ライフサイエンスコーパス: immunopathological

1 es where the immune response to pathogens is immunopathological.

2 We performed extensive immunopathological analyses of airway tissue inflammatio

3 Immunopathological analysis of heart tissues obtained at

4 Immunopathological analysis revealed that the cells in t

5 Therefore, the immunopathological and antiviral effects of CTLs can be

6 normally have a positive effect by limiting immunopathological and autoreactive immune responses, bu

7 e combination of the clinical, histological, immunopathological and immunogenetic features indicate t

8 This disease is considered to be immunopathological and mediated primarily by CD4+ T cell

9 We aimed at identifying the immunopathological and microbial signatures associated w

10 one marrow transplantation (BMT) rescued the immunopathological and microbial signatures.

11 s review summarizes current knowledge on the immunopathological and MRI aspects of ageing in the CNS

12 provide a characterization of the clinical, immunopathological, and transcriptional signature of fat

13 milarities with lesions in humans suggest an immunopathological basis for HGE.

14 irst to demonstrate cellular immunity as the immunopathological basis of periodontal diseases, recurr

15 action of antiviral therapy in ameliorating immunopathological brain injury and ADC.

16 This may protect lymphoid tissues from immunopathological changes but compromise immune defense

17 To investigate time-related immunopathological changes in the lacrimal glands (LGs)

18 y failure and death, how they relate to lung immunopathological changes remains unclear.

19 g a self-regulatory mechanism that minimizes immunopathological changes.

20 We describe for the first time the immunopathological characteristics of a novel inflammato

21 acid metabolism regulators and examined the immunopathological characteristics of bile ducts.

22 eases, but it remains unknown whether lethal immunopathological characteristics, caused by Schistosom

23 ent strategy for coronavirus infections with immunopathological complications such as SARS-CoV-2, MER

24 shown to ameliorate and reverse an existing immunopathological condition by inducing tolerance.

25 target to modulate unconventional T cells in immunopathological conditions and cancer.

26 derlie the emerging role of NKG2D in various immunopathological conditions and define new therapeutic

27 rge amounts of IL-10, and suppress excessive immunopathological conditions elicited by recall expansi

28 eful therapeutic option for the treatment of immunopathological conditions including graft-versus-hos

29 iciencies (PIDs and SIDs) who presented with immunopathological conditions related to immunodysregula

30 NKT cells also regulate a range of immunopathological conditions, but the mechanisms and th

31 the development of HLH and potentially other immunopathological conditions.

32 r follow-up of 21 patients with clinical and immunopathological confirmed PV, treated with IVIg as mo

33 nses, and the balance between protective and immunopathological consequences during the chronic stage

34 lize a mouse model system to investigate the immunopathological consequences following ZIKV infection

35 focusing which evidence suggests could have immunopathological consequences from cross-reactive reco

36 Our findings thus reveal unique immunopathological consequences of MyD88 signaling in B

37 play a more prominent role in moderating the immunopathological consequences of parasitism, and dampe

38 ion in microbial burden while minimizing the immunopathological consequences of the host inflammatory

39 -MHC restriction and contribute to undesired immunopathological consequences.

40 Immunopathological damage in schistosomiasis consist of

41 ital tract to control infection and minimize immunopathological damage to vital reproductive structur

42 ation of a balanced T-cell response limiting immunopathological damage.

43 T cell responses, which sometimes results in immunopathological damage.

44 Clinical, radiological, and immunopathological data suggest that NMO-IgG might be pa

45 important but poorly understood roles in the immunopathological demyelinating disease multiple sclero

46 urther details on epidemiological, clinical, immunopathological, diagnostic, and therapeutic aspects

47 Infectious mononucleosis (IM) is an immunopathological disease caused by EBV that occurs in

48 st immunity and how control of parasitic and immunopathological disease might be achieved.

49 control lesion severity in a virally induced immunopathological disease.

50 control lesion severity in a virally induced immunopathological disease.

51 illustrate how aberrant immune responses and immunopathological diseases could be generated by EBV in

52 unctions as a protective factor against many immunopathological diseases, such as infection, inflamma

53 unopathogenesis of Sezary syndrome and other immunopathological diseases.

54 implications for understanding and treating immunopathological diseases.

55 various pathological processes, from chronic immunopathological disorders to cognitive and psychiatri

56 in the clinic for the treatment of different immunopathological disorders.

