Global ETD Search

21	Biomedical instrumentation and nanotechnology for image-guided cancer surgery Mancini, Michael C. 04 April 2011 (has links) Once diagnosed, cancer is treated by surgical resection, chemotherapy, radiation therapy, or a combination of these therapies. It is intuitive that physically and completely removing a solid tumor would be an effective treatment. A complete resection of the tumor mass, defined by surgical margins that are clear of neoplasia, is prognostic for a decreased chance of cancer recurrence and an increased survival rate. In practice, complete resection is difficult. A surgeon primarily has only their senses of touch and sight to provide "real-time" guidance in the removal of a tumor while in the operating room. Preoperative imaging can guide a surgeon to a tumor but does not give a continuous update of surgical progress. Intraoperative pathology is limited to a few slides worth of samples: a product of its time-consuming nature and the limited time a patient can remain under general anesthesia. Technologies to guide a surgeon in effecting complete resection of a tumor mass during the surgical procedure would greatly increase cancer survival rates by lowering rates of cancer recurrence; such a technology would also reduce the need for follow-up chemotherapy or radiation therapy. Here, we describe a prototype instrumentation system that can provide intraoperative guidance with exogenous optical contrast agents. The instrumentation combines interactive point excitation, local spectroscopy, and widefield fluorescence imaging to enable low-cost surgical guidance using FDA-approved fluorescent dyes, semiconductor quantum dots (QDs), or surface-enhanced Raman scattering (SERS) nanoparticles. The utility of this surgical system is demonstrated in rodent tumor models using an FDA-approved fluorescent dye, indocyanine green (ICG), and is then more extensively demonstrated with a pre-clinical study of spontaneous tumors in companion canines. The pre-clinical studies show a high sensitivity in detecting a variety of canine tumors with a low false positive rate, as verified by pathology. We also present a fundamental study on the behavior of quantum dots. QDs are a promising fluorophore for biological applications, including as a surgical contrast agent. To use QDs for in vivo human imaging, toxicity concerns must be addressed first. Although it is suspected that QDs may be toxic to an organism based on the heavy-metal elemental composition of QDs, overt organism toxicity is not seen in long-term animal model studies. We have found that some reactive oxygen species (ROS) generated by the host inflammatory response can rapidly degrade QDs; in the case of hypochlorous acid, optical changes to the QDs are suggestive of degradation occurring within seconds. It is well-known that QDs are sequestered by the immune system when used in vivo---we therefore believe that QD degradation through an inflammatory response may represent a realizable in vivo mechanism for QD degradation. We demonstrate in an in vitro cell culture model that immune cells can degrade QDs through ROS exposure. Knowledge of the degradative processes that QDs would be subject to when used in vivo informs on adaptations that can be made to the QDs to resist degradation. Such adaptations will be important in developing QD-based contrast agents for image guided surgery. Cancer imaging Instrumentation Nanotechnology Surgical guidance Quantum dots Computer-assisted surgery Cancer Imaging Semiconductors Raman effect Cancer
22	Effect of surgical experience on imageless computer-assisted femoral component positioning in hip resurfacing – a preclinical study Stiehler, Maik, Goronzy, Jens, Kirschner, Stephan, Hartmann, Albrecht, Schäfer, Torsten, Günther, Klaus-Peter 17 July 2015 (has links) (PDF) Background: The clinical outcome of hip resurfacing (HR) as a demanding surgical technique associated with a substantial learning curve depends on the position of the femoral component. The aim of the study was to investigate the effects of the level of surgical experience on computer-assisted imageless navigation concerning precision of femoral component positioning, notching, and oversizing rate, as well as operative time. Methods: Three surgeons with different levels of experience in both HR and computer-assisted surgery (CAS) prepared the femoral heads of 54 synthetic femurs using the Durom TM Hip Resurfacing (Zimmer, Warsaw, IN, USA) system. Each surgeon prepared a total of 18 proximal femurs using the Navitrack® system (ORTHOsoft Inc., Montreal, Canada) or the conventional free-hand Durom TM K-wire positioning jig. The differences between planned and postoperative stem shaft angle (SSA) and anteversion angle in