Safety and immunogenicity of an egg-based inactivated Newcastle disease virus vaccine expressing SARS-CoV-2 spike: Interim results of a randomized, placebo-controlled, phase 1/2 trial in Vietnam.

Production of affordable coronavirus disease 2019 (COVID-19) vaccines in low- and middle-income countries is needed. NDV-HXP-S is an inactivated egg-based Newcastle disease virus (NDV) vaccine expressing the spike protein of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) Wuhan-Hu-1. The spike protein was stabilized and incorporated into NDV virions by removing the polybasic furin cleavage site, introducing the transmembrane domain and cytoplasmic tail of the fusion protein of NDV, and introducing six prolines for stabilization in the prefusion state. Vaccine production and clinical development was initiated in Vietnam, Thailand, and Brazil. Here the interim results from the first stage of the randomized, dose-escalation, observer-blind, placebo-controlled, phase 1/2 trial conducted at the Hanoi Medical University (Vietnam) are presented. Healthy adults aged 18-59 years, non-pregnant, and with self-reported negative history for SARS-CoV-2 infection were eligible. Participants were randomized to receive one of five treatments by intramuscular injection twice, 28 days apart: 1 μg +/- CpG1018 (a toll-like receptor 9 agonist), 3 μg alone, 10 μg alone, or placebo. Participants and personnel assessing outcomes were masked to treatment. The primary outcomes were solicited adverse events (AEs) during 7 days and subject-reported AEs during 28 days after each vaccination. Investigators further reviewed subject-reported AEs. Secondary outcomes were immunogenicity measures (anti-spike immunoglobulin G [IgG] and pseudotyped virus neutralization). This interim analysis assessed safety 56 days after first vaccination (day 57) in treatment-exposed individuals and immunogenicity through 14 days after second vaccination (day 43) per protocol. Between March 15 and April 23, 2021, 224 individuals were screened and 120 were enrolled (25 per group for active vaccination and 20 for placebo). All subjects received two doses. The most common solicited AEs among those receiving active vaccine or placebo were all predominantly mild and included injection site pain or tenderness (<58%), fatigue or malaise (<22%), headache (<21%), and myalgia (<14%). No higher proportion of the solicited AEs were observed for any group of active vaccine. The proportion reporting vaccine-related AEs during the 28 days after either vaccination ranged from 4% to 8% among vaccine groups and was 5% in controls. No vaccine-related serious adverse event occurred. The immune response in the 10 μg formulation group was highest, followed by 1 μg + CpG1018, 3 μg, and 1 μg formulations. Fourteen days after the second vaccination, the geometric mean concentrations (GMC) of 50% neutralizing antibody against the homologous Wuhan-Hu-1 pseudovirus ranged from 56.07 IU/mL (1 μg, 95% CI 37.01, 84.94) to 246.19 IU/mL (10 μg, 95% CI 151.97, 398.82), with 84% to 96% of vaccine groups attaining a ≥ 4-fold increase over baseline. This was compared to a panel of human convalescent sera (N = 29, 72.93 95% CI 33.00-161.14). Live virus neutralization to the B.1.617.2 (Delta) variant of concern was reduced but in line with observations for vaccines currently in use. Since the adjuvant has shown modest benefit, GMC ratio of 2.56 (95% CI, 1.4-4.6) for 1 μg +/- CpG1018, a decision was made not to continue studying it with this vaccine. NDV-HXP-S had an acceptable safety profile and potent immunogenicity. The 3 μg dose was advanced to phase 2 along with a 6 μg dose. The 10 μg dose was not selected for evaluation in phase 2 due to potential impact on manufacturing capacity. ClinicalTrials.gov NCT04830800.

Duc Dang A ，Dinh Vu T ，Hai Vu H ，Thanh Ta V ，Thi Van Pham A ，Thi Ngoc Dang M ，Van Le B ，Huu Duong T ，Van Nguyen D ，Lawpoolsri S ，Chinwangso P ，McLellan JS ，Hsieh CL ，Garcia-Sastre A ，Palese P ，Sun W ，Martinez JL ，Gonzalez-Dominguez I ，Slamanig S ，Manuel Carreño J ，Tcheou J ，Krammer F ，Raskin A ，Minh Vu H ，Cong Tran T ，Mai Nguyen H ，Mercer LD ，Raghunandan R ，Lal M ，White JA ，Hjorth R ，Innis BL ，Scharf R ... -  《-》

Safety and immunogenicity of an inactivated recombinant Newcastle disease virus vaccine expressing SARS-CoV-2 spike: Interim results of a randomised, placebo-controlled, phase 1 trial.

