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2. Grundlagen

Author

Dunky, A., Geringer, E.-M., Erlacher, L., Azizi-Semrad, U., Pietschmann, P., Pretterklieber, M. L., Frank, A., Firbas, W., Zlabinger, G. J., Scheinecker, C., Sturm, E. M., Beubler, E., Heinemann, A., Duftner, Ch., Dejaco, Ch., Schennach, H., Schirmer, M., Wagner, E., Siegmeth, W., Graninger, M., Fazekas, Ch., Peichl, P., Wenzl, R., Leodolter, S., Huber, J., Feyertag, J., Dunky, Attila, editor, Graninger, Winfried, editor, Herold, Manfred, editor, Smolen, Josef, editor, and Wanivenhaus, Axel, editor

Published
2012
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11. Entwicklung eines Qualifikationsprofils zu Diversity und Gender der AbsolventInnen der MedUni Wien am Beispiel Humanmedizin

Author

Schuh, BT, Dorner, TE, Kautzky-Willer, A, Kremser, K, Löffler-Stastka, H, Pretterklieber, M, Salzer-Muhar, U, Steinböck, S, and Rumpfhuber, K

Subjects
ddc: 610, 610 Medical sciences, Medicine
Abstract

Einleitung: Österreichweit existiert derzeit kein Lernzielkatalog zum Themenbereich Gender- und Diversity für Curricula der Humanmedizin. Um systematisch Gender- und Diversityaspekte in das Medizincurriculum zu integrieren, soll ein Qualifikationsprofil zu Diversity und Gender der AbsolventInnen[zum vollständigen Text gelangen Sie über die oben angegebene URL], Gemeinsame Jahrestagung der Gesellschaft für Medizinische Ausbildung (GMA), des Arbeitskreises zur Weiterentwicklung der Lehre in der Zahnmedizin (AKWLZ) und der Chirurgischen Arbeitsgemeinschaft Lehre (CAL)

Published
2019
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19. Experimental validation of a nonlinear μFE model based on cohesive-frictional plasticity for trabecular bone.

Author

Schwiedrzik, J., Gross, T., Bina, M., Pretterklieber, M., Zysset, P., and Pahr, D.

Subjects
MATERIAL plasticity, POROSITY, FLUID dynamic measurements, CANCELLOUS bone, COHESIVE strength (Mechanics), BONE fractures
Abstract

Trabecular bone is a porous mineralized tissue playing a major load bearing role in the human body. Prediction of age-related and disease-related fractures and the behavior of bone implant systems needs a thorough understanding of its structure-mechanical property relationships, which can be obtained using microcomputed tomography-based finite element modeling. In this study, a nonlinear model for trabecular bone as a cohesive-frictional material was implemented in a large-scale computational framework and validated by comparison of μFE simulations with experimental tests in uniaxial tension and compression. A good correspondence of stiffness and yield points between simulations and experiments was found for a wide range of bone volume fraction and degree of anisotropy in both tension and compression using a non-calibrated, average set of material parameters. These results demonstrate the ability of the model to capture the effects leading to failure of bone for three anatomical sites and several donors, which may be used to determine the apparent behavior of trabecular bone and its evolution with age, disease, and treatment in the future. Copyright © 2015 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published
2016
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22. Peritoneum und Mesenterium

Author

Ba-Ssalamah, A., primary, Bastati, N., additional, Uffmann, M., additional, Pretterklieber, M., additional, and Schima, W., additional

Published
2009
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26. First Tarsometatarsal Joint: Anatomical Biomechanical Study

Author

Wanivenhaus, A. and Pretterklieber, M.

Abstract

We studied the function of the first tarsometatarsal joint in 100 specimens of 53 cadavers. The study showed that an adduction and abduction movement described earlier was present only in approximately 10% of the specimens. Moreover, eversion of an average of 6.2° often only occurs as a result of dorsal displacement of the joint surfaces of the first metatarsal in relation to the first cuneiform by an average of 2.6 mm. All other movements in the frontal, horizontal, and sagittal plane can be disregarded or are the result of this movement. New conclusions may be drawn from these results, especially with regard to subcapital osteotomies of the first metatarsal and the adductor transfer according to McBride in metatarsus primus varus. These findings challenge the value of the McBride transfer.

Published
1989
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30. Bone collagen tensile properties of the aging human proximal femur.

Author

Bracher S, Voumard B, Simon M, Kochetkova T, Pretterklieber M, and Zysset P

Abstract

Despite the dominant role of bone mass in osteoporotic fractures, aging bone tissue properties must be thoroughly understood to improve osteoporosis management. In this context, collagen content and integrity are considered important factors, although limited research has been conducted on the tensile behavior of demineralized compact bone in relation to its porosity and elastic properties in the native mineralized state. Therefore, this study aims (i) at examining the age-dependency of mineralized bone and collagen micromechanical properties; (ii) to test whether, and if so to which extent, collagen properties contribute to mineralized bone mechanical properties. Two cylindrical cortical bone samples from fresh frozen human anatomic donor material were extracted from 80 proximal diaphyseal sections from a cohort of 24 female and 19 male donors (57 to 96 years at death). One sample per section was tested in uniaxial tension under hydrated conditions. First, the native sample was tested elastically (0.25 % strain), and after demineralization, up to failure. Morphology and composition of the second specimen was assessed using micro-computed tomography, Raman spectroscopy, and gravimetric methods. Simple and multiple linear regression were employed to relate morphological, compositional, and mechanical variables with age and sex. Macro-tensile properties revealed that only elastic modulus of native samples was age dependent whereas apparent elastic modulus was sex dependent ( p  < 0.01). Compositional and morphological analysis detected a weak but significant age and sex dependency of relative mineral weight ( r  = -0.24, p  < 0.05) and collagen disorder ratio (I ∼1670 /I ∼1640 , r  = 0.25, p < 0.05) and a strong sex dependency of bone volume fraction while generally showing consistent results in mineral content assessment. Young's modulus of demineralized bone was significantly related to tissue mineral density and Young's modulus of native bone. The results indicate that mechanical properties of the organic phase, that include collagen and non-collagenous proteins, are independent of donor age. The observed reduction in relative mineral weight and corresponding overall stiffer response of the collagen network may be caused by a reduced number of mineral-collagen connections and a lack of extrafibrillar and intrafibrillar mineralization that induces a loss of waviness and a collagen fiber pre-stretch., Competing Interests: None., (© 2024 The Authors.)

Published
2024
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31. Homogenized finite element analysis of distal tibia sections: Achievements and limitations.

