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  • Callau C, Lejeune M, Korzynska A, García M, Bueno G, Bosch R, Jaén J, Orero G, Salvadó T, López C, 2014: Evaluation of cytokeratin-19 in breast cancer tissue samples: a comparison of automatic and manual evaluations of scanned tissue microarray cylinder, BioMedical Engineering OnLine 2015, 14 (Suppl 2):S2 doi:10.1186/1475-925X-14-S2-S2.
  • Dudziński K, Dawgul M, Pluta K, Wawro B, Torbicz W, Pijanowska DG, 2017: Spiral concentric two electrode sensor fabricated by direct writing for skin impedance measurements, IEEE Sens. J., 2017, 17:5306-5314.
  • Gomolka R, Klonowski W, Korzynska A, Siemion K. Automatic segmentation of morphological structures in microscopic images of lymphatic nodes - preliminary results. 5th International Conference on PATHOLOGY PATHO '17 (14-17.07.2017 Heraklion, Grecja); International Journal of Medical Physiology vol. 2, pp.: 9-12; 2017 http://iaras.org/iaras/journals/ijmp; ISSN: 2534-885.
  • Jankowska-Śliwińska J, Dawgul M, Kruk J, Pijanowska DG, 2017: Comparison of electrochemical determination of purines and pyrimidines by means of carbon, graphite and gold electrodes, Int. J. Electrochem. Sc., 2017, 12:2329-2343.
  • Kazimierczak K, Pijanowska DG, Baraniecka A, Dawgul M, Kruk J, Torbicz W, 2016: Immunosensors for human cardiac troponins and CRP, in particular amperometric cTnI immunosensor, Biocybern. Biomed. Eng., 2016, 36:29-41.
  • Klonowski W, 2016: Fractal Analysis of Electroencephalographic Time Series (EEG Signals), DiIeva, A (Fd.) FRACTAL GEOMETRY OF THE BRAIN Book Series: Springer Series in Computational Neuroscience 2016: 413-429.
  • Klonowski W , Korzynska A, Gomolka R, Stepien P , 2017: Computer-Aided Image Analysis in Onco-Pathology. 5th International Conference on PATHOLOGY PATHO '17 (14-17.07.2017 Heraklion, Grecja); International Journal of Oncology and Cancer Therapy vol. 2, pp.: 9-12; 2017 http://iaras.org/iaras/journals/ijoct; ISSN: 2534-8868.
  • Klonowski W , Kuraszkiewicz B, Gomolka R, Stepien P, 2017: Computer-Aided Image Analysis in Neuro-Pathology. 5th International Conference on PATHOLOGY PATHO '17 (14-17.07.2017 Heraklion, Grecja); International Journal of Psychiatry and Psychoterapy vol. 2, pp.: 50-53; 2017 http://iaras.org/iaras/journals/ijpp; ISSN 2535-099
  • Korzyńska A, Strojny W, Hoppe A, Wertheim D, Hoser P, 2007: Segmentation of microscope images of living cells. Pattern Anal Appl 2007, 10:301-319.
  • Korzyńska A, 2007: Automatic counting of neural stem cell in cultures. In: M.Kurzyński, E.Puchała M.Woźniak, A.Żołnierek (Eds.), Computer Recognition Systems 2; Advances in Soft Computing, Springer-Verlag, Berlin, Heidelberg, New York 2007, 45:604-612.
  • Korzyńska A, Iwanowski M, 2008: Method of cell counting in laser skaner microscpics images. In: E.Pietka, J.Kawa (Eds.), Information Technology in Biomedicine; Advances in Soft Computing, Springer-Verlag, Berlin, Heidelberg, 2008, 47:365-376.
  • Korzyńska A, Zduńczuk M, 2008: Clustering as a method of image simplification. In E. Pietka, J. Kawa (Eds.), Information Technology in Biomedicine; Advances in Soft Computing, 47:345-356, Springer-Verlag, Berlin, Heidelberg, 2008.
  • Korzyńska A, Zychowicz M 2008: Method of estimation of the cell doubling time on the basis of the cell culture monitoring data, Biocyb Biomed Eng 2008, 28(4):75-82.
  • Korzyńska A, Iwanowski M, Neuman U, Dobrowolska E and Hoser P, 2009: Comparison of the methods of microscopic image segmentation, (Dossel, Schlegel Eds.), IFMBE Proceedings of world Compress 2009, 25(IV):425-428, ISBN 978-3-642-03897-6 (book), ISSN 1680-0737 (CD).
  • Korzyńska A, Neuman A, Lopez C, Lejeune M, Bosch R, 2010, “The Method of Immunohistochemical Images Standardization” w monografii: R.S. Choras (ed.): Image processing & Communications Challenges 2, AISC 84:213-221, Springer-Verlag, Berlin, Heidelberg, 2010.
  • Korzyńska A, Roszkowiak Ł, Lopez C, Bosch R, Lejeune M, 2013, “Validation of various adaptive threshold method of segmentation applied to follicular lymphoma digital image stained with 3,3’-Diaminobenzidine&Haematoxylin” Diagnostic Pathology 2013, 8:48, DOI: 10.1186/1746-1596-8-48.