standardized x-rays were measured and the operative time, not including the time for calibrating the CAS-system, was documented. Notching was evaluated by the three surgeons in a randomized manner. Oversizing was determined by the difference of the preoperative determined cap and the cap size advised by the CAS-system. Results: CAS significantly reduced the overall mean deviation between planned and postoperative SSA in comparison with the conventional procedure (mean ± SD, 1 ± 1.7° vs. 7.4 ± 4.4°, P <0.01) regardless of the surgeon’s level of experience. The incidence of either varus or valgus SSA deviations exceeding 5° were 1/27 for CAS and 15/27 for the conventional method, respectively (P<0.001), corresponding to a reduction by 97%. Using CAS, the rate of notching was reduced by 100%. Conclusions: The accuracy of femoral HR component orientation is significantly increased by use of CAS regardless of the surgeon’s level of experience in our preclinical study. Thus, imageless computer-assisted navigation can be a valuable tool to improve implant positioning in HR for surgeons at any stage of their learning curve. computergestützte Chirurgie Hüftgelenk Navigation TU Dresden Publikationsfonds Computer-assisted surgery Navigation Technical University Dresden Publication funds ddc:610 rvk:XA 10000
23	PATIENT-SPECIFIC PATTERNS OF PASSIVE AND DYNAMIC KNEE JOINT MECHANICS BEFORE AND AFTER TOTAL KNEE ARTHROPLASTY Young, Kathryn Louise 09 July 2013 (has links) Disregard for patient-specific joint-level variability may be related to decreased functional ability, poor implant longevity and dissatisfaction post-TKA. The purpose of this study was to, 1) compare pre and post-implant intraoperative passive knee adduction angle kinematic patterns and characterize the effect of surgical intervention on each pattern, 2) examine the association between passive pre and post-implant knee kinematics measured intraoperatively and dynamic knee kinematics and kinetics pre and post-TKA measured during gait, and 3) compare dynamic post-TKA kinematic and kinetic patterns between patient-specific knee recipients and traditional TKA recipient. Patients received a TKA using the Stryker Precision Knee navigation system capturing pre/post-implant kinematics through a passive range of flexion. One-week prior and 1-year post-TKA patients underwent three-dimensional gait analysis. Knee joint waveforms were calculated according to the joint coordinate system. Principal component analysis (PCA) was applied to frontal plane gait angles, moments and navigation angles. Paired two- tailed t-tests were used to compare principal component (PC) scores between pre and post-implant patterns, and a one-way ANOVA was used to test if post-implant patterns were significantly different from zero. Two-tailed Pearson correlation coefficients tested for associations between navigation and gait PCscores, and an un-paired two-tailed t-test was used to compare PCscores between patient-specific and traditional TKA groups. Six different passive kinematic phenotypes were captured pre-implant. Although some waveform patterns persisted at small magnitudes post-implant (PC1 and PC3: p<0.001), curves remained within the clinically acceptable alignment range through passive motion. A positive correlation was found between navigation adduction angle PC1 and gait adduction moment PC1 pre and post-TKA (p<0.001, r=0.79; p<0.01 r=0.67), and a negative correlation between navigation adduction angle PC1 and gait adduction angle PC1 post-TKA (p=0.03, r=-0.53). The patient-specific group showed significantly lower PC2 scores than the traditional TKA group (p=0.03), describing a lower flexion moment magnitude during early stance phase, possibly representing a functional limitation or non- confidence during gait. These results were an important first step to assess patient- specific approaches to TKA, suggesting possible applications for patient-specific intraoperative kinematics to aid in surgical decision-making and influence functional outcomes.
24	Development of a Surgical Assistance System for Guiding Transcatheter Aortic Valve Implantation KARAR, Mohamed Esmail Abdel Razek Hassan 03 February 2012 (has links) (PDF) Development of image-guided interventional systems is growing up rapidly in the recent years. These new systems become an essential part of the modern minimally invasive surgical procedures, especially for the cardiac surgery. Transcatheter aortic valve implantation (TAVI) is a recently developed surgical technique to treat severe aortic valve stenosis in elderly and high-risk patients. The placement of stented aortic valve prosthesis is crucial and typically performed under live 2D fluoroscopy guidance. To assist the placement of the prosthesis