Publications

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Publications

Hot papers

2023

  • Polyphenolic compounds affect the long-term degradation behaviour of polymer and composite materials based on PCL, PLGA, and bioactive glass, M. Dziadek, K. Dziadek, K. Checinska, S. Salagierski, E. Choinska, P. Szatkowski, A. Wajda, A. Kopec, K. Cholewa-Kowalska, Sustainable Materials and Technologies, 2023, 35. IF = 10.681. MNiSW = 200.
  • Chiral and structural polymorphism of fibril architectures of homologous lysozymes, N. Hachlica, M. Rawski, M. Górecki, A. Wajda, A. Kaczor, Chemistry – A European Journal, 2023. IF = 5.236. MNiSW = 140.

2022

  • Trends in biomedical analysis of red blood cells – Raman spectroscopy against other spectroscopic, microscopic and classical techniques, J. Dybas, F. Celal Alcicek, A. Wajda, M. Kaczmarska, A. Zimna, K. Bulat, A. Blat, T. Stepanenko, T. Mohaissen, E. Szczesny-Malysiak, D. Perez-Guaita, B. R. Wood, K. M. Marzec*, TrAC Trends in Analytical Chemistry, 2022, 146, 116481. IF = 12.296. MNiSW = 140.
  • Prominent hypertrophy of perivascular adipocytes due to short-term high fat diet, Z. Majka, K. Czamara, J. Janus, M. Kepczynski, A. Kaczor*, Biochimica et Biophysica Acta (BBA) - Molecular Basis of Disease, 2022, 1868, 2. IF = 5.187. MNiSW = 140.
  • The impact of hpv infection on human glycogen and lipid metabolism – a review, K. Sitarz, K. Czamara, S. Szostek*, A Kaczor*, Biochimica et Biophysica Acta (BBA) - Reviews on Cancer, 2022, 1878, 1. IF = 10.680. MNiSW = 200.
  • What is the ability of inflamed endothelium to uptake exogenous saturated fatty acids? A proof-of-concept study using spontaneous Raman, SRS and CARS microscopy, A. Borek-Dorosz, A. Pieczara, K. Czamara, M. Stojak, E. Matuszyk, K. Majzner, K. Brzozowski, A. Bresci, D. Polli, M. Baranska*, Cellular and Molecular Life Sciences, 2022, 79, 593. IF = 9.207. MNiSW = 140.
  • Biochemical changes of macrophages and U87MG cells occurring as a result of the exposure to iron oxide nanoparticles detected with the Raman microspectroscopy, N. Janik-Olchawa, A. Drozdz, A. Wajda, M. Sitarz, K. Planeta, Z. Setkowicz, D. Ryszawy, A. Kmita, J. Chwiej*, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2022, 278, 121337. IF = 4.831. MNiSW = 140.
  • Temporal relationship between systemic endothelial dysfunction and alterations in erythrocyte function in a murine model of chronic heart failure, T. Mohaissen, B. Proniewski, M. Targosz‐Korecka, A. Bar, A. Kij, K. Bulat, A. Wajda, A. Blat, K. Matyjaszczyk-Gwarda, M. Grosicki, A. Tworzydlo, M. Sternak, K. Wojnar-Lason, R. Rodrigues-Diez, A. Kubisiak, A. Briones, K. M Marzec, S. Chlopicki*, Cardiovascular Research, 2022, 118(12), 2610. IF = 14.239. MNiSW = 140.
  • Raman spectroscopy of β-irradiated aluminum-iron phosphate glass, P. Goj*, A. Wajda, P. Stoch, B. Marczewska, Journal of Molecular Structure, 2022, 1258, 132605. IF = 3.841. MNiSW = 70.
  • Label-free testing strategy to evaluate packed red blood cell quality before transfusion to leukemia patients, J. Dybas, A. Wajda, F. Celal Alcicek, M. Kaczmarska, K. Bulat, E. Szczesny‑Malysiak, A. Martyna, D. Perez‑Guaita, T. Sacha, K. M. Marzec*, Scientific Reports, 2022, 12, 21849. IF = 4.996. MNiSW = 140.
  • Raman studies of the adipose tissue: Current state-of-art and future perspectives in diagnostics, K. Czamara, Z. Majka, E. Stanek, N. Hachlica, A. Kaczor, Progress in Lipid Research, 2022, 87, 101183. IF = 14.673. MNiSW = 200.
  • Formation of carotenoid supramolecular aggregates in nanocarriers monitored via aggregation-sensitive chiroptical output of enantiopure (3S,3′S)-astaxanthin, A. Orlef, E. Stanek, K. Czamara, A. Wajda, A. Kaczor, Chemical Communications, 2022, 58, 9022–9025. IF = 6.065. MNiSW = 200.
  • The distinct phenotype of primary adipocytes and adipocytes derived from stem cells of white adipose tissue as assessed by Raman and fluorescence imaging, E. Stanek, Marta Z. Pacia, A. Kaczor, K. Czamara, Cellular and Molecular Life Sciences, 2022, 79, 383. IF = 9.261. MNiSW = 140.

