PodChatLive is a regular live chat for the ongoing education of Podiatry practitioners as well as other health professionals and doctors which can be interested in the foot and related issues. The stream goes out live on Facebook and next is later on edited and then transferred to YouTube for a different audience. Every livestream episode has a different guest or number of guests to talk about a distinctive theme each and every time. Problems are answered live by the hosts and guests while in the live on Facebook which can get quite active. There's also an audio PodCast edition that is taped of each show that can be found on iTunes and also Spotify and the other typical podcast resources through the AnchorFM system. They already have accomplished a considerable following which will keep growing on all of the different platforms that it's obtainable upon. It is undoubtedly among the many means by which podiatrists can get cost-free and ongoing professional development points or time that many places require they have for ongoing licensing.
Among the assortment of themes that had been talked about, among the early on streams that proved to be quite popular had been one with Cylie Williams PhD who is a podiatrist in clinical practice in Melbourne, Australia as well as the Allied Health Research Lead, at Peninsula Health and NHMRC ECF Health Professional Research Fellow at Monash University. Cylie offers a web-based education and learning and mentoring system for Podiatrists focused on paediatrics. In this show Cylie reviewed an array of linked issues with the hosts including the collaborative Great Foundations undertaking she's now involved in with collaborators in many different countries on paediatrics. Cylie gave us her top three clinical pearls when looking at and evaluating a paediatric patient to ensure that absolutely nothing is neglected. The episode also talked about a great deal of principles round the thought of research translation, which is how esoteric scholastic research can be made highly relevant to daily clinical work.
An injury from running is simply brought on by doing a lot of running beyond what the body can handle. The issue is that runners need to push harder should they wish to achieve improved times. However, pushing too hard before the body getting the chance to get used to working so hard ensures that there is an increased threat for injury. There's a fine line involving running hard to increase running speeds and working very hard so that an injury happens. In addition to this issue of the way the amount of work of the athlete is managed, there are a variety of additional factors that can increase the probability of exercise related injury. These may be the use of the wrong athletic shoes or perhaps there could be intrinsic structural factors that affect the way in which the athlete really runs. Running strategy is today thought to be an important matter in overuse injury causes and protection. In an edition of the podiatry live, PodChatLive, the hosts chatted of these problems with the physiotherapist, Stacey Meardon, PT, PhD. The hosts and Stacey described some of her research that has looked at those structural risks for overuse injury, especially the step width change for medial stress syndrome and knee injury. There were several excellent clinical pearls to consider when a runner presents to your facility having a suspected bone stress injury.
Stacey Meardon is a Physical Therapist in addition to Assistant Professor at East Carolina University in the United States of America. Her major research interests include neuromuscular as well as structural elements that contribute to injuries in athletes. The primary goal of her scientific studies are to stop exercise related injury in the active populations hoping to improve lasting bone and joint health as well as get rid of every obstacles to exercise. Stacey's research is largely aimed at identifying alignment issues which bring about overuse injury and raised tissue stress in the course of physical exercise so that interventions that clinicians can fix biomechanical factors related to overuse injury, reduce pain, as well as improve biomechanics.