  • Korzynska A, Roszkowiak Ł, Pijanowska DG, Kozlowski W, Markiewicz T, 2014; “The influence of the microscope lamp filament colour temperature on the process of digital images of histological slides acquisition standardization” Diagnostic Pathology 2014, 9 (Suppl. 1) : S13, DOI: 10.1186/1746-1596-9-S1-S13.
  • Korzynska A, Roszkowiak Ł, Lejeune M, Orero G, Bosch R, López C, 2016: ”The METINUS Plus method for nuclei quantification in tissue microarrays of breastcancer and axillary node tissue section” Biomedical Signal Processing and Control, 32:1–9, 2017, DOI: 10.1016/j.bspc.2016.09.022.
  • Korzyńska A, Roszkowiak Ł, Żak J, Pijanowska D, Markiewicz T, 2016; “Color standardization for the immunohistochemically stained tissue section images” 2016 IEEE International Conference on Imaging Systems and Techniques, IST Proceedings, ISBN: 978-1-5090-1817-8;
  • Korzynska A, Roszkowiak L, Siemion K, Zak J, Zakrzewska K, Samluk A, Wencel A, Pluta K, Pijanowska DG, 2017: „The analysis of the shape of the genetically modified human skin fibroblasts in culture”, P. Augustyniak et al. (eds)., Recent Developments and Achievements in Biocybernetics and Biomedical Engineering; Advances in Intelligent Systems and Computing 647: 98-109, Springer, DOI: 10.1007/978-3-319-66905-2_8, 2017.
  • Lejeune M, Gestí V, Tomás B, Korzyńska A, Roso A, Callau C, Bosch R, Baucells J, Jaén J, López C, 2013 “A multistep image analysis method to increase automated identification efficiency in immunohistochemical nuclear markers with a high background level” Diagnostic Pathology 09/2013; 8:S13. DOI: 10.1186/1746-1596-8-S1-S13.
  • Lejeune M, Oreo G, López C, Bosch R,. Salvadó T, Álvaro T, García-Rojo M, Bueno G, Korzyńska A, Roszkowiak Ł, Callau C, Navas N; „Detection Of Automatic Digital Image Analysis Problems For The Evaluation Of Immune Markers In Breast Cancer Biopsies”, 13th European Congress on Digital Pathology; Berlin.
  • Lopez C, Lejeune M, Bosch R, Korzynska A, Gracia Rojo M, Salvado MT, Alvaro T, Callau C, Roso A, Jaen J, 2012: “Digital Image Analysis In Brest Cancer: An Example of an Automated Methodology and the Effects of Image Compresion”, rozdział w książce, pt.: Perspectives on Digital Pathology, results of the COST Action IC0604 EURO-TELEPATH pod redakcją Marciala Gracia-Rojo, Bernarda Blobela, Arvydasa Laurinaviciusa, w serii Studies in Heath Technology and Informatics tom 179:55-71, IOS Press, Amsterdam, Berlin, Tokyo, Washington, DC.
  • López C, Callau C, Bosch A, Korzyńska A, Jaén J, García-Rojo M, Bueno G, Salvadó T, Alvaro T, Onos M, Del Milagro Fernández-Carrobles M, Llobera M, Baucells J, Orero G, Lejeune M, 2014; “Development of automated quantification methodologies of immunohistochemical markers to determine patterns of immune response in breast cancer: a retrospective cohort study” BMJ Open 01/2014; e005643:1-7 DOI:10.1136/bmjopen-2014-005643.
  • Malecha K, Pijanowska DG, Golonka LJ, Torbicz W, 2009; LTCC microreactor for urea determination in biological fluids, Sensor. Actuat. B.-Chem, 2009, 141:301-308.
  • Malecha K, Pijanowska DG, Golonka LJ, Kurek J, 2011; Low temperature co-fired ceramic (LTCC)-based biosensor for continuous glucose monitoring, Sensor. Actuat. B.-Chem., 2011, 155:923-929.
  • Malecha K, Dawgul M, Pijanowska DG, Golonka JL, 2011; LTCC microfluidic systems for biochemical diagnosis, Biocybern. Biomed. Eng., 2011, 31:31-41.
  • Malecha K, Remiszewska E, Pijanowska DG, 2014; Surface modification of low and high temperature co-fired ceramics for enzymatic microreactor fabrication, Sensor. Actuat. B.-Chem., 2014, 190:873-880.
  • Malecha K, Remiszewska E, Pijanowska DG, 2015; Technology and application of the LTCC-based microfluidic module for urea determination, Microelectron. Int., 2015, 32:126-132.
  • Markiewicz T, Korzynska A, Kowalski A, Swiderska-Chadaj Ż, Murawski P, Grala B, Lorent M, Wdowiak M, Żak J, Roszkowiak Ł, Kozlowski W, Pijanowska D, 2016, ”MIAP - web-based platform for the computer analysis of microscopic images to support the pathological diagnosis“, Biocybernetics & Biomedical Engineering 36(4):597-609, DOI 10.1016/S0208-5216.
