主要科研成果
1. HE H J,Gao H J (*),ZHANGYB, WANG Q, LI Z Y,Wu S C, and WEN C Y. Impact of non-alcoholic fatty liver disease on Cognition and Brain Changes: A Comprehensive Review [J]. Reviews in the Neurosciences,2025. (SCI)
2.ZHANGYB,Gao H J (*), HEHJ,LiuJ, XUF,Wu S C, ZHOUJ, and CHENGZG.Experimental study on ex vivo porcine pancreas microwave ablation:The influence of different ablation parameters on ablation results and fat liquefaction[J]. Journal of Engineering in Medicine,2024, 238(7):814-826.(SCI, WOS: 001276828900001)
3. Liu J,Gao H J(*), Wang J Y, He Y Z, Lu X Y, Cheng Z GandWu S C(*).Recent research advances on simulation modeling of temperature distribution in microwave ablation of lung tumors. Computer Assisted Surgery,2023, 28(1):2195078.(SCI, WOS: 000963154300001)
4. Wang J Y,Huang S Y,Gao H J(*), LIU J, ZHANG Y B, andWu S C(*). Computer simulations of dual-antennas microwave ablation and comparison to experimental measurements. Applied Sciences-Basel,2023, 13(1):26.(SCI, WOS: 000909222900001)
5. WANG J Y, WU S C, WU Z Y,GAO H J(*), and HUANG S Y(*). Influences of blood flow parameters on temperature distribution during liver tumor microwave ablation. Frontiers in Bioscience-Landmark,2021, 26(9):504-516. (SCI, WOS: 000705008400010)
6.GAO H J, WANG X R, WU S C, ZHOU Z H, BAI Y P, and WU WW. Conformal coverage of liver tumors by the thermal coagulation zone in 2450-MHz microwave ablation [J]. International Journal of Hyperthermia,2019, 36(1):591-605. (SCI, WOS: 000473790400001)
7.GAO H J, WANG X R, WU S C, ZHOU Z H, and BAI Y P. 2450-MHz microwave ablation temperature simulation using temperature-dependence feedback of characteristic parameters [J]. International Journal of RF and Microwave Computer-Aided Engineering,2019, 29(1):e21488. (SCI, WOS: 000459818900017)
8.GAO H J, WANG X R, WU S C, ZHOU Z H, BAI Y P, and AI H M. Characterization of 2450-MHz microwave thermal coagulation zone based on characteristic length growth model and shape variation factor [J]. International Journal of RF and Microwave Computer-Aided Engineering,2019, 29(6): e21705. (SCI, WOS: 000472178300032)
9.GAO H J, WU S C, WANG X R, HU R, ZHOU Z H, and SUN X C. Temperature simulation of microwave ablation based on improved specific absorption rate method compared to phantom measurements [J]. Computer Assisted Surgery,2017, 22(s1):9-17.(SCI, WOS:000424819800002)
10. WANG X R,GAO H J(*), WU S C, BAI Y P, and ZHOU Z H. RF ablation thermal simulation model: parameter sensitivity analysis [J]. Technology and Health Care,2018, 26(s1):179-192. (SCI, WOS:000433978400018)
11. WANG X R,GAO H J, WU S C, JIANG T, ZHOU Z H, and BAI Y P. Numerical evaluation of ablation zone under different tip temperatures during radiofrequency ablation [J]. Mathematical Biosciences and Engineering,2019, 16(4):2514-2531. (SCI, WOS:000465435500044)
