Objective To evaluate the value of the machine-drawn time-intensity curves with intravenous contrast-enhanced color Doppler imaging in study of perfusion of normal kidneys of the rabbits.Methods A series of sequent pictures of 16 normal kidneys of 8 rabbits with color Doppler flow imaging(CDFI) and color Doppler power imaging(CDPI) were collected,and time-intensity curves were drawn by the ultrasound instrument after intravenous administration of "Quanfuxian" contrast medium.Quantitative analyses were done by moving the "interest line".Results The time-intensity curves showed as single apex with steep ascending and slowly descending branch after contrast enhancement.Conclusions The machine-drawn time-intensity curves with intravenous contrast-enhanced color Doppler imaging could efficiently show the perfusion of kidney.

Objective To evaluate the diagnosis of proximal vas deferens and epididymis with contrast-enhanced ultrasonography (CEUS) in healthy adult canines. Methods Six healthy male adult dogs were dissected to expose unilateral vas deferens. CEUS was performed after injecting ultrasound contrast agents into vas deferens by catheter. X ray angiography was taken after injecting compound meglumine diatrizoate. The image features of CEUS and X ray angiography were displayed by CEUS. Results Under CEUS, inguinal segment of proximal vas deferens were straight and symmetrical in diameter, scrotal segment of vas deferens were tortuous,and the tail of epididymis were speckled which enhanced shaped as a comma. The inguinal and scrotal segment of vas deferens section was display well by X-ray angiography.Conclusions CEUS is a new method in proximal vas deferens and tail of epididymis examination. It can provide guidance for the disease diagnosis of seminal vesicle and ductal system.

Objective To explore the effects on dogs' testis by microbubbles excitated by ultrasound.Methods Sixteen male dogs were divided into 3 groups randomly.Pulsed ultrasound irradiation and intravenous microbubbles injection were both applied in the microbubble enhanced ultrasound group (MEUS),pulsed ultrasound irradiation and intravenous microbubbles injection were individually applied in the ultrasound group (TUS) and the simple microbubbles group (MB).Results In MEUS group,the layers of seminiferous tubules decreased and the germ cells were arranged disorderly and bubbles appeared in the cells.The appearances of focal ultra-structural damage such as intercellular space widening,baseline broken and tight-connection of sustentacular cells disappearing were observed by transmission electron microscope,which were slightly or hardly demonstrated in other groups.Conclusions Microbubbles excitated by ultrasound can affect testicular germ cells and the integrity of bloold-testis harrier,which providing new train of thought of target treatments of testis diseases.

BACKGROUND:By using ultrasound examination, renal function was conventionally assessed through measuring the blood flow parameters of large renal arteries in all levels and the rate of the color flow area in arter ies on the cross section of kidneys, in which method great errors have been induced.OBJECTIVE: This study was designed to assess the renal blood perfusion with use of the image analysis software package in the color Doppler system.DESIGN: It was an experimental study on animals.SETTING: This study was conducted in the Department of Functional Examination of Guangzhou First People' s Hospital.MATERIALS: The study had been accomplished at the Animal Laboratory of the General Hospital of Guangzhou Military Area Command of Chinese PLA from January 1999 to Aprial 2000. Eight healthy New Zealand rabbits were selected, 4 females and 4 males and weighing 2.5-3.5 kg.Sixteen kidneys of them were examined. A self-made contrast medium, with prevailing ingredient of albumin shelled and CsF8 gas-filled microbubbles,was used in this study.METHODS: After intravenous bolus injection of a fluorocarbon contrast medium, a color Doppler energy mapping, a color flow mapping and a power Doppler harmonic imaging of renal blood flow were collected successively and a time-density curve were created with system's standard software.MAIN OUTCOME MEASURES: The time-density curve of renal blood perfusion with contrast-enhanced color Doppler was a main outcome measurement in the study.RESULTS: All of the 8 rabbits entered the analysis procedure. The contrast-enhanced time-density curve of renal blood perfusion was singlepeaked, with a rapid incline and a subsequent slow decline. Quantitative analysis of interested sections could be performed by replaying the corresponding contrast-enhanced color Doppler images at a certain time after injection.CONCLUSION: The time-density curve of color flow mapping and color Doppler energy mapping is capable of reflecting the features of renal blood perfusion effectively. It can display not only the general renal perfusion but also the segmental regions with low perfusion, and thus to delineate the functional lesions in the kidneys.

ObjectiveTo investigate the haemostatic effect of combining pulsed therapeutic ultrasound (TUS) and microbubble (MB) on splenic trauma.MethodsForteen healthy dogs were divided into 3 groups.Six animals were treated by microbubble-enhanced therapeutic ultrasound (MEUS),the other eight animals were treated with TUS only ( n =4) and the MB only ( n =4) served aS the controls.The spleens of all animals were surgically exposed and a 20 mm long,5 mm deep incision was created on the spleens using scalpel.Human prothrombin complex (HPC) was slowly injected prior to the treatment.During the procedure,the initial bleeding rate and the bleeding rate after the treatment were calculated using gauze weighing.Contrast enhanced ultrasound (CEUS) was performed to assess the blocking effects of splenic circulation.The targeted spleens were harvested for pathological examination.ResultsThere were no differences in initial bleeding rate before treatment.After treatment,in the MEUS group oozed blood was found and the bleeding rate were lower than that of the TUS and the MB groups ( P ＜0.05).A nonenhanced or perfusion defect region was formed within the treated area.The histological results showed splenic sinus hyperemia,platelet aggregation and intravascular thrombosis.Conclusions Microbubbles enhanced pulsed therapeutic ultrasound can arrest the regional blood circulation of spleen by disrupting the microvasculature and this can be used in splenic heamostasis for treating spleen trauma.

The composition and concentration of volatile organic compounds (VOCs) in exhaled breath are closely related to human health and the analysis of VOCs by collecting human exhaled breath has been widely used in disease surveillance research. This article reviewed the collection, enrichment, and detection methods of exhaled VOCs, which can provide a reference for selecting appropriate technology for follow-up research. The exhaled breath collection devices mainly include sampling bags for mixed exhaled breath and biological volatile organic compound (Bio-VOC) samplers for alveolar air. The pre-enrichment equipment included thermal desorption (TD), solid-phase microextraction device (SPME), and needle trap device (NTD). The detection methods of exhaled VOCs include gas chromatography-mass spectrometry (GC-MS), proton transfer reaction mass spectrometry (PTR-MS), selective ion flow tube mass spectrometry (SIFT-MS), and electronic nose. At present, the collection and enrichment technology of exhaled breath is not mature yet, and its influence on the results of detection is lack of evaluation. In the future, the research on collection and enrichment technology of exhaled breath should be strengthened to further promote the application of exhaled breath in disease surveillance research.