57 maladaptive to the host, owing to the severe immunopathological effects that are brought about by imp

58 effective strategies to circumvent excessive immunopathological effects.

59 nervous system (CNS), is believed to have an immunopathological etiology arising from gene-environmen

60 ons predispose to sepsis, key aspects of the immunopathological events during sepsis, and the long-te

61 mune cells, leading to higher viral load and immunopathological events that augment disease.

62 terns of oligodendrocyte destruction and the immunopathological evidence of complement activation.

63 erns of oligodendrocyte destruction, and the immunopathological evidence of complement activation.

64 timicrobic susceptibility testing or in vivo immunopathological experiments.

65 is a powerful technique for deciphering the immunopathological factors common to multiple individual

66 The concomitant presence of these immunopathological features in the transgenic mice sugge

67 nism of Brucella-induced T-cell responses to immunopathological features is not known.

68 oter polymorphisms and CD4 decline and other immunopathological features like immune activation and C

69 The clinical, immunoserological, and immunopathological features of eligible patients were ev

70 ne the prevalence, prognostic relevance, and immunopathological features of HIC-derived transcriptomi

71 euroinflammatory disorder, recapitulates key immunopathological features of multiple sclerosis.

72 romosomal regions (NOD.Abd3), reproduces the immunopathological features of NOD ABD.

73 propria eosinophil numbers, but not in other immunopathological features, blood neutrophils, FeNO, FE

74 to support the concept of patient-dependent immunopathological heterogeneity in early MS and suggest

75 Multiple sclerosis (MS) lesions demonstrate immunopathological heterogeneity in patterns of demyelin

76 accination strategies targeting allergens or immunopathological key cytokines, illustrate cross-speci

77 Stromal keratitis is a chronic immunopathological lesion of the eye caused by HSV-1 inf

78 Stromal keratitis (SK) is a chronic immunopathological lesion of the eye caused by HSV-1 inf

79 n corneal neovascularization during blinding immunopathological lesion stromal keratitis (SK).

80 e have evaluated the role of T(reg) in viral immunopathological lesion stromal keratitis.

81 se corneas can lead to the development of an immunopathological lesion, termed herpetic stromal kerat

82 tuents impacts the subsequent development of immunopathological lesions.

83 We found that immunopathological manifestations (IMs) were strongly as

84 haracterized by severe hyperinflammation and immunopathological manifestations in several tissues.

85 the MHC/CD8 complex is considered a specific immunopathological marker because it distinguishes the a

86 distinct sets of such strains did not elicit immunopathological markers at levels above those observe

87 Immunopathological mechanisms appear to contribute to th

88 to be elucidated, the evidence suggests that immunopathological mechanisms are involved.

89 mon skin and synovial antigens led to shared immunopathological mechanisms at these different sites,

90 cal manifestations of AMR, and discusses the immunopathological mechanisms contributing to antibody-m

91 The immunopathological mechanisms driving the development of

92 om direct ehrlichia-mediated injury but from immunopathological mechanisms initiated by ehrlichial in

93 knowledge of costimulatory molecule-mediated immunopathological mechanisms of uveitis and suggests a

94 al histopathological changes, the underlying immunopathological mechanisms remain largely unexplored.

95 Dissection of the underlying immunopathological mechanisms revealed the elaborate Tre

96 ing CVB4-V infection is able to suppress the immunopathological mechanisms that lead to chronic disea

97 dings provide new insights into the distinct immunopathological mechanisms underlying airway remodeli

98 eater understanding of time and place in the immunopathological mechanisms underlying human tuberculo

99 The immunopathological mechanisms underlying TB-IRIS are inc

100 the present study we aimed to elucidate the immunopathological mechanisms with which the H(4) recept

101 ecent literature in the understanding of the immunopathological mechanisms, diagnosis, and treatment

102 s disease heterogeneity with unknown diverse immunopathological mechanisms.

103 ytokine storm, and lymphopenia, with unknown immunopathological mechanisms.

104 ronic pancreatitis, in this model, is due to immunopathological mechanisms.

105 bundant ELSs and found that they constituted immunopathological microniches wherein malignant hepatoc

106 and highlight the importance of LPDA1 as an immunopathological molecule.