Author

Simon M, Indermaur M, Schenk D, Voumard B, Zderic I, Mischler D, Pretterklieber M, and Zysset P

Abstract

High-resolution peripheral quantitative computed tomography (HR-pQCT) based micro-finite element (μFE) analysis allows accurate prediction of stiffness and ultimate load of standardised (∼1 cm) distal radius and tibia sections. An alternative homogenized finite element method (hFE) was recently validated to compute the ultimate load of larger (∼2 cm) distal radius sections that include Colles' fracture sites. Since the mechanical integrity of the weight-bearing distal tibia is gaining clinical interest, it has been shown that the same properties can be used to predict the strength of both distal segments of the radius and the tibia. Despite the capacity of hFE to predict structural properties of distal segments of the radius and the tibia, the limitations of such homogenization scheme remain unclear. Therefore, the objective of this study is to build a complete mechanical data set of the compressive behavior of distal segments of the tibia and to compare quantitatively the structural properties with the hFE predictions. As a further aim, it is intended to verify whether hFE is also able to capture the post-yield strain localisation or fracture zones in such a bone section, despite the absence of strain softening in the constitutive model. Twenty-five fresh-frozen distal parts of tibias of human donors were used in this study. Sections were cut corresponding to an in-house triple-stack protocol HR-pQCT scan, lapped, and scanned using micro computed tomography (μCT). The sections were tested in compression until failure, unloaded and scanned again in μCT. Volumetric bone mineral density (vBMD) and bone mineral content (BMC) were correlated to compression test results. hFE analysis was performed in order to compare computational predictions (stiffness, yield load and plastic deformation field pattern) with the compressive experiment. Namely, strain localization was assessed based on digital volume correlation (DVC) results and qualitatively compared to hFE predictions by comparing mid-slices patterns. Bone mineral content (BMC) showed a good correlation with stiffness (R 2  = 0.92) and yield (R 2  = 0.88). Structural parameters also showed good agreement between the experiment and hFE for both stiffness (R 2  = 0.96, slope = 1.05 with 95 % CI [0.97, 1.14]) and yield (R 2  = 0.95, slope = 1.04 [0.94, 1.13]). The qualitative comparison between hFE and DVC strain localization patterns allowed the classification of the samples into 3 categories: bad (15 sections), semi (8), and good agreement (2). The good correlations between BMC or hFE and experiment for structural parameters were similar to those obtained previously for the distal part of the radius. The failure zones determined by hFE corresponded to registration only in 8 % of the cases. We attribute these discrepancies to local elastic/plastic buckling effects that are not captured by the continuum-based FE approach exempt from strain softening. A way to improve strain localization hFE prediction would be to use longer distal segments with intact cortical shells, as done for the radius. To conclude, the used hFE scheme captures the elastic and yield response of the tibia sections reliably but not the subsequent failure process., Competing Interests: We wish to confirm that there are no known conflicts of interest associated with this publication and there has been no significant financial support for this work that could have influenced its outcome., (© 2024 The Authors. Published by Elsevier Inc.)

Published
2024
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32. The chemicals between us-First results of the cluster analyses on anatomy embalming procedures in the German-speaking countries.

Author

Kerner AM, Biedermann U, Bräuer L, Caspers S, Doll S, Engelhardt M, Filler TJ, Ghebremedhin E, Gundlach S, Hayn-Leichsenring GU, Heermann S, Hettwer-Steeger I, Hiepe L, Hirt B, Hirtler L, Hörmann R, Kulisch C, Lange T, Leube R, Meuser AH, Müller-Gerbl M, Nassenstein C, Neckel PH, Nimtschke U, Paulsen F, Prescher A, Pretterklieber M, Schliwa S, Schmidt K, Schmiedl A, Schomerus C, Schulze-Tanzil G, Schumacher U, Schumann S, Spindler V, Streicher J, Tschernig T, Unverzagt A, Valentiner U, Viebahn C, Wedel T, Weigner J, Weninger WJ, Westermann J, Weyers I, Waschke J, and Hammer N

Subjects
Humans, Fixatives, Embalming methods, Cadaver, Formaldehyde chemistry, Ethanol, Anatomy education
Abstract

Hands-on courses utilizing preserved human tissues for educational training offer an important pathway to acquire basic anatomical knowledge. Owing to the reevaluation of formaldehyde limits by the European Commission, a joint approach was chosen by the German-speaking anatomies in Europe (Germany, Austria, Switzerland) to find commonalities among embalming protocols and infrastructure. A survey comprising 537 items was circulated to all anatomies in German-speaking Europe. Clusters were established for "ethanol"-, formaldehyde-based ("FA"), and "other" embalming procedures, depending on the chemicals considered the most relevant for each protocol. The logistical framework, volumes of chemicals, and infrastructure were found to be highly diverse between the groups and protocols. Formaldehyde quantities deployed per annum were three-fold higher in the "FA" (223 L/a) compared to the "ethanol" (71.0 L/a) group, but not for "other" (97.8 L/a), though the volumes injected per body were similar. "FA" was strongly related to table-borne air ventilation and total fixative volumes ≤1000 L. "Ethanol" was strongly related to total fixative volumes >1000 L, ceiling- and floor-borne air ventilation, and explosion-proof facilities. Air ventilation was found to be installed symmetrically in the mortuary and dissection facilities. Certain predictors exist for the interplay between the embalming used in a given infrastructure and technical measures. The here-established cluster analysis may serve as decision supportive tool when considering altering embalming protocols or establishing joint protocols between institutions, following a best practice approach to cater toward best-suited tissue characteristics for educational purposes, while simultaneously addressing future demands on exposure limits., (© 2023 The Authors. Anatomical Sciences Education published by Wiley Periodicals LLC on behalf of American Association for Anatomy.)

Published
2023
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33. 2D-3D reconstruction of the proximal femur from DXA scans: Evaluation of the 3D-Shaper software.

