Dirk Wähnert scite author profile

Purpose Pelvis ring fractures of geriatric patients are currently a serious problem in orthopedic and trauma surgery. One controversy that remains is the insufficiency fracture of the sacrum with treatment options ranging from conservative to operative. We modified standard 7.3-mm screws with additional perforations at the tip to allow cement injection trough the screw to improve implant anchorage. Method We describe a new method of treatment of sacral insufficiency fractures. We use modified cannulated 7.3-mm screws (Synthes) with additional perforations at the screw tip. This allows the implant augmentation after proper implant positioning and contrast medium instillation for leakage detection. Results All patients (12 female) treated this way, are allowed to weight bear as tolerated immediately after surgery. The pain level (measured by the visual analog scale-VAS) was significantly reduced due to surgery (mean 8.2 pre-operatively, mean 2.6 postoperatively), the pain medication could be reduced rapidly. Conclusion The described procedure for the treatment of sacral insufficiency fractures has the potential to increase the safety of cement injection into the sacrum because of the possibility of contrast agent instillation prior to cement injection. Furthermore, the amount of cement can be reduced and additional stability can be attained due to iliosacral screw osteosynthesis compared to sacroplasty.

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Biomechanical comparison of two angular stable plate constructions for periprosthetic femur fracture fixation

Wähnert

Schröder

Schulze

et al. 2013

International Orthopaedics (SICOT)

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Purpose Fractures of the femur associated with total hip arthroplasty are a significant concern in orthopaedic and trauma surgery. However, little is known about the different biomechanical properties of internal fixation systems in combination with periprosthetic fractures. In this study two new internal fixation systems for periprosthetic fractures are investigated using a cadaver fracture model simulating a Vancouver B1 periprosthetic femur fracture. Methods Nine pairs of fresh-frozen cadaver femurs were scanned by dual X-ray absorptiometry. Cementless total hip prostheses were implanted and a periprosthetic femur fracture was simulated. Fractures were randomly fixed either with the fixed angle locking attachment plate (LAP®, Depuy Synthes®, Solothurn, Switzerland) or the variable angle noncontact bridging plate (NCB®, Zimmer GmbH, Winterthur, Switzerland). Each construct was cyclically loaded to failure in axial compression. Results Axial stiffness and cycles to failure were significantly higher in the NCB group. Both systems were able to be fixed well around the femoral stem. Conclusion The two different internal fixation systems for periprosthetic fractures differed significantly in our setup. The non-contact bridging plate system revealed significantly higher failure load and may be the preferred option where high stability and load capacity is needed right after operation.

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A Role for NF-κB in Organ Specific Cancer and Cancer Stem Cells

Kaltschmidt

Banz‐Jansen

Benhidjeb³

et al. 2019

Cancers

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Cancer stem cells (CSCs) account for tumor initiation, invasiveness, metastasis, and recurrence in a broad range of human cancers. Although being a key player in cancer development and progression by stimulating proliferation and metastasis and preventing apoptosis, the role of the transcription factor NF-κB in cancer stem cells is still underestimated. In the present review, we will evaluate the role of NF-κB in CSCs of glioblastoma multiforme, ovarian cancer, multiple myeloma, lung cancer, colon cancer, prostate cancer, as well as cancer of the bone. Next to summarizing current knowledge regarding the presence and contribution of CSCs to the respective types of cancer, we will emphasize NF-κB-mediated signaling pathways directly involved in maintaining characteristics of cancer stem cells associated to tumor progression. Here, we will also focus on the status of NF-κB-activity predominantly in CSC populations and the tumor mass. Genetic alterations leading to NF-κB activity in glioblastoma, ependymoma, and multiple myeloma will be discussed.

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Angular Stability Potentially Permits Fewer Locking Screws Compared With Conventional Locking in Intramedullary Nailed Distal Tibia Fractures: A Biomechanical Study

Gueorguiev¹,

Ockert²,

Schwieger³

et al. 2011

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Dirk Wähnert

Distal femur fractures of the elderly—Different treatment options in a biomechanical comparison

Cement augmentation of the navigated iliosacral screw in the treatment of insufficiency fractures of the sacrum. A new method using modified implants

Biomechanical comparison of two angular stable plate constructions for periprosthetic femur fracture fixation

A Role for NF-κB in Organ Specific Cancer and Cancer Stem Cells

Angular Stability Potentially Permits Fewer Locking Screws Compared With Conventional Locking in Intramedullary Nailed Distal Tibia Fractures: A Biomechanical Study

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