107 lly, this may leave them more susceptible to immunopathological morbidity when attempting to clear ex

108 cutaneous IL-36 signaling is crucial for the immunopathological outcome of various skin diseases.

109 trated that one lung infection modulates the immunopathological outcome to a subsequent unrelated pat

110 hat infect the intestine but differ in their immunopathological outcomes.

111 and disease progression, but the underlying immunopathological pathways are poorly understood.

112 The immunopathological pathways enabling post-coronavirus di

113 ntrinsic PDL1 signals regulate non-canonical immunopathological pathways mediating treatment resistan

114 Four distinct immunopathological patterns have been described in multi

115 y-one patients (95%) showed a persistence of immunopathological patterns in tissue sampled from diffe

116 a profound, interindividual heterogeneity in immunopathological patterns of active demyelination, whi

117 The structural and immunopathological patterns of demyelination suggest tha

118 active multiple sclerosis lesions show four immunopathological patterns of demyelination.

119 l nervous system is characterized by several immunopathological patterns that suggest the involvement

120 Additionally, inflammatory responses and immunopathological phenotypes in visceral adipose tissue

121 ilies that influence susceptibility to other immunopathological phenotypes, including survival after

122 ntial role of CTLs as final effectors of the immunopathological process in narcolepsy.

123 tax gene expression provokes and sustains an immunopathological process that progressively destroys m

124 gression, and various cytokines increase the immunopathological process.

125 We conclude that different immunopathological processes (endotypes) may underlie ty

126 c disorders, with genetic loads that reflect immunopathological processes in response to the intestin

127 oprotective processes while limiting ongoing immunopathological processes that cause ongoing CNS dise

128 have emerged as important in the control of immunopathological processes.

129 Two distinct immunopathological reaction patterns of lethal COVID-19

130 tution inflammatory syndrome (TB-IRIS) is an immunopathological reaction to mycobacterial antigens in

131 ous system (CNS) is relatively intolerant of immunopathological reactions.

132 may also initiate negative feedback against immunopathological reactions.

133 applied as a means to control virus-induced immunopathological reactions.

134 g-term sustained, clinical, serological, and immunopathological remission.

135 this protozoan parasite induces an abnormal immunopathological response consisting of pancreatic tis

136 dengue virus infection, is believed to be an immunopathological response to a secondary infection wit

137 odeficiency virus pneumonia may represent an immunopathological response to macrophage-tropic virus.

138 immunoinflammatory lesion that represents an immunopathological response to the infection.

139 hat both T-cell subsets were involved in the immunopathological response.

140 environmental promoting factors provokes an immunopathological response.

141 molecular circuits that prevent or regulate immunopathological responses against one parasite is lik

142 egulatory T (T(R)) cells can inhibit harmful immunopathological responses directed against self or fo

143 e modulation that we might apply to diminish immunopathological responses that cause human diseases.

144 development of novel interventions to limit immunopathological responses to infection.

145 is model should generate novel insights into immunopathological responses to viral ocular infection.

146 onses to sequential infection, and excessive immunopathological responses, co-infections are noted by

147 y individuals exhibit apparently maladaptive immunopathological responses.

148 y to differentiate beneficial versus harmful immunopathological responses.

149 efinitive evidence that T(reg) cells have an immunopathological role in human cancer is lacking.

150 These data confirm the immunopathological role of C5a/C5aR1 signaling in COVID-

151 ersial, but most studies admit the important immunopathological role of infiltrating CD8+ (cytotoxic)

152 has potent proinflammatory actions and plays immunopathological roles in inflammatory diseases, we in

153 ion between chlamydial hsp60 and destructive immunopathological sequelae in infected patients.

154 sis of TBM to discover strategies to prevent immunopathological sequelae.

155 and suggesting the potential development of immunopathological side effects when interfering with th

156 These findings underscore a unique immunopathological signature in HIC, characterized by pl

157 These results identify distinct immunopathological signatures in pCOVID-19 and MIS-C tha

158 Clinically, immunopathological staining showed strong PTGR2 expressi

159 Immunopathological studies demonstrate the deposition of

160 Immunopathological studies indicated that TCRdelta(-/-)

161 Immunopathological studies suggest that the target of im

162 Advanced immunopathological techniques hold promise for more prec

163 wever, adverse FRC reprogramming can promote immunopathological tissue damage during infection and au

164 include dysregulated antiviral immunity and immunopathological tissue injury.