@misc{EhlkeHeylandMaerdianetal.2015, author = {Ehlke, Moritz and Heyland, Mark and M{\"a}rdian, Sven and Duda, Georg and Zachow, Stefan}, title = {Assessing the Relative Positioning of an Osteosynthesis Plate to the Patient-Specific Femoral Shape from Plain 2D Radiographs}, issn = {1438-0064}, url = {http://nbn-resolving.de/urn:nbn:de:0297-zib-54268}, year = {2015}, abstract = {We present a novel method to derive the surface distance of an osteosynthesis plate w.r.t. the patient­specific surface of the distal femur based on 2D X­ray images. Our goal is to study from clinical data, how the plate­to­bone distance affects bone healing. The patient­specific 3D shape of the femur is, however, seldom recorded for cases of femoral osteosynthesis since this typically requires Computed Tomography (CT), which comes at high cost and radiation dose. Our method instead utilizes two postoperative X­ray images to derive the femoral shape and thus can be applied on radiographs that are taken in clinical routine for follow­up. First, the implant geometry is used as a calibration object to relate the implant and the individual X­ray images spatially in a virtual X­ray setup. In a second step, the patient­specific femoral shape and pose are reconstructed in the virtual setup by fitting a deformable statistical shape and intensity model (SSIM) to the images. The relative positioning between femur and implant is then assessed in terms of displacement between the reconstructed 3D shape of the femur and the plate. A preliminary evaluation based on 4 cadaver datasets shows that the method derives the plate­to­bone distance with a mean absolute error of less than 1mm and a maximum error of 4.7 mm compared to ground truth from CT. We believe that the approach presented in this paper constitutes a meaningful tool to elucidate the effect of implant positioning on fracture healing.}, language = {en} } @phdthesis{Zoeckler2006, author = {Z{\"o}ckler, Maja}, title = {Modellgebundene Cranioplastie - Operationstechnik zur Umformung fr{\"u}hkindlicher Sch{\"a}deldeformit{\"a}ten unter Verwendung dreidimensionaler Standardformmodelle aus MRT-basierten Rekonstruktionen nicht deformierter Kinder}, year = {2006}, language = {de} } @misc{vonHafePerezFerreiradaSilva2014, type = {Master Thesis}, author = {von Hafe P{\´e}rez Ferreira da Silva, Maria Isabel}, title = {Computational Left-Ventricle Reconstruction from MRI Data for Patient-specific Cardiac Simulations}, pages = {105}, year = {2014}, language = {en} } @phdthesis{Kubiack2013, author = {Kubiack, Kim}, title = {Erstellung eines statistischen Formmodells des Mittelgesichts zur Planung individueller Templates f{\"u}r die navigationsgest{\"u}tzte Rekonstruktion des Mittelgesichtssch{\"a}dels}, year = {2013}, language = {de} } @phdthesis{Hildebrandt2011, author = {Hildebrandt, Thomas}, title = {Das Konzept der Rhinorespiratorischen Hom{\"o}ostase - ein neuer theoretischer Ansatz f{\"u}r die Diskussion physiologischer und physikalischer Zusammenh{\"a}nge bei der Nasenatmung}, year = {2011}, language = {de} } @article{TodtLameckerRammetal.2014, author = {Todt, Ingo and Lamecker, Hans and Ramm, Heiko and Frenzel, Henning and Wollenberg, Barbara and Beleites, Thomas and Zahnert, Thomas and Thomas, Jan Peter and Dazert, Stefan and Ernst, Arneborg}, title = {Entwicklung eines CT-Daten-basierten Vibrant-Bonebridge-Viewers}, volume = {62}, journal = {HNO}, publisher = {Springer}, doi = {10.1007/s00106-014-2851-3}, pages = {439 -- 442}, year = {2014}, abstract = {Die Positionierung des B-FMT der Vibrant Bonebridge kann aufgrund der anatomischen Verh{\"a}ltnisse des Mastoids und der Gr{\"o}ße des Aktuators ohne eine vorherige Beurteilung der individuellen Computertomographie (CT) des Felsenbeins problematisch sein. Die Entwicklung eines einfach zu bedienenden Viewers, welcher eine Positionierung des B-FMT im Felsenbeinmodell erm{\"o}glicht und hier auf individuelle potenzielle anatomische Konflikte hinweist sowie L{\"o}sungsm{\"o}glichkeiten anbietet, kann ein hilfreiches Werkzeug zur pr{\"a}operativen Positionierung sein. Ziel der Arbeit war die Definition von Anforderungen und die