Mast cell activation test

Mast cell activation test: A new asset in the investigation of the chlorhexidine cross-sensitization profile

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Standard

Mast cell activation test : A new asset in the investigation of the chlorhexidine cross-sensitization profile. / Ebo, Didier G.; Elst, Jessy; Moonen, Nele; van der Poorten, Marie-Line M.; Van Gasse, Athina L.; Garvey, Lene H.; Bridts, Chris H.; Mertens, Christel; Hagendorens, Margo M.; Sabato, Vito.

I: Clinical and Experimental Allergy, Bind 52, Nr. 11, 2022, s. 1311-1320.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Ebo, DG, Elst, J, Moonen, N, van der Poorten, M-LM, Van Gasse, AL, Garvey, LH, Bridts, CH, Mertens, C, Hagendorens, MM & Sabato, V 2022, 'Mast cell activation test: A new asset in the investigation of the chlorhexidine cross-sensitization profile', Clinical and Experimental Allergy, bind 52, nr. 11, s. 1311-1320. https://doi.org/10.1111/cea.14129

APA

Ebo, D. G., Elst, J., Moonen, N., van der Poorten, M-L. M., Van Gasse, A. L., Garvey, L. H., Bridts, C. H., Mertens, C., Hagendorens, M. M., & Sabato, V. (2022). Mast cell activation test: A new asset in the investigation of the chlorhexidine cross-sensitization profile. Clinical and Experimental Allergy, 52(11), 1311-1320. https://doi.org/10.1111/cea.14129

Vancouver

Ebo DG, Elst J, Moonen N, van der Poorten M-LM, Van Gasse AL, Garvey LH o.a. Mast cell activation test: A new asset in the investigation of the chlorhexidine cross-sensitization profile. Clinical and Experimental Allergy. 2022;52(11):1311-1320. https://doi.org/10.1111/cea.14129

Author

Ebo, Didier G. ; Elst, Jessy ; Moonen, Nele ; van der Poorten, Marie-Line M. ; Van Gasse, Athina L. ; Garvey, Lene H. ; Bridts, Chris H. ; Mertens, Christel ; Hagendorens, Margo M. ; Sabato, Vito. / Mast cell activation test : A new asset in the investigation of the chlorhexidine cross-sensitization profile. I: Clinical and Experimental Allergy. 2022 ; Bind 52, Nr. 11. s. 1311-1320.

Bibtex

@article{75bc42d3728b476e879fb281a9bba6d6,

title = "Mast cell activation test: A new asset in the investigation of the chlorhexidine cross-sensitization profile",

abstract = "Background Insights into the IgE cross-sensitization and possible cross-reactivity patterns of sera reactive to chlorhexidine (CHX) are still incomplete and are likely to benefit from a functional exploration using a passive mast cell activation test (pMAT). Therefore, we want to study whether the pMAT with CHX-specific IgE (sIgE) enables to depict effector cell degranulation in response to alexidine (ALX), octenidine (OCT) and/or polyhexamethylene biguanide (PHMB) indicative of cross-reactivity between these compounds and CHX. Methods Serum of 10 CHX-allergic patients, nine individuals with an isolated sIgE CHX and five healthy controls were included. Human cultured mast cells (MCs) were, before and after sensitization, challenged with CHX, ALX, OCT or PHMB. Degranulation was measured via quantification of upregulation of CD63. Results Mast cell responsiveness to ALX and OCT was demonstrable with 4/10 and 3/10 of the sera of CHX-allergic patients respectively. Percentage of degranulation varied between 12 and 34% for ALX-reactive MCs and between 4 and 22% for OCT-reactive MCs. No reactivity to ALX or OCT was demonstrable when using sera obtained from individuals with an isolated sIgE CHX or from healthy controls. Unlike CHX, ALX and OCT, PHMB turned out to be a direct MC activator via occupation of MRGPRX2. PHMB-reactive sIgEs were demonstrable in some patients with an isolated sIgE CHX but were unable to trigger PHMB-induced degranulation in MRGPRX2 knockdown MCs. Conclusion Mast cells constitute an attractive tool to explore cross-reactivity between structurally similar compounds. Along with the identification of safe alternatives for the individual patient, the pMAT can advance our insights into sIgE cross-reactivity patterns including assessment of molecules not yet approved for human use.",

keywords = "CD63, chlorhexidine, cross-reactivity, flow cytometry, human mast cells, mast cell activation, BASOPHIL ACTIVATION, ANAPHYLAXIS",

author = "Ebo, {Didier G.} and Jessy Elst and Nele Moonen and {van der Poorten}, {Marie-Line M.} and {Van Gasse}, {Athina L.} and Garvey, {Lene H.} and Bridts, {Chris H.} and Christel Mertens and Hagendorens, {Margo M.} and Vito Sabato",

year = "2022",

doi = "10.1111/cea.14129",

language = "English",

volume = "52",

pages = "1311--1320",

journal = "Clinical Allergy",

issn = "0954-7894",

publisher = "Wiley-Blackwell",

number = "11",

}

RIS

TY - JOUR

T1 - Mast cell activation test

T2 - A new asset in the investigation of the chlorhexidine cross-sensitization profile

AU - Ebo, Didier G.

