Araştırma Makalesi
BibTex RIS Kaynak Göster

Investigation of Photon Interaction Parameters of Angiotensin Converting Enzyme Inhibitors

Yıl 2021, Cilt: 11 Sayı: 2, 1114 - 1126, 01.06.2021
https://doi.org/10.21597/jist.875282

Öz

In this study, mass attenuation coefficient, linear attenuation coefficient, half value layers, tenth value layers, mean free paths, effective atomic numbers and effective electron densities for different energies in the energy range from 1 keV ≤ E ≤ 100 GeV for Angiotensin converting enzyme (ACE) inhibitors were theoretically determined. Also, energy absorption build-up factors and exposure build-up factors for ACE inhibitors were calculated using the geometric progression (G-P) fitting coefficients for some energy values in the energy region of 0.015 MeV≤E≤15 MeV for different penetration depths up to 40 mfp.

Kaynakça

  • Agar O, Sayyed MI, Akman F, Tekin HO, Kaçal MR, 2019. An extensive investigation on gamma ray shielding features of Pd/Agbased alloys. Nuclear Engineering and Technology, 51: 853-859.
  • Akman F, Kaçal MR, Sayyed MI, Karataş HA, 2019a. Study of gamma radiation attenuation properties of some selected ternary alloys. Journal of Alloys and Compounds, 782: 315-322.
  • Akman F, Sayyed MI, Kaçal MR, Tekin HO, 2019b. Investigation of photon shielding performances of some selected alloys by experimental data, theoretical and MCNPX code in the energy range of 81 keVe1333 keV. Journal of Alloys and Compounds, 772: 516-524.
  • Akman F, Khattari ZY, Kaçal MR, Sayyed MI, Afaneh F, 2019c, The radiation shielding features for some silicide, boride and oxide types ceramics. Radiation Physics and Chemistry, 160: 9–14.
  • Akman F, Geçibesler IH, Kumar A, Sayyed MI, Zaid MHM, 2019d. Evaluation of radiation absorption characteristics in different parts of some medicinal aromatic plants in the low energy region. Results in Physics, 12: 94–100.
  • Al-Buriahi MS, Arslan H, Tonguc BT, 2019. Investigation of photon energy absorption properties for some biomolecules. Nuclear Science and Techniques 30 (103): 1-9.
  • Al-Hamarneh IF, Marashdeh MW, Almasoud FI, Alkaoud A, 2017. Determination of gamma-ray parameters for polyethylene glycol of different molecular weights. Nuclear Science and Techniques 28 (157): 1-8.
  • ANSI/ANS-6.4.3, 1991. Gamma Ray Attenuation Coefficient and Buildup Factors for Engineering Materials. American Nuclear Society, La Grange Park, IL, USA.
  • Aşkın A, Sayyed MI, Sharma A, Dal M, El-Mallawany R, Kaçal MR, 2019. Investigation ofthe gamma ray shielding parameters of (100-x) [0.5Li2O–0.1B2O3–0.4P2O5]-xTeO2 glasses using Geant4 and FLUKA codes. Journal of Non-Crystalline Solids, 521: 119489.
  • Chen S, Chai Z, Xue D, Jiang X, Yang Y, 2018. Variation of gamma radiation shielding properties with incident photon energy and penetration depth for WC/Al composites. Radiation Effects and Defects in Solids. 173: 399-413.
  • Gerward L, Guilbert N, Jensen KB, Levring H, 2001. X–ray absorption in matter. Reengineering XCOM. Radiation Physics and Chemistry, 60: 23–24.
  • Issa SAM, Sayyed MI, Zaid MHM, Matori KA, 2018. Photon parameters for gamma-rays sensing properties of some oxide of lanthanides. Results in Physics, 9: 206–210.
  • Kaur P, Singh KJ, Kurudirek M, Thakur S, 2019. Study of environment friendly bismuth incorporated lithium borate glass system for structural, gamma-ray and fast neutron shielding properties. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 223: 117309.
  • Kilicoglu O, 2019. Characterization of copper oxide and cobalt oxide substituted bioactive glasses for gamma and neutron shielding applications. Ceramics International, 45: 23619–23631.
  • Lokhande RM, More CV, Surung BS, Pawar PP, 2017. Determination of attenuation parameters and energy absorption build-up factor of amine group materials. Radiation Physics and Chemistry, 141: 292–299.
  • Mahmoud SI, Issa SAM, Saddeek YB, Tekin HO, Kilicoglu O, Alharbi T, Sayyed MI, Erguzel TT, Elsaman R, 2019. Gamma, neutron shielding and mechanical parameters for lead vanadate glasses. Ceramics International 45, 14058-14072.
  • Manjunatha HC, Sathish KV, Seenappa L, Gupta D, Raj SAC, 2019. A study of X-ray, gamma and neutron shielding parameters in Si- alloys. Radiation Physics and Chemistry, 165: 108414.
  • Sathiyaraj P, Samuel EJJ, Valeriano CCS, Kurudirek M, 2017. Effective atomic number and buildup factor calculations for metal nano particle doped polymer gel. Vacuum, 143: 138-149.
  • Sayyed MI, 2016. Investigation of shielding parameters for smart polymers. Chinese Journal of Physics, 54: 408–415.
  • Sayyed MI, Akman F, Kumar A, Kaçal MR, 2018. Evaluation of radioprotection properties of some selected ceramic samples. Results in Physics, 11: 1100–1104.
  • Sayyed MI, Tekin HO, Agar O, 2019. Gamma photon and neutron attenuation properties of MgO–BaO–B2O3–TeO2–Cr2O3 glasses: The role of TeO2. Radiation Physics and Chemistry, 163: 58-66.
  • Singh M, Tondon A, Sandhu BS, Singh B, 2018, Energy dependence of radiation interaction parameters of some organic compounds. Radiation Physics and Chemistry, 145: 80–88.
  • Singh R, Singh D, Singh A, Dhaliwal AS, 2019. Photon Interaction Parameters Investigations for Some ZnO–Al2O3–Fe2O3–P2O5 Glasses at 59.4 keV Incident Photon Energy. Glass Physics and Chemistry, 45 (3): 202–207.
  • Singh VP, Badiger NM, 2016. Studies on photon buildup for some thermoluminescent dosimetric compounds. Indian Journal of Physics. 90(3): 259-269.
  • Susoy G, 2020. Effect of TeO2 additions on nuclear radiation shielding behavior of Li2O–B2O3–P2O5–TeO2 glass-system. Ceramics International, 46: 3844–3854.
  • Tekin HO, Kassab LRP, Kilicoglu O, Magalhaes ES, Issa SAM, Mattos GRS. 2020. Newly developed tellurium oxide glasses for nuclear shielding applications: An extended investigation. Journal of Non-Crystalline Solids, 528: 119763.
  • Turhan MF, Akman F, Polat H, Kaçal MR, Demirkol İ, 2020. Gamma-ray attenuation behaviors of hematite doped polymer composites, Progress in Nuclear Energy, 129: 103504.
  • Uosif MAM, Mostafa AMA, Issa SAM, Tekin HO, Alrowailia ZA, Kilicoglu O, 2020. Structural, mechanical and radiation shielding properties of newly developed tungsten lithium borate glasses: An experimental study. Journal of Non-Crystalline Solids, 532: 119882.

