1.Effect of Frog and Suckling Pig Skin on Wound Healing in Deep Burn
Bosheng ZHOU ; Jun TAN ; Xiao LI
Journal of Chinese Physician 2001;0(01):-
Objective To evaluate the effect of live frog skin in the treatment of deep partial thickness and full thickness burn. Methods 159 burned patients were randomly divided into two groups: wounds treated with frog skin or suckling pig skin. Wounds were covered by frog skin(35 cases) or by suckling pig skin(31 cases) after surgical debridement or when the crust began to dissolve for patients with deep partial thickness burns, and by frog skin (49 cases) or by sucking pig skin(44 cases) after surgical debridment or autologous skin grafting and escharetomy for patients with full thickness burns. There was no significant difference between the two groups in mean age, burn area and burn type. Results Compared with the suckling pig skin, frog skin could remarkably decrease days of wound recovery and antibiotics administration, and reduced incidence of wound infections and rejection in patients with full thickness burns. Conclusions Frog skin possessed more powerful anti-infection ability, and rare rejection phenomenon in the treatment of burn wounds. It may be a suitable biological dressing for burn wounds.
2.Value of contrast-enhanced ultrasound in analysing testicular and epididymal mass lesions
Qin CHEN ; Qing ZHOU ; Guo ZHOU ; Linxian YUE ; Zhiqing CAI ; Bosheng GONG ; Xinglian JIANG
Chinese Journal of Ultrasonography 2012;21(3):240-243
Objective To investigate the differential value of contrast-enhanced ultrasonography (CEUS) and time-intensity curves(TIC) in diagnosing testicular and epididymal mass lesions.Methods CEUS via intravenous bolus injection of SonoVue and TIC were performed for quantitative analysis of testicular and epididymal mass lesions.Forty-one patients with 42 testicular and epididymal mass lesions and 26 normal testicles were examined with CUES,the perfusion progress were recorded dynamically,which findings were compared with surgery.Results Twenty-three (54.76%) malignant masses displayed enhanced pattern as evenly enhanced,fast-in and fast-out (8.7%),evenly enhanced,fast-in and slow-out (65.2 % ),unevenly enhanced,fast-in and slow-out (26.1% ).Ninteen (45.24 % ) benign masses revealed enhanced pattern as unevenly enhanced,fast-in and slow-out ( 10.5 %),evenly enhanced,slow-in and slowout ( 10.5 % ),unevenly enhanced,slow-in and slow-out ( 36.9 % ),without enhancement ( 42.1% ).There was statistical difference of peak intensity,time to peak and areas among malignant group,benign group and normal group ( P < 0.05).Conclusions CEUS combined with TIC could provide differential diagnostic value for testicular and epididymal mass lesions.
3.Modeling the correlations between radiation dose and scanning parameters of XVI cone beam CT
Zhengxian LI ; Jingjing ZHAO ; Meijiao WANG ; Li ZHOU ; Dong LIU ; Bosheng WANG ; Shaofei ZONG ; Jingchao MA ; Yibao ZHANG
Chinese Journal of Radiological Medicine and Protection 2017;37(8):618-622
Objective To quantify the correlations between Elekta XVI cone beam CT dose and various scanning protocols,providing mathematical models to assess the protocol-dependency of imaging dose during imnage guided radiotherapy.Methods Based on standard protocols and various combinations of kVp and mA on an XVI mounted on an Elekta Versa HD accelerator,the air KERMA was measured at various positions in a standard PTW CTDI body phantom using calibrated PTW 30009 kV chamber and UNIDOS webline electrometer.Weighted CT dose index (CTDIw) was computed thereafter.SigmaPlot 10.0 was used to fit the measurements against mA and/or kVp yielding empirical functions.Results Under standard protocols,the CTDIw of Varian OBI was only 11.23% (chest) and 9.15% (pelvis) of Elekta XVI.Using the default and other 4 investigated kVp values,the central and peripheral KERMA were both proportional to mA,and vet the slope value a varied dramatically from 0.479 to 6.679.Major affecting factors included kVp settings,measurement locations,and dosimetric mnetrics,etc.None linear regressions were used to fit kVp against KERMA at various locations and CTDIw (R2 > 0.997).The differences between all coefficients were statistically significant (P < 0.05).The impact of changing both mA and kVp on the dose to phantom center can be described as mGy =(5.917-0.197 ×kVp+0.002 × kVp2-5.063 × 10-6 × kVp3) × mA.Conclusions Imaging dose of Elekta XVI is strongly dependent on scanning paraneters.The proposed mathematical models can be used as efficient and robust indicators of such dependency.