Neurosurgery Lectures Benefit from a Flipped Class Approach.

BACKGROUND: In a flipped classroom, students learn lecture material before class and then participate in active learning during in-person sessions. This study examines preferences for flipped classroom activities during a neurosurgery presentation on traumatic brain injury. METHODS: Two hundred twenty-five third- and fourth-year medical students on their core neurology rotation watched an online podcast about traumatic brain injury before meeting for in-person, active learning activities with a neurological surgeon. Before and after the class, students were given rank-based surveys with an optional section for comments. The initial survey assessed preference for specific active learning activities, and the final survey assessed satisfaction with the experience. The students also answered an online 20-question postlecture test as part of the standard neurology class assessment. RESULTS: Every student scored over 90% on the postlecture test. Of the 81 students who answered the first survey, most students (83.95%) strongly preferred or preferred case scenarios with group discussion. The average Likert score for case scenario preference (4.37/5) was significantly higher than the score for all other activities (P < 0.05). Of the 207 students who answered the second survey, 80.19% of students reported that they would probably or definitely like to see more flipped classroom activities. CONCLUSIONS: Medical students highly preferred case scenarios because according to their comments, this method was relevant to real-life situations and led to higher information retention. This information suggests that the flipped classroom model for neurosurgical-based lectures is preferred, is beneficial, and should incorporate case scenarios. This methodology may also apply to neurosurgical residency training.

Regulatory role of microRNAs in cancer through Hippo signaling pathway.

Cancer is the major cause of death worldwide in countries of all income levels. The Hippo signaling pathway is a Drosophila kinase gene that was identified to regulate organ size, cell regeneration, and contribute to tumorigenesis. A huge variety of extrinsic and intrinsic signals regulate the Hippo signaling pathway. The Hippo signaling pathway consists of a wide array of components that merge numerous signals such as mechanical signals to address apoptosis resistance, cell proliferation, cellular outputs of growth, cell death and survival at cellular and tissue level. Recent studies have shed new light on the regulatory role of microRNAs in Hippo signaling and how they contribute to cancer progression. MicroRNAs influence various cancer-related processes such as, apoptosis, proliferation, migration, cell cycle and metabolism. Inhibition and overexpression of miRNAs via miRNA mimics and miRNA inhibitors, respectively, can uncover a hopeful and reliable insight for treatment and early diagnosis of cancer patients. In this review we will discuss our current understanding of regulatory role of miRNAs in Hippo signaling pathway.