Author

Dudle A, Gugler Y, Pretterklieber M, Ferrari S, Lippuner K, and Zysset P

Abstract

Introduction: Osteoporosis is currently diagnosed based on areal bone mineral density (aBMD) computed from 2D DXA scans. However, aBMD is a limited surrogate for femoral strength since it does not account for 3D bone geometry and density distribution. QCT scans combined with finite element (FE) analysis can deliver improved femoral strength predictions. However, non-negligible radiation dose and high costs prevent a systematic usage of this technique for screening purposes. As an alternative, the 3D-Shaper software (3D-Shaper Medical, Spain) reconstructs the 3D shape and density distribution of the femur from 2D DXA scans. This approach could deliver a more accurate estimation of femoral strength than aBMD by using FE analysis on the reconstructed 3D DXA. Methods: Here we present the first independent evaluation of the software, using a dataset of 77 ex vivo femora. We extend a prior evaluation by including the density distribution differences, the spatial correlation of density values and an FE analysis. Yet, cortical thickness is left out of this evaluation, since the cortex is not resolved in our FE models. Results: We found an average surface distance of 1.16 mm between 3D DXA and QCT images, which shows a good reconstruction of the bone geometry. Although BMD values obtained from 3D DXA and QCT correlated well ( r 2 = 0.92), the 3D DXA BMD were systematically lower. The average BMD difference amounted to 64 mg/cm 3 , more than one-third of the 3D DXA BMD. Furthermore, the low correlation ( r 2 = 0.48) between density values of both images indicates a limited reconstruction of the 3D density distribution. FE results were in good agreement between QCT and 3D DXA images, with a high coefficient of determination ( r 2 = 0.88). However, this correlation was not statistically different from a direct prediction by aBMD. Moreover, we found differences in the fracture patterns between the two image types. QCT-based FE analysis resulted mostly in femoral neck fractures and 3D DXA-based FE in subcapital or pertrochanteric fractures. Discussion: In conclusion, 3D-Shaper generates an altered BMD distribution compared to QCT but, after careful density calibration, shows an interesting potential for deriving a standardized femoral strength from a DXA scan., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Dudle, Gugler, Pretterklieber, Ferrari, Lippuner and Zysset.)

Published
2023
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34. Influence of aging on mechanical properties of the femoral neck using an inverse method.

Author

Voumard B, Stefanek P, Pretterklieber M, Pahr D, and Zysset P

Abstract

Today, we are facing rapid aging of the world population, which increases the incidence of hip fractures. The gold standard of bone strength assessment in the laboratory is micro-computed finite element analysis (μFEA) based on micro-computed tomography (μCT) images. In clinics, the standard method to assess bone fracture risk is based on areal bone mineral density (aBMD), measured by dual-energy X-ray absorptiometry (DXA). In addition, homogenized finite element analysis (hFEA) constructed from quantitative computed tomography reconstructions (QCT) predicts clinical bone strength more accurately than DXA. Despite considerable evidence of degradation of bone material properties with age, in the past fifty years of finite element analysis to predict bone strength, bone material parameters remained independent of age. This study aims to assess the influence of age on apparent modulus, yield stress, and strength predictions of the human femoral neck made by laboratory-available bone volume fraction (BV/TV) and μFEA; and by clinically available DXA and hFEA. Using an inverse method, we test the hypothesis that FEA material parameters are independent of age. Eighty-six human femora were scanned with DXA (aBMD) and with QCT. The femoral necks were extracted and scanned at 16 μm resolution with μCT. The grayscale images were downscaled to 32 μm and 65 μm for linear and non-linear analyses, respectively, and segmented. The μFE solver ParOSolNL (non-linear) and a standard hFEA method were applied to the neck sections with the same material properties for all samples to compute apparent modulus, yield stress, and strength. Laboratory-available BV/TV was a good predictor of apparent modulus (R 2  = 0.76), almost as good as μFEA (R 2  = 0.79). However, yield stress and strength were better predicted by μFEA (R 2  = 0.92, R 2  = 0.86, resp.) than BV/TV (R 2  = 0.76, R 2  = 0.76, resp.). For clinically available variables, prediction of apparent modulus was better with hFEA than aBMD (R 2  = 0.67, R 2  = 0.58, resp.). hFEA outperformed aBMD for predictions of yield stress (R 2  = 0.63 vs R 2  = 0.34 for female and R 2  = 0.55 for male) and strength (R 2  = 0.48 vs R 2  = 0.33 for female and R 2  = 0.15 for male). The inclusion of age did not improve the multiple linear models for apparent modulus, yield stress, and strength. The resolution of the μFE meshes seems to account for most morphological changes induced by aging. The errors between the simulation and the experiment for apparent modulus, yield stress, and strength were age-independent, suggesting no rationale for correcting tissue material parameters in the current FE analysis of the aging femoral neck., Competing Interests: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Dieter Pahr reports a relationship with Dr. Pahr Ingenieurs e.U. that includes: CEO and owner., (© 2022 Published by Elsevier Inc.)

Published
2022
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35. Unified validation of a refined second-generation HR-pQCT based homogenized finite element method to predict strength of the distal segments in radius and tibia.

Author

Schenk D, Indermaur M, Simon M, Voumard B, Varga P, Pretterklieber M, Lippuner K, and Zysset P

Subjects
Bone Density, Cancellous Bone, Finite Element Analysis, Tomography, X-Ray Computed methods, Radius diagnostic imaging, Tibia diagnostic imaging
Abstract

Introduction: HR-pQCT based micro finite element (μFE) analyses are considered as "gold standard" for virtual biomechanical analyses of peripheral bone sites such as the distal segment of radius and tibia. An attractive alternative for clinical use is a homogenized finite element method (hFE) based on constitutive models, because of its much shorter evaluation times and modest computational resource requirements. Such hFE models have been experimentally validated for the distal segment of the radius, but neither for the distal segments of the tibia nor for both measurement sites together. Accordingly, the aim of the present study was to refine and experimentally validate an hFE processing pipeline for in vivo prediction of bone strength and stiffness at the distal segments of the radius and the tibia, using only one unified set of material properties., Material and Methods: An existing hFE analysis procedure was refined in several aspects: 1) to include a faster evaluation of material orientation based on the mean surface length (MSL) method, 2) to distinguish cortical and trabecular bone compartments with distinct material properties and 3) to directly superimpose material properties in mixed phase elements instead of densities. Based on an existing dataset of the distal segment of fresh-frozen radii (double sections 20.4 mm, n = 21) and a newly established dataset of the distal segment of fresh-frozen tibiae (triple sections, 30.6 mm, n = 25), a single set of material properties was calibrated on the radius dataset and validated on the tibia dataset by comparing hFE stiffness and ultimate load with respective experimental results, obtained by compressing the samples on a servo-hydraulic testing machine at a monotonic and quasi-static displacement rate up to failure., Results: Using the identified set of material properties, the hFE-predicted stiffness and failure load were in excellent agreement with respective experimental results at both measurement sites (radius stiffness R 2  = 0.93, slope = 1.00, intercept = 479 N/mm 2 /radius ultimate load: R 2  = 0.97, slope = 1.00, intercept = 679 N; tibia stiffness R 2  = 0.96, slope = 1.01, intercept = -1027 N/mm 2 /tibia ultimate load: R 2  = 0.97, slope = 1.04, intercept = 394 N; combined dataset stiffness R 2  = 0.95, slope = 1.01, intercept = -230 N/mm 2 /combined dataset ultimate load: R 2  = 0.97, slope = 1.03, intercept = 495 N)., Discussion and Conclusion: In conjunction with unified BV/TV calibration, the established hFE pipeline accurately predicts experimental stiffness and ultimate load of distal multi-sections at the radius and tibia. Processing time for non-linear analysis was substantially reduced compared to previous μFE and hFE methods but could be further minimized by estimating bone strength based on a fast and linear analysis like as is currently done with μ FE., (Copyright © 2022 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2022
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36. Microarchitecture of historic bone samples with tuberculosis.

