ライフサイエンスコーパス: antibody formation

1 iable immunodeficiency syndrome (a defect in antibody formation).

2 t appear to predispose to resistance through antibody formation.

3 late ongoing immune responses independent of antibody formation.

4 e germinal centre reaction and high affinity antibody formation.

5 hile preventing rejection and donor-specific antibody formation.

6 diversity as does genetic recombination and antibody formation.

7 o study cellular and molecular mechanisms of antibody formation.

8 allograft tissues to promote donor-specific antibody formation.

9 region of the PLA2R1 gene may contribute to antibody formation.

10 ody after AMR therapy and the absence of new antibody formation.

11 No patient developed antigaliximab antibody formation.

12 cant association with de novo posttransplant antibody formation.

13 here was no evidence of host antitrastuzumab antibody formation.

14 related expression of hFIX without anti-hFIX antibody formation.

15 resulted in 500 ng/mL hFIX in plasma without antibody formation.

16 ogy), and participant incidence of denosumab antibody formation.

17 monitored for tumor response, toxicity, and antibody formation.

18 on therapy completely inhibited anti-hamster antibody formation.

19 ormalizes peripheral platelet counts without antibody formation.

20 pCMV-LacZ did not inhibit IgE anti-ovalbumin antibody formation.

21 y Response Evaluation Criteria, and antidrug antibody formation.

22 s important to devise strategies to modulate antibody formation.

23 ression declines over time in the absence of antibody formation.

24 We found a high incidence of PRT/H antibody formation (29%) in patients undergoing cardiac

25 Immune tolerance was confirmed by lack of antibody formation after repeated challenges with cFVIII

26 Plasma concentrations of both agents and antibody formation against both agents were also assesse

27 a period of 17-18 days enable assessment of antibody formation against the human Tf component of the

28 engineer antigen-specific Tregs to suppress antibody formation against the soluble therapeutic prote

29 emonstrate that EPO inhibits T(FH)-dependent antibody formation, an observation with potential implic

30 as a predictor of de novo donor-specific HLA antibody formation and antibody-mediated rejection.

31 matched human leukocyte antigens, as well as antibody formation and antibody-mediated rejection.

32 and transfusion reactions, volume overload, antibody formation and coagulation derangements.

33 f PEGasp is an effective approach to prevent antibody formation and inactivating hypersensitivity rea

34 Adverse reactions to therapy include antibody formation and infusion reactions, infections, a

35 e determined the prevalence of self-reactive antibody formation and its regulation in human B cells.

36 At 3 months, anti-drug antibody formation and low adalimumab concentrations wer

37 s persistence correlated with poor anti-hAAT antibody formation and minimal hepatocyte toxicity.

38 No antibody formation and T-cell responses to FIX-R338L wer

39 B cell and macrophage reactions culminate in antibody formation and TGF-beta secretion, respectively,

40 y-stimulating factor-cytokines involved with antibody formation and type 2 immune responses.

41 thin donor grafts, diminished donor-specific antibody formation, and delayed rejection of subsequent

42 uman immunodeficiency virus (HIV) may impair antibody formation, and false-negative hepatitis C virus

43 g-term expression of FVIII, without apparent antibody formation, and improved the phenotype of hemoph

44 ng salivary bacterial burdens, corresponding antibody formation, and periodontitis severity than A. a

45 bution, blood circulation time, neutralizing antibody formation, and targeted delivery ability of the

46 We determined allergen-specific antibody formation by analysis of the germinal center re

47 to the acute immune activation and anti-PEG antibody formation commonly observed with lipid nanopart

48 uncovered 5 suggestive loci for antinuclear antibody formation, consisting of 3 dominant NZB contrib

49 feron, and the incidences of anti-interferon antibody formation did not significantly differ among th

50 f-reactive T cell enhanced activity and auto-antibody formation enabled by PD-1/PD-L1 blockade, leadi

51 cient mice demonstrated enhanced T-dependent antibody formation especially of IgE isotype and allergi

52 (7%) ( P = 0.12) and de novo donor-specific antibody formation (H+M+ 24%; H+M- 10%; P = 0.13).

53 ic systemic immune suppression of pathogenic antibody formation (immunoglobulin [Ig] 1/inhibitors, Ig

54 ese findings plus the lack of donor-specific antibody formation imply that prolonged graft survival w

55 ll costimulatory signals for antifactor VIII antibody formation in a murine model of hemophilia A.

56 ant forms of Hb have been shown to stimulate antibody formation in a variety of animal species.