  • Markiewicz, T; Kowalski, A; Murawski, P; Swiderska-Chadaj, Z; Wdowiak, M; Grala, B; Lorent, M; Korzynska, A; Patera, J, 2017: „MIAP - a new web-based platform to support the pathological diagnosis”; VIRCHOWS ARCHIV Volume: 471, Pages: S206-S206, Supplement: 1 (Meeting Abstract: PS-14-015); SPRINGER, 233 SPRING ST, NEW YORK, NY 10013 USA.
  • Neuman U, Korzyńska A, Lopez C, Lejeune M, Roszkowiak Ł, Bosch R, 2013, ”Equalisation of Archival Microscopic Images from Immunohistochemically Stained Tissue Sections“, Biocybernetics & Biomedical Engineering 33(1):63-76, DOI 10.1016/S0208-5216(13)70056-1.
  • Paziewska-Nowak A, Jankowska-Śliwińska J, Dawgul M, Pijanowska DG, 2017 Selective electrochemical detection of pirarubicin by means of DNA-modified graphite biosensors, Electroanalysis, 2017, 29:1810-1819.
  • Pijanowska DG, Kossakowska A, Torbicz W, 2011; Electroconducting polymers in (bio)chemical sensors, Biocybern. Biomed. Eng., 2011, 31:43-51.
  • Pluta K, Kacprzak MM, 2009: Use of HIV as a gene transfer vector. Acta Biochim Pol 2009, 56(4):531-95.
  • Roszkowiak Ł, Korzyńska A, Pijanowska D, 2015, ”Short survey: adaptive threshold methods used to segment immunonegative cells from simulated images of follicular lymphoma stained with 3,3'-Diaminobenzidine&Haematoxylin“, Ed.: M. Ganzha, L. Maciaszek, M. Paprzycki, Proceedings of the 2015 Federated Conference on Computer Science and Information Systems; Annals of Computer Science and Information Systems, 5:291-295; DOI: 10.15439/2015F263.
  • Roszkowiak Ł, Korzynska A, Lejeune M, Bosch R, Lopez C, 2015; „Improvements to segmentation method of stained lymphoma tissue section images”, E. Puchała M. Woźniak, A. Żołnierek (Eds.), Computer Recognition Systems 403:609-617;Advances in Intelligent Systems and Computing, ISBN 978-3-319-26225-3; DOI: 10.1007/978-3-319-26227-7_57.
  • Roszkowiak Ł, Korzyńska A, Zak J, Pijanowska D, Świderska-Chadaj Ż, Markiewicz T, 2017; “Survey: interpolation methods for whole slide image processing” Journal of Microscopy 265(2):148-159, 2016 DOI: 10.1111/jmi.12477.
  • Roszkowiak Ł, Lopez C, 2016; „PATMA: Parser of archival tissue microarray”; PeerJ 4:e2741, 2016, DOI: 10.7717/peerj.2741
  • Samluk A, Zakrzewska KE, Pluta KD, 2013: Generation of fluorescently labeled cell lines, C3A hepatoma cells and human adult skin fibroblasts, to study coculture models. Artificial Organs 2013, 37 (7):E123-30.
  • Świderska Ż, Korzynska A, Markiewicz T, Lorent M, Żak, Wesolowska A, Roszkowiak Ł, Słodkowska J, Grala B, 2015: „Comparison of the Manual, Semiautomatic, and Automatic Selection and Leveling of Hot Spots in Whole Slide Images for Ki-67 Quantification in Meingiomas” Analytical cellular pathology (2015):1-15 Article Number: UNSP 498746 DOI:10.1155/2015/498746.
  • Wencel A, Zakrzewska KE, Samluk A, Noszczyk BH, Pijanowska DG, Pluta KD, 2017: Dried human skin fibroblasts as a new substratum for functional culture of hepatic cells. Acta Biochim Pol. 2017;64(2):357-363.
  • Zak J, Korzynska A, Roszkowiak Ł, Siemion K, Walerzak S, Walerzak M, Walerzak K, 2017: „The method of teeth region detection in the panoramic dental radiographs”, M. Kurzyński et al. (eds)., Proceedings of the 10th International Conference on Computer Recognition Systems CORES 2017 Advances in Systems and Computing 578:298-307; DOI 10.1007/978-3-319-59162-9-31; Springer International Publishing AG 2018
  • Zakrzewska KE, Samluk A, Wierzbicki M, Jaworski S, Kutwin M, Sawosz E, Chwalibog A, Pijanowska DG, Pluta KD, 2015: Analysis of the cytotoxicity of carbon-based nanoparticles, diamond and graphite, in human glioblastoma and hepatoma cell lines. PloS One 2015, 10(3): e0122579.
  • Zakrzewska KE, Samluk A, Pluta KD, Pijanowska DG, 2014: Evaluation of the effects antibiotics on cytotoxicity of EGFP and DsRed2 fluorescent proteins used for stable cell labeling. Acta Biochim Pol 2014, 61 (4): 809-13.

 

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