VISUALIZATION OF ULTRASOUND INDUCED CAVITATION BUBBLES USING SYNCHROTRON ANALYZER BASED IMAGING

Ultrasound is recognized as the fastest growing medical modality for imaging and therapy. Being noninvasive, painless, portable, X-ray radiation-free and far less expensive than magnetic resonance imaging, ultrasound is widely used in medicine today. Despite these benefits, undesirable bioeffects of high-frequency sound waves have raised concerns; particularly, because ultrasound imaging has become an integral part of prenatal care today and is increasingly used for therapeutic applications. As such, ultrasound bioeffects must be carefully considered to ensure optimal benefits-to-risk ratio. In this context, few studies have been done to explore the physics (i.e. ‘cavitation’) behind the risk factors. One reason may be associated with the challenges in visualization of ultrasound-induced cavitation bubbles in situ. To address this issue, this research aims to develop a synchrotron-based assessment technique to enable visualization and characterization of ultrasound-induced microbubbles in a physiologically relevant medium under standard ultrasound operating conditions. The first objective is to identify a suitable synchrotron X-ray imaging technique for visualization of ultrasound-induced microbubbles in water. Two synchrotron X-ray phase-sensitive imaging techniques, in-line phase contrast imaging (PCI) and analyzer-based imaging (ABI), were evaluated. Results revealed the superiority of the ABI method compared to PCI for visualization of ultrasound-induced microbubbles. The second main objective is to employ the ABI method to assess the effects of ultrasound acoustic frequency and power on visualization and mapping of ultrasound-induced microbubble patterns in water. The time-averaged probability of ultrasound-induced microbubble occurrence along the ultrasound beam propagation in water was determined using the ABI method. Results showed the utility of synchrotron ABI for visualizing cavitation bubbles formed in water by clinical ultrasound systems working at high frequency and output powers as low as used for therapeutic systems. It was demonstrated that the X-ray ABI method has great potential for mapping ultrasound-induced microbubble patterns in a fluidic environment under different ultrasound operating conditions of clinical therapeutic devices. Taken together, this research represents an advance in detection techniques for visualization and mapping of ultrasound-induced microbubble patterns using the synchrotron X-ray ABI method without usage of contrast agents. Findings from this research will pave the road toward the development of a synchrotron-based detection technique for characterization of ultrasound-induced cavitation microbubbles in soft tissues in the future

Patterns of injury and violence in Yaoundé Cameroon: an analysis of hospital data.

BackgroundInjuries are quickly becoming a leading cause of death globally, disproportionately affecting sub-Saharan Africa, where reports on the epidemiology of injuries are extremely limited. Reports on the patterns and frequency of injuries are available from Cameroon are also scarce. This study explores the patterns of trauma seen at the emergency ward of the busiest trauma center in Cameroon's capital city.Materials and methodsAdministrative records from January 1, 2007, through December 31, 2007, were retrospectively reviewed; information on age, gender, mechanism of injury, and outcome was abstracted for all trauma patients presenting to the emergency ward. Univariate analysis was performed to assess patterns of injuries in terms of mechanism, date, age, and gender. Bivariate analysis was used to explore potential relationships between demographic variables and mechanism of injury.ResultsA total of 6,234 injured people were seen at the Central Hospital of Yaoundé's emergency ward during the year 2007. Males comprised 71% of those injured, and the mean age of injured patients was 29 years (SD = 14.9). Nearly 60% of the injuries were due to road traffic accidents, 46% of which involved a pedestrian. Intentional injuries were the second most common mechanism of injury (22.5%), 55% of which involved unarmed assault. Patients injured in falls were more likely to be admitted to the hospital (p < 0.001), whereas patients suffering intentional injuries and bites were less likely to be hospitalized (p < 0.001). Males were significantly more likely to be admitted than females (p < 0.001)DiscussionPatterns in terms of age, gender, and mechanism of injury are similar to reports from other countries from the same geographic region, but the magnitude of cases reported is high for a single institution in an African city the size of Yaoundé. As the burden of disease is predicted to increase dramatically in sub-Saharan Africa, immediate efforts in prevention and treatment in Cameroon are strongly warranted

Ultrasound Imaging

Ultrasound Imaging - Current Topics presents complex and current topics in ultrasound imaging in a simplified format. It is easy to read and exemplifies the range of experiences of each contributing author. Chapters address such topics as anatomy and dimensional variations, pediatric gastrointestinal emergencies, musculoskeletal and nerve imaging as well as molecular sonography. The book is a useful resource for researchers, students, clinicians, and sonographers looking for additional information on ultrasound imaging beyond the basics

