Amy Wells Quinkert scite author profile

Objective To determine the efficacy of fibroblast growth factor‐2 (FGF‐2) in treating chronic nonhealing tympanic membrane (TM) perforations. Method Double‐blinded, randomized placebo controlled phase 2 clinical trial for patients with chronic TM perforations of more than 3 months duration with a cross‐over arm. Patients received either FGF‐2 or placebo (sterile water) saturated gelatin sponge in the perforation after rimming the perforation under topical anesthesia. The perforation was then covered with Tisseel fibrin glue. The primary endpoint was complete closure of the TM perforation. Secondary end points included change in hearing and partial TM closure rates. The TM was examined every 3 weeks with otoendoscopy for closure. The treatment was repeated if there was incomplete closure every 3 weeks up to a total of three treatments per arm. Results Seventy four patients were recruited for the study. Fifty seven met eligibility criteria and fifty four completed the study. Ten of 14 perforations closed completely in the placebo group (71.4%) and 23 of 40 perforations closed completely in the FGF‐2 treatment group (57.5%), P value = .36. Pure tone averages and word recognition scores were not statistically significantly different between study groups post‐treatment. After initial complete closure, re‐perforation occurred in seven FGF‐2 treated patients and two placebo patients making the effective final closure rate 40% for FGF and 57% for placebo, respectively. Conclusion No statistically significant difference in tympanic membrane perforation closure rate was found between the FGF‐2 and placebo groups. There were no differences in hearing outcomes between the groups. Level of evidence 1b.

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Temporally-patterned deep brain stimulation in a mouse model of multiple traumatic brain injury

Tabansky

Quinkert

Rahman

et al. 2014

Behavioural Brain Research

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We report that mice with closed-head multiple traumatic brain injury (TBI) show a decrease in the motoric aspects of generalized arousal, as measured by automated, quantitative behavioral assays. Further, we found that temporally-patterned deep brain stimulation (DBS) can increase generalized arousal and spontaneous motor activity in this mouse model of TBI. This arousal increase is input-pattern-dependent, as changing the temporal pattern of DBS can modulate its effect on motor activity. Finally, an extensive examination of mouse behavioral capacities, looking for deficits in this model of TBI, suggest that the strongest effects of TBI in this model are found in the initiation of any kind of movement.

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Amy Wells Quinkert

Temporal patterning of pulses during deep brain stimulation affects central nervous system arousal

Topical fibroblast growth factor‐2 for treatment of chronic tympanic membrane perforations

Temporally-patterned deep brain stimulation in a mouse model of multiple traumatic brain injury

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