2021

  • Astaxanthin as a new Raman probe for biosensing of specific subcellular lipidic structures: can we detect lipids in cells under resonance conditions?, K. Czamara, A. Adamczyk, M. Stojak, B. Radwan, M. Baranska*, Cellular and Molecular Life Sciences, 2021, 78, 3477–3484. IF = 6.496. MNiSW = 140.
  • Dual Switch in Lipid Metabolism in Cervical Epithelial Cells during Dysplasia Development Observed Using Raman Microscopy and Molecular Methods, K. Sitarz, K. Czamara, J. Bialecka, M. Klimek, S. Szostek *, A. Kaczor *, Cancers, 2021, 13(9), 1997. IF = 6,639. MNiSW = 140.
  • Lipid Droplets Formation Represents an Integral Component of Endothelial Inflammation Induced by LPS, K. Czamara, M. Stojak, M. Z. Pacia, A. Zieba, M Baranska, S. Chlopicki, A. Kaczor*, Cells, 2021, 10(6), 1403. IF = 6,600. MNiSW = 140.
  • A new approach to study human perivascular adipose tissue of the internal mammary artery by fiber-optic Raman spectroscopy supported by spectral modelling, Z. Majka, K. Czamara, P. Wegrzyn, R. Litwinowicz, J. Janus, S. Chlopicki, A. Kaczor*, Analyst, 2021, 146, 270-276. IF = 3,978. MNiSW = 100.
  • Chiral recognition via a stereodynamic vanadium probe using the electronic circular dichroism effect in differential Raman scattering, E. Machalska, N. Hachlica, G. Zajac, D. Carraro, M. Baranska, G. Licini, P. Bouř*, C. Zonta*, A Kaczor*, Physical Chemistry Chemical Physics, 2021, 23, 23336-23340. IF = 3.676. MNiSW = 140.
  • Systemic Administration of Insulin Receptor Antagonist Results in Endothelial and Perivascular Adipose Tissue Dysfunction in Mice, B. Proniewski*, A. Bar*, A. Kieronska-Rudek, J. Suraj-Prażmowska, E. Buczek, K. Czamara, Z. Majka, I. Czyzynska-Cichon, G. Kwiatkowski, K. Matyjaszczyk-Gwarda, Stefan Chlopicki, Cells, 2021, 10(6), 1448. IF = 6.600. MNiSW = 140.
  • A new iron-phosphate compound (Fe7P11O38) obtained by pyrophosphate stoichiometric glass devitrification, P. Goj*, A. Wajda, A. Błachowski, P. Stoch Scientific Reports, 2021, 11, 22957. IF = 4.996. MNiSW = 140.

