Keyword Summaries

Functional Biomarkers of Platinum Chemotherapy and PARP Inhibitor Response
Lomonosova, Elena ; Mullen, Mary ; Verma, Priyanka ; Zhao, Peinan
T-020659

— T-020659 — Functional Biomarkers of Platinum Chemotherapy and PARP Inhibitor Response Technology Description Most patients diagnosed with high-grade serous ovarian cancer (HGSOC) undergo first-line platinum therapy and PARP inhibitor maintenance therapy. However, the degree to which HGSOC p…

EMMI- non-invasive imaging method for safe, accurate, robust monitoring of uterine contractions
Cahill, Alison ; Cuculich, Phillip ; Schwartz, Alan ; Wang, Yong
T-015805

— Technology Description Researchers at Washington University in St. Louis have developed an electromyometrial imaging (EMMI) method to non-invasively monitor uterine contractions. During pregnancy, many women experience preterm contractions. Sometimes these contractions progress to pre-term labor a…

Myocardial perfusion SPECT optimization
Jha, Abhinav Kumar ; Rahman, Md Ashequr ; Siegel, Barry ; Yu, Zitong
T-020357

— T-020357, T-020358, T-020744 Myocardial perfusion SPECT optimization Technology Description Researchers from the laboratory of Abhinav Jha at Washington University have devised methods to reliably improve and personalize myocardial perfusion SPECT imaging. The inventions include the following capa…

Myocardial perfusion SPECT optimization
Jha, Abhinav Kumar ; Rahman, Md Ashequr ; Siegel, Barry ; Yu, Zitong
T-020357

— T-020357, T-020358, T-020744 Myocardial perfusion SPECT optimization Technology Description Researchers from the laboratory of Abhinav Jha at Washington University have devised methods to reliably improve and personalize myocardial perfusion SPECT imaging. The inventions include the following capa…

EMMI- non-invasive imaging method for safe, accurate, robust monitoring of uterine contractions
Cahill, Alison ; Cuculich, Phillip ; Schwartz, Alan ; Wang, Yong
T-015805

— Technology Description Researchers at Washington University in St. Louis have developed an electromyometrial imaging (EMMI) method to non-invasively monitor uterine contractions. During pregnancy, many women experience preterm contractions. Sometimes these contractions progress to pre-term labor a…

High-yield, heat tolerant tomatoes
Frick, Elizabeth ; Strader, Lucia
T-018506

— Technology Description Researchers in Prof. Lucia Strader’s laboratory have cultivated genetically-stable, high-yield tomato plants that are tolerant to high temperature growing conditions (40oC). These plants were identified using a screen for mutants. Excitingly, two mutants (IR-12 an IR-1…

Efficient, high velocity air purification with a soft X-ray enhanced electrostatic precipitator
Biswas, Pratim ; Chadha, Tandeep ; Fang, Jiaxi
T-015444

— Engineers in Prof. Pratim Biswas’ laboratory have developed an electrostatic precipitator device that removes ultrafine pollutants and inactivates pathogens from the air at high efficiency and low cost. This gas cleaning system has the potential to replace HEPA filters for air filtering applic…

Adenovirus- human ACE2 transduction system to sensitize mice to SARS-CoV-2
Diamond, Michael ; Hassan, Ahmed
T-019482

— Technology Description Researchers at Washington University in St. Louis have developed a method to sensitize commercially available laboratory mice to SARS-CoV-2 infection. SARS-CoV-2 is the cause of the coronavirus disease 2019 (COVID-19) pandemic that has had severe morbidity and mortality impa…

Portable patient isolation and sample collection system to prevent spread of COVID-19 and other respiratory infections
Iqbal, Zahid
T-019400

— Technology Description Dr. Zahid Iqbal at Washington University in St. Louis has devised a portable, wearable patient isolation/oxygenation system designed to protect health care workers from respiratory infections (e.g., COVID-19) while facilitating diagnostic sample collection. This viral contai…

Human monoclonal antibodies against SARS-CoV-2 nucleocapsid protein
Ellebedy, Ali
T-019492

— Species: Human Target: SARS-CoV-2 nucleocapsid protein Applications: Description: Two recombinant fully human monoclonal antibodies that recognize SARS-CoV-2 spike protein (data below). Related Web Links: Ellebedy Profile; Ellebedy Lab

Single cell massively parallel reporter assays
Cohen, Barak ; Zhao, Siqi
T-019923

— Technology Description Researchers in Barak Cohen’s lab at Washington University have developed a method for single cell massively parallel reporter assay (scMPRA) to preserve cell type-specific information. This technology is scalable and sequencing platform agnostic. Massively parallel…

Data security for IoT and mobile devices using Bit2RNG random number generator with no additional hardware
Yan, Wei ; Zhang, Xuan "Silvia"
T-019418

— Technology Description Engineers in Prof. Xuan “Silvia” Zhang’s laboratory have developed a robust true random number generator (RNG) designed to be used as a low-resource security system for mobile and internet-of-things (IoT) devices. This technology, called “Bit2RNG&rdqu…