57 when aberrantly regulated, drive pathogenic antibody formation in autoimmunity and undergo neoplasti

58 sis revealed a low incidence of neutralizing antibody formation in both groups.

59 address serious complications of inhibitory antibody formation in current replacement therapy, we cr

60 ntial utility to treat anti-FVIII inhibitory antibody formation in hemophilia A patients.

61 entified novel genetic markers of inhibitory antibody formation in hemophilia patients that may ultim

62 These data demonstrate increased anti-CCP antibody formation in HLA-DR4-positive patients with pol

63 AA activity in plasma and prevented anti-GAA antibody formation in immunocompetent GAA-knockout mice

64 HA22-LR-8M does not induce antibody formation in mice when given repeatedly by intr

65 al element of the clonal selection theory of antibody formation in order to explain tolerance of self

66 individuals correlates with the frequency of antibody formation in patients with normal immune system

67 The stabilized oligomers were used to induce antibody formation in rabbits.

68 There was a marked difference in antibody formation in the two strains of mice; 100% of t

69 database was assessed for cases of antidonor antibody formation in tolerant animals over the last 20

70 ith respect to its poor biodegradability and antibody formation, including new evidence about preform

71 Inhibitory antibody formation is a major complication of factor VII

72 e free ("active") drug concentration and the antibody formation is critical for preclinical and clini

73 However, circumstances where antibody formation is impaired after vaccination, such a

74 y all patients with HIT/T, it is unclear how antibody formation is initiated, why only a small subset

75 llowing HOD RBC transfusion, suggesting that antibody formation is not dependent on the splenic folli

76 These include impaired antibody formation; loss of delayed cutaneous hypersensi

77 ppressing cell-mediated immune responses and antibody formation, major factors in acute and chronic r

78 Although rare, antibody formation may occur in the treatment of other c

79 Delay of antibody formation may prolong infectivity.

80 sinic:polycytidylic acid enhanced anti-FVIII antibody formation, MZ B-cell depletion continued to dis

81 d showed similar patterns of anti-adenovirus antibody formation, only Balb/c and C3H mice developed s

82 pressed therapeutic levels of FVIII, without antibody formation or other toxicities, for more than 3

83 e patients had no increased frequency of new antibody formation posttransplant.

84 in addition to steroids to prevent anti-AAV antibody formation.RESULTSGroup 1 participants had a rap

85 , results in significantly higher anti-FVIII antibody formation, suggesting that the increased levels

86 recovery but that neutralizing anti-PIXY321 antibody formation suppressed the hematologic and bioche

87 h revealed domain contributions to secretory antibody formation, these results provide detailed model

88 priming of mice with pCMV-LacZ prevented IgE antibody formation to a subsequent i.p. beta-gal in alum

89 ministration of vectors may avoid inhibitory antibody formation to factor VIII (FVIII) by taking adva

90 ctivity reaching 25% to 40% activity without antibody formation to FIX.

91 tion of CD4(+)CD25(+)GITR(+) that suppresses antibody formation to FIX.

92 her genetic factors may increase the risk of antibody formation to functional F.IX.

93 as been stable for >1 year (ongoing) without antibody formation to the cFVII transgene.

94 depletion of CD4(+)CD25(+) T(regs) leads to antibody formation to the FIX transgene product after he

95 nsfusion on the breadth and magnitude of HLA antibody formation using current, sensitive, HLA-specifi

96 econdary, T cell-dependent and T-independent antibody formation using in vitro culture systems, murin

97 s that differ in size and/or zeta potential, antibody formation varies inversely with heparin concent

98 Anti-PIXY321 antibody formation was assessed by enzyme-linked immunos

99 The effect of neonatal gene transfer on antibody formation was determined using a retroviral vec

100 After protein challenge, antibody formation was markedly reduced for animals that

101 patients (P = .004), de novo donor-specific antibody formation was seen in 40% (17/42) vs 2.7% (P <

102 mmune responsiveness to CEA, as reflected by antibody formation, was not detectable in transgenic mic

103 ng burden of disease arising from the HLA-DQ antibody formation, we suggest that HLA-DQalphabeta shou

104 immune cell infiltration, and donor-specific antibody formation were analyzed.

105 ited immunoglobulin M (IgM) and IgG anti-HOD antibody formation, whereas CD4 T-cell depletion only pr

106 pression of canine G-CSF caused neutralizing antibody formation which precluded long-term increases i

107 t gold-standard diagnostic tests relies upon antibody formation, which is typically delayed and thus