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aerospace research. 3. Perform complex techniques or procedures including but not limited to: a. Utilizing confocal, fluorescence and live microscopy to image tissue and cells. b. ELISA, mass spectrometry
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characterize human ossicles, and exploit organ-on-chip technology. Postdoctoral duties include: Work with laboratory animals Cell culture work Work with human bone marrow mesenchymal cells Dissection of tissues
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Davos) focusing on a newly-proposed mechanism explaining the formation of bone in soft tissue, also called heterotopic ossification (doi:10.1016/j.mattod.2018.10.036 ). According to this mechanism, tissue
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18 Jan 2026 Job Information Organisation/Company Paracelsus Medical University Department Institute of Tendon and Bone Regeneration Research Field Biological sciences » Biological engineering
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George Emil Palade University of Medicine, Pharmacy, Science, and Technology of Târgu Mureș | Romania | 3 months ago
directions for implantable sensors in medical technology: Clinical needs and engineering challenges. APL Bioeng 2023;7(3):031506. Nishal S, Phaugat P, Devi R, et al. Harnessing 3D printing in bone tissue
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in the Kumar Lab is to study functional analysis of gonadotropin biosynthesis, secretion and action in gonads and bone and adipose tissues using multiple in vivo and in vitro approaches. These include
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imaging inside human long bones (https://doi.org/10.1007/978-3-030-91979-5_10). For optimal imaging inside bone, one must consider the challenging 3D wave physics imposed by bone tissue: wave refraction
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Engineering, and related fields, with a view to develop and optimize 3D bioprinted models, cell selection and expansion for bone models, biological and mechanical characterization of bioprinted tissues
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mechanics using wearable sensors. • Models of bone health in running populations. • Models of tissue stress and strain in athletes. • Models of health and performance in female athletes. • Models of athlete