during the surgical procedure, a new fluoroscopy-based TAVI assistance system has been developed. The developed assistance system integrates a 3D geometrical aortic mesh model and anatomical valve landmarks with live 2D fluoroscopic images. The 3D aortic mesh model and landmarks are reconstructed from interventional angiographic and fluoroscopic C-arm CT system, and a target area of valve implantation is automatically estimated using these aortic mesh models. Based on template-based tracking approach, the overlay of visualized 3D aortic mesh model, landmarks and target area of implantation onto fluoroscopic images is updated by approximating the aortic root motion from a pigtail catheter motion without contrast agent. A rigid intensity-based registration method is also used to track continuously the aortic root motion in the presence of contrast agent. Moreover, the aortic valve prosthesis is tracked in fluoroscopic images to guide the surgeon to perform the appropriate placement of prosthesis into the estimated target area of implantation. An interactive graphical user interface for the surgeon is developed to initialize the system algorithms, control the visualization view of the guidance results, and correct manually overlay errors if needed. Retrospective experiments were carried out on several patient datasets from the clinical routine of the TAVI in a hybrid operating room. The maximum displacement errors were small for both the dynamic overlay of aortic mesh models and tracking the prosthesis, and within the clinically accepted ranges. High success rates of the developed assistance system were obtained for all tested patient datasets. The results show that the developed surgical assistance system provides a helpful tool for the surgeon by automatically defining the desired placement position of the prosthesis during the surgical procedure of the TAVI. / Die Entwicklung bildgeführter interventioneller Systeme wächst rasant in den letzten Jahren. Diese neuen Systeme werden zunehmend ein wesentlicher Bestandteil der technischen Ausstattung bei modernen minimal-invasiven chirurgischen Eingriffen. Diese Entwicklung gilt besonders für die Herzchirurgie. Transkatheter Aortenklappen-Implantation (TAKI) ist eine neue entwickelte Operationstechnik zur Behandlung der schweren Aortenklappen-Stenose bei alten und Hochrisiko-Patienten. Die Platzierung der Aortenklappenprothese ist entscheidend und wird in der Regel unter live-2D-fluoroskopischen Bildgebung durchgeführt. Zur Unterstützung der Platzierung der Prothese während des chirurgischen Eingriffs wurde in dieser Arbeit ein neues Fluoroskopie-basiertes TAKI Assistenzsystem entwickelt. Das entwickelte Assistenzsystem überlagert eine 3D-Geometrie des Aorten-Netzmodells und anatomischen Landmarken auf live-2D-fluoroskopische Bilder. Das 3D-Aorten-Netzmodell und die Landmarken werden auf Basis der interventionellen Angiographie und Fluoroskopie mittels eines C-Arm-CT-Systems rekonstruiert. Unter Verwendung dieser Aorten-Netzmodelle wird das Zielgebiet der Klappen-Implantation automatisch geschätzt. Mit Hilfe eines auf Template Matching basierenden Tracking-Ansatzes wird die Überlagerung des visualisierten 3D-Aorten-Netzmodells, der berechneten Landmarken und der Zielbereich der Implantation auf fluoroskopischen Bildern korrekt überlagert. Eine kompensation der Aortenwurzelbewegung erfolgt durch Bewegungsverfolgung eines Pigtail-Katheters in Bildsequenzen ohne Kontrastmittel. Eine starrere Intensitätsbasierte Registrierungsmethode wurde verwendet, um kontinuierlich die Aortenwurzelbewegung in Bildsequenzen mit Kontrastmittelgabe zu detektieren. Die Aortenklappenprothese wird in die fluoroskopischen Bilder eingeblendet und dient dem Chirurg als Leitfaden für die richtige Platzierung der realen Prothese. Eine interaktive Benutzerschnittstelle für den Chirurg wurde zur Initialisierung der Systemsalgorithmen, zur Steuerung der Visualisierung und für manuelle Korrektur eventueller Überlagerungsfehler entwickelt. Retrospektive Experimente wurden an mehreren Patienten-Datensätze aus der klinischen Routine der TAKI in einem Hybrid-OP durchgeführt. Hohe Erfolgsraten des entwickelten Assistenzsystems wurden für alle getesteten Patienten-Datensätze erzielt. Die Ergebnisse zeigen, dass das entwickelte chirurgische Assistenzsystem ein hilfreiches Werkzeug für den Chirurg bei der Platzierung Position der Prothese während des chirurgischen Eingriffs der TAKI bietet. Computer assistierte Chirurgie Medizinische Bildverarbeitung Transkatheter Aortenklappenimplantation Computer Assisted Surgery Medical image processing Transcatheter Aortic Valve Implantation ddc:000