Production of affordable coronavirus disease 2019 (COVID-19) vaccines in low- and middle-income countries is needed. NDV-HXP-S is an inactivated egg-based recombinant Newcastle disease virus vaccine expressing the spike (S) protein of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). It's being developed by public sector manufacturers in Thailand, Vietnam, and Brazil; herein are initial results from Thailand. This phase 1 stage of a randomised, dose-escalation, observer-blind, placebo-controlled, phase 1/2 trial was conducted at the Vaccine Trial Centre, Mahidol University (Bangkok). Healthy males and non-pregnant females, aged 18-59 years and negative for SARS-CoV-2 antibodies, were eligible. Participants were randomised to receive one of six treatments by intramuscular injection twice, 28 days apart: 1 µg, 1 µg+CpG1018 (a toll-like receptor 9 agonist), 3 µg, 3 µg+CpG1018, 10 µg, or placebo. Participants and personnel assessing outcomes were masked to treatment. The primary outcomes were solicited and spontaneously reported adverse events (AEs) during 7 and 28 days after each vaccination, respectively. Secondary outcomes were immunogenicity measures (anti-S IgG and pseudotyped virus neutralisation). An interim analysis assessed safety at day 57 in treatment-exposed individuals and immunogenicity through day 43 per protocol. ClinicalTrials.gov (NCT04764422). Between March 20 and April 23, 2021, 377 individuals were screened and 210 were enroled (35 per group); all received dose one; five missed dose two. The most common solicited AEs among vaccinees, all predominantly mild, were injection site pain (<63%), fatigue (<35%), headache (<32%), and myalgia (<32%). The proportion reporting a vaccine-related AE ranged from 5·7% to 17·1% among vaccine groups and was 2·9% in controls; there was no vaccine-related serious adverse event. The 10 µg formulation's immunogenicity ranked best, followed by 3 µg+CpG1018, 3 µg, 1 µg+CpG1018, and 1 µg formulations. On day 43, the geometric mean concentrations of 50% neutralising antibody ranged from 122·23 international units per mL (IU/mL; 1 µg, 95% confidence interval (CI) 86·40-172·91) to 474·35 IU/mL (10 µg, 95% CI 320·90-701·19), with 93·9% to 100% of vaccine groups attaining a ≥ 4-fold increase over baseline. NDV-HXP-S had an acceptable safety profile and potent immunogenicity. The 3 µg and 3 µg+CpG1018 formulations advanced to phase 2. National Vaccine Institute (Thailand), National Research Council (Thailand), Bill & Melinda Gates Foundation, National Institutes of Health (USA).

Pitisuttithum P ，Luvira V ，Lawpoolsri S ，Muangnoicharoen S ，Kamolratanakul S ，Sivakorn C ，Narakorn P ，Surichan S ，Prangpratanporn S ，Puksuriwong S ，Lamola S ，Mercer LD ，Raghunandan R ，Sun W ，Liu Y ，Carreño JM ，Scharf R ，Phumratanaprapin W ，Amanat F ，Gagnon L ，Hsieh CL ，Kaweepornpoj R ，Khan S ，Lal M ，McCroskery S ，McLellan J ，Mena I ，Meseck M ，Phonrat B ，Sabmee Y ，Singchareon R ，Slamanig S ，Suthepakul N ，Tcheou J ，Thantamnu N ，Theerasurakarn S ，Tran S ，Vilasmongkolchai T ，White JA ，Bhardwaj N ，Garcia-Sastre A ，Palese P ，Krammer F ，Poopipatpol K ，Wirachwong P ，Hjorth R ，Innis BL ... -  《EClinicalMedicine》

Safety and immunogenicity of an inactivated recombinant Newcastle disease virus vaccine expressing SARS-CoV-2 spike: A randomised, comparator-controlled, phase 2 trial.

