M
Marlan R. Hansen
Researcher at University of Iowa
Publications - 200
Citations - 5427
Marlan R. Hansen is an academic researcher from University of Iowa. The author has contributed to research in topics: Cochlear implant & Hearing loss. The author has an hindex of 36, co-authored 179 publications receiving 4267 citations. Previous affiliations of Marlan R. Hansen include University of Utah & University of Iowa Hospitals and Clinics.
Papers
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Expression of neuregulin and activation of erbB receptors in vestibular schwannomas: possible autocrine loop stimulation.
TL;DR: Vestibular schwannomas produce and respond to neuregulin in an autocrine fashion, and because erbB2 exists in an activated state, as evidenced by phosphorylated-erbB2 immunoreactivity, it likely responds to the locally produced neuresgulin.
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Surgical management of internal auditory canal and cerebellopontine angle facial nerve schwannoma.
TL;DR: Tumor debulking for FNS provides an opportunity for tumor removal and excellent facial nerve function and Serial postoperative imaging is warranted to monitor for recurrence.
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Acoustic plus electric speech processing: Long-term results.
TL;DR: In this paper, the authors investigated the stability of residual hearing and speech perception outcomes in individuals who were implanted with a shorter electrode device and had a minimum 2 years (and up to 15 years) of postoperative longitudinal experience.
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Facial and lower cranial neuropathies after preoperative embolization of jugular foramen lesions with ethylene vinyl alcohol.
Brian C. Gartrell,Marlan R. Hansen,Bruce J. Gantz,Michael B. Gluth,Sarah E. Mowry,Beverly Aagaard-Kienitz,Mustafa K. Baskaya,Samuel P. Gubbels +7 more
TL;DR: The first report documenting facial and lower Cranial neuropathies after super-selective embolization of head and neck paragangliomas with EVA is presented, plausible that the use of ethylene vinyl alcohol during SSE may result in a higher risk of permanent cranial neuropathy than theUse of other well-established and more temporary agents.
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Photopolymerizable Zwitterionic Polymer Patterns Control Cell Adhesion and Guide Neural Growth.
TL;DR: This work reports on the photografting and patterning of two zwitterionic materials, sulfobetaine methacrylate (SBMA) and carboxybetaine methamphetamine (CBMA), for controlling the adhesion and directionality of cells relevant to neural prosthetics.