Anjiyotensin Dönüştürücü Enzim İnhibitörlerinin Foton Etkileşim Parametrelerinin İncelenmesi

Yıl 2021, Cilt: 11 Sayı: 2, 1114 - 1126, 01.06.2021
https://doi.org/10.21597/jist.875282

Öz

Bu araştırmada bazı anjiyotensin dönüştürücü enzim (ADE) inhibitörlerinin kütle azaltma katsayıları, lineer azaltma katsayıları, yarı tabaka kalınlıkları, onda bir tabaka kalınlıkları, ortalama serbest yolları, etkin atom numaraları ve etkin elektron yoğunlukları 1 keV≤ E ≤100 GeV enerji aralığındaki farklı enerji için teorik olarak belirlenmiştir. Ayrıca, ADE inhibitörlerinin enerji soğurma yığılma faktörleri ve maruz kalma yığılma faktörleri 0.015 MeV≤E≤15 MeV enerji aralığındaki bazı enerji değerleri için 40 mfp ye kadar farklı penetrasyon derinliklerinde geometrik ilerleme (G-İ) fit katsayıları kullanılarak hesaplanmıştır.

Kaynakça

  • Agar O, Sayyed MI, Akman F, Tekin HO, Kaçal MR, 2019. An extensive investigation on gamma ray shielding features of Pd/Agbased alloys. Nuclear Engineering and Technology, 51: 853-859.
  • Akman F, Kaçal MR, Sayyed MI, Karataş HA, 2019a. Study of gamma radiation attenuation properties of some selected ternary alloys. Journal of Alloys and Compounds, 782: 315-322.
  • Akman F, Sayyed MI, Kaçal MR, Tekin HO, 2019b. Investigation of photon shielding performances of some selected alloys by experimental data, theoretical and MCNPX code in the energy range of 81 keVe1333 keV. Journal of Alloys and Compounds, 772: 516-524.
  • Akman F, Khattari ZY, Kaçal MR, Sayyed MI, Afaneh F, 2019c, The radiation shielding features for some silicide, boride and oxide types ceramics. Radiation Physics and Chemistry, 160: 9–14.
  • Akman F, Geçibesler IH, Kumar A, Sayyed MI, Zaid MHM, 2019d. Evaluation of radiation absorption characteristics in different parts of some medicinal aromatic plants in the low energy region. Results in Physics, 12: 94–100.
  • Al-Buriahi MS, Arslan H, Tonguc BT, 2019. Investigation of photon energy absorption properties for some biomolecules. Nuclear Science and Techniques 30 (103): 1-9.
  • Al-Hamarneh IF, Marashdeh MW, Almasoud FI, Alkaoud A, 2017. Determination of gamma-ray parameters for polyethylene glycol of different molecular weights. Nuclear Science and Techniques 28 (157): 1-8.
  • ANSI/ANS-6.4.3, 1991. Gamma Ray Attenuation Coefficient and Buildup Factors for Engineering Materials. American Nuclear Society, La Grange Park, IL, USA.
  • Aşkın A, Sayyed MI, Sharma A, Dal M, El-Mallawany R, Kaçal MR, 2019. Investigation ofthe gamma ray shielding parameters of (100-x) [0.5Li2O–0.1B2O3–0.4P2O5]-xTeO2 glasses using Geant4 and FLUKA codes. Journal of Non-Crystalline Solids, 521: 119489.
  • Chen S, Chai Z, Xue D, Jiang X, Yang Y, 2018. Variation of gamma radiation shielding properties with incident photon energy and penetration depth for WC/Al composites. Radiation Effects and Defects in Solids. 173: 399-413.
  • Gerward L, Guilbert N, Jensen KB, Levring H, 2001. X–ray absorption in matter. Reengineering XCOM. Radiation Physics and Chemistry, 60: 23–24.
  • Issa SAM, Sayyed MI, Zaid MHM, Matori KA, 2018. Photon parameters for gamma-rays sensing properties of some oxide of lanthanides. Results in Physics, 9: 206–210.
