Plague Clinical Trial - Immunogenicity & Safety of Subunit NCT05330624

Clinical Trial Details — Status: Active, not recruiting

Administrative data
NCT number	NCT05330624
Other study ID #	JSVCT083
Secondary ID
Status	Active, not recruiting
Phase	Phase 2
First received
Last updated
Start date	May 8, 2020
Est. completion date	September 20, 2022

Study information
Verified date	April 2022
Source	Jiangsu Province Centers for Disease Control and Prevention
Contact	n/a
Is FDA regulated	No
Health authority
Study type	Interventional

Clinical Trial Summary

Plague is a potentially fatal infection in humans caused by the bacterium Yersinia pestis. Pneumonic plague is typically diagnosed in humans with high mortality. It has a long history for plague as an agent of biowarfare, and pose a serious threat to international security. Althought the killed whole-cell plague vaccine and live attenuated vaccine has been licensed. They are rarely used today because of toxicities, limited evidence for efficacy to prevent plague, and limited commercial availability. In the last twenty years, it have focused on recombinant subunit vaccines which were formed F1 and V antigens as the main composition provide greater protection than vaccines comprised of either subunit alone. This study was aim to exploring the safety and immunogenicity of a new type plague subunit vaccine which comprised natural F1 antigen and recombined V antigen (F1+rV) in two immunization regimens.

Description:

Plague is a potentially fatal infection in humans caused by the bacterium Yersinia pestis, transmitted naturally from rodent reservoirs to humans via fleas. Human disease may also result from contact with blood or tissues of infected animals or exposure to aerosolized droplets containing bacteria. Pneumonic plague is typically diagnosed in humans with with high mortality. It has a long history for plague as an agent of biowarfare, and pose a serious threat to international security. In human history, there were three outbreaks of plague all over the world, about 200 million people died from the disease. The increasing trend of plague epidemic in recent years, some regions and countries in the world still has the outbreak of the plague. It implied that safety and safe and effective vaccine is urgently to developing. Althought the killed whole-cell plague vaccine and live attenuated vaccine has been licensed, these vaccines cause significant adverse reactions, including fever, headache, malaise, lymphadenopathy, erythema and induration at the injection site with high degree of immune variability. They are rarely used today because of toxicities, limited evidence for efficacy to prevent plague, and limited commercial availability. Based on the researches in the last twenty years, it have focused on recombinant subunit vaccines which were formed F1 and V antigens as the main composition provide greater protection than vaccines comprised of either subunit alone. In the primary phase 2a clinical trial, 30μg formulation showed a stronger and sustained immune response. This study was aim to exploring the safety and immunogenicity of a new type plague subunit vaccine which comprised 30μg natural F1 antigen and 30μg recombined V antigen (F1+rV) in two immunization regimens.

Recruitment information / eligibility
Status	Active, not recruiting
Enrollment	720
Est. completion date	September 20, 2022
Est. primary completion date	May 20, 2022
Accepts healthy volunteers	Accepts Healthy Volunteers
Gender	All
Age group	18 Years to 55 Years
Eligibility	Inclusion Criteria: - Healthy adults aged 18-55months old as established by medical history and clinical examination. - The subjects' guardians are able to understand and sign the informed consent. - Subjects who can and will comply with the requirements of the protocol. - Subjects with temperature =37.0°C on axillary setting. Exclusion Criteria: - Family history of seizures or progressive neurological disease. - Subject who has a medical history of plague, or had been vaccination of plague vaccine. - Subject that has a medical history of any of the following: allergic history, or allergic to any ingredient of vaccine. - Any confirmed or suspected autoimmune diseases or immune deficiency disorders, including human immunodeficiency virus (HIV) infection. - Dysgenopathy or severe chronic disease. - Pregnant or lactating women, women of reproductive age without contraception. - Thrombocytopenia or other blood coagulation disorder, taboos of intramuscular injection and collection of blood. - Difficulty in blood collection. - Any prior administration of immunodepressant or corticosteroids, and antianaphylactic treatment, cytotoxic therapy in last 6 months. - Any prior administration of blood products in last 3 month. - Any prior administration of other research medicines in last 4 weeks. - Any prior administration of attenuated live vaccine in last 4 weeks. - Any prior administration of subunit or inactivated vaccines in last 2 weeks. - Had fever before vaccination, subjects with temperature >37.0°C on axillary setting. - Any condition that in the opinion of the investigator, may interferes the evaluation of study objectives. Exclusion Criteria for the other doses: - Subject who must be excluded according to the exclusion criteria for the first dose - Grade 3 or above systemic adverse reactions or unacceptable adverse reactions at injection site after the previous inoculation. - Other reasons in the opinion of the investigator that affect continuing vaccination. Criteria for postponding of vaccination -Recovered subject who be sick during the time window of vaccination whether to continue vaccination determined by the investigator according to the requirements of the protocol.

