A novel immunohistochemical sequential multi-labelling and erasing technique enables epitope characterization of bone marrow pericytes in primary myelofibrosis

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A novel immunohistochemical sequential multi-labelling and erasing technique enables epitope characterization of bone marrow pericytes in primary myelofibrosis. / Madelung, Ann; Bzorek, Michael; Bondo, Henrik; Zetterberg, Eva; Bjerrum, Ole Weis; Hasselbalch, Hans Carl; Scheding, Stefan; Ralfkiaer, Elisabeth.

I: Histopathology, Bind 60: 554 – 660., 2012.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Madelung, A, Bzorek, M, Bondo, H, Zetterberg, E, Bjerrum, OW, Hasselbalch, HC, Scheding, S & Ralfkiaer, E 2012, 'A novel immunohistochemical sequential multi-labelling and erasing technique enables epitope characterization of bone marrow pericytes in primary myelofibrosis', Histopathology, bind 60: 554 – 660.. https://doi.org/10.1111/j.1365-2559.2011.04104.x

APA

Madelung, A., Bzorek, M., Bondo, H., Zetterberg, E., Bjerrum, O. W., Hasselbalch, H. C., Scheding, S., & Ralfkiaer, E. (2012). A novel immunohistochemical sequential multi-labelling and erasing technique enables epitope characterization of bone marrow pericytes in primary myelofibrosis. Histopathology, 60: 554 – 660.. https://doi.org/10.1111/j.1365-2559.2011.04104.x

Vancouver

Madelung A, Bzorek M, Bondo H, Zetterberg E, Bjerrum OW, Hasselbalch HC o.a. A novel immunohistochemical sequential multi-labelling and erasing technique enables epitope characterization of bone marrow pericytes in primary myelofibrosis. Histopathology. 2012;60: 554 – 660. https://doi.org/10.1111/j.1365-2559.2011.04104.x

Author

Madelung, Ann ; Bzorek, Michael ; Bondo, Henrik ; Zetterberg, Eva ; Bjerrum, Ole Weis ; Hasselbalch, Hans Carl ; Scheding, Stefan ; Ralfkiaer, Elisabeth. / A novel immunohistochemical sequential multi-labelling and erasing technique enables epitope characterization of bone marrow pericytes in primary myelofibrosis. I: Histopathology. 2012 ; Bind 60: 554 – 660.

Bibtex

@article{9c0993c9d8314d83aa06d1ad5d028d43,
title = "A novel immunohistochemical sequential multi-labelling and erasing technique enables epitope characterization of bone marrow pericytes in primary myelofibrosis",
abstract = "Madelung A, Bzorek M, Bondo H, Zetterberg E, Bjerrum O W, Hasselbalch H C, Scheding S & Ralfkiaer E (2012) Histopathology A novel immunohistochemical sequential multi-labelling and erasing technique enables epitope characterization of bone marrow pericytes in primary myelofibrosis Aim: In Philadelphia (Ph)-negative chronic myeloproliferative neoplasms, increased microvascular density, bizarre vessel architecture and increased number of pericytes are among the distinct histopathological features. The aim of this study was to characterize bone marrow pericytes in primary myelofibrosis (PMF) using a novel multi-labelling immunohistochemical technique. Methods and results: Bone marrow biopsies from a normal donor (n = 1) and patients with PMF (n = 3) were subjected to an immunohistochemical sequential multi-labelling and erasing technique (SE-technique). Antigens of interest in the first and/or second layer were detected with an immunoperoxidase system and visualized with aminoethylcarbazole. After imaging, erasing and blocking of immunoreagents, the slides were stained with a traditional double immunolabelling procedure. In addition, we applied a Photoshop({\textregistered}) colour palette, creating a single composite image of the sequential staining procedures. We successfully applied four layers of antibodies on one slide using CD146, smooth muscle actin, CD34, CD271 and Ki67 in different combinations. The SE-technique significantly improves morphological and phenotypical studies in bone marrow specimens. Conclusions: To our knowledge, the SE-technique is the first to multi-label antigens, identifying vessel and pericyte architecture in bone marrow by light microscopy. This technique may unravel novel aspects of the composition of the microvessel structures in patients with PMF and related neoplasms.",
author = "Ann Madelung and Michael Bzorek and Henrik Bondo and Eva Zetterberg and Bjerrum, {Ole Weis} and Hasselbalch, {Hans Carl} and Stefan Scheding and Elisabeth Ralfkiaer",
note = "{\textcopyright} 2012 Blackwell Publishing Ltd.",
year = "2012",
doi = "10.1111/j.1365-2559.2011.04104.x",
language = "English",
volume = "60: 554 – 660.",
journal = "Histopathology",
issn = "0309-0167",
publisher = "Wiley-Blackwell",