25	Interfaces for Modular Surgical Planning and Assistance Systems / Schnittstellen für modulare chirurgische Planungs- und Assistenzsysteme Gessat, Michael 14 July 2010 (has links) (PDF) Modern surgery of the 21st century relies in many aspects on computers or, in a wider sense, digital data processing. Department administration, OR scheduling, billing, and - with increasing pervasion - patient data management are performed with the aid of so called Surgical Information Systems (SIS) or, more general, Hospital Information Systems (HIS). Computer Assisted Surgery (CAS) summarizes techniques which assist a surgeon in the preparation and conduction of surgical interventions. Today still predominantly based on radiology images, these techniques include the preoperative determination of an optimal surgical strategy and intraoperative systems which aim at increasing the accuracy of surgical manipulations. CAS is a relatively young field of computer science. One of the unsolved "teething troubles" of CAS is the absence of technical standards for the interconnectivity of CAS system. Current CAS systems are usually "islands of information" with no connection to other devices within the operating room or hospital-wide information systems. Several workshop reports and individual publications point out that this situation leads to ergonomic, logistic, and economic limitations in hospital work. Perioperative processes are prolonged by the manual installation and configuration of an increasing amount of technical devices. Intraoperatively, a large amount of the surgeons' attention is absorbed by the requirement to monitor and operate systems. The need for open infrastructures which enable the integration of CAS devices from different vendors in order to exchange information as well as commands among these devices through a network has been identified by numerous experts with backgrounds in medicine as well as engineering. This thesis contains two approaches to the integration of CAS systems: - For perioperative data exchange, the specification of new data structures as an amendment to the existing DICOM standard for radiology image management is presented. The extension of DICOM towards surgical application allows for the seamless integration of surgical planning and reporting systems into DICOM-based Picture Archiving and Communication Systems (PACS) as they are installed in most hospitals for the exchange and long-term archival of patient images and image-related patient data. - For the integration of intraoperatively used CAS devices, such as, e.g., navigation systems, video image sources, or biosensors, the concept of a surgical middleware is presented. A c++ class library, the TiCoLi, is presented which facilitates the configuration of ad-hoc networks among the modules of a distributed CAS system as well as the exchange of data streams, singular data objects, and commands between these modules. The TiCoLi is the first software library for a surgical field of application to implement all of these services. To demonstrate the suitability of the presented specifications and their implementation, two modular CAS applications are presented which utilize the proposed DICOM extensions for perioperative exchange of surgical planning data as well as the TiCoLi for establishing an intraoperative network of autonomous, yet not independent, CAS modules. / Die moderne Hochleistungschirurgie des 21. Jahrhunderts ist auf vielerlei Weise abhängig von Computern oder, im weiteren Sinne, der digitalen Datenverarbeitung. Administrative Abläufe, wie die Erstellung von Nutzungsplänen für die verfügbaren technischen, räumlichen und personellen Ressourcen, die Rechnungsstellung und - in zunehmendem Maße - die Verwaltung und Archivierung von Patientendaten werden mit Hilfe von digitalen Informationssystemen rationell und effizient durchgeführt. Innerhalb der Krankenhausinformationssysteme (KIS, oder englisch HIS) stehen für die speziellen Bedürfnisse der einzelnen Fachabteilungen oft spezifische Informationssysteme zur Verfügung. Chirurgieinformationssysteme (CIS, oder englisch SIS) decken hierbei vor allen Dingen die Bereiche Operationsplanung sowie Materialwirtschaft für spezifisch chirurgische Verbrauchsmaterialien ab. Während die genannten HIS und SIS vornehmlich der Optimierung administrativer Aufgaben dienen, stehen die Systeme der Computerassistierten Chirugie (CAS) wesentlich direkter im Dienste der eigentlichen chirugischen Behandlungsplanung und Therapie. Die CAS verwendet Methoden der Robotik, digitalen Bild- und Signalverarbeitung, künstlichen Intelligenz, numerischen Simulation, um nur einige zu nennen, zur patientenspezifischen Behandlungsplanung und zur intraoperativen Unterstützung des OP-Teams, allen voran des Chirurgen. Vor allen Dingen Fortschritte in der räumlichen Verfolgung von Werkzeugen und Patienten ("Tracking"), die Verfügbarkeit dreidimensionaler radiologischer Aufnahmen (CT, MRT, ...) und der Einsatz verschiedener Robotersysteme haben in den vergangenen Jahrzehnten den Einzug des Computers in den Operationssaal - medienwirksam - ermöglicht. Weniger prominent, jedoch keinesfalls von untergeordnetem praktischen Nutzen, sind Beispiele zur automatisierten Überwachung klinischer Messwerte, wie etwa Blutdruck oder Sauerstoffsättigung. Im Gegensatz zu den meist hochgradig verteilten und gut miteinander verwobenen Informationssystemen für die Krankenhausadministration und Patientendatenverwaltung, sind die Systeme der CAS heutzutage meist wenig oder überhaupt nicht miteinander und mit Hintergrundsdatenspeichern vernetzt. Eine Reihe wissenschaftlicher Publikationen und interdisziplinärer Workshops hat sich in den vergangen ein bis zwei Jahrzehnten mit den Problemen des Alltagseinsatzes von CAS Systemen befasst. Mit steigender Intensität wurde hierbei auf den Mangel an infrastrukturiellen Grundlagen für die Vernetzung intraoperativ eingesetzter CAS Systeme miteinander und mit den perioperativ eingesetzten Planungs-, Dokumentations- und Archivierungssystemen hingewiesen. Die sich daraus ergebenden negativen Einflüsse auf die Effizienz perioperativer Abläufe - jedes Gerät muss manuell in Betrieb genommen und mit den spezifischen Daten des nächsten Patienten gefüttert werden - sowie die zunehmende Aufmerksamkeit, welche der Operateur und sein Team auf die Überwachung und dem Betrieb der einzelnen Geräte verwenden muss, werden als eine der "Kinderkrankheiten" dieser relativ jungen Technologie betrachtet und stehen einer Verbreitung über die Grenzen einer engagierten technophilen Nutzergruppe hinaus im Wege. Die vorliegende Arbeit zeigt zwei parallel von einander (jedoch, im Sinne der Schnittstellenkompatibilität, nicht gänzlich unabhängig voneinander) zu betreibende Ansätze zur Integration von CAS Systemen. - Für den perioperativen Datenaustausch wird die Spezifikation zusätzlicher Datenstrukturen zum Transfer chirurgischer Planungsdaten im Rahmen des in radiologischen Bildverarbeitungssystemen weit verbreiteten DICOM Standards vorgeschlagen und an zwei Beispielen vorgeführt. Die Erweiterung des DICOM Standards für den perioperativen Einsatz ermöglicht hierbei die nahtlose Integration chirurgischer Planungssysteme in existierende "Picture Archiving and Communication Systems" (PACS), welche in den meisten Fällen auf dem DICOM Standard basieren oder zumindest damit kompatibel sind. Dadurch ist einerseits der Tatsache Rechnung getragen, dass die patientenspezifische OP-Planung in hohem Masse auf radiologischen Bildern basiert und andererseits sicher gestellt, dass die Planungsergebnisse entsprechend der geltenden Bestimmungen langfristig archiviert und gegen unbefugten Zugriff geschützt sind - PACS Server liefern hier bereits wohlerprobte Lösungen. - Für die integration intraoperativer CAS Systeme, wie etwa Navigationssysteme, Videobildquellen oder Sensoren zur Überwachung der Vitalparameter, wird das Konzept einer "chirurgischen Middleware" vorgestellt. Unter dem Namen TiCoLi wurde eine c++ Klassenbibliothek entwickelt, auf deren Grundlage die Konfiguration von ad-hoc Netzwerken während der OP-Vorbereitung mittels plug-and-play Mechanismen erleichtert wird. Nach erfolgter Konfiguration ermöglicht die TiCoLi den Austausch kontinuierlicher Datenströme sowie einzelner Datenpakete und Kommandos zwischen den Modulen einer verteilten CAS Anwendung durch ein Ethernet-basiertes Netzwerk. Die TiCoLi ist die erste frei verfügbare Klassenbibliothek welche diese Funktionalitäten dediziert für einen Einsatz im chirurgischen Umfeld vereinigt. Zum Nachweis der Tauglichkeit der gezeigten Spezifikationen und deren Implementierungen, werden zwei modulare CAS Anwendungen präsentiert, welche die vorgeschlagenen DICOM Erweiterungen zum perioperativen Austausch von Planungsergebnissen sowie die TiCoLi zum intraoperativen Datenaustausch von Messdaten unter echzeitnahen Anforderungen verwenden. Computerassistierte Chirurgie Systemintegration TIMMS PACS DICOM HIS CIS Computer assisted surgery system integration TIMMS PACS DICOM HIS CIS ddc:000
