Papers

2024

  1. Warmerdam E, Baumgartner S, Pohlemann T, Ganse B. Longitudinal weight and plantar pressure distribution while standing after tibial or malleolar fractures in patients with or without fracture union. Sci Rep. 2024 [IF 3.8]
  2. Ganse B. Methods to accelerate fracture healing – a narrative review from a clinical perspective. Front Immunol. 2024;15:1384783. [IF 5.7]
  3. Wolff C, Steinheimer P, Warmerdam E, Dahmen T, Slusallek P, Schlinkmann C, Chen F, Orth M, Pohlemann T, Ganse B. Characteristic Changes of the Stance-Phase Plantar Pressure Curve When Walking Uphill and Downhill: Cross-Sectional Study. J Med Internet Res. 2024;26:e44948 [IF 5.8]
  4. Warmerdam E, Horn D, Filip R, Freier K, Ganse B, Classen C. Gait Asymmetries after Fibular Free Flap Harvest: A Cross-Sectional Observational Study. Clin Biomech. 2024;106259 [IF 1.4]
  5. Warmerdam E, Wolff C, Orth M, Pohlemann T, Ganse BLong-term continuous instrumented insole-based gait analyses in daily life have advantages over longitudinal gait analyses in the lab to monitor healing of tibial fractures. Front Bioeng Biotechnol. 2024;12:1355254. [IF 4.3]
  6. Wickert K, Roland M, Andres A, Diebels S, Ganse B, Kerner D, Frenzel F, Tschernig T, Ernst M, Windolf M, Müller M, Pohlemann T, Orth M. Experimental and virtual testing of bone-implant systems equipped with the AO Fracture Monitor with regard to interfragmentary movement. Front Bioeng Biotechnol. 2024;12:1370837. [IF 4.3]

2023

  1. Koch L, Orth M, Fink T, Meiser A, Volk T, Menger MD, Laschke MW, Pastor T, Knobe M, Pohlemann T, Ganse B. Lower oxygen saturation with higher rates of norepinephrine in bone fractures of polytrauma patients – a pilot study. Crit Care. 2023;27(1):367. [IF 8.7]
  2.  Warmerdam E, Orth M, Pohlemann T, Ganse B. Gait analysis to monitor fracture healing of the lower leg. Bioengineering. 2023;10(2):255. doi: 10.3390/bioengineering10020255 [IF 3.8]
  3. Orth M, Ganse B, Andres A, Wickert, K, Warmerdam E, Müller M, Diebels S, Roland M, Pohlemann T. Simulation-based prediction of bone healing and treatment recommendations for lower leg fractures: effects of motion, weight-bearing and fibular mechanics. Front Bioeng Biotechnol. 2023;11:1067845. doi: 10.3389/fbioe.2023.1067845. [IF 4.3]
  4.  Wolff C, Steinheimer P, Warmerdam E, Dahmen T, Slusallek P, Schlinkmann C, Chen F, Orth M, Pohlemann T, Ganse B. Effects of age, body height, body weight, body mass index and handgrip strength on the trajectory of the plantar pressure stance-phase curve of the gait cycle. Front Bioeng Biotechnol. 2023;11:11100999. doi.org/10.3389/fbioe.2023.1110099 [IF 4.3]
  5. Welsch F,  Kirsch S-M, Ehl L, Britz R, Pohlemann T, Ganse B, Seelecke S, Motzki P.  Active Implant System Based on SMA-Actuators for Improved Bone Fracture Healing. Smart Materials, Adaptive Structures and Intelligent Systems. conference abstract 2023

2022

  1. Ganse B, Orth M, Roland M, Diebels S, Motzki P, Seelecke S, Kirsch SM, Welsch F, Andres A, Wickert K, Braun BJ, Pohlemann T. Concepts and Clinical Aspects of Active Implants for the Treatment of Bone Fractures. Acta Biomater. 2022;146:1-9. [IF 9.7]

2021

  1. Braun B, Orth M, Diebels S, Wickert K, Andres A, Gaslitza J, Bücker A, Pohlemann T, Roland M. Individualized Determination of the Mechanical Fracture Environment After Tibial Exchange Nailing-A Simulation-Based Feasibility Study. Frontiers in Surgery 2021; 8:749209 [IF 1.6]
  2. Zimmer L, Britz R, Goergen Y, Rizzello G, Pohlemann T, Orth M, Ganse B, Seelecke S, Motzki P.  An SMA-based multifunctional implant for improved bone fracture healing. Smart Materials, Adaptive Structures and Intelligent Systems. conference abstract 2021