A study of the effect of formalin preservation on normal and cancerous breast tissues using small angle X-ray scattering (SAXS)

Small angle X-ray scattering (SAXS) has the ability to provide information on a molecular and supra-molecular scale from biological tissue specimens. It has been postulated that this information will be useful in providing histopathological diagnoses for certain diseases of the breast. In this category, we include cancer, a major health problem for a number of populations around the world. So far studies in our group have been made using flash-frozen tissue samples. This limits the range and ease of use of the technique. If we were able to obtain the same information from preserved tissues then a more extensive use of SAXS diagnosis would be possible. Here we report on the first investigations into this possibility. In the research reported in this paper, 84 human breast biopsies including cancer and normal tissues were obtained from human patients. Small angle scatter data were collected at station 2.1 of the SRS at the Daresbury Laboratory, UK using a beam size of 0.25 mm(2) at the sample and a wavelength of 1.54 angstrom. The sample to detector distance was 2000 mm. The results verify that there is a quantifiable difference between the scatter curves from flash-frozen cancer and normal breast tissue in the range of scatter vector Q between 0.4 and 0.7 nm(-1). After preserving the tissues in formalin, the difference between the normal and cancerous tissues is less marked. The preservation of the tissue in formalin can essentially mask the effects that disease would have on the tissue supra-molecular structure rendering the preserved specimens of less useful for this histopathology technique. (c) 2006 Elsevier Ltd. All rights reserved.