A new sampling device for faecal immunochemical testing: haemoglobin stability is still an open issue

Gnatta, E; Zaninotto, M; Epifani, MG; Padoan, A; Gjini, R; Plebani, M

HERO ID

2343708

Reference Type

Journal Article

Year

2014

Language

English

PMID

24516002

HERO ID 2343708
In Press No
Year 2014
Title A new sampling device for faecal immunochemical testing: haemoglobin stability is still an open issue
Authors Gnatta, E; Zaninotto, M; Epifani, MG; Padoan, A; Gjini, R; Plebani, M
Journal Clinical Chemistry and Laboratory Medicine
Volume 52
Issue 8
Page Numbers 1203-1209
Abstract Background: The detection of faecal occult blood is a fundamental step in making an early diagnosis of colorectal cancer. The aim of the present study was to evaluate the stability of haemoglobin in faeces collected with two sampling devices specific for faecal immunochemical testing (FOB Gold Tube Screen and FOB Gold Tube NG) that contain different preservative buffers (buffer H, BH, and buffer N, BN, respectively). Methods: Fifteen true positive faecal samples were collected with both devices. A pool from each sample was made. Each pool was portioned and stored at +4°C, +21°C and +32°C for 10 days. One aliquot of each pool stored at each of the respective temperatures was tested at five time intervals between sampling and analysis. The same procedure was followed for three synthetic haemoglobin solutions in both buffers. Results: The percentage of cumulative faecal haemoglobin decrease (HbCD%) was evaluated. No significant difference was found between BH and BN in HbCD% at +4°C (p=0.106); at +21°C and +32°C, HbCD% was lower in BH than in BN samples (p=0.002 and p<uni-003D;0.001, respectively) whereas no difference was found between samples stored in BH at +4°C and +21°C. The synthetic haemoglobin degradation percentage was always ≤7.1% for both buffers except for BN at +32°C (about 60%). Conclusions: Synthetic haemoglobin solutions behave differently from the true faecal samples. At +21°C and +32°C BH preserves the haemoglobin better than BN, independent of the haemoglobin concentration. BH, allowing sample stability at both +4°C and +21°C, is more suitable for screening procedures.
Doi 10.1515/cclm-2013-1074
Pmid 24516002
Wosid WOS:000340786100023
Is Certified Translation No
Dupe Override No
Is Public Yes
Language Text English
Keyword colorectal cancer; faecal immunochemical test; faecal occult blood; preservative buffer