  • Kaur P, Singh KJ, Kurudirek M, Thakur S, 2019. Study of environment friendly bismuth incorporated lithium borate glass system for structural, gamma-ray and fast neutron shielding properties. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 223: 117309.
  • Kilicoglu O, 2019. Characterization of copper oxide and cobalt oxide substituted bioactive glasses for gamma and neutron shielding applications. Ceramics International, 45: 23619–23631.
  • Lokhande RM, More CV, Surung BS, Pawar PP, 2017. Determination of attenuation parameters and energy absorption build-up factor of amine group materials. Radiation Physics and Chemistry, 141: 292–299.
  • Mahmoud SI, Issa SAM, Saddeek YB, Tekin HO, Kilicoglu O, Alharbi T, Sayyed MI, Erguzel TT, Elsaman R, 2019. Gamma, neutron shielding and mechanical parameters for lead vanadate glasses. Ceramics International 45, 14058-14072.
  • Manjunatha HC, Sathish KV, Seenappa L, Gupta D, Raj SAC, 2019. A study of X-ray, gamma and neutron shielding parameters in Si- alloys. Radiation Physics and Chemistry, 165: 108414.
  • Sathiyaraj P, Samuel EJJ, Valeriano CCS, Kurudirek M, 2017. Effective atomic number and buildup factor calculations for metal nano particle doped polymer gel. Vacuum, 143: 138-149.
  • Sayyed MI, 2016. Investigation of shielding parameters for smart polymers. Chinese Journal of Physics, 54: 408–415.
  • Sayyed MI, Akman F, Kumar A, Kaçal MR, 2018. Evaluation of radioprotection properties of some selected ceramic samples. Results in Physics, 11: 1100–1104.
  • Sayyed MI, Tekin HO, Agar O, 2019. Gamma photon and neutron attenuation properties of MgO–BaO–B2O3–TeO2–Cr2O3 glasses: The role of TeO2. Radiation Physics and Chemistry, 163: 58-66.
  • Singh M, Tondon A, Sandhu BS, Singh B, 2018, Energy dependence of radiation interaction parameters of some organic compounds. Radiation Physics and Chemistry, 145: 80–88.
  • Singh R, Singh D, Singh A, Dhaliwal AS, 2019. Photon Interaction Parameters Investigations for Some ZnO–Al2O3–Fe2O3–P2O5 Glasses at 59.4 keV Incident Photon Energy. Glass Physics and Chemistry, 45 (3): 202–207.
  • Singh VP, Badiger NM, 2016. Studies on photon buildup for some thermoluminescent dosimetric compounds. Indian Journal of Physics. 90(3): 259-269.
  • Susoy G, 2020. Effect of TeO2 additions on nuclear radiation shielding behavior of Li2O–B2O3–P2O5–TeO2 glass-system. Ceramics International, 46: 3844–3854.
  • Tekin HO, Kassab LRP, Kilicoglu O, Magalhaes ES, Issa SAM, Mattos GRS. 2020. Newly developed tellurium oxide glasses for nuclear shielding applications: An extended investigation. Journal of Non-Crystalline Solids, 528: 119763.
  • Turhan MF, Akman F, Polat H, Kaçal MR, Demirkol İ, 2020. Gamma-ray attenuation behaviors of hematite doped polymer composites, Progress in Nuclear Energy, 129: 103504.
  • Uosif MAM, Mostafa AMA, Issa SAM, Tekin HO, Alrowailia ZA, Kilicoglu O, 2020. Structural, mechanical and radiation shielding properties of newly developed tungsten lithium borate glasses: An experimental study. Journal of Non-Crystalline Solids, 532: 119882.
Toplam 28 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Metroloji,Uygulamalı ve Endüstriyel Fizik
Bölüm Fizik / Physics
Yazarlar

