ライフサイエンスコーパス: heterologous prime-boost

1 clized peptides, a resemblance heightened by heterologous prime-boost.

2 s in successive immunization campaigns or as heterologous prime-boost agents.

3 y of these constructs was evaluated using a "heterologous prime-boost" approach consisting of mucosal

4 rS-WU1) or rS-Beta alone, in combination, or heterologous prime-boost, are protected from challenge.

5 In sum, we demonstrate that a therapeutic heterologous prime-boost-boost (HPBB) vaccine can elicit

6 Completing the serial immunization steps for heterologous prime-boost-boost can be lengthy, leaving t

7 Heterologous prime-boost-boost immunization has been sho

8 activated mouse T cells in vivo using acute heterologous prime-boost-boost vaccinations(4), transfer

9 immunodeficiency virus (SIV)-gag-containing heterologous prime-boost-boost vaccine established memor

10 Ten Mamu-B*08(+) RMs were vaccinated with a heterologous prime/boost/boost regimen encoding Vif and

11 These results suggest that heterologous prime-boost combinations have distinct immu

12 poxvirus NYVAC-HIV vectors in homologous or heterologous prime-boost combinations in mice.

13 sing vaccines against bovine TB are based on heterologous prime-boost combinations that include BCG,

14 e been widely used in various homologous and heterologous prime-boost combinations.

15 Use of heterologous prime-boost COVID-19 vaccine schedules coul

16 Heterologous prime-boosting has emerged as a powerful va

17 Here, we used a heterologous prime-boost immunization approach using a c

18 Such heterologous prime-boost immunization approaches may pro

19 This heterologous prime-boost immunization induced elevated l

20 AdCh63-MVA heterologous prime-boost immunization induces strong and

21 binations of i.m. and intravaginal routes in heterologous prime-boost immunization regimens with unre

22 Heterologous prime-boost immunization strategies can evo

23 Heterologous prime-boost immunization strategies have th

24 We also describe homologous and heterologous prime-boost immunization strategies using n

25 vel vaccine were assessed in mice by using a heterologous prime-boost immunization strategy and compa

26 Heterologous prime-boost immunization with plasmid DNA a

27 re examined by using multiple homologous and heterologous prime/boost immunization regimens in order

28 The heterologous prime/boost immunization regimens that invo

29 ntrast, Mamu-A*01+ monkeys that had received heterologous prime/boost immunizations prior to challeng

30 ors, the possibility has arisen of employing heterologous prime/boost immunizations using diverse mem

31 Recent clinical trials of new heterologous prime-boost malaria vaccine regimens using

32 Heterologous prime-boost may provide a more effective va

33 a single immunization or in a homologous or heterologous prime-boost modality.

34 s shown that vaccination strategies based on heterologous prime-boost protocols using Mycobacterium b

35 ChAd63-MVA AMA1 administered in a heterologous prime-boost regime was shown to be safe and

36 used to vaccinate rhesus macaques with a new heterologous prime-boost regimen designed to optimize in

37 These vectors, when used in a heterologous prime-boost regimen in BALB/c mice, are cap

38 In contrast, an accelerated heterologous prime-boost regimen involving administratio

39 hrocytic vaccine will likely be based upon a heterologous prime-boost regimen that induces both appro

40 on a new duck cell line either alone or in a heterologous prime-boost regimen with recombinant chimpa

41 ted its immunogenicity early in life using a heterologous prime-boost regimen.

42 In this study, we show that such heterologous prime boost regimens based on E1-deleted ad

43 rime AIDS virus-specific T-cell responses in heterologous prime boost regimens.

44 Thus, heterologous prime-boost regimens boost CD4(+) as well a

45 Moreover, anatomic separation strategies and heterologous prime-boost regimens generated codominant r

46 Heterologous prime-boost regimens have been shown to eli

47 his study supports the rationale for testing heterologous prime-boost regimens in humans.

