Home  About us  Contact
 

Patient Anatomy (patient + anatomy)

Distribution by Scientific Domains
Medical Sciences100%

Selected Abstracts

Bilateral vocal fold paresis after endoscopic stapling diverticulotomy for zenker's diverticulum

HEAD & NECK: JOURNAL FOR THE SCIENCES & SPECIALTIES OF THE HEAD AND NECK, Issue 3 2004
Marc Thorne MD
Abstract Background. Zenker's diverticulum may be treated with a variety of surgical techniques. Endoscopic methods, specifically endoscopic stapling diverticulotomy, have gained increasing acceptance because of shorter operative times, decreased morbidity, with shorter hospital stays and time to resumption of oral feedings. Methods and Results. We report the occurrence of bilateral vocal fold paresis after endoscopic stapling diverticulotomy for Zenker's diverticulum, previously unreported in the literature. This complication likely resulted from traction on the recurrent laryngeal nerves secondary to unfavorable patient anatomy. Conclusions. Endoscopic stapling diverticulotomy is a safe and effective treatment method for Zenker's diverticulum and remains our procedure of choice for most patients. However, inability to safely expose the diverticulum endoscopically results in a significant abandonment rate for attempted procedures and may result in significant postoperative complications.© 2004 Wiley Periodicals, Inc. Head Neck26: 294,297, 2004 [source]

Computer-aided navigation for arthroscopic hip surgery using encoder linkages for position tracking,

THE INTERNATIONAL JOURNAL OF MEDICAL ROBOTICS AND COMPUTER ASSISTED SURGERY, Issue 3 2006
Emily Monahan
Abstract Background While arthroscopic surgery has many advantages over traditional surgery, this minimally invasive technique is not often applied to the hip joint. Two main reasons for this are the complexity of navigating within the joint and the difficulty of correctly placing portal incisions without damaging critical neurovascular structures. This paper proposes a computer-aided navigation system to address the challenges of arthroscopic hip surgery. Methods Unlike conventional arthroscopic methods, our system uses a hyper-redundant encoder linkage to track surgical instruments, thus eliminating the occlusion and distortion problems associated with standard optical and electromagnetic tracking systems. The encoder linkage position information is used to generate a computer display of patient anatomy. Results The tracking error from the encoder linkage was evaluated to be within an acceptable range for this tracking prototype, and the new computer-aided approach to arthroscopic hip surgery was applied to a prototype system for concept verification. Conclusion This navigation system for arthroscopic hip surgery can be used as a tool to address the challenges of joint navigation and portal placement in arthroscopic hip surgery by visually supplementing the limiting view from the arthroscope. The introduction of a tracking linkage shows significant potential as an alternative to other tracking systems. Positive feedback about the completed demo system was obtained from surgeons who perform arthroscopic proceduces. Copyright © 2006 John Wiley & Sons, Ltd. [source]

10 A Rapid, Simple and Inexpensive Method for Construction of Peripheral Vascular Ultrasound Phantoms

ACADEMIC EMERGENCY MEDICINE, Issue 2008
Hal Minnigan
Background and Introduction:, Emergency department bedside ultrasound has grown to include ultrasound guidance of vascular access, most recently, peripheral IV access has been described with ultrasound guidance. Simulation of procedures that are crucial to clinical practice is an efficient and reliable way to train and assess competency prior to performance on an actual patient. Ultrasound phantoms that simulate patient anatomy allow the development of hand-eye coordination, orientation and manipulation of the instruments in a controlled setting. In an effort to obviate the cost of commercial products I have developed a very simple and rapid method for building vascular ultrasound phantoms for teaching ultrasound guided peripheral IV placement. Materials and Methods:, Using easily obtainable and inexpensive materials, a simple method is described which allows construction of the phantom in less than 1 hour. This method requires no special tools or construction skills. The total cost for 1 phantom is about $30.00. Most of the components can be reused when the phantom needs to be repoured , the cost to repour a phantom is less than 2. Results:, These phantoms are realistic in terms of visualization of deep upper extremity veins, and include fluid filled vessels which are gravity fed by colored saline. The system is versatile and can be customized to fit the needs of the individual user. Attendees will be provided with a CD comprising a complete materials list with sources of supply, a PowerPoint presentation to guide construction with each step detailed using digital photographs, and videos of use of the phantom. [source]

Ultrasound contrast enhancing agents in neurosonology: principles, methods,future possibilities

ACTA NEUROLOGICA SCANDINAVICA, Issue 1 2000
D. W. Droste
Objectives, Ultrasound of the brain supplying arteries is a standard diagnostic procedure in patients with suspected and definite acute and chronic cerebrovascular occlusive disease. Anatomical and pathological limitations led to the development of echocontrast agents which are able to survive pulmonary and capillary transit and improve the echogenicity of the flowing blood. Material and Methods, This article reviews present and future applications of echocontrast agents in conjunction with personal experiences. Results, Currently, echocontrast is used for the differentiation of internal carotid artery occlusion and pseudoocclusion, better delineation of the maximal narrowing in high-grade stenoses, and better visualization of the extracranial vertebral artery and its collaterals. Transcranial applications include the insufficient foraminal or temporal window, assessment of arteriovenous malformations, thrombosis of cerebral veins and sinuses, and intracranial aneurysms. The use of echocontrast can have direct diagnostic and therapeutic consequences. Harmonic imaging, perfusion imaging, stimulated acoustic emission, and drug delivery are possible future domains of the technique. Discussion, Besides the support of conventional neurovascular ultrasound in poor examination conditions due to the patients' anatomy or pathology, echocontrast agents may allow for novel applications in the diagnosis and treatment of cerebrovascular patients. [source]