scholarly article | Q13442814 |
P2093 | author name string | Pei Zhong | |
Yunbo Liu | |||
Takashi Kon | |||
Chuanyuan Li | |||
P2860 | cites work | Cells in stress: transcriptional activation of heat shock genes | Q28267155 |
Thermal dose determination in cancer therapy | Q28270237 | ||
High intensity focused ultrasound-induced gene activation in sublethally injured tumor cells in vitro | Q30501691 | ||
Hemostasis using high intensity focused ultrasound | Q33547195 | ||
MR imaging-guided focused ultrasound surgery of fibroadenomas in the breast: a feasibility study | Q33940044 | ||
The cellular and molecular basis of hyperthermia | Q34721242 | ||
Hyperthermia-regulated immunogene therapy | Q35049410 | ||
Characterisation of systemic dissemination of nonreplicating adenoviral vectors from tumours in local gene delivery | Q36616672 | ||
Current status of research on biophysical effects of ultrasound | Q40688333 | ||
Spatial and temporal control of transgene expression through ultrasound-mediated induction of the heat shock protein 70B promoter in vivo | Q40739855 | ||
Effects of pulsed ultrasound and temperature on the development of rat embryos in culture | Q40758640 | ||
Treatment of localised prostate cancer with transrectal high intensity focused ultrasound | Q40819627 | ||
Control of transgene expression using local hyperthermia in combination with a heat-sensitive promoter | Q40880232 | ||
Ultrasound focal beam surgery | Q41145906 | ||
Activation of programmed cell death (apoptosis) by cisplatin, other anticancer drugs, toxins and hyperthermia | Q41714603 | ||
Response to sublethal heat treatment of prostatic tumor cells and of prostatic tumor infiltrating T-cells | Q44723823 | ||
Histopathological changes in the skin and subcutaneous tissues of mouse legs after treatment with hyperthermia | Q45156690 | ||
MRI-guided ultrasonic heating allows spatial control of exogenous luciferase in canine prostate | Q45884415 | ||
Extracorporeal focused ultrasound surgery for treatment of human solid carcinomas: early Chinese clinical experience | Q48907974 | ||
Focal gene induction in the liver of rats by a heat-inducible promoter using focused ultrasound hyperthermia: preliminary results | Q50249934 | ||
Hyperecho in ultrasound images of HIFU therapy: involvement of cavitation | Q50250059 | ||
High-intensity focused ultrasound in the treatment of solid tumours | Q50250147 | ||
High-intensity focused ultrasound for the treatment of liver tumours | Q50250410 | ||
Tumor growth reduction and DNA transfer by cavitation-enhanced high-intensity focused ultrasound in vivo | Q50250740 | ||
The status of high-intensity focused ultrasound in the treatment of localized prostate cancer and the impact of a combined resection | Q50250809 | ||
Spatial and temporal control of transgene expression in vivo using a heat-sensitive promoter and MRI-guided focused ultrasound | Q50250865 | ||
The effect of surface agitation on ultrasound-mediated gene transfer in vitro. | Q50786939 | ||
A discussion of procedures for ultrasonic intensity and power calculations from miniature hydrophone measurements. | Q52659188 | ||
Inertial cavitation dose and hemolysis produced in vitro with or without Optison | Q73408551 | ||
The relationship of scattered subharmonic, 3.3-MHz fundamental and second harmonic signals to damage of monolayer cells by ultrasonically activated Albunex | Q74233637 | ||
P433 | issue | 1 | |
P921 | main subject | focused ultrasound | Q50333304 |
P304 | page(s) | 492-501 | |
P577 | publication date | 2006-07-01 | |
P1433 | published in | Journal of the Acoustical Society of America | Q26182 |
P1476 | title | High intensity focused ultrasound-induced gene activation in solid tumors | |
P478 | volume | 120 |