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Full-Text Articles in Medical Biotechnology
Six-Month Report Assessing The Feasibility And Effectiveness Of Amniotic Membrane Injections In Patients With Short, Anterior, Urethral Strictures, Nicholas Pryde, Jack Vernocke, Aron Liaw, Michael Sessine, Nivedita Dhar
Six-Month Report Assessing The Feasibility And Effectiveness Of Amniotic Membrane Injections In Patients With Short, Anterior, Urethral Strictures, Nicholas Pryde, Jack Vernocke, Aron Liaw, Michael Sessine, Nivedita Dhar
Medical Student Research Symposium
Introduction: Urethral stricture treatment has high recurrence rates and adjunct injectable agents have been explored. Amniotic membranes (AM) promote apoptosis of pro-inflammatory cells, prevent differentiation of pro-fibrotic cells, and decrease scar formation. These tissues generated interest in reconstructive urethral surgery. Thus, we performed urethral dilation combined with micronized AM injection in urethral scar tissue for treatment of urethral stricture.
Materials and Methods: Adult males with strictures ≤12Fr in diameter and ≤2 cm in length, International Prostate Symptom Score (IPSS) ≥11 and maximum flowrate <15 ml/s. Reconstituted 100mg micronized AM was injected at the time of urethral dilation. Primary study end point was anatomical success (≥14Fr by cystoscopy) at 6 months. Secondary end points were questionnaires, flow rate, and post void residual. Outcomes assessed at baseline, 5 days, 14 days, 3 months, and 6 months post-injection. Safety was analyzed.
Results: Ten men, mean age of 52 ± 15 years, were included. There were 7 patients with …
Epithelial And Mesenchymal Olfactory Stem Cells Gathered With Minimally-Invasive Micro-Brush, Tyler Petersen
Epithelial And Mesenchymal Olfactory Stem Cells Gathered With Minimally-Invasive Micro-Brush, Tyler Petersen
Medical Student Research Symposium
Spinal cord injury (SCI) causes devastating lifestyle and financial consequences for the patient. Treatment strategies emphasize neuroprotection, but not regeneration. In this regard, stem cells are an innovative field of study that has the potential to regenerate neural tissue, thereby increasing a person’s ability to regain function. The purpose of this project is two-fold: to attain olfactory stem cells located in the nasal canal in a minimally-invasive way and to gather neural cells from the epithelium and mesenchymal cells in the lamina propria. Cells were gathered with sterile nasal micro-brushes, stored, and grown in flasks. After cells reached confluency, they …