Study Design

Related Conditions & MeSH terms

Plague

Intervention

Biological:
• plague vaccine(F1+rV)
plague vaccine(F1+rV) (Lanzhou Institute of Biological Products Co.,Ltd) of 1.0ml, three doses

Locations
Country	Name	City	State
China	Jiangsu Provincial Center for Diseases Control and Prevention	Nanjing	Jiangsu

Sponsors *(1)*
Lead Sponsor	Collaborator
Jiangsu Province Centers for Disease Control and Prevention

Country where clinical trial is conducted

China,

See also
Status	Clinical Trial	Phase
Completed	`NCT02596308` - Immunogenicity and Safety of Subunit Plague Vaccine	Phase 2
Completed	`NCT00246467` - One Year Study to Evaluate Three Different Adjuvanted Doses of the Recombinant Plague Vaccine (rF1 and rV Antigens)	Phase 1
Recruiting	`NCT04562012` - Lateral Flow Assays for Pathogens of the Plague
Recruiting	`NCT04688996` - Yersinia Pestis Lateral Flow Immunoassay for Blood Samples
Completed	`NCT01381744` - Dose Escalation Trial of a Plague Vaccine, Flagellin/F1/V, in Healthy Adult Volunteers	Phase 1
Recruiting	`NCT01243437` - A Clinical Trial to Evaluate the Safety and Efficacy of Ciprofloxacin in the Treatment of Plague in Humans	Phase 2
Completed	`NCT05506969` - Trial of the Immunogenicity, Safety, and Tolerability of rF1V Vaccine With CpG 1018® Adjuvant Compared With rF1V Vaccine in Adults 18 to 55 Years of Age	Phase 2
Completed	`NCT00128466` - Treatment and Diagnosis of Plague	Phase 2/Phase 3

Immunogenicity and Safety of Subunit Vaccine of Plague Vaccine With Two Immunization Regimens

Clinical Trial Details — Status: Active, not recruiting

Administrative data

Study information

Clinical Trial Summary

Description:

Recruitment information / eligibility

Study Design

Related Conditions & MeSH terms

Intervention

Locations

Sponsors (1)

