Clinical Presentation and Management of Severe Acute Renal Failure in McArdle Disease.

McArdle disease, also known as glycogen storage disease type V, is an autosomal recessive disease due to the absence of myophosphorylase activity, leading to the complete disruption of glycogen breakdown in muscles. We present a rare case of a Caucasian male, aged 26 years, who developed rhabdomyolysis-induced acute renal failure and uremic encephalopathy. Neurological examination and histopathological studies supported the diagnosis of McArdle disease. The severity of his symptoms necessitated urgent hemodialysis, upon which the patient reported improvement in status. Acute renal failure in McArdle disease usually resolves with supportive treatment and maintenance of regular physical activity. Nevertheless, in more severe cases, intensive care with urgent hemodialysis may be needed. A multidisciplinary approach is necessary for the adequate management of similar cases.

Monolithically 3D-Printed Microfluidics with Embedded µTesla Pump.

Microfluidics has earned a reputation for providing numerous transformative but disconnected devices and techniques. Active research seeks to address this challenge by integrating microfluidic components, including embedded miniature pumps. However, a significant portion of existing microfluidic integration relies on the time-consuming manual fabrication that introduces device variations. We put forward a framework for solving this disconnect by combining new pumping mechanics and 3D printing to demonstrate several novel, integrated and wirelessly driven microfluidics. First, we characterized the simplicity and performance of printed microfluidics with a minimum feature size of 100 µm. Next, we integrated a microtesla (µTesla) pump to provide non-pulsatile flow with reduced shear stress on beta cells cultured on-chip. Lastly, the integration of radio frequency (RF) device and a hobby-grade brushless motor completed a self-enclosed platform that can be remotely controlled without wires. Our study shows how new physics and 3D printing approaches not only provide better integration but also enable novel cell-based studies to advance microfluidic research.

Anti-Glomerular Basement Membrane Disease as a Potential Complication of COVID-19: A Case Report and Review of Literature.

Since the COVID-19 outbreak has started, many reports showed that COVID-19 does not affect only the respiratory system but can alter multiple organs including kidneys. Anti-glomerular basement membrane disease (anti-GBM) is a systemic disease affecting mainly kidneys and lungs. It can sometimes be triggered by a respiratory infection such as influenza however the mechanism is not clear yet. We describe a novel case of Anti-GBM disease possibly complicating COVID-19. We report a case of a 63-year-old man who was admitted to our hospital for fever and myalgia and was found to have COVID-19. During hospitalization, he developed kidney injury along with pulmonary hemorrhage and was found to have anti-GBM antibodies. Our patient was treated as a case of Anti-GBM disease potentially triggered by COVID-19. Hence, the anti-GBM disease could be a potential complication of COVID-19.