BACKGROUND High-intensity focused ultrasound(HIFU) ablation is a minimally invasive approach in gynecology that is used to manage uterine fibroids.Although this procedure is safe and effective,adverse outcomes are bec...BACKGROUND High-intensity focused ultrasound(HIFU) ablation is a minimally invasive approach in gynecology that is used to manage uterine fibroids.Although this procedure is safe and effective,adverse outcomes are becoming a major problem.CASE SUMMARY We present a case of ventral hernia that occurred as a rare and delayed complication of HIFU ablation for uterine fibroids treatment.The patient came to the hospital with abdominal bloating that occurred 6 mo after ultrasound-guided HIFU ablation for managing uterine fibroids.The ventral hernia,which occurred due to atrophied muscle layers following the procedure,was confirmed by imaging studies and intraoperative findings.She required a hernia repair with mesh and hysterectomy for definitive treatment of uterine fibroid.CONCLUSION High-intensity ultrasound ablation should be performed only on appropriate candidates.Patients should be educated about potential complications of the procedure and the possibility of subsequent treatment.Post-procedural long-term follow-up for detecting delayed adverse effects is important.展开更多
Introduction:Desmoid-type fibromatosis(DF)is a fibrous tumor characterized by low-grade malignant and easy invasive growth and high recurrence.High-intensity focused ultrasound(HIFU)therapy has been identified as a no...Introduction:Desmoid-type fibromatosis(DF)is a fibrous tumor characterized by low-grade malignant and easy invasive growth and high recurrence.High-intensity focused ultrasound(HIFU)therapy has been identified as a novel non-invasive approach for DF treatment;however,the ultrasonic energy generated by HIFU can cause skin heat injury.Case:A 31-year-old female patient with signs and symptoms of DF received treatment in our institution.The patient had undergone HIFU treatment six times from April 27,2018,to August 21,2019.After HIFU therapy for the third time,she had a third-degree skin burn showing as orange peel-like change and spent three months to promote the recovery of the skin lesions.An intermittent ice-cooling strategy was used to avoid skin damage during the fourth HIFU treatment.This patient did not have any apparent skin injury during the last three HIFU therapy and acquired satisfactory anti-tumor therapeutic effect.Conclusions:There are differences in the thermal selectivity of tumor tissues,which leads to different critical thermal injury temperature values that the tissue can tolerate.Ice-cooling can lower skin tissue temperature and reduce the thermal damage caused by HIFU treatment.展开更多
Background The incidence and mortality rate of pancreatic cancer have increased dramatically in China over recent decades. Focused ultrasound (FU) has been somewhat successful in treating pancreatic cancer. The purp...Background The incidence and mortality rate of pancreatic cancer have increased dramatically in China over recent decades. Focused ultrasound (FU) has been somewhat successful in treating pancreatic cancer. The purpose of this study was to investigate apoptosis in pancreatic cancer cells induced by FU. Methods Suspension of human pancreatic carcinoma cell line PaTu 8988t was radiated by FU, using five doses with different radiation parameters and patterns, including one blank control. Temperature increase of the cell suspension was monitored. Cell apoptosis and death after FU radiation was observed using fluorescence microscopy and was tested by flow cytometer at 3, 6, 12, 24, and 48 hours after ultrasound radiation. Results The maximum cell suspension temperatures following five radiation doses were 28℃, (42.20±2.17)℃, (50.80±0.84)℃, (55.80±2.17)℃, and (65.20±3.11)℃; differences between the doses were statistically significant (P 〈0.05). The apoptosis rate peaked at 24 hours after radiation, at (0.56±0.15)%, (1.28±0.16)%, (1.84±0.29)%, (5.74±1.15)%, and (2.00±0.84)% for the five doses; differences between the doses were statistically significant (P 〈0.05). Between doses 1--4, cell apoptosis rates increased as the Tmax increased, in dose 5, as the Tmax was above 60℃, the apoptosis rate decreased. Conclusion Sub-threshold thermal exposures of FU radiation with a continuous radiation pattern could result in higher percentage of apoptosed cells.展开更多
文摘BACKGROUND High-intensity focused ultrasound(HIFU) ablation is a minimally invasive approach in gynecology that is used to manage uterine fibroids.Although this procedure is safe and effective,adverse outcomes are becoming a major problem.CASE SUMMARY We present a case of ventral hernia that occurred as a rare and delayed complication of HIFU ablation for uterine fibroids treatment.The patient came to the hospital with abdominal bloating that occurred 6 mo after ultrasound-guided HIFU ablation for managing uterine fibroids.The ventral hernia,which occurred due to atrophied muscle layers following the procedure,was confirmed by imaging studies and intraoperative findings.She required a hernia repair with mesh and hysterectomy for definitive treatment of uterine fibroid.CONCLUSION High-intensity ultrasound ablation should be performed only on appropriate candidates.Patients should be educated about potential complications of the procedure and the possibility of subsequent treatment.Post-procedural long-term follow-up for detecting delayed adverse effects is important.
基金supported by the Medical and Health Science and Technology Project of Zhejiang Province(No.2019325236)the Appropriate Technology Cultivation and Promotion Project of Zhejiang Medical and Health Office(2019325236).
文摘Introduction:Desmoid-type fibromatosis(DF)is a fibrous tumor characterized by low-grade malignant and easy invasive growth and high recurrence.High-intensity focused ultrasound(HIFU)therapy has been identified as a novel non-invasive approach for DF treatment;however,the ultrasonic energy generated by HIFU can cause skin heat injury.Case:A 31-year-old female patient with signs and symptoms of DF received treatment in our institution.The patient had undergone HIFU treatment six times from April 27,2018,to August 21,2019.After HIFU therapy for the third time,she had a third-degree skin burn showing as orange peel-like change and spent three months to promote the recovery of the skin lesions.An intermittent ice-cooling strategy was used to avoid skin damage during the fourth HIFU treatment.This patient did not have any apparent skin injury during the last three HIFU therapy and acquired satisfactory anti-tumor therapeutic effect.Conclusions:There are differences in the thermal selectivity of tumor tissues,which leads to different critical thermal injury temperature values that the tissue can tolerate.Ice-cooling can lower skin tissue temperature and reduce the thermal damage caused by HIFU treatment.
文摘Background The incidence and mortality rate of pancreatic cancer have increased dramatically in China over recent decades. Focused ultrasound (FU) has been somewhat successful in treating pancreatic cancer. The purpose of this study was to investigate apoptosis in pancreatic cancer cells induced by FU. Methods Suspension of human pancreatic carcinoma cell line PaTu 8988t was radiated by FU, using five doses with different radiation parameters and patterns, including one blank control. Temperature increase of the cell suspension was monitored. Cell apoptosis and death after FU radiation was observed using fluorescence microscopy and was tested by flow cytometer at 3, 6, 12, 24, and 48 hours after ultrasound radiation. Results The maximum cell suspension temperatures following five radiation doses were 28℃, (42.20±2.17)℃, (50.80±0.84)℃, (55.80±2.17)℃, and (65.20±3.11)℃; differences between the doses were statistically significant (P 〈0.05). The apoptosis rate peaked at 24 hours after radiation, at (0.56±0.15)%, (1.28±0.16)%, (1.84±0.29)%, (5.74±1.15)%, and (2.00±0.84)% for the five doses; differences between the doses were statistically significant (P 〈0.05). Between doses 1--4, cell apoptosis rates increased as the Tmax increased, in dose 5, as the Tmax was above 60℃, the apoptosis rate decreased. Conclusion Sub-threshold thermal exposures of FU radiation with a continuous radiation pattern could result in higher percentage of apoptosed cells.