26	Desvios lineares e angulares de implantes com guias prototipadas fixadas em modelos experimentais / Linear and angular deviations of implants placed with fixed stereolithographic drill guides in experimental models Marcelo Michele Novellino 11 August 2011 (has links) Considerando as dificuldades que ocorrem com a localização e o posicionamento de implantes e, ainda, o risco de deslocamento das guias, tomográfica e cirúrgica, durante os procedimentos de diagnóstico e cirúrgico, foi objetivo desta pesquisa avaliar, se a alternativa de introduzir dispositivos para retenção e suporte, nas guias da técnica de cirurgia guiada convencional, interfere na posição e inclinação de implantes no momento da sua colocação. Foram confeccionados 10 modelos simulando tecido ósseo, divididos aleatoriamente em 2 grupos: 5 com a guia tomográfica e cirúrgica da técnica convencional, denominado grupo controle (M); 5 com as guias fixadas a ortoimplantes modificados associados ao sistema de encaixe o ring, representando o grupo experimental (MI). A avaliação dos resultados foi pela sobreposição dos planejamentos virtuais (Implant Viewer), derivados de tomografias computadorizadas pré-cirúrgicas, com as realizadas após a colocação dos implantes. Os resultados obtidos mostraram que não houve diferenças estatisticamente significantes para os desvios angulares (Teste Tukey F= 1,06 e p= 0, 3124) e lineares (Teste ANOVA F = 2,54 e p = 0,11). No entanto, os valores angulares individuais do grupo experimental (MI), mostraram ser mais próximos entre si, com menor variabilidade, quando comparados ao grupo controle. Concluiuse, que o uso de ortoimplantes associados ao sistema de encaixe o ring, pode trazer benefícios à técnica da cirurgia guiada convencional, reduzindo as alterações de posicionamento dos implantes no momento da sua colocação. / Computer guided surgery is an excellent alternative to the proper insertion of implants in patients with an edentulous arch or a partially edentulous area and with appropriate quantity of bone. Considering the difficulties that occur with implants placement and the risk of displacement of radiographic and surgical template during the diagnostic and surgical procedures, the aim of this research was to assess if an alternative devices for retention of radiographic and surgical templates can bring benefits for a more accurate implant placement. Ten models made by a material that simulates bone tissue were randomly divided into 2 groups: 5 with the conventional radiographic and surgical guide, which was called control group (M); 5 with modified orthodontic implants that fixed the radiographic and the surgical templates, representing the experimental group (MI). The evaluation of the results was by matching virtual plans (Implant Viewer), derived from pre-operative cone-beam CT images, with post-operative ones to calculate the deviation between planned and installed implants. The results showed that there was no statistically significant differences for angular (Tukey F = 1.06 and p = 0, 3124) and linear deviations (test ANOVA F = 2.54 and p = 0.11). However, the individual angular values of experimental group (MI) showed to be closer to each other, with lower variability when compared to control group. It was concluded that the use of modified orthodontic implant with o ring attachment can bring benefits to conventional guided surgery technique, reducing changes in ideal implant position. Cirurgia assistida por computador Cirurgia guiada por imagem Implantes dentários Computer-assisted surgery Dental implants Image guided surgery
27	Real-time mandibular angle reduction surgical simulator with haptic rendering. / 基于触觉绘制的实时下颌角缩小手术模拟系统 / CUHK electronic theses & dissertations collection / Ji yu chu jue hui zhi de shi shi xia han jiao suo xiao shou shu mo ni xi tong January 2012 (has links) 下颌角缩小术是一种非常流行、有效、并广泛用于修饰脸部轮廓的手术方式。手术中所用到的主要工具有往复锯和圆头磨钻，这两种手术工具工作时有一个共同的特点：通过其高速运转去除骨质。缺乏经验的医生通常需要较长周期的训练，来学习和熟悉如何操作这两种手术工具，并在操作过程中避免由于无法控制好工具与骨骼的触碰以及工具运转时的在骨骼上的移动所造成的危险。具有视觉和触觉反馈的虚拟手术模拟系统为医生们练习手术技巧提供了一种可行并且安全的方式。然而，创建高速运转的手术工具与坚硬的骨骼之间的真实触觉交互模型是一个非常有挑战性的任务。 / 这篇论文设计并实现了虚拟下颌角缩小手术模拟系统，并且创建高保真度的视觉和触觉反馈来增强虚拟手术环境的真实性。文章提出了基于冲量理论的力反馈模型用来模拟作用在工具上的碰撞力和力矩。在不同的往复速率或者旋转速度的情况下，所提出的模型都可以为医生提供可信真实的力感反馈。并且针对磨钻在磨骨是震动明显对磨骨操作有较大影响的特点，论文还提出了一个三维震动模型来模拟磨骨时作用在钻轴上的橫向震动和轴向震动。同时，论文还提出了用于模拟手术中骨质去除以及重建的实时绘制方法。为了验证力模型的真实性，我们还创建了机械平台，采集磨骨和截骨过程中产生的真实力数据，从而用来与虚拟手术中产生的力数据进行比较。最后，还引入真实病人的CT扫描数据来对虚拟手术系统进行实证研究，评估创建的系统是否可以用于训练具有不同手术经验的医生。实证研究的结果也验证了所提出的虚拟手术系统的有效性。 / Mandibular angle reduction is a popular and efficient procedure widely used to alter the facial contour. The primary surgical instruments, the reciprocating saw and the round burr, employed in the surgery have a common feature: operating at a high-speed. Generally, inexperienced surgeons need a longtime practice to learn how to minimize the risks caused by the uncontrolled contacts and cutting motions in manipulation of instruments with high-speed reciprocation or rotation. Virtual reality (VR)-based surgical simulations with both visual and haptic feedbacks provide novice surgeons with a feasible and safe way to practise their surgical skill. However, creating realistic haptic interactions between a high-speed rotary or reciprocating instrument and stiff bone is a challenging task. In this work, a virtual reality-based surgical simulator for the