In 2013, twenty-two states enacted seventy provisions restricting access to abortion. The legislation restricted access to abortions by instituting more regulations on providers and facilities, by prohibiting abortion prior to viability, by restricting funding available to patients and by requiring patients to wait a mandatory time period before having a procedure. Genetic counselors are trained to provide unbiased, comprehensive information in a non-directive style in order to allow patients to exercise their reproductive freedom. We developed a survey of 37 questions for genetic counselors to gauge the potential impact these provisions will have on their ability to be a patient advocate. A total of 286 individuals completed the survey; however, not all respondents answered all questions. Qualitative questions complemented quantitative survey entries, allowing respondents to input thoughts and examples. Results indicate genetic counselors in all regions share similar professional opinions about the provisions. More genetic counselors in the South and Midwest noticed changes impacting patients since the provisions have been enacted. These regional differences correlate with the location of states that have seem the greatest increase in antiabortion provisions.
Most diabetes patients eventually suffer from peripheral nerve degeneration. Unfortunately, there is no treatment for the condition and its mechanisms are not well understood. There is, however, an emerging consensus that the inability of peripheral nerves to regenerate normally after injury contributes to the pathophysiology. We have previously shown that regeneration of peripheral axons requires local axonal translation of a pool of axonal mRNAs and that the levels and members of this axonal mRNA pool are altered in response to injury. Here, we show that following sciatic nerve injury in a streptozotocin rodent model of type I diabetes, this mobilization of RNAs into the injured axons is attenuated and correlates with decreased axonal regeneration. This failure of axonal RNA localization results from decreased levels of the RNA binding protein ZBP1. Over-expression of ZBP1 rescues the in vitro growth defect in injured dorsal root ganglion neurons from diabetic rodents. These results provide evidence that decreased neuronal responsiveness to injury in diabetes is due to a decreased ability to alter the pool of axonal mRNAs available for local translation, and may open new therapeutic opportunities for diabetic peripheral neuropathy.
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