E. Schopphoff scite author profile

Divergent descriptions of the anatomic location and biomechanical function of the iliotibial tract (IT) can be found in the literature. This study attempted to obtain exact data regarding the anatomic course and material characteristics including the biomechanical properties of this structure. The following were its aims: (1) anatomical investigations of the IT; (2) mechanical properties of the IT; (3) femoral head centralizing force of the IT and subligamentous forces in the height of the greater trochanter in different joint positions by using a custom-made measuring prosthesis and a subligamentous positioned sensor; (4) construction of a finite element model of the proximal femur including the IT and measuring the femoral neck angle under variation. The hip joints and IT in a total of 18 unfixed corpses were evaluated. We studied the anatomic relationship to surrounding structures, as well as the material properties with the help of tensile strength testing utilizing an uniaxial apparatus. During the test, a load-displacement curve was registered, documenting the maximum load and deformation of the IT. To measure the subligamentous pressure at the height of the greater trochanter, a custom-made sensor with a power-recording instrument was constructed. Furthermore, an altered hip prosthesis with a pressure gauge at the height of the femoral neck was used to measure the forces which are directed at the acetabulum. The investigations were done in neutral-0 position and ab/adduction of the hip joint of the unfixed corpse. In addition, we varied the femoral neck angle between 115 degrees and 155 degrees in 5 degrees steps. To confirm the subligamentous forces, we did the same measurements intraoperatively at the height of the greater trochanter before and after hip joint replacement in 12 patients. We constructed a finite element model of the proximal femur and considering the IT. The acquisition of the data was done at physiological (128 degrees), varus (115 degrees), and valgus (155 degrees) femoral neck angles. The influencing forces of the IT at the height of the greater trochanter and the forces at the femoral head or the acetabulum could be measured. Our anatomical investigations revealed a splitting of the IT into a superficial and a deep portion, which covers the tensor fasciae latae. The tensor fasciae latae has an insertion on the IT. The IT continues down the femur, passing over the greater trochanter without developing an actual fixation to the bone. Part of the insertion of the gluteus maximus radiates into the IT. The IT passes over the vastus lateralis and inserts at the infracondylar tubercle of the tibia or Gerdy's tubercle, at the head of the fibula, as well as at the lateral intermuscular septum. Portions also insert on the transverse and longitudinal retinaculum of the patella. Concerning the material properties of the IT, we found a structural stiffness of 17 N/mm extension on average (D = 17 N/mm). The subligamentous measurements at the height of the greater trochanter in the unfixed corpse an...

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Verification of the position of pedicle screws in lumbar spinal fusion

Haaker

Eickhoff

Schopphoff

et al. 1997

Eur Spine J

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Medial or lateral pedicle screw penetration with the potential to affect neural structures in a wellknown and frequent problem associated with posterior spinal fusion. We evaluated the placement of pedicle screws (n = 141) in 36 patients following posterior lumbar spinal fusion with Socon or Kluger instrumentation via a lateral transpedicular approach. The examination was based on CT and MR images performed after removal of the instrumentation, on average 1 year after implantation. We found seven pedicle screws with lateral cortical penetration of the pedicle and five screws with medial cortical penetration of the pedicle (8.5% pedicle penetration overall). No severe radicular complications accompanied these pedicle penetrations. The mean insertion angles of the pedicle screws at the L4 level were 22.6 ° and 23.1 ° for the left and the right side, respectively. At the L5 level the mean insertion angle was 20.5 ° on the left side and 21.5 ° on the right, and at the S1 level the mean angle was 16.2 ° on the left and 15.2 ° on the right. The results of this study indicate that the lateral transpedicular approach is a safe procedure for pedicle screw insertion.

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Verstrecktes Polyethylen (UHMWPE) - eine neue Werkstoffmodifikation zur Abriebsminimierung beim künstlichen Kniegelenksersatz - Stretched Polyethylene (UHMWPE) - a New Material Modification that Reduces Wear in Total Knee Arthroplasty

Wirtz¹,

Schopphoff²,

Weichert³

et al. 2001

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Polyethylene wear is a major cause of aseptic loosening of knee endoprostheses. With the aim of minimizing this mechanical wear, we stretch-modified the structure of polyethylene. From plates of UHMWPE, stretched PE samples were produced under defined conditions, and subsequently submitted to friction tests in a fluid environment (cycles 5 x 10(5), frequency 1.5 Hz, load 500 N, contact stress 10 MPa). After load testing, the stretched samples revealed a 70% reduced wear rate in comparison with non-stretched samples. Microscopic examination (light microscopy, scanning electron microscopy) showed abrasive scratches in all test samples, but only in the non-stretched specimens were signs of pitting found. Translating these results to unidirectional tractive rolling on the tibial plateau in the knee joint suggests that a significant reduction in polyethylene wear can be expected. However, further experimental investigations need to be carried out to confirm this highly promising possibility.

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Versuchsaufbau zur Belastungssimulation von multisegmentalen Wirbelsäulenabschnitten. Load Simulator for Multisegmental Lumbar Spine Mobility Testing

Schopphoff¹,

Phoa²,

Birnbaum³

2003

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Multisegmental biomechanical studies on the lumbar spine are steadily increasing in importance. Only in this way can we acquire knowledge about the physiological behaviour of the entire lumbar spine. Furthermore, these studies allow us to analyse in vitro the biomechanics of manipulated lumbar spines after various surgical operations on the spine. A load simulator was developed to investigate multisegmental lumbar spine mobility, and its function was investigated in an initial study on 19 fresh--frozen specimens of human lumbar spine. After x-ray examination and determination of the bone mineral density, the specimens were loaded up to 10 Nm in the automatic electromechanical loading system under flexion/extension, lateral bending and axial rotation. An ultrasound-based motion analysis system was used to measure the displacements of the vertebrae involved.

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Numerical investigation of the biomechanical behaviour of the lumbar intervertebral joint under shear load and compressive load

Schopphoff¹,

Pingel²,

Langlotz³

1994

Journal of Biomechanics

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E. Schopphoff

Anatomical and biomechanical investigations of the iliotibial tract

Verification of the position of pedicle screws in lumbar spinal fusion

Verstrecktes Polyethylen (UHMWPE) - eine neue Werkstoffmodifikation zur Abriebsminimierung beim künstlichen Kniegelenksersatz - Stretched Polyethylene (UHMWPE) - a New Material Modification that Reduces Wear in Total Knee Arthroplasty

Versuchsaufbau zur Belastungssimulation von multisegmentalen Wirbelsäulenabschnitten. Load Simulator for Multisegmental Lumbar Spine Mobility Testing

Numerical investigation of the biomechanical behaviour of the lumbar intervertebral joint under shear load and compressive load

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