2020

  • HPV infection significantly accelerates glycogen metabolism in cervical cells with large nuclei: raman microscopic study with subcellular resolution, K. Sitarz, K. Czamara, J. Bialecka, M. Klimek, B. Zawilinska, S. Szostek*, A. Kaczor*, International Journal of Molecular Sciences, 2020, 21 (8), 2667. IF = 4.556, MNiSW = 140.
  • Resonance Raman Optical Activity Shows Unusual Structural Sensitivity for Systems in Resonance with Multiple Excited States: Vitamin B12 Case, E. Machalska, G. Zajac, A. Gruca, F. Zobi, M. Baranska, A. Kaczor*, J. Phys. Chem. Lett., 2020, 11, 13, 5037–5043. IF = 7.329, MNiSW = 140.
  • Estimation of the content of lipids composing endothelial lipid droplets based on Raman imaging, M.Z. Pacia*, K. Majzner*, K. Czamara, M. Sternak, S. Chlopicki, M. Baranska, BBA Mol. Cell Biol. Lipids, 2020, 1865(9), 158758. IF = 4.519, MNiSW = 140.
  • Heterogeneity of chemical composition of lipid droplets in endothelial inflammation and apoptosis, M.Z. Pacia*, M. Sternak, L. Mateuszuk, M. Stojak, A. Kaczor, S. Chlopicki*, BBA - Molecular Cell Research, 2020, 1867(6), 118681. IF = 4.105, MNiSW = 140.
  • Phospholipids accumulation and calcification in cultured primary human aortic valve interstitial cells: New insights revealed by confocal Raman imaging, K. Czamara, M. Kopytek, M. Szulczewska, A. Kaczor*, J. Natorska*, Journal of Raman Spectroscopy, 2020, 51(1), 104-114. IF = 2.0, MNiSW = 70.
  • The composition of phospholipid model bacterial membranes determines their endurance to secretory phospholipase A2 attack – The role of cardiolipin, P. Perczyk, A. Wójcik, N. Hachlica, P. Wydro, M. Broniatowski*, BBA - Biomembranes, 2020, 1862(6), 183239. IF = 3.411, MNiSW = 100.
  • Distinct Chemical Changes in Abdominal but Not in Thoracic Aorta upon Atherosclerosis Studied Using Fiber Optic Raman Spectroscopy, K. Czamara*, Z. Majka, M. Sternak, M. Koziol, R. B. Kostogrys, S. Chlopick, A. Kaczor*, International Journal of Molecular Sciences, 2020, 21(14), 4838. IF = 4,653, MNiSW = 140.
  • In Vivo Magnetic Resonance Imaging‐Based Detection of Heterogeneous Endothelial Response in Thoracic and Abdominal Aorta to Short‐Term High‐Fat Diet Ascribed to Differences in Perivascular Adipose Tissue in Mice, A. Bar, A. Kieronska‐Rudek, B. Proniewski, J. Suraj‐Prażmowska, K. Czamara, B. Marczyk, K. Matyjaszczyk‐Gwarda, A. Jasztal, E. Kuś, Z. Majka, A. Kaczor, A. Kurpińska, M. Walczak, E. J. Pieterman, H. M. G. Princen, Stefan Chlopicki*, Journal of the American Heart Association, 2020, 9(21), e016929. IF = 4,605, MNiSW = 140.
  • Labeled vs. Label-Free Raman Imaging of Lipids in Endothelial Cells of Various Origins, B. Radwan, A. Adamczyk, Sz. Tott, K. Czamara, K. Kaminska, E. Matuszyk* M. Baranska*, Molecules, 2020, 25(23), 5752. IF = 3,267, MNiSW = 100.