Production of affordable coronavirus disease 2019 (COVID-19) vaccines in low- and lower-middle-income countries is needed. NDV-HXP-S is an inactivated egg-based recombinant Newcastle disease virus vaccine expressing the spike protein of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). A public sector manufacturer in Vietnam assessed the immunogenicity of NDV-HXP-S (COVIVAC) relative to an authorized vaccine. This phase 2 stage of a randomised, observer-blind, controlled, phase 1/2 trial was conducted at three community health centers in Thai Binh Province, Vietnam. Healthy males and non-pregnant females, 18 years of age and older, were eligible. Participants were randomised by age (18-59, ≥60 years) to receive one of three treatments by intramuscular injection twice, 28 days apart: COVIVAC at 3 μg or 6 μg, or AstraZeneca COVID-19 vaccine VAXZEVRIA™. Participants and personnel assessing outcomes were masked to treatment. The vaccine dose was selected based on Phase 1 results. A 6 μg dose was chosen to explore the immunogenicity gain over the 3-μg dose. The study's aim is to evaluate the safety and immunogenicity of COVIVAC at two dose levels compared to VAXZEVRIA, the most commonly used COVID-19 vaccine in Vietnam. The main outcome was the induction of 50% neutralising antibody titers against vaccine-homologous pseudotyped virus 14 days (day 43) and 6 months (day 197) after the second vaccination by age group. The primary immunogenicity and safety analyses included all participants who received one dose of the vaccine. ClinicalTrials.govNCT05940194. During August 10-23, 2021, 737 individuals were screened, and 374 were randomised (124-125 per group); all subjects received vaccine dose one and all but three received doses two four weeks later. Subjects 18-59 years of age achieved the following geometric mean titers of PNA 14 days after vaccine dose two: 153⋅28 (95 % CI 124·2-189⋅15) for COVIVAC 3 μg, 176⋅2 (95 % CI 141⋅45-220.27) for COVIVAC 6 μg, and 99⋅92(95 % CI 80.80-123⋅56) for VAXZEVRIA. Subjects ≥60 years of age also achieved potent geometric mean titers of PNA at the same timepoint: 183⋅57 (95 % CI 133.4-252⋅61) for COVIVAC 3 μg, 257⋅87 (95 % CI 181⋅6-367⋅18) for COVIVAC 6 μg, and 79⋅49(95 % CI 55⋅68-113⋅4) for VAXZEVRIA. On day 43, the geometric mean fold rise of 50 % neutralising antibody titers for subjects age 18-59 years was 31·20 (COVIVAC 3 μg N = 82, 95 % CI 25·14-38·74), 35·80 (COVIVAC 6 μg; N = 83, 95 % CI 29·03-44·15), 18·85 (VAXZEVRIA; N = 82, 95 % CI 15·10-23·54), and for subjects age ≥ 60 years was 37·27 (COVIVAC 3 μg; N = 42, 95 % CI 27·43-50·63), 50·10 (COVIVAC 6 μg; N = 40, 95 % CI 35·46-70·76), 16·11 (VAXZEVRIA; N = 40, 95 % CI 11·73-22·13). Among subjects seronegative for anti-S IgG at baseline, the day 43 geometric mean titer ratio of neutralising antibody (COVIVC 6 μg/VAXZEVRIA) was 1·77 (95 % CI 1·30-2·40) for subjects age 18-59 years and 3·24 (95 % CI 1·98-5·32) for subjects age ≥ 60 years. On day 197, the age-specific ratios were 1·11 (95 % CI 0·51-2·43) and 2·32 (0·69-7·85). Vaccines were well tolerated; reactogenicity was predominantly mild and transient. The percentage of subjects with unsolicited adverse events (AEs) during 28 days after vaccinations was similar among treatments (COVIVAC 3 μg 29·0 %, COVIVAC 6 μg 23·2 %, VAXZEVRIA 31·2 %); no vaccine-related AE was reported. Considering that induction of neutralising antibodies against SARS-CoV-2 has been correlated with the efficacy of COVID-19 vaccines, including VAXZEVRIA, our results suggest that vaccination with COVIVAC may afford clinical benefit matching or exceeding that of the VAXZEVRIA vaccine. ClinicalTrials.govNCT05940194.

Thiem VD ，Anh DD ，Ha VH ，Van Thom N ，Thang TC ，Mateus J ，Carreño JM ，Raghunandan R ，Huong NM ，Mercer LD ，Flores J ，Escarrega EA ，Raskin A ，Thai DH ，Van Be L ，Sette A ，Innis BL ，Krammer F ，Weiskopf D ... -  《-》

Safety and immunogenicity of a modified mRNA-lipid nanoparticle vaccine candidate against COVID-19: Results from a phase 1, dose-escalation study.

Essink BJ ，Shapiro C ，Isidro MGD ，Bradley P ，Pragalos A ，Bloch M ，Santiaguel J ，Frias MV ，Miyakis S ，Alves de Mesquita M ，Berrè S ，Servais C ，Waugh N ，Hoffmann C ，Baba E ，Schönborn-Kellenberger O ，Wolz OO ，Koch SD ，Ganyani T ，Boutet P ，Mann P ，Mueller SO ，Ramanathan R ，Gaudinski MR ，Vanhoutte N ... -  《-》

Safety and immunogenicity of the ChAdOx1 nCoV-19 (AZD1222) vaccine against SARS-CoV-2 in people living with and without HIV in South Africa: an interim analysis of a randomised, double-blind, placebo-controlled, phase 1B/2A trial.