Anfertigung eines Prototyps eines Vibrant-Bonebridge-Viewers. Auf der Basis einer ZIBAmira-Software-Version und der Inklusion eines B-FMT-Modells unter Erstellung eines Felsenbeinmodells, welches die intuitive Beurteilung von Konflikten erm{\"o}glicht, erfolgte die Erstellung des Prototyps eines Vibrant-Bonebridge-Viewers.Ergebnisse. Die Segmentierungszeit der individuellen DICOM-Daten („digital imaging and communications in medicine") betr{\"a}gt etwa 5 min. Eine Positionierung im individuellen 3-D-Felsenbeinmodell erm{\"o}glicht die quantitative und qualitative Beurteilung von Konflikten (Sinus sigmoideus, mittlere Sch{\"a}delgrube) und das Aufsuchen einer bevorzugten Position. Das Anheben des B-FMT mittels virtueller Unterlegscheiben kann simuliert werden. Der erstellte Vibrant-Bonebridge-Viewer erm{\"o}glicht verl{\"a}sslich eine Simulation der B-FMT-Positionierung. Die klinische Anwendbarkeit muss evaluiert werden.}, language = {de} } @article{CampoliBakaKapteinetal.2014, author = {Campoli, Gianni and Baka, Nora and Kaptein, Bart and Valstar, Edward and Zachow, Stefan and Weinans, Harrie and Zadpoor, Amir Abbas}, title = {Relationship between the shape and density distribution of the femur and its natural frequencies of vibration}, volume = {47}, journal = {Journal of Biomechanics}, publisher = {Elsevier}, doi = {10.1016/j.jbiomech.2014.08.008}, pages = {3334 -- 3343}, year = {2014}, abstract = {It has been recently suggested that mechanical loads applied at frequencies close to the natural frequencies of bone could enhance bone apposition due to the resonance phenomenon. Other applications of bone modal analysis are also suggested. For the above-mentioned applications, it is important to understand how patient-specific bone shape and density distribution influence the natural frequencies of bones. We used finite element models to study the effects of bone shape and density distribution on the natural frequencies of the femur in free boundary conditions. A statistical shape and appearance model that describes shape and density distribution independently was created, based on a training set of 27 femora. The natural frequencies were then calculated for different shape modes varied around the mean shape while keeping the mean density distribution, for different appearance modes around the mean density distribution while keeping the mean bone shape, and for the 27 training femora. Single shape or appearance modes could cause up to 15\% variations in the natural frequencies with certain modes having the greatest impact. For the actual femora, shape and density distribution changed the natural frequencies by up to 38\%. First appearance mode that describes the general cortical bone thickness and trabecular bone density had one of the strongest impacts. The first appearance mode could therefore provide a sensitive measure of general bone health and disease progression. Since shape and density could cause large variations in the calculated natural frequencies, patient-specific FE models are needed for accurate estimation of bone natural frequencies.}, language = {en} } @article{TodtLameckerRammetal.2014, author = {Todt, Ingo and Lamecker, Hans and Ramm, Heiko and Ernst, Arneborg}, title = {A computed tomographic data-based vibrant bonebridge visualization tool}, volume = {15}, journal = {Cochlear Implants International}, number = {S1}, doi = {10.1179/1467010014Z.000000000155}, pages = {72 -- 74}, year = {2014}, abstract = {Information about the temporal bone size and variations of anatomical structures are crucial for a safe positioning of the Vibrant Bonebridge B-FMT. A radiological based preoperative planning of the surgical procedure decreases the surgical time and minimizes the risk of complications. We developed a software tool, which allows a catch up of foreign DICOM data based CT temporal bone scans. The individual CT scan is transmitted into a 3D reconstructed pattern of the temporal bone. In this 3D reconstruction the individually favored position of the B- FMT should be found. The software allows a determination of a safe B-FMT position by identifying the individual relation of middle fossa, jugular bulb and external auditory canal. Skull thickness and screw length are contained parameters for the surgical planning. An easy to handle software tool allows a radiologically data based safe and fast surgical positioning of the B-FMT.