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Haemopoietic growth factors significantly improve the mitotic index and chromosome quality in cytogenetic cultures of myeloid neoplasia

Haemopoietic growth factors significantly improve the mitotic index and chromosome quality in cytogenetic cultures of myeloid neoplasia
Haemopoietic growth factors significantly improve the mitotic index and chromosome quality in cytogenetic cultures of myeloid neoplasia
Haemopoietic growth factors stimulate bone marrow cell division, differentiation, and survival in vivo. We have investigated the use of recombinant human haemopoietic growth factors in vitro to improve cytogenetic cultures. Using a combination of granulocyte colony stimulating factor, granulocyte macrophage colony stimulating factor, stem cell factor, and interleukin-3, we developed an additive for bone marrow cultures intended to stimulate myeloid cell growth. Sixty-seven paired parallel cultures were analyzed, of which 50 were abnormal. The growth factor (GF) cultures showed a median four- to five-fold increase in mitotic index (MI) (P < 0.0001). In addition, the chromosome morphology was significantly improved in the GF cultures with a median increase in United Kingdom National External Quality Assessment Scheme quality score of 1.25 points (P < 0.0001). There was no statistically significant difference in the number of abnormal cells between the two culture methods. The combination of higher MI and improved chromosome quality substantially reduces the time required to process a case; furthermore, the GF medium is cheaper than the medium with which it was compared. This method is suitable for both diagnostic and follow-up cytogenetic analysis of acute and chronic myeloid neoplasia and is particularly useful for poorly cellular marrow samples or blood samples that would be expected to fail on standard culture. The use of this method has enabled substantial improvements in work efficiency in our oncology cytogenetic laboratory and reduced average reporting times from 9.0 days (2004/5) to 7.1 days (2005/6), despite a 6% increase in sample numbers
blood, survival, bone marrow, tumor cells, human, chromosomes, cell division, time, genetics, pathology, drug effects, interleukin-3, differentiation, humans, growth, research, cultured, research support, methods, analysis, bone, leukemia, cytogenetic analysis, in-vitro, myeloid, culture, combination, hematopoietic cell growth factors, acute disease, mitosis, laboratories, pharmacology, in vitro
1045-2257
670-674
Earle, Victoria L.
c8e2b055-aee2-4a61-ac15-b8f2a43604af
Ross, Fiona
ec0958f8-b992-4e4a-b7e3-c474600390ba
Fisher, Andrew
f6465cb5-180c-4ed8-aa03-1c653c5cbfbe
Strike, Paul
3c33eda8-2ba9-43ce-b66e-3d3e5003c96d
Berrington, Samantha
1ac8f3f0-627f-4b5a-b199-f5a47d4f869c
Chiecchio, Laura
3d2f63e3-3df1-4655-8478-00ecd89d009c
Cabanas, Elisabet Dachs
f4e813bc-7891-4c48-a1a2-8e664db50cae
Washbourne, Rebecca
a2432d5c-f678-4427-808d-839b8e0f7601
Watts, Kathryn
c5854ba1-c837-497a-90c6-c9362e2ded80
Grand, Francis
c0b07bd4-8b60-4664-aaf7-0b8aefa0ef0f
Earle, Victoria L.
c8e2b055-aee2-4a61-ac15-b8f2a43604af
Ross, Fiona
ec0958f8-b992-4e4a-b7e3-c474600390ba
Fisher, Andrew
f6465cb5-180c-4ed8-aa03-1c653c5cbfbe
Strike, Paul
3c33eda8-2ba9-43ce-b66e-3d3e5003c96d
Berrington, Samantha
1ac8f3f0-627f-4b5a-b199-f5a47d4f869c
Chiecchio, Laura
3d2f63e3-3df1-4655-8478-00ecd89d009c
Cabanas, Elisabet Dachs
f4e813bc-7891-4c48-a1a2-8e664db50cae
Washbourne, Rebecca
a2432d5c-f678-4427-808d-839b8e0f7601
Watts, Kathryn
c5854ba1-c837-497a-90c6-c9362e2ded80
Grand, Francis
c0b07bd4-8b60-4664-aaf7-0b8aefa0ef0f

Earle, Victoria L., Ross, Fiona, Fisher, Andrew, Strike, Paul, Berrington, Samantha, Chiecchio, Laura, Cabanas, Elisabet Dachs, Washbourne, Rebecca, Watts, Kathryn and Grand, Francis (2007) Haemopoietic growth factors significantly improve the mitotic index and chromosome quality in cytogenetic cultures of myeloid neoplasia. Genes, Chromosomes and Cancer, 46 (7), 670-674. (doi:10.1002/gcc.20450).

Record type: Article

Abstract

Haemopoietic growth factors stimulate bone marrow cell division, differentiation, and survival in vivo. We have investigated the use of recombinant human haemopoietic growth factors in vitro to improve cytogenetic cultures. Using a combination of granulocyte colony stimulating factor, granulocyte macrophage colony stimulating factor, stem cell factor, and interleukin-3, we developed an additive for bone marrow cultures intended to stimulate myeloid cell growth. Sixty-seven paired parallel cultures were analyzed, of which 50 were abnormal. The growth factor (GF) cultures showed a median four- to five-fold increase in mitotic index (MI) (P < 0.0001). In addition, the chromosome morphology was significantly improved in the GF cultures with a median increase in United Kingdom National External Quality Assessment Scheme quality score of 1.25 points (P < 0.0001). There was no statistically significant difference in the number of abnormal cells between the two culture methods. The combination of higher MI and improved chromosome quality substantially reduces the time required to process a case; furthermore, the GF medium is cheaper than the medium with which it was compared. This method is suitable for both diagnostic and follow-up cytogenetic analysis of acute and chronic myeloid neoplasia and is particularly useful for poorly cellular marrow samples or blood samples that would be expected to fail on standard culture. The use of this method has enabled substantial improvements in work efficiency in our oncology cytogenetic laboratory and reduced average reporting times from 9.0 days (2004/5) to 7.1 days (2005/6), despite a 6% increase in sample numbers

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Published date: 9 April 2007
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Keywords: blood, survival, bone marrow, tumor cells, human, chromosomes, cell division, time, genetics, pathology, drug effects, interleukin-3, differentiation, humans, growth, research, cultured, research support, methods, analysis, bone, leukemia, cytogenetic analysis, in-vitro, myeloid, culture, combination, hematopoietic cell growth factors, acute disease, mitosis, laboratories, pharmacology, in vitro
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Identifiers

Local EPrints ID: 59688
URI: http://eprints.soton.ac.uk/id/eprint/59688
DOI: doi:10.1002/gcc.20450
ISSN: 1045-2257
PURE UUID: cf616559-3a34-4d3b-9ed7-95712df93e79

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Date deposited: 04 Sep 2008
Last modified: 15 Mar 2024 11:17

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Contributors

Author: Victoria L. Earle
Author: Fiona Ross
Author: Andrew Fisher
Author: Paul Strike
Author: Samantha Berrington
Author: Laura Chiecchio
Author: Elisabet Dachs Cabanas
Author: Rebecca Washbourne
Author: Kathryn Watts
Author: Francis Grand

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