Volume 21, issue 1

The mission of CJS is to contribute to the effective continuing medical education of Canadian surgical specialists, using innovative techniques when feasible, and to provide surgeons with an effective vehicle for the dissemination of observations in the areas of clinical and basic science research. Visit the journal website at http://canjsurg.ca/ for more.https://ir.lib.uwo.ca/cjs/1152/thumbnail.jp

Brachytherapy

Importance of brachytherapy is currently increasing in cancer therapy. In brachytherapy each treatment is best fitted by physician's' hand, and appropriate arrangement and selection of radiation sources facilitates the fitting. This book is full of essences to make a breakthrough in radiation oncology by brachytherapy. I hope this book will encourage all people related. Contents 1: problem of currently popular dosimetric method; 2: Monte Carlo dose simulation of ruthenim-106/rhodium-106 eyes applicators; 3. Progress in Californium-252 neutron brachytherapy; 4. Clinical aspect of endobronchial brachytherapy in central airway tumor obstruction; 5. Review from principle and techniques of Iodine-125 production at nuclear reactor plant to their clinical practive in prostate cancer treatment; 6. Stereotactic Brachytherapy for Brain Tumors using Iodine-125 seed; 7. A brachytherapy procedure with organ-sparing hyaluronate gel injection for safe and eradicative reirradiation

New Techniques in Gastrointestinal Endoscopy

As result of progress, endoscopy has became more complex, using more sophisticated devices and has claimed a special form. In this moment, the gastroenterologist performing endoscopy has to be an expert in macroscopic view of the lesions in the gut, with good skills for using standard endoscopes, with good experience in ultrasound (for performing endoscopic ultrasound), with pathology experience for confocal examination. It is compulsory to get experience and to have patience and attention for the follow-up of thousands of images transmitted during capsule endoscopy or to have knowledge in physics necessary for autofluorescence imaging endoscopy. Therefore, the idea of an endoscopist has changed. Examinations mentioned need a special formation, a superior level of instruction, accessible to those who have already gained enough experience in basic diagnostic endoscopy. This is the reason for what these new issues of endoscopy are presented in this book of New techniques in Gastrointestinal Endoscopy

Modifying and Measuring the Stiffness of a Regenerative Cardiac Scaffold In Vitro

The stiffness of scaffolds used in surgical ventricular restoration may play an important role in the degree to which they facilitate regeneration of functional cardiac tissue. The stiffness of the scaffold influences the phenotype of cells which are present in it as well as their ability to deform the scaffold. The goal of this study was to evaluate in vitro methods to characterize and alter the stiffness of new scaffold materials. Membrane inflation testing, an in vitro mechanical testing method, was evaluated in this study because of its ease of use and the similar mode of loading which it shares with scaffolds implanted in vivo. The structural stiffness of two scaffold materials, urinary bladder matrix and Dacron, were determined in vivo and using membrane inflation testing. Despite higher tensions and lower area stretch ratios for scaffolds tested using membrane testing, similar changes in structural stiffness between the two materials were found for both methods (5.6 ± 3.3 fold in vivo, 5.0 ± 1.0 in vitro). This finding demonstrated that membrane inflation testing is a useful in vitro method for measuring changes in structural stiffness between scaffold materials with a level of sensitivity similar to that which is measured in vivo. Membrane inflation testing was used to assess the effectiveness of altering scaffold stiffness through exposure to various cell culture conditions. Incubation of a biological membrane in cell culture media resulted in a drastic decrease in the elastic modulus from its initial value (3.55 ± 0.52 MPa) after 2 weeks (1.79 ± 0.30 MPa), 4 weeks (1.04 ± 0.09 MPa), and 10 weeks (0.014 ± 0.01 MPa). When fibroblasts were cultured on the scaffolds for 10 weeks an increase in elastic modulus (0.134 ± 0.05 MPa) over scaffolds incubated in culture media for the same amount of time was observed. The increase in elastic modulus due to the presence of fibroblasts was accompanied by an increase in the percentage of collagen in the samples (54.1 ± 5.1 % without fibroblasts, 83.2 ± 5.1 % with fibroblasts). Contrary to expectation, addition of ascorbic acid to the media to increase production of collagen by the fibroblasts resulted in a decrease in elastic modulus (0.030 ± 0.01 MPa) compared to scaffolds cultured with fibroblasts in standard media and a decrease in the amount of enzymatically degraded collagen (40.8 ± 4.7 % without ascorbic acid, 21.1 ± 3.3 % with ascorbic acid). Regeneration of cardiac tissue after a myocardial infarction is a complicated process which is influenced by a myriad of different factors. Future studies investigating the exact role which substrate stiffness has on regeneration will be essential to the development of improved cardiac scaffolds. Characterization of the stiffness of these scaffolds by membrane inflation and manipulation through exposure to cell culture conditions are powerful approaches to facilitate future studies