Author

Vekszler G, Granner M, Nebot Valenzuela E, Winter E, Dockner M, Weber GW, Pretterklieber M, Teschler-Nicola M, and Pietschmann P

Subjects
Bone and Bones, Humans, Tibia diagnostic imaging, X-Ray Microtomography, Bone Density, Tuberculosis diagnosis
Abstract

Tuberculosis is among the leading causes of death from infectious diseases and affects many organ systems, including the skeleton. Skeletal tuberculosis is an extrapulmonary stage of tuberculosis, which occurs after the early and post-primary pulmonary stages of the disease. The aim of our study was to assess the microarchitecture of historic dry bone samples of subjects who have died of tuberculosis documented by post-mortem examinations. These preparations date to the pre-antibiotic era, and were provided by the Pathological-Anatomical Collection in the "Fools Tower" of the Natural History Museum Vienna (PASiN-NHM).We investigated macerated samples of 20 vertebral bodies, 19 femoral heads, and 20 tibiae of a total of 59 individuals diagnosed with tuberculosis from the nineteenth and early twentieth century. 10 femora and 10 tibiae from body donors that did not exhibit signs of infection and 10 (unaffected) vertebrae kept at the PASiN-NHM were studied as controls. The affected regions of the bone samples (and the corresponding regions of the control bones) were analyzed by microcomputed tomography using a Viscom X 8060 II system. Obtained images were analyzed semi-quantitatively. In samples with tuberculosis, independent of the investigated skeletal region, trabecular defects and decreased trabecular thickness were observed. Cortical porosity was seen in affected vertebrae and tibia; in tuberculous tibiae (but not in the femora) cortical thickness was decreased. In half of the individuals, cortical sclerosis was present; signs of ankylosis were observed mainly at the femoral heads affected with tuberculosis. We conclude that a combination of several alterations at the trabecular compartment could be suggestive of the presence of tuberculosis in historic skeletal remains., (© 2022. The Author(s).)

Published
2022
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37. A Rare Case of Facial Artery Branching-A Review of the Literature and a Case Report with Clinical Implications.

Author

Siwetz M, Turnowsky N, Hammer N, Pretterklieber M, Wree A, and Antipova V

Subjects
Cadaver, Humans, Male, Middle Aged, Nose, Surgical Flaps, Arteries diagnostic imaging, Face diagnostic imaging
Abstract

Background and Objectives: Vascular variations appear as morphologically distinct patterns of blood diverging from the most commonly observed vessel patterns. The facial artery is considered to be the main vessel for supplying blood to the anterior part of the face. An anatomical understanding of the facial artery, its course, its topography, and its branches is important in medical and dental practice (especially in neck and face surgery), and is also essential for radiologists to be able to interpret vascular imaging in the face following angiography of the region. A profound knowledge of the arteries in the region will aid in minimizing the risks to the patient. Materials and Methods: In our publication a narrative literature review and a case report are presented. Results: A rare case of a facial artery pattern has been described anatomically for the first time with respect to its course and branching. This variation was found on the left side of a 60-year-old male corpse during anatomical dissection. The anterior branch of the facial artery arched in the direction of the labial angle, and there divided into the inferior and superior labial arteries. At the same time, the posterior branch coursed vertically and superficially to the masseter muscle. It here gave off the premasseteric branch, and continued towards the nose, where it ran below the levator labii superioris and the levator labii superioris alaeque nasi muscles and terminated at the dorsum nasi. Conclusions : Our review of the literature and the case report add to knowledge on the facial artery with respect to its topographical anatomy and its branching and termination patterns, as well as the areas of supply. An exact knowledge of individual facial artery anatomy may play an important role in the planning of flaps or tumor excisions due to the differing vascularization and can also help to prevent artery injuries during aesthetic procedures such as filler and botulinum toxin injections.

Published
2021
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38. Micro-CT evaluation of historical human skulls presenting signs of syphilitic infection.

Author

Fraberger S, Dockner M, Winter E, Pretterklieber M, Weber GW, Teschler-Nicola M, and Pietschmann P

Subjects
Humans, X-Ray Microtomography, Skull diagnostic imaging, Syphilis diagnostic imaging
Abstract

Background: In tertiary syphilis, Treponema pallidum triggers the formation of granulomatous nodules in various organs of the human body. Within the skeleton, predominantly in the skull and long bones, these characteristic syphilitic lesions cause typical patterns of bone damage. In this study, micro-computed tomography (µ-CT) was used to assess the microarchitecture of these osseous defects in untreated syphilitic skull bones., Material and Methods: Bone structure of 30 macerated human skulls was noninvasively examined by means of µ-CT images (Viscom X8060 NDT). A total of 20 specimens showing typical morphological signs of syphilis were provided by the Collection of Anatomical Pathology of the Museum of Natural History in Vienna. They were compared to 10 macerated control skulls provided by the Division of Anatomy of the Medical University of Vienna., Results: All samples affected by syphilis showed perforating defects and increased porosity. Furthermore, we observed sclerotic reorganization and complete loss of the cortical bone in 80% of infected cases. Cortical thinning occurred in 75%., Conclusion: Our findings revealed extensive micromorphological bone destruction and a broad variability of osseous manifestations of (tertiary) syphilis.

Published
2021
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39. Relationship between the Thickness of the Coracoid Process and Latarjet Graft Positioning-An Anatomical Study on 70 Embalmed Scapulae.