Country where clinical trial is conducted

Outcome

Type	Measure	Description	Time frame
Primary	the GMT of antibodies to F1 antigen on Month 7 post-dose 1	the GMT of antibodies to F1 antigen on Month 7 post-dose 1	Month 7 post-dose 1
Primary	the GMT of antibodies to rV antigen on Month 7 post-dose 1	the GMT of antibodies to rV antigen on Month 7 post-dose 1	Month 7 post-dose 1
Secondary	The seroconversion of antibodies to F1 antigen on Month 7 post-dose 1	The seroconversion of antibodies to F1 antigen on Month 7 post-dose 1	Month 7 post-dose 1
Secondary	The GMFI of antibodies to F1 antigen on Month 7 post-dose 1	The GMFI of antibodies to F1 antigen on Month 7 post-dose 1	Month 7 post-dose 1
Secondary	The seroconversion of antibodies to rV antigen on Month 7 post-dose 1	The seroconversion of antibodies to rV antigen on Month 7 post-dose 1	Month 7 post-dose 1
Secondary	The GMFI of antibodies to rV antigen on Month 7 post-dose 1	the GMFI of antibodies to rV antigen on Month 7 post-dose 1	Month 7 post-dose 1
Secondary	The GMT of antibodies to F1 antigen on Month 1 post-dose 1	The GMT of antibodies to F1 antigen on Month 1 post-dose 1	Month 1 post-dose 1
Secondary	The GMT of antibodies to rV antigen on Month 1 post-dose 1	The GMT of antibodies to rV antigen on Month 1 post-dose 1	Month 1 post-dose 1
Secondary	The seroconversion of antibodies to F1 antigen on Month1 post-dose 1	The seroconversion of antibodies to F1 antigen on Month1 post-dose 1	Month 1 post-dose 1
Secondary	The seroconversion of antibodies to rV antigen on Month1 post-dose 1	The seroconversion of antibodies to rV antigen on Month1 post-dose 1	Month 1 post-dose 1
Secondary	The GMFI of antibodies to F1 antigen on Month 1 post-dose 1	The GMFI of antibodies to F1 antigen on Month 1 post-dose 1	Month 1 post-dose 1
Secondary	The GMFI of antibodies to rV antigen on Month 1 post-dose 1	The GMFI of antibodies to rV antigen on Month 1 post-dose 1	Month 1 post-dose 1
Secondary	The GMT of antibodies to F1 antigen on Month 2 post-dose 1	The GMT of antibodies to F1 antigen on Month 2 post-dose 1	Month 2 post-dose 1
Secondary	The GMT of antibodies to rV antigen on Month 2 post-dose 1	The GMT of antibodies to rV antigen on Month 2 post-dose 1	Month 2 post-dose 1
Secondary	The seroconversion of antibodies to F1 antigen on Month 2 post-dose 1	The seroconversion of antibodies to F1 antigen on Month 2 post-dose 1	Month 2 post-dose 1
Secondary	The seroconversion of antibodies to rV antigen on Month 2 post-dose 1	The seroconversion of antibodies to rV antigen on Month 2 post-dose 1	Month 2 post-dose 1
Secondary	The GMFI of antibodies to F1 antigen on Month 2 post-dose 1	The GMFI of antibodies to F1 antigen on Month 2 post-dose 1	Month 2 post-dose 1
Secondary	The GMFI of antibodies to rV antigen on Month 2 post-dose 1	The GMFI of antibodies to rV antigen on Month 2 post-dose 1	Month 2 post-dose 1
Secondary	The GMT of antibodies to F1 antigen on Month 3 post-dose 1	The GMT of antibodies to F1 antigen on Month 3 post-dose 1	Month 3 post-dose 1
Secondary	The GMT of antibodies to rV antigen on Month 3 post-dose 1	The GMT of antibodies to rV antigen on Month 3 post-dose 1	Month 3 post-dose 1
Secondary	The seroconversion of antibodies to F1 antigen on Month 3 post-dose 1	The seroconversion of antibodies to F1 antigen on Month 3 post-dose 1	Month 3 post-dose 1
Secondary	The seroconversion of antibodies to rV antigen on Month 3 post-dose 1	The seroconversion of antibodies to rV antigen on Month 3 post-dose 1	Month 3 post-dose 1
Secondary	The GMFI of antibodies to F1 antigen on Month 3 post-dose 1	The GMFI of antibodies to F1 antigen on Month 3 post-dose 1	Month 3 post-dose 1
Secondary	The GMFI of antibodies to rV antigen on Month 3 post-dose 1	The GMFI of antibodies to rV antigen on Month 3 post-dose 1	Month 3 post-dose 1
Secondary	The GMT of antibodies to F1 antigen on Month 6 post-dose 1	The GMT of antibodies to F1 antigen on Month 6 post-dose 1	Month 6 post-dose 1
Secondary	The GMT of antibodies to rV antigen on Month 6 post-dose 1	The GMT of antibodies to rV antigen on Month 6 post-dose 1	Month 6 post-dose 1
Secondary	The seroconversion of antibodies to F1 antigen on Month 6 post-dose 1	The seroconversion of antibodies to F1 antigen on Month 6 post-dose 1	Month 6 post-dose 1
Secondary	The seroconversion of antibodies to rV antigen on Month 6 post-dose 1	The seroconversion of antibodies to rV antigen on Month 6 post-dose 1	Month 6 post-dose 1