SELECTED PREVIOUS WORKS

  • Chiral Amplification in Nature: Cell-extracted Chiral Carotenoid Microcrystals Studied Via RROA of Model Systems, M. Dudek, E. Machalska, T. Oleszkiewicz, E. Grzebelus, R. Baranski, P. Szcześniak, J. Mlynarski, G. Zajac, A. Kaczor*, M. Baranska*, Angewandte Chemie-International Edition, 2019, 58, 8383–8388.
  • Impact of cell cycle dynamics on pathology recognition: Raman imaging study, K. Czamara, E. Karnas, Z. Majka, T. Wojcik, E. Zuba-Surma, M. Baranska, A. Kaczor*, Journal of Biophotonics, 2019, 12(2), e201800152.
  • Combined Raman- and AFM-based detection of biochemical and nanomechanical features of endothelial dysfunction in aorta isolated from ApoE/LDLR-/- mice, M. Maase, A. Rygula, M. Z. Pacia, B. Proniewski, L. Mateuszuk, M. Sternak, A. Kaczor, S. Chlopicki*, K. Kusche-Vihrog*, Nanomedicine: Nanotechnology, Biology, and Medicine, 2019, 16, 97-105.
  • Raman imaging of biomedical samples, A. Kaczor, K. M. Marzec, K. Majzner, K. Kochan, M. Z. Pacia, M. Baranska*, chapter 14 in Confocal Raman Microscopy, J. Toporski, T. Dieing, O. Hollricher (eds.), Springer, Cham, 2018, ISBN: 978-3-319-75378-2.
  • Raman spectroscopy as a novel tool for fast characterization of perivascular adipose tissue chemical composition, K. Czamara, Z. Majka, A. Fus, K. Matjasik, M. Z. Pacia, M. Sternak, S. Chlopicki, A. Kaczor*, Analyst, 2018, 143, 5999-6005.
  • Rapid diagnostics of liver steatosis by Raman spectroscopy via fiber optic probe: a pilot study, M. Z. Pacia, K. Czamara, M. Zebala, E. Kus, S. Chlopicki, A. Kaczor*, Analyst, 2018, 143, 4723-4731.
  • Unsaturated lipid bodies as a hallmark of inflammation studied by Raman 2D and 3D microscopy, K. Czamara, K. Majzner, A. Selmi, M. Baranska, Y. Ozaki, A. Kaczor*, Scientific Reports, 2017, 7, article no. 40889.
  • Raman spectroscopy as a sensitive probe of soft tissue composition: imaging of cross-sections of various organs vs. single spectra of tissue homogenates, J. Dybas, K. Marzec, M. Pacia, K. Kochan, K. Czamara, K. Chrabąszcz, E. Staniszewska-Slezak, K. Malek, M. Baranska*, A. Kaczor*, TrAC Trends in Analytical Chemistry, 2016, 85, 117-127
  • Aggregation-Induced Resonance Raman Optical Activity (AIRROA) – a New Mechanism for Chirality Enhancement, G. Zajac, A. Kaczor*, A. Pallares Zazo, J. Mlynarski, M. Dudek, M. Baranska*, The Journal of Physical Chemistry B, 2016, 120(17), 4028–4033.
  • 3D Raman imaging of systemic endothelial dysfunction in the murine model of metastatic breast cancer, M. Z. Pacia, E. Buczek, A. Blazejczyk, A. Gregorius, J. Wietrzyk, S. Chlopicki, M. Baranska, A. Kaczor*, Analytical and Bioanalytical Chemistry, 2016, 408(13), 3381-3387.
  • Carotenoids: Overview of Nomenclature, Structures, Occurrence and Functions, A. Kaczor*, M. Baranska, K. Czamara*, chapter 1 in Carotenoids. Nutrition, Analysis and Technology, A. Kaczor and M. Baranska (Eds.), John Wiley and Sons, Ltd., Chichester, UK, 2016, ISBN 978-1-118-62226-1.
  • Impact of Stress Factors on Carotenoid Composition, Structures, and Bioavailability in Microbial Sources, A. Kaczor*, M. Z. Pacia, chapter 13 in Carotenoids. Nutrition, Analysis and Technology, A. Kaczor and M. Baranska (Eds.), John Wiley and Sons, Ltd., Chichester, UK, 2016, ISBN 978-1-118-62226-1.
