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[1]
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NEUTRON ACTIVATION ANALYSIS OF Ag, Co, Cr, Fe, Hg, Rb, Sb, Sc, Se, AND Zn CONTENTS IN BENIGN PROSTATIC HYPERTROPHIC TISSUE
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NULL |
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[2]
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NEUTRON ACTIVATION ANALYSIS OF Br, Ca, K, Mg, Mn, and Na CONTENTS IN BENIGN PROSTATIC HYPERTROPHIC TISSUE
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NULL |
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[3]
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A Systematic Review of the Calcium Content of the Normal Human Prostate Gland
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2021 |
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[4]
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A systematic review of the cadmium content of the normal human prostate gland
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2021 |
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[5]
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A Systematic Review of the Tin Content of the Normal Human Prostate Gland. J Cell Mol Onco 3: 006
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2021 |
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[6]
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A Systematic Review of the Nickel Content of the Normal Human Prostate Gland
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2021 |
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[7]
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A Systematic Review of the Strontium Content of the Normal Human Prostate Gland
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2021 |
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[8]
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Reference man for radiological protection: 71 chemical elements' content of the prostate gland (normal and cancerous)
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2021 |
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[9]
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A Systematic Review of the Zinc Content of the Hyperplastic Human Prostate Gland
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2021 |
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[10]
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Boron Level in the Prostate of the Normal Human: A Systematic Review
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2021 |
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[11]
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A Systematic Review of the Zinc Content of the Cancerous Human Prostate Gland
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2021 |
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[12]
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Archives of Clinical Case Studies and Case Reports
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2021 |
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[13]
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A Systematic Review of the Lead Content of the Normal Human Prostate Gland
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2021 |
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[14]
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Determination of fifty trace element contents in normal and goitrous thyroid using a combination of instrumental neutron activation analysis and inductively coupled …
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Metallomics Research,
2021 |
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[15]
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Vanadium Content of the Normal Human Prostate Gland: A Systematic Review
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biomarkers,
2021 |
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[16]
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A Systematic Review of the Aluminum Content of the Normal Human Prostate Gland. Adv Hema Onco Res, 4 (1): 59-65
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2021 |
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[17]
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A Systematic Review of the Antimony Content of the Normal Human Prostate Gland
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Journal of Hematalogy and Oncology Research,
2020 |
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[18]
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A Systematic Review of the Phosphorus Content of the Normal Human Prostate Gland
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2020 |
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[19]
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A Systematic Review of the Zinc Content of the Normal Human Prostate Gland
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2020 |
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[20]
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A Systematic Review of the Cobalt Content of the Normal Human Prostate Gland
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2020 |
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[21]
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Preliminary Study of Prostatic Fluid Levels of Zinc Concentration as the Biodosimeter of Males Exposure to Ionizing Radiation
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2020 |
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[22]
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Zinc concentrations in the expressed prostatic fluid of patients with bladder cancer
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2020 |
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[23]
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A Systematic Review of the Trace Element Concentrations in the Prostate Fluid of Normal Gland
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2020 |
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[24]
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Using prostatic fluid levels of zinc concentration in non-invasive and highly accurate screening for prostate cancer
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2020 |
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[25]
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A systematic review of the main electrolytes concentrations in the prostate fluid of normal gland
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2019 |
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[26]
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Significance of trace element quantities in the prostatic secretion of patients with chronic prostatitis and prostate cancer
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2019 |
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[27]
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Using prostatic fluid levels of rubidium and zinc concentration multiplication in non-invasive and highly accurate screening for prostate cancer
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2019 |
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[28]
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Using prostatic fluid levels of zinc to iro n concentration ratio in non-invasive and highly accurate screening for prostate cancer
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2019 |
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[29]
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A Systematic Review of the Zinc Concentrations in the Prostate Fluid of Normal and Cancerous Gland
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2019 |
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[30]
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Using prostatic fluid levels of zinc to bromine concentration ratio in non-invasive and highly accurate screening for prostate cancer
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2019 |
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[31]
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Trace element concentrations in the prostatic secretion of patients with chronic prostatitis and benign prostatic hyperplasia investigated by x-ray fluorescence
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2019 |
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[32]
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Using Prostatic Fluid Levels of Some Trace Elements and Their Combinations in Non-Invasive and Highly Accurate Screening for Prostate Cancer
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2019 |
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[33]
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A Systematic Review of The Zinc Concentrations in The Prostate Fluid of Normal and Hyperplastic Gland
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2019 |
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[34]
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Ratio of Zinc to Bromine, Iron, Rubidium, and Strontium Concentration in the Prostatic Fluid of Patients with Chronic Prostatitis
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2019 |
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[35]
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Significance of trace element quantities in the prostatic secretion of patients with benign prostatic hyperplasia and prostate cancer
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Journal of Cancer Metastasis and Treatment,
2019 |
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[36]
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The Bromine, Calcium, Potassium, Magnesium, Manganese, and Sodium Contents in Adenocarcinoma of Human Prostate Gland
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JOURNAL OF HEMATOLOGYAN DONCOLOGY RESEARCH,
2019 |
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[37]
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A Systematic Review of the Zinc Concentrations in the Prostate Fluid of Normal Gland
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2019 |
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[38]
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Associations between age and 50 trace element contents and relationships in intact thyroid of males