Secondary	The GMFI of antibodies to F1 antigen on Month 6 post-dose 1	The GMFI of antibodies to F1 antigen on Month 6 post-dose 1	Month 6 post-dose 1
Secondary	The GMFI of antibodies to rV antigen on Month 6 post-dose 1	The GMFI of antibodies to rV antigen on Month 6 post-dose 1	Month 6 post-dose 1
Secondary	The GMT of antibodies to F1 antigen on Month 9 post-dose 1	The GMT of antibodies to F1 antigen on Month 9 post-dose 1	Month 9 post-dose 1
Secondary	The GMT of antibodies to rV antigen on Month 9 post-dose 1	The GMT of antibodies to rV antigen on Month 9 post-dose 1	Month 9 post-dose 1
Secondary	The seroconversion of antibodies to F1 antigen on Month 9 post-dose 1	The seroconversion of antibodies to F1 antigen on Month 9 post-dose 1	Month 9 post-dose 1
Secondary	The seroconversion of antibodies to rV antigen on Month 9 post-dose 1	The seroconversion of antibodies to rV antigen on Month 9 post-dose 1	Month 9 post-dose 1
Secondary	The GMFI of antibodies to F1 antigen on Month 9 post-dose 1	The GMFI of antibodies to F1 antigen on Month 9 post-dose 1	Month 9 post-dose 1
Secondary	The GMFI of antibodies to rV antigen on Month 9 post-dose 1	The GMFI of antibodies to rV antigen on Month 9 post-dose 1	Month 9 post-dose 1
Secondary	The GMT of antibodies to F1 antigen on Month12 post-dose 1	The GMT of antibodies to F1 antigen on Month12 post-dose 1	Month 12 post-dose 1
Secondary	The GMT of antibodies to rV antigen on Month12 post-dose 1	The GMT of antibodies to rV antigen on Month12 post-dose 1	Month 12 post-dose 1
Secondary	The seroconversion of antibodies to F1 antigen on Month 12 post-dose 1	The seroconversion of antibodies to F1 antigen on Month 12 post-dose 1	Month 12 post-dose 1
Secondary	The seroconversion of antibodies to rV antigen on Month 12 post-dose 1	The seroconversion of antibodies to rV antigen on Month 12 post-dose 1	Month 12 post-dose 1
Secondary	The GMFI of antibodies to F1 antigen on Month 12 post-dose 1	The GMFI of antibodies to F1 antigen on Month 12 post-dose 1	Month 12 post-dose 1
Secondary	The GMFI of antibodies to rV antigen on Month 12 post-dose 1	The GMFI of antibodies to rV antigen on Month 12 post-dose 1	Month 12 post-dose 1
Secondary	The GMT of antibodies to F1 antigen on Month18 post-dose 1	The GMT of antibodies to F1 antigen on Month18 post-dose 1	Month 18 post-dose 1
Secondary	The GMT of antibodies to rV antigen on Month18 post-dose 1	The GMT of antibodies to rV antigen on Month18 post-dose 1	Month 18 post-dose 1
Secondary	The seroconversion of antibodies to F1 antigen on Month 18 post-dose 1	The seroconversion of antibodies to F1 antigen on Month 18 post-dose 1	Month 18 post-dose 1
Secondary	The seroconversion of antibodies to rV antigen on Month 18 post-dose 1	The seroconversion of antibodies to rV antigen on Month 18 post-dose 1	Month 18 post-dose 1
Secondary	The GMFI of antibodies to F1 antigen on Month 18 post-dose 1	The GMFI of antibodies to F1 antigen on Month 18 post-dose 1	Month 18 post-dose 1
Secondary	The GMFI of antibodies to rV antigen on Month 18 post-dose 1	The GMFI of antibodies to rV antigen on Month 18 post-dose 1	Month 18 post-dose 1
Secondary	The GMT of antibodies to F1 antigen on Month24 post-dose 1	The GMT of antibodies to F1 antigen on Month24 post-dose 1	Month 24 post-dose 1
Secondary	The GMT of antibodies to rV antigen on Month24 post-dose 1	The GMT of antibodies to rV antigen on Month24 post-dose 1	Month 24 post-dose 1
Secondary	The seroconversion of antibodies to F1 antigen on Month 24 post-dose 1	The seroconversion of antibodies to F1 antigen on Month 24 post-dose 1	Month 24 post-dose 1
Secondary	The seroconversion of antibodies to rV antigen on Month 24 post-dose 1	The seroconversion of antibodies to rV antigen on Month 24 post-dose 1	Month 24 post-dose 1
Secondary	The GMFI of antibodies to F1 antigen on Month 24 post-dose 1	The GMFI of antibodies to F1 antigen on Month 24 post-dose 1	Month 24 post-dose 1
Secondary	The GMFI of antibodies to rV antigen on Month 24 post-dose 1	The GMFI of antibodies to rV antigen on Month 24 post-dose 1	Month 24 post-dose 1
Secondary	Proportion of subjects reporting adverse events	Proportion of subjects reporting adverse events within 30 days post-each dose	Day 30 post-each dose
Secondary	Proportion of subjects with serious adverse events (SAE)occurring throughout the trial	Proportion of subjects with serious adverse events (SAE)occurring throughout the trial from day 0 to month 12.	Day 0 up to month 12 post dose 1