People living with HIV are at an increased risk of fatal outcome when admitted to hospital for severe COVID-19 compared with HIV-negative individuals. We aimed to assess safety and immunogenicity of the ChAdOx1 nCoV-19 (AZD1222) vaccine in people with HIV and HIV-negative individuals in South Africa. In this ongoing, double-blind, placebo-controlled, phase 1B/2A trial (COV005), people with HIV and HIV-negative participants aged 18-65 years were enrolled at seven South African locations and were randomly allocated (1:1) with full allocation concealment to receive a prime-boost regimen of ChAdOx1 nCoV-19, with two doses given 28 days apart. Eligibility criteria for people with HIV included being on antiretroviral therapy for at least 3 months, with a plasma HIV viral load of less than 1000 copies per mL. In this interim analysis, safety and reactogenicity was assessed in all individuals who received at least one dose of ChAdOx1 nCov 19 between enrolment and Jan 15, 2021. Primary immunogenicity analyses included participants who received two doses of trial intervention and were SARS-CoV-2 seronegative at baseline. This trial is registered with ClinicalTrials.gov, NCT04444674, and the Pan African Clinicals Trials Registry, PACTR202006922165132. Between June 24 and Nov 12, 2020, 104 people with HIV and 70 HIV-negative individuals were enrolled. 102 people with HIV (52 vaccine; 50 placebo) and 56 HIV-negative participants (28 vaccine; 28 placebo) received the priming dose, 100 people with HIV (51 vaccine; 49 placebo) and 46 HIV-negative participants (24 vaccine; 22 placebo) received two doses (priming and booster). In participants seronegative for SARS-CoV-2 at baseline, there were 164 adverse events in those with HIV (86 vaccine; 78 placebo) and 237 in HIV-negative participants (95 vaccine; 142 placebo). Of seven serious adverse events, one severe fever in a HIV-negative participant was definitely related to trial intervention and one severely elevated alanine aminotranferase in a participant with HIV was unlikely related; five others were deemed unrelated. One person with HIV died (unlikely related). People with HIV and HIV-negative participants showed vaccine-induced serum IgG responses against wild-type Wuhan-1 Asp614Gly (also known as D614G). For participants seronegative for SARS-CoV-2 antigens at baseline, full-length spike geometric mean concentration (GMC) at day 28 was 163·7 binding antibody units (BAU)/mL (95% CI 89·9-298·1) for people with HIV (n=36) and 112·3 BAU/mL (61·7-204·4) for HIV-negative participants (n=23), with a rising day 42 GMC booster response in both groups. Baseline SARS-CoV-2 seropositive people with HIV demonstrated higher antibody responses after each vaccine dose than did people with HIV who were seronegative at baseline. High-level binding antibody cross-reactivity for the full-length spike and receptor-binding domain of the beta variant (B.1.351) was seen regardless of HIV status. In people with HIV who developed high titre responses, predominantly those who were receptor-binding domain seropositive at enrolment, neutralising activity against beta was retained. ChAdOx1 nCoV-19 was well tolerated, showing favourable safety and immunogenicity in people with HIV, including heightened immunogenicity in SARS-CoV-2 baseline-seropositive participants. People with HIV showed cross-reactive binding antibodies to the beta variant and Asp614Gly wild-type, and high responders retained neutralisation against beta. The Bill & Melinda Gates Foundation, South African Medical Research Council, UK Research and Innovation, UK National Institute for Health Research, and the South African Medical Research Council.

Madhi SA ，Koen AL ，Izu A ，Fairlie L ，Cutland CL ，Baillie V ，Padayachee SD ，Dheda K ，Barnabas SL ，Bhorat QE ，Briner C ，Aley PK ，Bhikha S ，Hermanus T ，Horne E ，Jose A ，Kgagudi P ，Lambe T ，Masenya M ，Masilela M ，Mkhize N ，Moultrie A ，Mukendi CK ，Moyo-Gwete T ，Nana AJ ，Nzimande A ，Patel F ，Rhead S ，Taoushanis C ，Thombrayil A ，van Eck S ，Voysey M ，Villafana TL ，Vekemans J ，Gilbert SC ，Pollard AJ ，Moore PL ，Kwatra G ，Wits VIDA COVID team ... -  《Lancet HIV》