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Aging Clinical and Experimental Research,
2018 |
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[39]
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Quantitative Analysis of Age-related Variations of 50 Trace Element Contents in Thyroid of Females
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2018 |
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[40]
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Effect of age on the Br, Fe, Rb, Sr, and Zn concentrations in human prostatic fluid investigated by energy-dispersive X-ray fluorescent microanalysis
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2018 |
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[41]
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Trace Elements of Expressed Prostatic Secretions as a Source for Biomarkers of Prostate Cancer
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2018 |
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[42]
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Comparison of 66 chemical element
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2018 |
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[43]
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Trace element concentrations in the expressed prostatic secretion of normal and hyperplastic prostate
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2018 |
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[44]
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Using Prostatic Fluid Levels of Zinc to Strontium Concentration Ratio in Non-Invasive and Highly Accu-rate Screening for Prostate Cancer
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2018 |
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[45]
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Trace elements of expressed prostatic secretions as a source for biomarkers of prostatic cancer
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J Clin Res Oncol,
2018 |
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[46]
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Differences between 66 chemical element contents in normal and cancerous prostate
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Journal of Analytical Oncology,
2017 |
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[47]
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Chemical Element Contents in Normal and Benign Hyperplastic Prostate
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Annals of Men's Health and Wellness,
2017 |
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[48]
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Comparison of 66 chemical element contents in normal and benign hyperplastic prostate
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Asian Journal of Urology,
2017 |
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[49]
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Trace Element Contents in Adenocarcinoma of the Human Prostate Gland Investigated by Neutron Activation Analysis
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2016 |
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[50]
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BIOANALYSIS: AN EXTENSIVE APPLICATION IN PHARMACEUTICAL INDUSTRIES
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WORLD JOURNAL OF PHARMACEUTICAL AND MEDICAL RESEARCH,
2016 |
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[51]
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Distinguishing Malignant from Benign Prostate Tumors using Br, Fe, Rb, Sr, and Zn Content in Prostatic Tissue
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2016 |
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[52]
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AGE-RELATED CHANGES IN CONCENTRATION AND HISTOLOGICAL DISTRIBUTION OF BR, CA, CL, K, MG, MN, AND NA IN NONHYPERPLASTIC PROSTATE OF ADULTS
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European Journal of Biology and Medical Science Research,
2016 |
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[53]
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Levels of 43 Trace Elements in Hyperplastic Human Prostate
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British Journal of Medicine and Medical Research,
2016 |
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[54]
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Prostatic Tissue Levels of 43 Trace Elements in Patients with Prostate Adenocarcinoma
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Cancer and Clinical Oncology,
2016 |
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[55]
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The Comparison between the Contents and Interrelationships of 17 Chemical Elements in Normal and Cancerous Prostate Gland
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JPS Open Access,
2016 |
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[56]
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Chemical Elemental Content/Calcium Ratios in Tissues of Human Hyperplastic Prostate Gland
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2016 |
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[57]
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Trace Element Contents in Adenocarcinoma of Human Pros-tate Investigated by Energy Dispersive X-Ray Fluorescent Analysis
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J Adenocarcinoma,
2016 |
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[58]
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Levels of 43 Trace Elements in Hyperplastic Human Prostate.
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British Journal of Medicine and Medical Research,
2016 |
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[59]
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Variations in concentration and distribution of several androgen-dependent and-independent trace elements in nonhyperplastic prostate gland tissue …
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2016 |
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[60]
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Trace Element Contents in Adenocarcinoma of Human Prostate Investigated by Energy Dispersive X-Ray Fluorescent Analysis
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2016 |
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[61]
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Local Day Donors and Donation
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2016 |
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[62]
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Intracellular zinc excess as one of the main factors in the etiology of prostate cancer
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2016 |
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[63]
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Short Review on Spectral Methods for the Determination of Chromiun in Human Body Fluids and Tissues
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2015 |
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[64]
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Prostatic Tissue Level of some Androgen Dependent and Independent Trace Elements in Patients with Benign Prostatic Hyperplasia. Androl Gynecol: Curr Res 3: 3
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Andrology & Gynecology: Current Research,
2015 |
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[65]
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The Variation with Age of 67 Macro-and Microelement Contents in Nonhyperplastic Prostate Glands of Adult and Elderly Males Investigated by Nuclear Analytical and Related Methods
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Biological trace element research,
2015 |
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[66]
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Differences and relationships between morphometric parameters and zinc content in nonhyperplastic and hyperplastic prostate glands.
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British Journal of Medicine and Medical Research,
2015 |
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[67]
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Prostatic Tissue Level of Some Androgen Dependent and Independent Trace Elements in Patients with Benign Prostatic Hyperplasia. Andrology and …
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2015 |
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[68]
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Neutron Activation Analysis of Ag, Co, Cr, Fe, Hg, Rb, Sb, Sc, Se, and Zn Contents and Their Content to Zn Content Ratios in Prostate Adenocarcinoma
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2015 |
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[69]
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The variation with age of 67 macro-and microelement contents in nonhyperplastic prostate glands of adult and elderly males investigated by nuclear analytical and …
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Biological Trace Element Research,
2015 |
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[70]
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Differences and relationships between morphometric parameters and zinc content in nonhyperplastic and hyperplastic prostate glands
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British Journal of Medicine and Medical Research,
2015 |
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[71]
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INAA application in the assessment of chemical element mass fractions in adult and geriatric prostate glands
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Applied Radiation and Isotopes, Elsevier,
2014 |
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[72]
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Differences Between Chemical Element Contents in Hyperplastic and Nonhyperplastic Prostate Glands Investigated by Neutron Activation Analysis
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Biological trace element research,
2014 |
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