}

RIS

TY - JOUR

T1 - A novel immunohistochemical sequential multi-labelling and erasing technique enables epitope characterization of bone marrow pericytes in primary myelofibrosis

AU - Madelung, Ann

AU - Bzorek, Michael

AU - Bondo, Henrik

AU - Zetterberg, Eva

AU - Bjerrum, Ole Weis

AU - Hasselbalch, Hans Carl

AU - Scheding, Stefan

AU - Ralfkiaer, Elisabeth

N1 - © 2012 Blackwell Publishing Ltd.

PY - 2012

Y1 - 2012

N2 - Madelung A, Bzorek M, Bondo H, Zetterberg E, Bjerrum O W, Hasselbalch H C, Scheding S & Ralfkiaer E (2012) Histopathology A novel immunohistochemical sequential multi-labelling and erasing technique enables epitope characterization of bone marrow pericytes in primary myelofibrosis Aim: In Philadelphia (Ph)-negative chronic myeloproliferative neoplasms, increased microvascular density, bizarre vessel architecture and increased number of pericytes are among the distinct histopathological features. The aim of this study was to characterize bone marrow pericytes in primary myelofibrosis (PMF) using a novel multi-labelling immunohistochemical technique. Methods and results: Bone marrow biopsies from a normal donor (n = 1) and patients with PMF (n = 3) were subjected to an immunohistochemical sequential multi-labelling and erasing technique (SE-technique). Antigens of interest in the first and/or second layer were detected with an immunoperoxidase system and visualized with aminoethylcarbazole. After imaging, erasing and blocking of immunoreagents, the slides were stained with a traditional double immunolabelling procedure. In addition, we applied a Photoshop(®) colour palette, creating a single composite image of the sequential staining procedures. We successfully applied four layers of antibodies on one slide using CD146, smooth muscle actin, CD34, CD271 and Ki67 in different combinations. The SE-technique significantly improves morphological and phenotypical studies in bone marrow specimens. Conclusions: To our knowledge, the SE-technique is the first to multi-label antigens, identifying vessel and pericyte architecture in bone marrow by light microscopy. This technique may unravel novel aspects of the composition of the microvessel structures in patients with PMF and related neoplasms.

AB - Madelung A, Bzorek M, Bondo H, Zetterberg E, Bjerrum O W, Hasselbalch H C, Scheding S & Ralfkiaer E (2012) Histopathology A novel immunohistochemical sequential multi-labelling and erasing technique enables epitope characterization of bone marrow pericytes in primary myelofibrosis Aim: In Philadelphia (Ph)-negative chronic myeloproliferative neoplasms, increased microvascular density, bizarre vessel architecture and increased number of pericytes are among the distinct histopathological features. The aim of this study was to characterize bone marrow pericytes in primary myelofibrosis (PMF) using a novel multi-labelling immunohistochemical technique. Methods and results: Bone marrow biopsies from a normal donor (n = 1) and patients with PMF (n = 3) were subjected to an immunohistochemical sequential multi-labelling and erasing technique (SE-technique). Antigens of interest in the first and/or second layer were detected with an immunoperoxidase system and visualized with aminoethylcarbazole. After imaging, erasing and blocking of immunoreagents, the slides were stained with a traditional double immunolabelling procedure. In addition, we applied a Photoshop(®) colour palette, creating a single composite image of the sequential staining procedures. We successfully applied four layers of antibodies on one slide using CD146, smooth muscle actin, CD34, CD271 and Ki67 in different combinations. The SE-technique significantly improves morphological and phenotypical studies in bone marrow specimens. Conclusions: To our knowledge, the SE-technique is the first to multi-label antigens, identifying vessel and pericyte architecture in bone marrow by light microscopy. This technique may unravel novel aspects of the composition of the microvessel structures in patients with PMF and related neoplasms.

U2 - 10.1111/j.1365-2559.2011.04104.x

DO - 10.1111/j.1365-2559.2011.04104.x

M3 - Journal article

C2 - 22250648

VL - 60: 554 – 660.

JO - Histopathology

JF - Histopathology

SN - 0309-0167

ER -

ID: 40145537