mandibular angle reduction was designed and implemented. High-fidelity visual and haptic feedbacks are provided to enhance the perception in a realistic virtual surgical environment. The impulse-based haptic model was proposed to simulate the contact forces and torques on the instruments. It provides convincing haptic sensation for surgeons to control the instruments under different reciprocation or rotation velocities. Also, in order to mimic the lateral and axial burring vibration forces, a three dimensional vibration model has been developed. The real-time methods for bone removal and reconstruction during surgical procedures have been proposed to support realistic visual feedbacks. The simulated contact forces were verified by comparing against the actual force data measured through the constructed mechanical platform. An empirical study based on the patient-specific data was conducted to evaluate the ability of the proposed system in training surgeons with various experiences. The results confirm the validity of our simulator. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Wang, Qiong. / Thesis (Ph.D.)--Chinese University of Hong Kong, 2012. / Includes bibliographical references (leaves 100-114). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese. / Abstract --- p.i / Acknowledgement --- p.v / Chapter 1 --- Introduction --- p.1 / Chapter 1.1 --- Contributions of the Thesis --- p.5 / Chapter 1.2 --- Thesis Roadmap --- p.7 / Chapter 2 --- Related Work --- p.9 / Chapter 2.1 --- Virtual Orthopaedic Surgical Simulator --- p.9 / Chapter 2.2 --- Haptic Rendering for Virtual Surgery --- p.11 / Chapter 2.3 --- Evaluation of the Virtual System --- p.14 / Chapter 3 --- System Design --- p.17 / Chapter 3.1 --- Overall System Framework --- p.17 / Chapter 4 --- Bone-burring Surgical Simulation --- p.21 / Chapter 4.1 --- Impulse-Based Modeling of Haptic Simulation of Bone-Burring --- p.22 / Chapter 4.1.1 --- Basic Assumptions --- p.22 / Chapter 4.1.2 --- Bone-Burring Contact Description --- p.25 / Chapter 4.1.3 --- Burring Force Modeling --- p.29 / Chapter 4.2 --- Simulation of Bone Removal --- p.41 / Chapter 4.2.1 --- Bone Removal model --- p.41 / Chapter 4.2.2 --- Adaptive Subdividing Removal Surface --- p.42 / Chapter 4.3 --- Implementation and Experimental Results --- p.52 / Chapter 4.3.1 --- Force Evaluation --- p.53 / Chapter 4.3.2 --- Task-based Evaluation --- p.57 / Chapter 4.3.3 --- Time Performance --- p.61 / Chapter 5 --- Bone-sawing Surgical Simulation --- p.64 / Chapter 5.1 --- Impulse-Based Modeling of Haptic Simulation of Bone-Sawing --- p.65 / Chapter 5.1.1 --- Haptic Saw Instruments Description --- p.65 / Chapter 5.1.2 --- Sawing Force Modeling --- p.67 / Chapter 5.1.3 --- Sawing Torque Constraint --- p.70 / Chapter 5.2 --- Real-time Bone Mesh Reconstruction --- p.74 / Chapter 6 --- Evaluation --- p.78 / Chapter 6.1 --- Haptic Feedback Evaluation --- p.79 / Chapter 6.1.1 --- Mechanical Platform Setup --- p.79 / Chapter 6.1.2 --- Comparison of The Measured and Simulated forces --- p.81 / Chapter 6.2 --- Empirical Study --- p.85 / Chapter 6.2.1 --- Patient Specific Data --- p.87 / Chapter 6.2.2 --- Objective Performance Metrics --- p.89 / Chapter 6.2.3 --- Evaluation Results --- p.90 / Chapter 7 --- Conclusion --- p.94 / Publication List --- p.98 / Bibliography --- p.100 Computer-assisted surgery Virtual reality in medicine Haptic devices Mandible--Surgery Surgery, Computer-Assisted--methods Computer Simulation Touch Perception Mandibular Fractures--surgery
28	Conception d'un système d'aide à la chirurgie sur base de la modélisation d'opérations, d'un recalage temporel des données et d'un recalage sémantique de métadonnées Malarme, Pierre 10 October 2011 (has links) Le but principal de cette thèse de doctorat est de concevoir un système de chirurgie assistée par la connaissance. Cette connaissance est extraite de l'information issue des données et du contexte capturés en salle d'opération. Ce contexte est défini à l'aide d'un modèle de processus opératoire (surgical workflow - SWf). L'assistance porte sur la capture des modèles, l'automatisation de tâches ou encore la gestion des erreurs et des imprévus.<p><p>The main goal of this PhD thesis is to design a computer assisted surgery system based on surgical workflow (SWf) modeling, and intra-operative data and metadata acquired during the operation. For the SWf modeling, workflow-mining techniques will be developed based on dynamic learning and incremental inference. An ontology will be used to describe the various steps of the surgery and their attributes. / Doctorat en Sciences de l'ingénieur / info:eu-repo/semantics/nonPublished Informatique générale Sciences de l'ingénieur Surgery -- Data processing Computer-assisted surgery Chirurgie -- Informatique Chirurgie assistée par ordinateur informatique chirurgicale chirurgie assistée par la connaissance Surgical workflow