AU - Elst, Jessy

AU - Moonen, Nele

AU - van der Poorten, Marie-Line M.

AU - Van Gasse, Athina L.

AU - Garvey, Lene H.

AU - Bridts, Chris H.

AU - Mertens, Christel

AU - Hagendorens, Margo M.

AU - Sabato, Vito

PY - 2022

Y1 - 2022

N2 - Background Insights into the IgE cross-sensitization and possible cross-reactivity patterns of sera reactive to chlorhexidine (CHX) are still incomplete and are likely to benefit from a functional exploration using a passive mast cell activation test (pMAT). Therefore, we want to study whether the pMAT with CHX-specific IgE (sIgE) enables to depict effector cell degranulation in response to alexidine (ALX), octenidine (OCT) and/or polyhexamethylene biguanide (PHMB) indicative of cross-reactivity between these compounds and CHX. Methods Serum of 10 CHX-allergic patients, nine individuals with an isolated sIgE CHX and five healthy controls were included. Human cultured mast cells (MCs) were, before and after sensitization, challenged with CHX, ALX, OCT or PHMB. Degranulation was measured via quantification of upregulation of CD63. Results Mast cell responsiveness to ALX and OCT was demonstrable with 4/10 and 3/10 of the sera of CHX-allergic patients respectively. Percentage of degranulation varied between 12 and 34% for ALX-reactive MCs and between 4 and 22% for OCT-reactive MCs. No reactivity to ALX or OCT was demonstrable when using sera obtained from individuals with an isolated sIgE CHX or from healthy controls. Unlike CHX, ALX and OCT, PHMB turned out to be a direct MC activator via occupation of MRGPRX2. PHMB-reactive sIgEs were demonstrable in some patients with an isolated sIgE CHX but were unable to trigger PHMB-induced degranulation in MRGPRX2 knockdown MCs. Conclusion Mast cells constitute an attractive tool to explore cross-reactivity between structurally similar compounds. Along with the identification of safe alternatives for the individual patient, the pMAT can advance our insights into sIgE cross-reactivity patterns including assessment of molecules not yet approved for human use.

AB - Background Insights into the IgE cross-sensitization and possible cross-reactivity patterns of sera reactive to chlorhexidine (CHX) are still incomplete and are likely to benefit from a functional exploration using a passive mast cell activation test (pMAT). Therefore, we want to study whether the pMAT with CHX-specific IgE (sIgE) enables to depict effector cell degranulation in response to alexidine (ALX), octenidine (OCT) and/or polyhexamethylene biguanide (PHMB) indicative of cross-reactivity between these compounds and CHX. Methods Serum of 10 CHX-allergic patients, nine individuals with an isolated sIgE CHX and five healthy controls were included. Human cultured mast cells (MCs) were, before and after sensitization, challenged with CHX, ALX, OCT or PHMB. Degranulation was measured via quantification of upregulation of CD63. Results Mast cell responsiveness to ALX and OCT was demonstrable with 4/10 and 3/10 of the sera of CHX-allergic patients respectively. Percentage of degranulation varied between 12 and 34% for ALX-reactive MCs and between 4 and 22% for OCT-reactive MCs. No reactivity to ALX or OCT was demonstrable when using sera obtained from individuals with an isolated sIgE CHX or from healthy controls. Unlike CHX, ALX and OCT, PHMB turned out to be a direct MC activator via occupation of MRGPRX2. PHMB-reactive sIgEs were demonstrable in some patients with an isolated sIgE CHX but were unable to trigger PHMB-induced degranulation in MRGPRX2 knockdown MCs. Conclusion Mast cells constitute an attractive tool to explore cross-reactivity between structurally similar compounds. Along with the identification of safe alternatives for the individual patient, the pMAT can advance our insights into sIgE cross-reactivity patterns including assessment of molecules not yet approved for human use.

KW - CD63

KW - chlorhexidine

KW - cross-reactivity

KW - flow cytometry

KW - human mast cells

KW - mast cell activation

KW - BASOPHIL ACTIVATION

KW - ANAPHYLAXIS

U2 - 10.1111/cea.14129

DO - 10.1111/cea.14129

M3 - Journal article

C2 - 35305051

VL - 52

SP - 1311

EP - 1320

JO - Clinical Allergy

JF - Clinical Allergy

SN - 0954-7894

IS - 11

ER -

ID: 308078175