Author

Gregori M, Eichelberger L, Gahleitner C, Hajdu S, and Pretterklieber M

Abstract

Background: The Latarjet procedure is a popular technique with the aim of the reconstruction of glenoid cavity bone defects in patients with chronic anterior shoulder instability. Studies have shown that the Congruent arc Latarjet procedure is better able to reconstruct larger defects than the Classic Latarjet, but there is a lack of information on the limitations of both methods., Methods: The dimensions of the glenoid width and the native coracoid process of two groups with 35 Formol-Carbol embalmed scapulae each were measured using a digital caliper. The relationship between the coracoid graft and the anterior-posterior diameter of the glenoid cavity was calculated to determine the maximum defect size of the glenoid cavity width, which can be treated by both Latarjet techniques., Results: The average restorable defect size of the anterior segment of the glenoid cavity was 28.4% ± 4.6% (range 19.2%-38.8%) in the Classic Latarjet group, and 45.6% ± 5.2% (range 35.7%-57.1%) in the Congruent arc Latarjet group. Based on our results, the feasibility of the Classic Latarjet procedure to reconstitute the anatomical width of the glenoid cavity was 86% in a 25% bone loss scenario, and only 40% in a 30% bone loss scenario., Conclusion: Based on our results we are unable to define a clear threshold for the optimal Latarjet graft position. In glenoid cavity defects <20%, the Classic Latarjet technique usually provides enough bone stock for anatomical reconstruction. Defects ≥35% of the glenoid cavity width should only be treated with a coracoid graft in the Congruent arc position. In the critical area between 20% and 35% of bone loss, we suggest the preoperative assessment of coracoid dimensions, based on which the graft position can be planned to restore the anatomical anterior-posterior diameter of the glenoid cavity.

Published
2020
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40. Paget's Disease of Long Bones: Microstructural Analyses of Historical Bone Samples.

Author

Nebot E, Heimel P, Tangl S, Dockner M, Patsch J, Weber GW, Pretterklieber M, Teschler-Nicola M, and Pietschmann P

Subjects
Aged, Aged, 80 and over, Female, Humans, Imaging, Three-Dimensional methods, Male, Middle Aged, Osteitis Deformans pathology, Porosity, X-Ray Microtomography methods, Bone Density physiology, Femur diagnostic imaging, Osteitis Deformans diagnostic imaging, Tibia diagnostic imaging
Abstract

Although Paget's disease of bone (PDB) is the second most common metabolic bone disease, there is only limited information about the microarchitecture of affected bones. Therefore, the aim of this study was to determine cortical and trabecular bone properties in clinically relevant locations by microcomputed tomography (µCT). Ten femora and ten tibiae affected by Paget's disease taken from the Natural History Museum Vienna were compared to 13 femora and 10 tibiae of non-affected body donors. Digitization of the cortical and trabecular bone microarchitecture was performed with an X-ray-based µCT scanner. Additionally, semi-quantitative gradings of trabecular and cortical architectural parameters of the femora and the tibiae were generated. Microcomputed tomography images showed changes in the thickness of cortices, cortical porosity, and trabecularization of cortical structures. Moreover, severe disorganization of trabecular structures, trabecular defects, and thickening of (remaining) trabeculae were detected. Numerical cortical analyses showed lower total bone volume (BV) and lower BV in the outer region (66-100%) (- 36%, p = 0.004, and - 50%, p < 0.001, respectively), lower total volume (TV) in the outer region (66-100%) (- 42%, p < 0.001), lower total bone volume fraction (BV/TV) and BV/TV in the outer region (66-100%) (- 23%, and - 12%, p < 0.001, respectively), higher BV and TV in the middle region (33-66%) and higher BV/TV in the inner region (0-33%) (123%, p = 0.011, 147%, p = 0.010, and 33%, p = 0.025, respectively) in Pagetic compared to non-affected bones. Trabecular analyses showed higher BV/TV (96%, p = 0.008) and Tb.Th (43%, p = 0.004) in Pagetic compared to non-affected bones. There is a major and consistent structural alteration of PDB at cortical and trabecular sites in weight-bearing long bones. Our findings are relevant for the differential diagnosis of PDB and for the pathogenesis of associated complications, since the disorder produces abnormalities in the structure that might lead to bone fragility.

Published
2019
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41. Sexual dimorphism in the anatomy of the ulnar collateral thumb ligament.

Author

Vierhapper MF, Muschitz GK, Hacker S, Boesmueller SE, Pretterklieber M, and Kitzinger HB

Subjects
Biomechanical Phenomena, Cadaver, Collateral Ligaments, Female, Humans, Joint Instability, Male, Range of Motion, Articular physiology, Sex Characteristics, Collateral Ligament, Ulnar anatomy & histology, Collateral Ligament, Ulnar injuries, Collateral Ligament, Ulnar surgery, Metacarpophalangeal Joint anatomy & histology, Metacarpophalangeal Joint injuries, Metacarpophalangeal Joint surgery, Thumb
Abstract

Background: Treatment of ruptured ulnar collateral thumb metacarpophalangeal (MCP) joint ligaments (UCL) necessitate a profound anatomic knowledge for optimal surgical repair in order to preserve range of motion and ensure postoperative joint stability. Therefore, knowledge of the angle between the UCL and the longitudinal axis of the first metacarpal bone could be useful., Methods: In this study 46 ulnar collateral thumb MCP joint ligaments in 15 male and 15 female embalmed anatomic specimens were dissected and the angles between the longitudinal axis of the first metacarpal bone and the proper (PUCL) as well as the accessory ulnar collateral thumb MCP ligament (AUCL) were measured., Results: In male specimens the angle for the PUCL measured on average 133.5° (±2.35°) and 122.75° (±3.8°) for the AUCL. A significantly different angle was measured for female specimens which showed on average 137.88° (±3.51°) for the PUCL and 128.65° (±4.14°) for the AUCL., Conclusions: Optimal surgical repair or reconstruction of torn ulnar collateral thumb MCP joint ligaments should aim for an angle of approximately 135° in PUCL and 126° in AUCL in relation to the longitudinal axis of the metacarpal bone. Differences in men and women should be considered if possible., Level of Evidence: IV (anatomic study).

Published
2019
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42. [Acromioclavicular joint : The "forgotten" joint].

Author

Krestan C, Pretterklieber B, Pretterklieber M, and Kramer J

Subjects
Humans, Radiography, Acromioclavicular Joint, Joint Dislocations, Magnetic Resonance Imaging methods, Shoulder Dislocation, Shoulder Joint
Abstract

Besides osteoarthritic changes, traumatic and posttraumatic lesions are the most frequent alterations of the acromioclavicular (AC) joint. The Rockwood classification is used to describe posttraumatic lesions. The most important screening modality is anteroposterior x‑ray imaging, preferably with weight bearing and side to side comparison. Magnetic resonance imaging (MRI) without weight bearing is superior to x‑rays in analyzing and classifying AC joint dislocations. Postoperative imaging and assessment of arthritic alterations are usually carried out using x‑ray images and MRI is used as an additional examination modality. Sonography is only of limited value. Multidetector computed tomography (MDCT) is usually not used as a primary imaging modality for the AC joint; however, it can be analyzed simultaneously whenever the shoulder joint is being investigated with MDCT.

