M. Gulsoy, G.H. Ozer, O. Bozkulak, H.O. Tabakoglu, E. Aktas, G. Deniz, C. Ertan, The Biological effects of 632.8-nm Low Energy He–Ne laser on peripheral blood mononuclear cells in Vitro. J. Photochem. Photobiol., B 82(3), 199–202 (2006)
Article
Google Scholar
T.I. Karu, N.I. Afanasyeva, S.F. Kolyakov, L.V. Pyatibrat, L. Welser, Changes in Absorbance of monolayer of living cells Induced by Laser Radiation at 633, 670, and 820 nm. IEEE J. Sel. Top. Quantum Electron. 7(6), 982–988 (2001)
Article
ADS
Google Scholar
A.N. Korolevich, N.S. Dubina, S.I. Vecherinski, Influence of low-intensity laser radiation on degree of oxygenation and speed microcirculation of blood, Proceeding of SPIE-The international society for optical engineering, (2000), https://doi.org/10.1117/12.405912
A.N. Korolevich, T.V. Oleinik, A.Y. Khairullina, Optical methods of studying the Effect of Laser Radiation on Human erythrocytes. J. Appl. Spectrosc. 57(1), 651–654 (1992)
Article
ADS
Google Scholar
G.A. Zalesskaya, E.G. Sambor, Interaction of Low-Intensity Laser Radiation with blood and its components. J. Appl. Spectrosc. 72(2), 242–248 (2005)
Article
ADS
MATH
Google Scholar
O. Dörtbudak, R. Haas, G.P. Mailath, Biostimulation of Bone Marrow cells with a Diode Soft laser. Clin. Oral. Implants. Res. 11(6), 540–545 (2000)
Article
MATH
Google Scholar
A.D. Donnenberg, V.S. Donnenberg, Understanding Clinical Flow Cytometry, Handbook of Human Immunology, 2, 181–220 (2008)
Y.A. Vladimirov, A.N. Osipov, G.I. Klebanov, Photobiological principles of Therapeutic. Appl. Laser Radiation Biochem. (Moscow). 69(1), 81–90 (2004)
Article
MATH
Google Scholar
G.S. Dan, L. Adalbert, An in vitro study of the effects of low-level laser radiation on human blood, Proceeding of SPIE-The international society for optical engineering, 5278, 108–119 (2003), https://doi.org/10.1117/12.544890
H.K. Mohseen, The effects of laser radiation on viscosity (PCV) of blood. Pak J. Biotechnol. 14(3), 477–479 (2017)
Google Scholar
S.R. Alnayli, S.Z. Shanon, S.H. Faid, S.H. Hadeel, The Effect of LASER on Blood Viscosity and Its Influential Relation on the Rapidity of Red Blood Cells Precipitation (Department of Physics, College of Education, University of Al-Qadisiyah, 2017)
M.A. Amna, H. Hloo, S.J. Bushra, The Effect of Continuous Lasers on Blood Viscosity (Department of Physics, College of Education, Al-Qadisiyah University, 2018)
H.H. Obeed, M.J. Huzam, N.J. Ridha, K. Firas, K.J. Mohamad Alosfur, R. Tahir, B.M. Madlol, Hussein,Comprehensive study on the effect of laser on human blood, AIP Conf. Proc. 2386, 080039 (2022)
Y.C. Chuang, Y.Y. Cheng, Application of Intravenous Laser Irradiation of Blood (ILIB) in Physical Medicine: A Narrative Review, Rehabilitation practice and science, 2024 (1), (2024), https://doi.org/10.6315/3005-3846.2230
W. Gesine Weckmann, K. Simone, C. Jean-François, A. Aniela, ‘Association of Anemia with Clinical Symptoms Commonly Attributed to Anemia—Analysis of Two Population-Based Cohorts. J. Clin. Med. 12(3), 921 (2023). https://doi.org/10.3390/jcm12030921
Article
Google Scholar
J.G. Timothy, J.L. Roy, R.D. Scott, Anemia in the emergency department: evaluation and treatment. Emerg. Med. Pract. 15(11), 1–15 (2013)
MATH
Google Scholar
C.E. Rhodes, D. Deanna, V. Matthew, Physiology, Oxygen Transport, National Library of Medicine (NCBI Bookshelf, 2022)
J. Howard, Sickle cell Disease and Other Hemoglobinopathies, Goldman-Cecil Medicine. 27th ed. Philadelphia, Elsevier; Chap. 149, (2024)
J.L. Jameson, A.S. Fauci, D.L. Kasper, L.S. Hauser, D.L. Longo, J. Loscalzo, Harrison’s Principles of Internal Medicine, 19th edn. (McGraw-Hill Education, United States, 2015)
Google Scholar
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