  • Interplay between carotenoids, hemoproteins and the “life band” origin studied in vivo in Rhodotorula mucilaginosa cells by means of Raman microimaging, M. Z. Pacia, K. Turnau, M. Baranska, A. Kaczor*, Analyst, 2015, 140, 1809-1813.
  • Raman microspectroscopy of human aortic valves: investigation of local and global biochemical changes associated with calcification in the aortic stenosis, K. Czamara, J. Natorska, P. Kapusta, M. Baranska, A. Kaczor*, Analyst, 2015, 140, 2164-70.
  • Biochemical changes of the endothelium in the murine model of NO-deficient hypertension, M. Z. Pacia, L. Mateuszuk, S. Chlopicki, M. Baranska, A. Kaczor*, Analyst, 2015, 140, 2178-2184.
  • Identification of a biochemical marker for endothelial dysfunction using Raman spectroscopy, A. Rygula*, M. Z. Pacia, L. Mateuszuk, A. Kaczor, R. B. Kostogrys, S. Chlopicki, M. Baranska, Analyst, 2015, 140, 2185-2189.
  • Raman spectroscopy of lipids: a review, K. Czamara, K. Majzner, M. Pilarczyk, K. Kochan, A. Kaczor*, M. Baranska, Journal of Raman Spectroscopy, 2015, 46(1), 4–20.
  • A novel approach to investigate vascular wall in 3D: combined Raman spectroscopy and atomic force microscopy for aorta en face imaging, M. Pilarczyk, A. Rygula, A. Kaczor*, L. Mateuszuk, E. Maślak ,S. Chlopicki, M. Baranska, Vibrational Spectroscopy, 2014, 75, 39-44.
  • Endothelium in spots - high-content imaging of lipid rafts clusters in db/db mice, M. Pilarczyk, L. Mateuszuk, A. Rygula, M. Kepczynski, S. Chlopicki, M. Baranska, A. Kaczor*, PLOS One, 2014, 9(8):e106065.
  • Bisignate resonance Raman optical activity: a pseudo breakdown of the Single Electronic State model of RROA?, G. Zajac, A. Kaczor, K. Chruszcz-Lipska, J. Cz. Dobrowolski, M. Baranska*, Journal of Raman Spectroscopy, 2014, 45(10), 859-862.
  • Chiral Amplification in Nature: Cell-extracted Chiral Carotenoid Microcrystals Studied Via RROA of Model Systems, M. Dudek, E. Machalska, T. Oleszkiewicz, E. Grzebelus, R. Baranski, P. Szcześniak, J. Mlynarski, G. Zajac, A. Kaczor*, M. Baranska*, Angewandte Chemie-International Edition, 2019, 58, 8383–8388.
  • Impact of cell cycle dynamics on pathology recognition: Raman imaging study, K. Czamara, E. Karnas, Z. Majka, T. Wojcik, E. Zuba-Surma, M. Baranska, A. Kaczor*, Journal of Biophotonics, 2019, 12(2), e201800152.
  • Combined Raman- and AFM-based detection of biochemical and nanomechanical features of endothelial dysfunction in aorta isolated from ApoE/LDLR-/- mice, M. Maase, A. Rygula, M. Z. Pacia, B. Proniewski, L. Mateuszuk, M. Sternak, A. Kaczor, S. Chlopicki*, K. Kusche-Vihrog*, Nanomedicine: Nanotechnology, Biology, and Medicine, 2019, 16, 97-105.
  • Raman imaging of biomedical samples, A. Kaczor, K. M. Marzec, K. Majzner, K. Kochan, M. Z. Pacia, M. Baranska*, chapter 14 in Confocal Raman Microscopy, J. Toporski, T. Dieing, O. Hollricher (eds.), Springer, Cham, 2018, ISBN: 978-3-319-75378-2.
  • Raman spectroscopy as a novel tool for fast characterization of perivascular adipose tissue chemical composition, K. Czamara, Z. Majka, A. Fus, K. Matjasik, M. Z. Pacia, M. Sternak, S. Chlopicki, A. Kaczor*, Analyst, 2018, 143, 5999-6005.
  • Rapid diagnostics of liver steatosis by Raman spectroscopy via fiber optic probe: a pilot study, M. Z. Pacia, K. Czamara, M. Zebala, E. Kus, S. Chlopicki, A. Kaczor*, Analyst, 2018, 143, 4723-4731.