Published
2019
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43. Recommendations of the working group of the Anatomische Gesellschaft on reduction of formaldehyde exposure in anatomical curricula and institutes.

Author

Waschke J, Bergmann M, Bräuer L, Brenner E, Buchhorn A, Deutsch A, Dokter M, Egu DT, Ergün S, Fassnacht U, Fietz D, Gundlach S, Heermann S, Hirt B, Kugelmann D, Müller-Gerbl M, Neiss W, Nimtschke U, Plendl J, Pretterklieber M, Redies C, Scaal M, Schmidt MHH, Schmiedl A, Schnittler HJ, Schomerus C, Sebestény T, Spittau B, Steiniger B, Tschernig T, Unverzagt A, Viebahn C, Voigt E, Weigner J, Weyers I, Winkelmann A, Winkler M, and Paulsen F

Subjects
Humans, Practice Guidelines as Topic, Anatomy education, Formaldehyde adverse effects, Occupational Exposure prevention & control, Respiratory Hypersensitivity prevention & control
Abstract

The practice of human and veterinary medicine is based on the science of anatomy and dissection courses are still irreplaceable in the teaching of anatomy. Embalming is required to preserve body donors, for which process formaldehyde (FA) is the most frequently used and well characterized biocidal substance. Since January 2016, a new occupational exposure limit (OEL) for FA of 0.37mg/m 3 issued by the European Committee on Hazardous Substances is obligatory since FA has been classified as a human 1B carcinogen. The anatomical institutes in the German-speaking region are called upon to consolidate efforts to reduce use of FA in anatomical curricula and body donations. As a result, the Anatomische Gesellschaft (AG) has formed a "Working Group for Reduction of Formaldehyde Exposure in Dissection Courses" tasked with discussion and recommendation of measures to reduce FA. Based on the assessment of the Working Group, the AG has issued an official opinion to the effect that, at this point in time, embalming of body donors without FA completely is not feasible. Therefore, a combination of approaches are to be used to reduce FA exposure, including technical and structural (architectural) adaptations, modification of protocols for fixation and preservation as well as organizational measures. One structural measure considered unavoidable is the integration of air supply and exhaust of individual dissecting tables into the ventilation system of the anatomy building. To embalm human body donors, intra-arterial perfusion fixation with up to 4% FA and a total fluid volume of 150mL/kg body weight will suffice. For animals where body weights and biology of bodies vary widely (i.e. special needs of fixation for ruminants, large animals as horses) perfusion fixation with up to 4% FA and a quantity of fixative solution of 10-15% of the body weight may be required. Preservation of body donors in storage (immersion) can be done with 40% ethanol or in a full bath preservation containing up to 2% FA. Corpse humidification in the dissecting room is possible with 2% phenoxyethanol, in each case without FA. In veterinary anatomy, microbiological burden is often higher and therefore might lead to a need of FA in long-time storage. Compliance with the current OEL in all institutes would appear to be feasible in combination with various organizational measures., (Copyright © 2018 Elsevier GmbH. All rights reserved.)

Published
2019
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44. Comparison of mesh fixation devices for laparoscopic ventral hernia repair: an experimental study on human anatomic specimens.

Author

Chan YW, Sow Z, Lukic D, Monschein M, Calek E, Pretterklieber M, and Hollinsky C

Subjects
Aged, Cadaver, Female, Humans, Male, Tensile Strength, Hernia, Ventral surgery, Herniorrhaphy methods, Laparoscopy methods, Materials Testing methods, Surgical Mesh, Suture Techniques instrumentation, Sutures
Abstract

Background: As there is a lack of clarity in terms of the tensile strength of mesh fixation for laparoscopic ventral hernia repair (LVHR), our aim was to investigate the immediate tensile strength of currently available mesh fixation devices on human anatomic specimens., Methods: Sixteen recently deceased body donators (mean body mass index of 24.4 kg/m 2 ) were used to test the immediate tensile strength (Newton) of 11 different LVHR mesh fixation devices., Results: Each of the 11 different laparoscopic fixation devices was tested 44 times. Non-articulating tackers provided higher fixation resistance to tensile stress in comparison to articulating tackers (5.1-mm ReliaTack™: 16.9 ± 8.7 N vs. 12.2 ± 5.6 N, p = 0.013; 7-mm ReliaTack™: 19.8 ± 9.4 N vs. 15.0 ± 7.0 N, p = 0.007). Absorbable tacks with a greater length, i.e. ≥6 mm (7-mm ReliaTack™, 6-mm SorbaFix™ and 7.2-mm SecureStrap™) had significantly higher fixation tensile strength than tacks with a shorter length, i.e. < 6 mm (5.1-mm ReliaTack™ and 5.1-mm AbsorbaTack™) (p < 0.001). Furthermore, transfascial sutures (PDS 2-0 sutures 26.3 ± 5.6 N) provided superior fixation tensile strength than 5.1-mm AbsorbaTack™ (13.6 ± 7.3 N) and cyanoacrylate glues such as LiquiBand FIX8™ (3.5 ± 2.4 N) (p < 0.001, respectively). There was a significant deterioration in fixation capacity in obese body donators with a body mass index > 30 kg/m 2 (13.8 ± 8.0 vs. 17.9 ± 9.7 N, p = 0.044)., Conclusions: Although articulating laparoscopic tackers improve accessibility and facilitate the utilization of tacks within the fixation weak spot adjacent to the trocar placement, an articulating shaft that is not ergonomic to use may limit mechanisms of force transmission. For mesh fixation in LVHR, transfascial sutures and tacks with a longer length provide better immediate fixation tensile strength results.

Published
2018
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45. Distribution Pattern of the Superior and Inferior Labial Arteries: Impact for Safe Upper and Lower Lip Augmentation Procedures.

