TS-002177 — Researchers at Nationwide Children's Hospital are in the process of developing an Adeno-Associated Virus (AAV) gene therapy for the Eukaryotic Initiation Factor 2B complex (EIF2B5) related Vanishing White Matter Disease (VWM), an inherited pediatric leukodystrophy disease resulting from autosomal recessive mutations in the five subunit genes of EIF2B5. VWM deteriorates the central nervous system’s white matter which affects the brain’s communication and function. Common symptoms include spasticity, ataxia, hypotonia, speech issues, dysphagia, vision and hearing impairments along with cognitive deficits. The research team is evaluating the CSF delivery of AAV serotype 9 that will target astrocytes which are central in VWM pathology in order to constitute potential therapeutic targets. The AAV vectors will provide wildtype copies of EIF2B5 to address the loss of function resultant from mutations.

TS-002176 — In order to effectively treat bacterial infections, a clear understanding of the bacterium’s antibiotic sensitivity is needed. Researchers at Nationwide Children’s Hospital’s Center for Microbial Pathogenesis created a new method to assist in prescribing antibiotics for infections caused by a biofilm to reduce the dosage and the length of antibiotic treatments.

TS-002172 — Current myometers on the market provide inconsistent results, reducing their reliability. Lindsay Alfano, PT, DPT, PCS at Nationwide Children’s Hospital proposed the creation of a new system called Smart Myometry to limit variability and to make strength testing more reliable.

TS-002171 — Approximately 30% of children and adolescents experience chronic pain. Researcher, Vanessa Olbrecht, MD, at Nationwide Children’s Hospital developed the FOREVR VR, a device that aims to help patients learn how to regulate their nervous system by maintaining their breathing and heart rate variability.

TS-002170 — With the lack of replacement tissue for airway reconstruction, researchers at Nationwide Children’s Hospital developed the 3D Printed Tracheal Bioreactor for Partial Decellularization. Their new process, Partial Decellularization, treats allografts for tracheal replacement. During testing of small animal subjects, they found that allografts supported epithelial regeneration. They then 3D printed the Bioreactor for the translation and adaptation of Partial Decellularization to human-sized grafts. As a result, Partial Decellularization with the bioreactor simultaneously removed immunogenic cell types of the trachea while preserving the immunoprotected cartilage. This technology is easily accessible to medical centers who are interested. The creation and assembly of the Bioreactor through 3D printing allows it to be easily sealed, assembled and reduces the risks of contamination making it unlike any other bioreactor on the market.

TS-002169 — Existing models of Organ-on-a-Chip cost more to produce and have limited ability to functionally recapitulate human native tissues due to their limited incorporation of cell types. Researchers at Nationwide Children’s Hospital developed an improved model with their microfluidic Organ-on-a-chip fabrication based on 3D printing. This model optimizes and improves formulation of an extracellular matrix (ECM) that mimics the lamina propria (LP) to sustain the attachment and expansion of different cell types meaning this innovative model has cellular complexity that allows it to mimic human organs and replace animal models in various research settings.

TS-002168 — Children have a higher chance of morbidity and mortality from respiratory viral infections. Severe respiratory viral infections like Respiratory Syncytial Virus (RSV) and Parainfluenza viruses can lead to the development of asthma in patients. Clinical researchers at Nationwide Children’s Hospital found that neuregulin-1 (Nrg-1) may be an effective and protective treatment for patients diagnosed with severe respiratory viral infections. Their successful models with mice showed that Nrg-1 may prevent post-viral airway disease and reduce mortality if further studied and applied to human patients in the future.

TS-001227 — A team of physicians at Nationwide Children's Hospital have developed a process to improve the acceptance of implanted vascular grafts. This Tissue Engineered Vascular Graft (TEVG) is patient-specific. It seeds patient cells onto a biodegradable tubilar scaffold, which is designed to dissolve with hydrolysis so that only the growing vessel remains. This system, the Closed Seeding System, combines patient imaging data, 3D-printing capabilities, and efficient collection and subsequent seeding of patient cells onto the TEVG scaffolding.

TS-001225 — Cystic fibrosis is an inherited disorder that affects cells that produce sweat and mucus, causing significant damage to the digestive system, lungs, and other organs. A team at Nationwide Children's Hospital has developed a non-invasive monitoring system to track and test a patient with this disease. This technology is a skin patch that measures the metabolomics of the patients sweat to evaluate the clinical health of patients afflicted with cystic fibrosis.

TS-001224 — Decks of cards have been used to facilitate knowledge for decades. A team of researchers led by Dr. Elise Berlan have developed a series of cards that combine summaries of contraceptive counciling information and patient preferences. This includes key components of contraceptive preferences which can then be used with a care provider to determine the best form of contraceptive for the patient's preference and decreases the stigma associated with discussing topics like contraceptives as adolecents or young adults.