29	Modélisation d'un système de navigation chirurgicale pour le traitement par radio-fréquences des tumeurs du foie / Development of a Computer Assisted System aimed at RFA Liver Surgery Mundeleer, Laurent L 24 September 2009 (has links) Radiofrequency ablation (RFA) is a minimally invasive treatment for either hepatocellular carcinoma or metastasis liver carcinoma. In order to resect large lesions, the surgeon has to perform multiple time-consuming destruction cycles and reposition the RFA needle for each of them. The critical step in handling a successful ablation and preventing local recurrence is the correct positioning of the needle. For small tumors, the surgeon places the middle of the active needle tip in the center of the tumor under intra-operative ultrasound guidance. When one application is not enough to cover the entire tumor, the surgeon needs to repeat the treatment after repositioning of the needle, but US guidance is obstructed by the opacity stemming from the first RFA application. In this case the surgeon can only rely on anatomical knowledge and the repositioning of the RFA needle becomes a subjective task limiting the treatment accuracy. We have developed a computer assisted surgery guidance application for this repositioning procedure. Our software application handles the complete process from preoperative image analysis to tool tracking in the operating room. Our framework is mostly used for this RFA procedure, but is also suitable for any other medical or surgery application. registration surgical tool tracking recalage Computer Assisted Surgery segmentation radio-fréquences Liver tumors chirurgie mini-invasive tumeurs du foie chirurgie assistée par ordinateur RFA radio frequency ablation
30	Design And Development of Mobile Image Overlay System For Image-Guided Interventions ANAND, Manjunath 26 June 2014 (has links) Numerous studies have demonstrated the potential efficacy of percutaneous image-guided interventions over open surgical interventions. The conventional image-guided procedures are limited by the freehand technique, requiring mental 3D registration and hand-eye coordination for needle placement. The outcomes of these procedures are associated with longer duration and increased patient discomfort with high radiation exposure. Previously, a static image overlay system was proposed for aiding needle interventions. Certain drawbacks associated with the static system limited the clinical translation. To overcome the ergonomic issues and longer calibration duration associated with static system, an adjustable image overlay system was proposed. The system consisted of monitor and semi-transparent mirror, attached together to an articulated mobile arm. The 90-degree mirror-monitor configuration was proposed to improve the physician access around the patient. MicronTracker was integrated for dynamic tracking of the patient and device. A novel method for auto-direct calibration of the virtual image overlay plane was proposed. Due to large mechanical structure, the precise movement was limited and consumed useful space in the procedure room. A mobile image overlay system with reduced system weight and smaller dimensions was proposed to eliminate the need for mechanical structure. A tablet computer and beamsplitter were used as the display device and mirror respectively. An image overlay visualization module of the 3D Slicer was developed to project the correct image slice upon the tablet device. The system weight was reduced to 1 kg and the image overlay plane tracking precision (0.11mm STD=0.05) was similar to the printed physical markers. The auto-calibration of the image overlay plane can be done in two simple steps, away from the patient table and without additional phantom. Based on the successful pre-clinical testing of the previous static system, the mobile image overlay system with reduced weight, increased tracking precision and easier maneuverability, can be possibly hand-held by the physician to explore the image volume over the patient and be used for a wide range of procedures. The mobile image overlay system shall be classified as Class II device as per FDA regulations, do not require extensive verification and validation efforts and further improves the commercialization opportunities. / Thesis (Master, Mechanical and Materials Engineering) -- Queen's University, 2014-06-26 18:51:03.958 percutaneous surgery mobile image overlay system computer assisted surgery minimally invasive surgery X-ray vision Image-guided needle interventions biopsies Image overlay

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