Magnetic resonance guided focused ultrasound surgery - a novel treatment for uterine fibroids

Uterine fibroids are the most common tumour of the reproductive tract in women of reproductive age. Although they are benign tumours that are often asymptomatic, they may cause debilitating symptoms in many women, such as abnormal uterine bleeding, abdominal pain, increased abdominal girth, urinary frequency, constipation, pregnancy loss, dyspareunia, and in some cases infertility. Several approaches are available for the treatment of uterine fibroids. These include pharmacologic options, such as hormonal therapies and gonadotropinreleasing hormone agonists; surgical approaches, such as hysterectomy, myomectomy; myolysis, laparoscopic uterine artery occlusion, uterine artery embolisation and magnetic resonance imaging-guided focused ultrasound surgery. The choice of approach may be dictated by factors such as the patient’s desire to become pregnant in the future, the importance of uterine preservation, symptom severity, and tumour characteristics. There is however, no widely agreed therapeutic strategy. There is a widespread view that hysterectomy is overused in the UK; the Chief Medical Officer in his annual report ‘On the state of public health’ in 2005, highlighted that hysterectomy in younger women is associated with complications, hospital stays, procedure-related interference with normal life and is costly. In addition he outlined the need to reduce the number of hysterectomies. This, along with the change in cultural attitudes amongst patients, who are becoming increasingly reluctant to undergo these conventional invasive procedures, has increased the need for new treatment options. Ideally new treatment options for uterine fibroids would be minimally invasive, have long-term data demonstrating efficacy and safety, have minimal or no incidence of fibroid recurrence, be easy to perform, preserve fertility, and be cost effective. New treatment approaches are under investigation, with the goals of being effective, safe, and less invasive. MRgFUS is a non-invasive thermo-ablative hybrid technique which uses both MR and ultrasound to destroy tumours. It is an outpatient procedure, which avoids the need for an anaesthetic, has a short recovery period, and is uterine sparing. The main objective of this work was to set out the rationale for using Magnetic Resonance guided Focused Ultrasound Surgery (MRgFUS) for the treatment of uterine fibroids. In order to achieve this aim, four main bodies of work are necessary; 1) Identifying patient selection criteria and investigating mitigating techniques to increase the pool of women for whom this treatment can be offered. 2) Investigating a method designed to overcome the problem of safely treating women with abdominal scars for whom this treatment can cause potential morbidity. 3) Investigating the potentiality of using MRgFUS to prolong the tumour shrinkage effect of GnRH analogue injections. 4) Investigating the safety of MRgFUS in treating symptomatic women who wish to preserve fertility. Results: the first aim of this project was to identify patient selection criteria and to investigate methods to widen the selection criteria. In our retrospective review it was found that 74% of women presenting were deemed technically suitable to proceed with treatment and several mitigating techniques that solved current technical difficulties were identified and allowed for less restrictive MRgFUS selection criteria for treatment of symptomatic uterine fibroids. These less restrictive criteria are expected to expand the pool of patients for whom MRgFUS is a viable treatment option for uterine fibroid symptoms. The second aim was to identify a method of overcoming the problem of treating women with previous abdominal scars safely. We identified a unique method of highlighting the scar by painting it with a paramagnetic iron oxide material which clearly outlined the scar on MR scanning allowing complete avoidance of the scar using MR guidance. In this small pilot study, all women were treated safely with no skin burns. The third aim of this project looked at the potentiality of prolonging the shrinkage effect of GnRH analogues by following a course of 3 injections with MRgFUS treatment. In this prospective study of fifty women, there was a 50% reduction in the mean symptoms severity score at 6 months which was maintained for 24 months post treatment. There was an average reduction in target fibroid volume which was maintained for 24 months. The final aim of the project was to investigate the safety of using MRgFUS as a treatment option for those women who wished to preserve their fertility. In this multicentre international study, One hundred and sixteen women were recruited from five centres. There were sixty four reported pregnancies in Sixty one women, with 30 completed deliveries. There were no reported cases of uterine rupture, premature labour, abnormal placentation or placental abruption. Conclusion: There is a growing body of data from clinical trials and more than four years of clinical experience to validate the safety and efficacy of MRgFUS for the treatment of uterine fibroids. MRgFUS is a totally non-invasive outpatient procedure that is not associated with the typical surgical risks of bleeding, infection and has minimal recovery time. Additionally, the procedure allows women to address their symptoms whilst preserving the uterus. Consequently, MRgFUS is an alternative treatment option for suitable patients who have refused other interventions due to concerns about lost productivity, risks of surgical complications or future fertility