  • Unsaturated lipid bodies as a hallmark of inflammation studied by Raman 2D and 3D microscopy, K. Czamara, K. Majzner, A. Selmi, M. Baranska, Y. Ozaki, A. Kaczor*, Scientific Reports, 2017, 7, article no. 40889.
  • Raman spectroscopy as a sensitive probe of soft tissue composition: imaging of cross-sections of various organs vs. single spectra of tissue homogenates, J. Dybas, K. Marzec, M. Pacia, K. Kochan, K. Czamara, K. Chrabąszcz, E. Staniszewska-Slezak, K. Malek, M. Baranska*, A. Kaczor*, TrAC Trends in Analytical Chemistry, 2016, 85, 117-127
  • Aggregation-Induced Resonance Raman Optical Activity (AIRROA) – a New Mechanism for Chirality Enhancement, G. Zajac, A. Kaczor*, A. Pallares Zazo, J. Mlynarski, M. Dudek, M. Baranska*, The Journal of Physical Chemistry B, 2016, 120(17), 4028–4033.
  • 3D Raman imaging of systemic endothelial dysfunction in the murine model of metastatic breast cancer, M. Z. Pacia, E. Buczek, A. Blazejczyk, A. Gregorius, J. Wietrzyk, S. Chlopicki, M. Baranska, A. Kaczor*, Analytical and Bioanalytical Chemistry, 2016, 408(13), 3381-3387.
  • Carotenoids: Overview of Nomenclature, Structures, Occurrence and Functions, A. Kaczor*, M. Baranska, K. Czamara*, chapter 1 in Carotenoids. Nutrition, Analysis and Technology, A. Kaczor and M. Baranska (Eds.), John Wiley and Sons, Ltd., Chichester, UK, 2016, ISBN 978-1-118-62226-1.
  • Impact of Stress Factors on Carotenoid Composition, Structures, and Bioavailability in Microbial Sources, A. Kaczor*, M. Z. Pacia, chapter 13 in Carotenoids. Nutrition, Analysis and Technology, A. Kaczor and M. Baranska (Eds.), John Wiley and Sons, Ltd., Chichester, UK, 2016, ISBN 978-1-118-62226-1.
  • Interplay between carotenoids, hemoproteins and the “life band” origin studied in vivo in Rhodotorula mucilaginosa cells by means of Raman microimaging, M. Z. Pacia, K. Turnau, M. Baranska, A. Kaczor*, Analyst, 2015, 140, 1809-1813.
  • Raman microspectroscopy of human aortic valves: investigation of local and global biochemical changes associated with calcification in the aortic stenosis, K. Czamara, J. Natorska, P. Kapusta, M. Baranska, A. Kaczor*, Analyst, 2015, 140, 2164-70.
  • Biochemical changes of the endothelium in the murine model of NO-deficient hypertension, M. Z. Pacia, L. Mateuszuk, S. Chlopicki, M. Baranska, A. Kaczor*, Analyst, 2015, 140, 2178-2184.
  • Identification of a biochemical marker for endothelial dysfunction using Raman spectroscopy, A. Rygula*, M. Z. Pacia, L. Mateuszuk, A. Kaczor, R. B. Kostogrys, S. Chlopicki, M. Baranska, Analyst, 2015, 140, 2185-2189.
  • Raman spectroscopy of lipids: a review, K. Czamara, K. Majzner, M. Pilarczyk, K. Kochan, A. Kaczor*, M. Baranska, Journal of Raman Spectroscopy, 2015, 46(1), 4–20.
  • A novel approach to investigate vascular wall in 3D: combined Raman spectroscopy and atomic force microscopy for aorta en face imaging, M. Pilarczyk, A. Rygula, A. Kaczor*, L. Mateuszuk, E. Maślak, S. Chlopicki, M. Baranska, Vibrational Spectroscopy, 2014, 75, 39-44.
  • Endothelium in spots-high-content imaging of lipid rafts clusters in db/db mice, M. Pilarczyk, L. Mateuszuk, A. Rygula, M. Kepczynski, S. Chlopicki, M. Baranska, A. Kaczor*, PLOS One, 2014, 9(8):e106065.
  • Bisignate resonance Raman optical activity: a pseudo breakdown of the Single Electronic State model of RROA?, G. Zajac, A. Kaczor, K. Chruszcz-Lipska, J. Cz. Dobrowolski, M. Baranska*, Journal of Raman Spectroscopy, 2014, 45(10), 859-862.