Mehmet Fatih Turhan 0000-0002-0676-9481

Yayımlanma Tarihi 1 Haziran 2021
Gönderilme Tarihi 5 Şubat 2021
Kabul Tarihi 21 Şubat 2021
Yayımlandığı Sayı Yıl 2021 Cilt: 11 Sayı: 2

Kaynak Göster

APA Turhan, M. F. (2021). Anjiyotensin Dönüştürücü Enzim İnhibitörlerinin Foton Etkileşim Parametrelerinin İncelenmesi. Journal of the Institute of Science and Technology, 11(2), 1114-1126. https://doi.org/10.21597/jist.875282
AMA Turhan MF. Anjiyotensin Dönüştürücü Enzim İnhibitörlerinin Foton Etkileşim Parametrelerinin İncelenmesi. Iğdır Üniv. Fen Bil Enst. Der. Haziran 2021;11(2):1114-1126. doi:10.21597/jist.875282
Chicago Turhan, Mehmet Fatih. “Anjiyotensin Dönüştürücü Enzim İnhibitörlerinin Foton Etkileşim Parametrelerinin İncelenmesi”. Journal of the Institute of Science and Technology 11, sy. 2 (Haziran 2021): 1114-26. https://doi.org/10.21597/jist.875282.
EndNote Turhan MF (01 Haziran 2021) Anjiyotensin Dönüştürücü Enzim İnhibitörlerinin Foton Etkileşim Parametrelerinin İncelenmesi. Journal of the Institute of Science and Technology 11 2 1114–1126.
IEEE M. F. Turhan, “Anjiyotensin Dönüştürücü Enzim İnhibitörlerinin Foton Etkileşim Parametrelerinin İncelenmesi”, Iğdır Üniv. Fen Bil Enst. Der., c. 11, sy. 2, ss. 1114–1126, 2021, doi: 10.21597/jist.875282.
ISNAD Turhan, Mehmet Fatih. “Anjiyotensin Dönüştürücü Enzim İnhibitörlerinin Foton Etkileşim Parametrelerinin İncelenmesi”. Journal of the Institute of Science and Technology 11/2 (Haziran 2021), 1114-1126. https://doi.org/10.21597/jist.875282.
JAMA Turhan MF. Anjiyotensin Dönüştürücü Enzim İnhibitörlerinin Foton Etkileşim Parametrelerinin İncelenmesi. Iğdır Üniv. Fen Bil Enst. Der. 2021;11:1114–1126.
MLA Turhan, Mehmet Fatih. “Anjiyotensin Dönüştürücü Enzim İnhibitörlerinin Foton Etkileşim Parametrelerinin İncelenmesi”. Journal of the Institute of Science and Technology, c. 11, sy. 2, 2021, ss. 1114-26, doi:10.21597/jist.875282.
Vancouver Turhan MF. Anjiyotensin Dönüştürücü Enzim İnhibitörlerinin Foton Etkileşim Parametrelerinin İncelenmesi. Iğdır Üniv. Fen Bil Enst. Der. 2021;11(2):1114-26.