د. هشام بن عبدالعزيز الهدلــق

LIST OF SCIENTIFIC PUBLICATIONS:

1.      Induction of oxidative stress, DNA damage, and apoptosis in a malignant human skin melanoma cell line after exposure to zinc oxide nanoparticles.Alarifi S, Ali D, Alkahtani S, Verma A, Ahamed M, Ahamed M, Alhadlaq HA International Journal of Nanomedicine 2013; 8: 1–11 (Impact Factor: 3.130)

2.      Selective killing of cancer cells by iron oxide nanoparticles mediated through reactive oxygen species via p53 pathway. Ahamed M., Alhadlaq H.A., Khan M., Akhtar M. Journal of Nanoparticle Research 2012; 15: 1225 (Impact Factor: 3.287)

3.      Multifunctional imaging probe based on gadofulleride nanoplatform Zheng Jun-peng,  Liu Qiao-ling ,  Zhen Ming-ming ,  Jiang Feng ,  Shu Chun-ying , Jin Chan, Yang Yongji, Alhadlaq H.A., Wang Chun-ru. Nanoscale 2012; 4: 3669-3672 (Impact Factor: 5.91)

4.      Genotoxic potential of copper oxide nanoparticles in human lung epithelial cells Ahamed M., Siddiqui M., Akhtar M., Ahmad I., Pant A., Alhadlaq H.A. Biochemical and Biophysical Research Communications 2010; 396(2): 578-583

(Impact Factor: 2.484)

5.      Elucidation of the effects of a high fat diet on trace elements in rabbit tissues using atomic absorption spectroscopy. Abdelhalim M.A, Alhadlaq H.A., Moussa S.A. Lipids in Health and Disease 2010; 9 (1): 2. (Impact Factor: 2.17)

6.      Microorganisms Inactivation by Microwaves Irradiation in Riyadh Sewage Treatment Water Plant. Almajhdi F., Albrithen H., Alhadlaq H.A., Farrag M., Abdel-Megeed A. World Applied Sciences Journal 2009; 6 (5): 600-607.

7.      Evaluation of Electrical Conductivity of Hemoglobin and Oxidative Stress in High Fat Diet Rabbits. Moussa S.A., Abdelhalim M.A., Alhadlaq H.A Journal of Applied Sciences 2009; 9 (11): 2185-2189.

8.      Effects of Cholesterol Feeding Periods on Blood Haematology and Biochemistry of Rabbits. Abdelhalim M.A., Alhadlaq H.A. International Journal of Biological Chemistry 2008; 164:76–84.

9.       Molecular and Morphological Adaptations in Compressed Articular Cartilage by Polarized Light Microscopy and Fourier-Transform Infrared Imaging. Y. Xia, Alhadlaq H. A.,  N. Ramakrishnan , A. Bidthanapally, F. Badar. Journal of Structural Biology 2008; 164:76–84 (Impact Factor: 3.805)

10.  Morphological Changes in Aarticular Cartilage due to Static Compression: A Polarized Light Microscopy Study.  Alhadlaq H.A, Xia Y, Hansen F, Les C, Lust G. Connective Tissue Research 2007; 48 (2): 76-84 (Impact Factor: 1.198)

11.  Modifications of orientational dependence of µMRI T2 anisotropy in compressed articular cartilage. Alhadlaq H. A., Xia Y. Journal of Magnetic Resonance Imaging 2005;22(5):665-673 (Impact Factor: 2.162)

12.  The structural adaptations in compressed articular cartilage by microscopic MRI (µMRI) T2 anisotropy. Alhadlaq H. A., Xia Y. Osteoarthritis Cartilage 2004;12(11):887-894. (Impact Factor: 4.365)

13.  Detecting structural changes in early experimental osteoarthritis of tibial cartilage by microscopic magnetic resonance imaging and polarized light microscopy. Alhadlaq H. A., Xia Y, Moody JB, Matyas JR. Ann Rheum Dis 2004;63(6):709-17

 (Impact Factor: 8.727)

14.  Imaging the physical and morphological properties of a multi-zone young articular cartilage at microscopic resolution. Xia Y, Moody JB, Alhadlaq H, Hu J. J Magn Reson Imaging 2003;17(3):365-74. (Impact Factor: 2.344)

15.  Orientational dependence of T2 relaxation in articular cartilage: A microscopic MRI (µMRI) study. Xia Y, Moody JB, Alhadlaq H. MagnReson Med 2002;48(3):460-9. (Impact Factor: 2.96)

16.  Characteristics of topographical heterogeneity of articular cartilage over the joint surface of a humeral head. Xia Y, Moody JB, Alhadlaq H, Burton-Wurster N, Lust G. Osteoarthritis Cartilage 2002;10(5):370-80. (Impact Factor: 4.365)