48 Heterologous prime-boost regimens induce potent cellular

49 frequency, that both protein- and mRNA-based heterologous prime-boost regimens induced VRC01-class an

50 The standard and accelerated heterologous prime-boost regimens were well-tolerated an

51 e vaccinated 30 macaques with homologous and heterologous prime-boost regimens with BNT162b2 and Ad26

52 to evaluate the safety and immunogenicity of heterologous prime-boost regimens, with a New York vacci

53 3-specific CTLs can, however, be expanded by heterologous prime-boost regimens.

54 serotype Ad vectors than with Ad5 vectors in heterologous prime-boost regimens.

55 nses when administered with rVSVN4CT1gag1 in heterologous prime-boost regimens.

56 f cytotoxic-T-lymphocyte responses have been heterologous prime/boost regimens employing a plasmid DN

57 Heterologous prime/boost regimens have the potential for

58 Heterologous "prime-boost" regimens that involve priming

59 t human randomised clinical trial to explore heterologous prime-boost regimes using aerosol and syste

60 Heterologous prime-boost strategies are of interest for

61 cination groups evaluating homologous versus heterologous prime-boost strategies with 2 different boo

62 future clinical trials testing vector-based heterologous prime-boost strategies.

63 nds in vaccination strategies, particularly "heterologous prime-boost" strategies against tumors, and

64 munogenicity of the vaccines, we developed a heterologous prime-boost strategy with each of the vacci

65 ed MV vaccines to be used early in life in a heterologous prime-boost strategy.

66 findings support further development of this heterologous prime-boost strategy.IMPORTANCE Immune resp

67 aepithelial neoplasia were vaccinated with a heterologous prime/boost strategy consisting of gene gun

68 In a heterologous prime-boost study, ChulaCov19 booster dose

69 the current live attenuated MV vaccine in a heterologous prime-boost to protect against measles earl

70 Heterologous prime boost vaccination minimizes contracti

71 This study exploited heterologous prime boost vaccination to discover paramet

72 Heterologous prime-boost vaccination has been shown to b

73 Only heterologous prime-boost vaccination induced modest cros

74 Here we show that a heterologous prime-boost vaccination regime of DNA eithe

75 CMB305 is a heterologous prime-boost vaccination regimen created to

76 These results suggest that heterologous prime-boost vaccination regimens enhance im

77 ng the best combination of vector systems in heterologous prime-boost vaccination regimens.IMPORTANCE

78 Heterologous prime-boost vaccination results in increase

79 tance of selecting optimal priming agents in heterologous prime-boost vaccination settings.

80 In this study, we employed a heterologous prime-boost vaccination strategy comprising

81 f the JCI, Ruhl et al. developed a promising heterologous prime-boost vaccination strategy for EBV-as

82 these data support flexibility in the use of heterologous prime-boost vaccination using ChAd and BNT

83 This study reports the efficacy of a heterologous prime-boost vaccination using DNA and vacci

84 We demonstrated that heterologous prime-boost vaccination with the nuclear an

85 We explored the concept of heterologous prime/boost vaccination using 2 therapeutic

86 Our study shows that such heterologous prime-boost vaccinations against EBV-associ

87 hese findings suggest that administration of heterologous prime-boost vaccinations targeting EBNA1 ma

88 The heterologous prime-boost vaccine regimen used recombinan

89 These data suggest potential benefits of heterologous prime-boost vaccine regimens for SARS-CoV-2

90 Heterologous prime-boost vaccine regimens induced partic

91 Our results demonstrate that heterologous prime-boost vaccine regimens with alternati

92 rhesus monkeys and can be combined as potent heterologous prime-boost vaccine regimens.

93 ChAd63-MVA is a promising heterologous prime-boost vaccine strategy that could be

94 at CD4(+) and CD8(+) T cell responses with a heterologous prime/boost vaccine approach could induce l

95 Heterologous prime/boost viral vectored vaccination has

96 Neutralising titres after heterologous prime-boost were at least comparable or hig

97 Heterologous prime-boost with the viral vectors simian a

98 Heterologous prime/boost with Cy/GVAX and CRS-207 extend