}, language = {en} } @article{LemanisZachowFusseisetal.2015, author = {Lemanis, Robert and Zachow, Stefan and Fusseis, Florian and Hoffmann, Ren{\´e}}, title = {A new approach using high-resolution computed tomography to test the buoyant properties of chambered cephalopod shells}, volume = {41}, journal = {Paleobiology}, number = {2}, publisher = {Cambridge University Press}, address = {Cambridge}, doi = {10.1017/pab.2014.17}, pages = {313 -- 329}, year = {2015}, abstract = {The chambered shell of modern cephalopods functions as a buoyancy apparatus, allowing the animal to enter the water column without expending a large amount of energy to overcome its own weight. Indeed, the chambered shell is largely considered a key adaptation that allowed the earliest cephalopods to leave the ocean floor and enter the water column. It has been argued by some, however, that the iconic chambered shell of Paleozoic and Mesozoic ammonoids did not provide a sufficiently buoyant force to compensate for the weight of the entire animal, thus restricting ammonoids to a largely benthic lifestyle reminiscent of some octopods. Here we develop a technique using high-resolution computed tomography to quantify the buoyant properties of chambered shells without reducing the shell to ideal spirals or eliminating inherent biological variability by using mathematical models that characterize past work in this area. This technique has been tested on Nautilus pompilius and is now extended to the extant deep-sea squid Spirula spirula and the Jurassic ammonite Cadoceras sp. hatchling. Cadoceras is found to have possessed near-neutral to positive buoyancy if hatched when the shell possessed between three and five chambers. However, we show that the animal could also overcome degrees of negative buoyancy through swimming, similar to the paralarvae of modern squids. These calculations challenge past inferences of benthic life habits based solely on calculations of negative buoyancy. The calculated buoyancy of Cadoceras supports the possibility of planktonic dispersal of ammonite hatchlings. This information is essential to understanding ammonoid ecology as well as biotic interactions and has implications for the interpretation of geochemical data gained from the isotopic analysis of the shell.}, language = {en} } @inproceedings{EhlkeFrenzelRammetal.2015, author = {Ehlke, Moritz and Frenzel, Thomas and Ramm, Heiko and Shandiz, Mohsen Akbari and Anglin, Carolyn and Zachow, Stefan}, title = {Towards Robust Measurement Of Pelvic Parameters From AP Radiographs Using Articulated 3D Models}, booktitle = {Computer Assisted Radiology and Surgery (CARS)}, year = {2015}, abstract = {Patient-specific parameters such as the orientation of the acetabulum or pelvic tilt are useful for custom planning for total hip arthroplasty (THA) and for evaluating the outcome of surgical interventions. The gold standard in obtaining pelvic parameters is from three-dimensional (3D) computed tomography (CT) imaging. However, this adds time and cost, exposes the patient to a substantial radiation dose, and does not allow for imaging under load (e.g. while the patient is standing). If pelvic parameters could be reliably derived from the standard anteroposterior (AP) radiograph, preoperative planning would be more widespread, and research analyses could be applied to retrospective data, after a postoperative issue is discovered. The goal of this work is to enable robust measurement of two surgical parameters of interest: the tilt of the anterior pelvic plane (APP) and the orientation of the natural acetabulum. We present a computer-aided reconstruction method to determine the APP and natural acetabular orientation from a single, preoperative X-ray. It can easily be extended to obtain other important preoperative and postoperative parameters solely based on a single AP radiograph.}, language = {en} }