratio of the GMT from the adjuvanted group divided by the GMT from the corresponding unadjuvanted group.
Day 1, Day 8, Day 29, Day 57, Day 90, Day 118
Secondary Percentage of Participants Achieving Neutralizing (Neut) Titer Seroconversion Against Heterologous H1 and H3 Influenza Strains Blood was collected for Neut assay which was conducted with the heterologous H1 and H3 influenza viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which a geometric mean titer of the replicates was reported by the lab. Neut seroconversion was defined as either a pre-vaccination titer < 1:10 and a post-vaccination titer >= 1:40 or a pre-vaccination titer >= 1:10 and a minimum four-fold rise in post-vaccination antibody titer. Day 8, Day 29, Day 57, Day 90, Day 118
Secondary Geometric Mean Fold Rise (GMFR) in Neutralizing (Neut) Titers Against Heterologous H1 and H3 Influenza Strains Blood was collected for Neut assay which was conducted with the heterologous H1 and H3 influenza viruses as the antigens. Each sample was tested twice per antigen per the laboratory's standard operating procedure, but only one result which a geometric mean titer of the replicates was reported by the lab. Fold-rises from baseline were calculated as the Day 8 (or Day 29, Day 57, Day 90, Day 118) titer divided by the baseline titers for each participant. The geometric mean of these fold rises was then calculated to obtain the GMFR. Day 8, Day 29, Day 57, Day 90, Day 118
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