Author

Cotofana S, Pretterklieber B, Lucius R, Frank K, Haas M, Schenck TL, Gleiser C, Weyers I, Wedel T, and Pretterklieber M

Subjects
Angiography, Arteries, Cosmetic Techniques, Dermal Fillers administration & dosage, Female, Humans, Male, Tomography, X-Ray Computed, Cadaver, Lip blood supply
Abstract

Background: Understanding the precise position and course of the superior and inferior labial arteries within the upper lip and the lower lip is crucial for safe and complication-free applications of volumizing materials., Methods: One hundred ninety-three anatomical head specimens (56.5 percent female cadavers) of Caucasian ethnicity were investigated in this large multicenter anatomical study. In total, six 3-cm-long vertical incisions were performed on each lip (midline and 1 cm medial to the angles of the mouth) to identify the position of the superior and inferior labial arteries in relation to the orbicularis oris muscle., Results: Three different positions of the superior and inferior labial arteries were identified: submucosal (i.e., between the oral mucosa and the orbicularis oris muscle in 78.1 percent of the cases), intramuscular (i.e., between the superficial and deep layers of the orbicularis oris muscle in 17.5 percent of the cases), and subcutaneous (i.e., between the skin and the orbicularis oris muscle in 2.1 percent of the cases). The variability in changing the respective position along the labial course was 29 percent for the total upper and 32 percent for the total lower lip. The midline location was identified in both the upper and lower lips to be the most variable., Conclusions: Based on the results of this investigation, a safer location for the application of volumizing material is the subcutaneous plane in the paramedian location of both the upper lip and the lower lip. Care has to be taken when aiming to inject in the midline, as the artery can be identified more frequently in superficial positions.

Published
2017
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46. Fast estimation of Colles' fracture load of the distal section of the radius by homogenized finite element analysis based on HR-pQCT.

Author

Hosseini HS, Dünki A, Fabech J, Stauber M, Vilayphiou N, Pahr D, Pretterklieber M, Wandel J, Rietbergen BV, and Zysset PK

Subjects
Aged, Anisotropy, Biomechanical Phenomena, Calibration, Colles' Fracture pathology, Compressive Strength, Female, Finite Element Analysis, Humans, Male, Organ Size, Radius diagnostic imaging, Reproducibility of Results, Tomography, X-Ray Computed methods, Weight-Bearing, Colles' Fracture diagnostic imaging, Colles' Fracture physiopathology, Radius pathology, Radius physiopathology
Abstract

Fractures of the distal section of the radius (Colles' fractures) occur earlier in life than other osteoporotic fractures. Therefore, they can be interpreted as a warning signal for later, more deleterious fractures of vertebral bodies or the femoral neck. In the past decade, the advent of HR-pQCT allowed a detailed architectural analysis of the distal radius and an automated but time-consuming estimation of its strength with linear micro-finite element (μFE) analysis. Recently, a second generation of HR-pQCT scanner (XtremeCT II, SCANCO Medical, Switzerland) with a resolution beyond 61 μm became available for even more refined biomechanical investigations in vivo. This raises the question how biomechanical outcome variables compare between the original (LR) and the new (HR) scanner resolution. Accordingly, the aim of this work was to validate experimentally a patient-specific homogenized finite element (hFE) analysis of the distal section of the human radius for the fast prediction of Colles' fracture load based on the last generation HR-pQCT. Fourteen pairs of fresh frozen forearms (mean age = 77.5±9) were scanned intact using the high (61 μm) and the low (82 μm) resolution protocols that correspond to the new and original HR-pQCT systems. From each forearm, the 20mm most distal section of the radius were dissected out, scanned with μCT at 16.4 μm and tested experimentally under compression up to failure for assessment of stiffness and ultimate load. Linear and nonlinear hFE models together with linear micro finite element (μFE) models were then generated based on the μCT and HR-pQCT reconstructions to predict the aforementioned mechanical properties of 24 sections. Precision errors of the short term reproducibility of the FE analyses were measured based on the repeated scans of 12 sections. The calculated failure loads correlated strongly with those measured in the experiments: accounting for donor as a random factor, the nonlinear hFE provided a marginal coefficient of determination (R m 2 ) of 0.957 for the high resolution (HR) and 0.948 for the low resolution (LR) protocols, the linear hFE with R m 2 of 0.957 for the HR and 0.947 for the LR protocols. Linear μFE predictions of the ultimate load were similar with an R m 2 of 0.950 for the HR and 0.954 for the LR protocols, respectively. Nonlinear hFE strength computation led to precision errors of 2.2 and 2.3% which were higher than the ones calculated based on the linear hFE (1.6 and 1.9%) and linear μFE (1.2 and 1.6%) for the HR and LR protocols respectively. Computation of the fracture load with nonlinear hFE demanded in average 6h of CPU time which was 3 times faster than with linear μFE, while computation with linear hFE took only a few minutes. This study delivers an extensive experimental and numerical validation for the application of an accurate and fast hFE diagnostic tool to help in identifying individuals who may be at risk of an osteoporotic wrist fracture and to follow up pharmacological and other treatments in such patients., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published
2017
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47. Accessory Spleen in the Greater Omentum: Embryology and Revisited Prevalence Rates.

Author

Gill N, Nasir A, Douglin J, Pretterklieber B, Steinke H, Pretterklieber M, and Cotofana S

Subjects
Aged, Humans, Male, Prevalence, Omentum abnormalities, Omentum embryology, Spleen abnormalities, Spleen embryology
Abstract

Purpose: To investigate in a large sample the prevalence rates of accessory spleens located in the greater omentum and to explain the embryological background and the vascular supply of this rare congenital disorder., Methods: Evaluation of the presence of accessory spleens located in the greater omentum was performed in 5 different international anatomical centers investigating a total of 1,045 body donors. Arterial and venous blood supply and the precise location of the respective vasculature within the splenic ligaments are described based on dissection of this rare condition in a male specimen., Results: The reported prevalence rates from 5 different centers were: 0.5% (out of 380 body donors), 0% (out of 230 donors), 0% (out of 200 donors), 2% (out of 200 donors), and 0% (out of 35 donors). The cumulative prevalence rate obtained from 1,045 anatomical dissections was 0.6%. The identified accessory spleen measured 3 × 3 × 2.5 cm and was located in the left upper abdominal quadrant. A vascular stag 7.5 cm in length was identified within the gastro-splenic ligament, containing an artery and a vein piercing the greater omentum from posterior., Conclusion: An accessory spleen located in the greater omentum is a rare congenital disorder. Physicians should be aware of the fact that in patients without any representative symptom history a nodular mass located within the greater omentum could be an accessory spleen., (© 2017 S. Karger AG, Basel.)

Published
2017
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48. Reliability of radiographic landmarks in medial patello-femoral ligament reconstruction in relation to the anatomical femoral torsion.

