Jochen Eulert
University of Würzburg
84 Papers
997 Citations
Jochen Eulert is an academic researcher from University of Würzburg. The author has contributed to research in topics: Heterotopic ossification & Osteoblast. The author has an hindex of 31, co-authored 84 publications.
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Papers
Octreotide therapy for tumor-induced osteomalacia.
Jochen Seufert,K Ebert,J Müller,Jochen Eulert,Christian Hendrich,E Werner,N Schuüze,G Schulz,Werner Kenn,H Richtmann,K D Palitzsch,Franz Jakob +11 more
TL;DR: A patient with the rare syndrome of tumor-induced osteomalacia, which is accompanied by phosphaturia and hypophosphatemia, was abolished by octreotide, a synthetic somatostatin analogue, before successful surgical removal of a benign hemangiopericytoma.
237
Reduced postoperative pain in total hip arthroplasty after minimal-invasive anterior approach
Sascha Goebel,Andre F. Steinert,Judith Schillinger,Jochen Eulert,Jens Broscheit,Maximilian Rudert,Ulrich Nöth +6 more
TL;DR: The implantation of a hip prosthesis through a minimal-incision anterior approach is successful in reducing postoperative pain and consumption of pain medication, and time to reach a defined range of motion.
175
Prevention of heterotopic ossification after total hip replacement: a prospective, randomised study using acetylsalicylic acid, indomethacin and fractional or single-dose irradiation
TL;DR: Patients in the acetylsalicylic acid group and those with a single irradiation of 5 Gy after operation developed significantly more ossification than those in the indomethacin and other irradiation groups.
146
Anterior cruciate ligament constructs fabricated from human mesenchymal stem cells in a collagen type I hydrogel.
Ulrich Nöth,K. Schupp,A Heymer,S. Kall,Franz Jakob,Norbert Schütze,Bernd Baumann,Thomas Barthel,Jochen Eulert,Christian Hendrich +9 more
TL;DR: ACL-like constructs from a collagen type I hydrogel, optimized for the reconstruction of ligaments, and MSC have been fabricated, indicating a ligament-specific increased protein and gene expression and the formation of a ligaments-like extracellular matrix.
138
Custom-made composite scaffolds for segmental defect repair in long bones
Johannes C. Reichert,Martin Wullschleger,Amaia Cipitria,Amaia Cipitria,Jasmin Lienau,Tan K. Cheng,Michael A. Schütz,Georg N. Duda,Ulrich Nöth,Jochen Eulert,Dietmar W. Hutmacher +10 more
TL;DR: The study results suggest that scaffolds based on aliphatic polyesters and ceramics, which are considered biologically inactive materials, induce only limited new bone formation but could be an equivalent alternative to autologous bone when combined with a biologically active stimulus such as bone morphogenetic proteins.
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