BACKGROUND: Quantitative determination of the development of new blood vessels is crucial for our understanding of the progression of several diseases, including cancer. However, in most cases a high throughput technique that is simple, accurate, user-independent and cost-effective for small animal imaging is not available. METHODS: In this work we present a simple approach based on spectral imaging to increase the contrast between vessels and surrounding tissue, enabling accurate determination of the blood vessel area. This approach is put to test with a 4T1 breast cancer murine in vivo model and validated with histological and microvessel density analysis. RESULTS: We found that one can accurately measure the vascularization area by using excitation/emission filter pairs which enhance the surrounding tissue's autofluorescence, significantly increasing the contrast between surrounding tissue and blood vessels. Additionally, we found excellent correlation between this technique and histological and microvessel density analysis. CONCLUSIONS: Making use of spectral imaging techniques we have shown that it is possible to accurately determine blood vessel volume intra-vitally. We believe that due to the low cost, accuracy, user-independence and simplicity of this technique, it will be of great value in those cases where in vivo quantitative information is necessary.
BACKGROUND: Quantitative determination of the development of new blood vessels is crucial for our understanding of the progression of several diseases, including cancer. However, in most cases a high throughput technique that is simple, accurate, user-independent and cost-effective for small animal imaging is not available. METHODS: In this work we present a simple approach based on spectral imaging to increase the contrast between vessels and surrounding tissue, enabling accurate determination of the blood vessel area. This approach is put to test with a 4T1breast cancermurine in vivo model and validated with histological and microvessel density analysis. RESULTS: We found that one can accurately measure the vascularization area by using excitation/emission filter pairs which enhance the surrounding tissue's autofluorescence, significantly increasing the contrast between surrounding tissue and blood vessels. Additionally, we found excellent correlation between this technique and histological and microvessel density analysis. CONCLUSIONS: Making use of spectral imaging techniques we have shown that it is possible to accurately determine blood vessel volume intra-vitally. We believe that due to the low cost, accuracy, user-independence and simplicity of this technique, it will be of great value in those cases where in vivo quantitative information is necessary.
Authors: B J Tromberg; N Shah; R Lanning; A Cerussi; J Espinoza; T Pham; L Svaasand; J Butler Journal: Neoplasia Date: 2000 Jan-Apr Impact factor: 5.715
Authors: A E Cerussi; D Jakubowski; N Shah; F Bevilacqua; R Lanning; A J Berger; D Hsiang; J Butler; R F Holcombe; B J Tromberg Journal: J Biomed Opt Date: 2002-01 Impact factor: 3.170
Authors: N Shah; A Cerussi; C Eker; J Espinoza; J Butler; J Fishkin; R Hornung; B Tromberg Journal: Proc Natl Acad Sci U S A Date: 2001-04-03 Impact factor: 11.205