Author

Kaipel M, Schützenberger S, Farr S, Gergely I, Vlcek A, Kainberger F, Boszotta H, and Pretterklieber M

Subjects
Aged, Aged, 80 and over, Female, Femur surgery, Fluoroscopy, Humans, Male, Middle Aged, Pelvis diagnostic imaging, Reproducibility of Results, Tomography, X-Ray Computed, Femur diagnostic imaging, Ligaments, Articular diagnostic imaging, Ligaments, Articular surgery, Patellofemoral Joint surgery, Plastic Surgery Procedures, Torsion Abnormality diagnostic imaging
Abstract

Purpose: Anatomically correct graft positioning at the femoral insertion site is a key factor in surgical reconstruction of the medial patello-femoral ligament (MPFL). Basically there are two techniques to define this point in fluoroscopy during surgery. The role of the anatomical femoral torsion on the accuracy and reproducibility of both procedures has not been clarified., Methods: Twenty human anatomical leg specimens were dissected. The femoral insertion of the MPFL was marked by two K-wires. The position of the ligament insertion was determined fluoroscopically in the true lateral view as used in routine clinical practice. The anatomical MPFL insertion was compared to the radiographic landmarks which were recommended by two previous studies. The anatomical femoral torsion of the specimens was assessed by computed tomography scans., Results: In true lateral view fluoroscopy, the mean distance of the femoral MPFL insertion was -0.2 mm distal to the vertical reference line intersecting the posterior point of Blumensaat's line. In the anteroposterior direction, the mean distance was -2.0 mm posterior to the femoral cortex reference line. There was no correlation between anatomical femoral torsion and the distance of the femoral MPFL insertion to the posterior cortex., Conclusions: The results of this study strongly recommend use of a vertical line intersecting the most posterior point of Blumensaat's line as a reference to identify the MPFL insertion in the craniocaudal direction. In the anteroposterior direction, the femoral MPFL insertion showed distinctive variation and was found -2.0 mm posterior to the femoral cortex reference line without being influenced by the anatomical femoral torsion.

Published
2015
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49. DXA predictions of human femoral mechanical properties depend on the load configuration.

Author

Dall'Ara E, Luisier B, Schmidt R, Pretterklieber M, Kainberger F, Zysset P, and Pahr D

Subjects
Aged, Aged, 80 and over, Biomechanical Phenomena, Bone Density, Female, Femur diagnostic imaging, Femur injuries, Femur physiopathology, Fractures, Bone diagnostic imaging, Fractures, Bone physiopathology, Humans, Male, Materials Testing, Middle Aged, Absorptiometry, Photon, Femur physiology, Mechanical Phenomena, Weight-Bearing
Abstract

The aim of this study was to evaluate the ability of dual energy X-rays absorptiometry (DXA) areal bone mineral density (aBMD) measured in different regions of the proximal part of the human femur for predicting the mechanical properties of matched proximal femora tested in two different loading configurations. 36 pairs of fresh frozen femora were DXA scanned and tested until failure in two loading configurations: a fall on the side or a one-legged standing. The ability of the DXA output from four different regions of the proximal femur in predicting the femoral mechanical properties was measured and compared for the two loading scenarios. The femoral neck DXA BMD was best correlated to the femoral ultimate force for both configurations and predicted significantly better femoral failure load (R(2)=0.80 vs. R(2)=0.66, P<0.05) when simulating a side than when simulating a standing configuration. Conversely, the work to failure was predicted similarly for both loading configurations (R(2)=0.54 vs. R(2)=0.53, P>0.05). Therefore, neck BMD should be considered as one of the key factors for discriminating femoral fracture risk in vivo. Moreover, the better predictive ability of neck BMD for femoral strength if tested in a fall compared to a one-legged stance configuration suggests that DXA's clinical relevance may not be as high for spontaneous femoral fractures than for fractures associated to a fall., (Copyright © 2013 IPEM. Published by Elsevier Ltd. All rights reserved.)

Published
2013
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50. The avascular plane of the Achilles tendon: a quantitative anatomic and angiographic approach and a base for a possible new treatment option after rupture.

Author

Wolff KS, Wibmer AG, Binder H, Grissmann T, Heinrich K, Schauer S, Nepp R, Rois S, Ritschl H, Teufelsbauer H, and Pretterklieber ML

Subjects
Angiography, Cadaver, Contrast Media administration & dosage, Humans, Iohexol administration & dosage, Iohexol analogs & derivatives, Rupture, Achilles Tendon blood supply, Tendon Injuries diagnostic imaging, Tendon Injuries surgery
Abstract

Introduction: Achilles tendon ruptures, especially ruptures caused by pathologic conditions and also by achillotendinitis are often attributed to the alleged hypovascularisation of the Achilles tendon. Anatomic studies often mention an avascular plane. The purpose of this study was to re-investigate the arterial supply of the Achilles tendon., Material and Methods: Lower legs of 28 anatomic specimen were injected with a radiologic contrast agent and subsequently an arterial angiography was performed. Afterwards the legs were embalmed and later anatomically dissected. The origin of arteries entering the paratenon of the tendo calcanei branching off from either the anterior (TA) or the posterior tibial artery (TP) was determined. The distance between the points of commencement of these nutrient arteries and a specific reference point, i.e. the insertion of the Achilles tendon into the tuber calcanei, was measured digitally on the radiographs and again with a slide-gauge on the dissected specimens., Results: As revealed by angiographic analysis, the TA gave off 5 vessels (v) at a frequency and median distance to the tuber calcanei (in cm) of v1: 50%, 6.01 cm; v2: 39.3%, 7.88 cm; v3: 35.7%, 9.71 cm; v4: 17.9%, 12.7 cm; v5: 10.7%, 14.6 cm. The TP contributed to the arterial supply of the Achilles tendon by means of 7 inserting arteries branching off at a frequency and mean distances of v1: 67.9%, 4.53 cm; v2: 60.7%, 6.97 cm, v3: 50%, 9.58 cm; v4: 35.7%, 10.89 cm; v5: 25%, 12.65 cm; v6: 10.7%, 16.94 cm; v7: 3.6%, 18.7 cm proximal to the tuber calcanei. However, due to the small diameter of these branches, by anatomic dissection no nutrient arteries commencing from the TA could be detected. On the other hand, a maximum of 7 vessels originating from the TP, larger than the former vessels, had been also revealed by anatomic dissection (frequency and mean distances, v1: 100%, 6.8 cm; v2: 82.1%, 7.7 cm; v3: 71.4%, 9.5cm; v4: 35.7%, 11.3 cm; v5: 17.9%, 9.9 cm; v6: 7.1, 10.5 cm; v7: 3.6%, 12.0 cm)., Conclusion: A dense net of small arteries inserts into the paratenon of the Achilles tendon in its lower 20 cm. The angiographic method was more specific and showed vessels that could not be identified as arteries originating from the TA by macroscopic anatomic dissection., (Copyright © 2011 Elsevier Ireland Ltd. All rights reserved.)

Published
2012
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