Deformable registration of immunofluorescence and histology using iterative cross-modal propagation

Author

Conjeti, Sailesh ; Yigitsoy, Mehmet ; Tingying Peng ; Sheet, Debdoot ; Chatterjee, Jyotirmoy ; Bayer, Christine ; Navab, Nassir ; Katouzian, Amin

Author_Institution

Fak. fur Inf., Tech. Univ. Munchen, München, Germany

fYear

2015

fDate

16-19 April 2015

Firstpage

310

Lastpage

313

Abstract

In this work, we cast a multi-modal immunofluorescence to histology registration problem is cast to a mono-modal one by iteratively propagating tissue-specific features from one modality to generate intensities in the other modality via an implicitly learnt random-forest regression framework. The proposed method iterates between modality propagation and image registration in a unified formulation. Evaluations on real and simulated tissue deformations establish superiority of the proposed work over comparative methods in handling highly complex intermodal intensity relationships. This framework will aid in quantitative analysis of the tissue structure, functionality thus providing for co-located molecular validations and bringing in spatial fidelity to histological assessment.

Keywords

biochemistry; biological tissues; biomechanics; biomedical optical imaging; decision trees; deformation; feature extraction; fluorescence; image registration; iterative methods; learning (artificial intelligence); medical image processing; molecular biophysics; random processes; regression analysis; co-located molecular validation; comparative method; complex intermodal intensity relationship handling; deformable registration; histological assessment; image registration; implicitly learnt random-forest regression framework; intensity generation; iterative cross-modal propagation; modality propagation; monomodal registration problem; multimodal immunofluorescence-to-histology registration problem; quantitative tissue functionality analysis; quantitative tissue structure analysis; real tissue deformation; simulated tissue deformation; spatial fidelity; tissue-specific feature propagation; unified formulation; Deformable models; Feature extraction; Image registration; Imaging; Immune system; Robustness; Standards; Modality propagation; deformable registration; histology; immunofluorescence;

fLanguage

English

Publisher

ieee

Conference_Titel

Biomedical Imaging (ISBI), 2015 IEEE 12th International Symposium on

Conference_Location

New York, NY

Type

conf

DOI

10.1109/ISBI.2015.7163875

Filename

7163875