Scalable synthesis of stable, highly conductive, solution-processable PEDOT particles for organic electronics
D'Arcy, Julio M. ; Lu, Yang
T-019278

— Technology Description Researchers in Prof. Julio D’arcy’s laboratory have developed aerosol vapor polymerization (AVP), a scalable continuous batch-processing platform to produce bulk quantities of stable submicron conductive particles for organic electronics. Unlike traditional PEDOT…

“Gemini” connector device to prevent peripheral venous catheters from dislodging and leaking
Arias, Eric ; Bayly, Philip ; Dacey, Ralph ; Derdeyn, Colin ; Genin, Guy ; Kim, Albert ; Leuthardt, Eric ; Norlin, James ; Scheid, Brittany ; Singamaneni, Srikanth ; Vemuri, Chandu ; Wang, Lihong ; Zipfel, Gregory
T-014841

— Technology Description A team of researchers at Washington University in St. Louis have developed the patented “Gemini” breakaway connector to turn peripheral venous catheter (PVC) fluid flow on and off without leaking. In addition, this easy-to-use device is designed to prevent PVC di…

Treatments for multi-drug or broad addiction liability
Hatoum, Alexander
T-020521

— Technology Description Researchers at Washington University in St. Louis, led by Dr. Alexander Hatoum, have developed a computational model for improving the diagnosis and treatment of drug addiction. Using genome-wide association study (GWAS) of over 1 million subjects, Dr. Hatoum’s group d…

Single cell massively parallel reporter assays
Cohen, Barak ; Zhao, Siqi
T-019923

— Technology Description Researchers in Barak Cohen’s lab at Washington University have developed a method for single cell massively parallel reporter assay (scMPRA) to preserve cell type-specific information. This technology is scalable and sequencing platform agnostic. Massively parallel…

Novel benzo crown-ethers to create synthetic ion channels
Carrasquel Ursulaez, Willy ; Chanda, Baron
T-019832

— Technology Description Researchers in Baron Chanda’s lab at Washington University and Jennifer Schomaker’s lab at University of Wisconsin-Madison have developed a library of benzo(crown-ether) compounds capable of self-assembly into ion channels. These monoacylated and monoalkylated be…

Rechargeable anode-free sodium metal battery
Bai, Peng ; Lee, Youngju ; Ma, Bingyuan
T-019512

— Technology Description Researchers in Peng Bai’s lab at Washington University have developed an inexpensive rechargeable sodium metal battery with a 99.93% sodium retention rate. This battery uses glyme-based electrolytes with a low moisture content and a bare copper current collector to ach…

A Highly Efficient Brine Electrolyzer
Gayen, Pralay ; Ramani, Vijay ; Sankarasubramanian, Shrihari
T-019234

— Technology Description Researchers in the Ramani lab at Washington University have developed an electrolyzer capable of selectively splitting salty or brackish water into ultra-pure hydrogen and oxygen at high operating power densities. Originally designed to tap the perchlorate-rich water on the …

Human monoclonal antibodies against SARS-CoV-2 nucleocapsid protein
Ellebedy, Ali
T-019492

— Species: Human Target: SARS-CoV-2 nucleocapsid protein Applications: Description: Two recombinant fully human monoclonal antibodies that recognize SARS-CoV-2 spike protein (data below). Related Web Links: Ellebedy Profile; Ellebedy Lab

Mouse monoclonal antibodies against SARS-CoV-2 spike protein (Ellebedy)
Diamond, Michael ; Ellebedy, Ali ; Fremont, Daved
T-019438

— Species: Mouse Target: SARS-CoV-2 spike protein Applications: Description: Four murine monoclonal antibodies that recognize SARS-CoV-2 spike protein. Data below includes avaiable antibodies (mCoV.1.1C02; mCoV.1.2C08; mCoV.1.2D09; mCoV.1.2F05). Related Web Links: Ellebedy Profile; Ellebedy Lab …

Human monoclonal antibodies against SARS-CoV-2 spike protein
Ellebedy, Ali ; McIntire, Katherine ; Mudd, Philip ; Schmitz, Aaron ; Turner, Jackson
T-019454

— Species: Human Target: SARS-CoV-2 spike protein Applications: Description: Ten recombinant fully human monoclonal antibodies that recognize SARS-CoV-2 spike protein (data below). Related Web Links: Ellebedy Profile; Ellebedy Lab Available Antibodies mAb name Ag 30.0000 10.0…

Mouse monoclonal antibodies against SARS-CoV-2 spike protein
Diamond, Michael ; Fremont, Daved ; VanBlargan, Laura ; Zhao, Haiyan
T-019470

— Species: Mouse Target: SARS-CoV-2 spike protein Applications: Data: See table below for library of antibodies, inventor can recommend specific clones based on intended application. Related Web Links: Diamond Profile Available Antibodies Ab: Well # Final Boost flow cytometer…

High Performance Direct Methanol and Direct Ethanol Fuel Cells with Microscale Bipolar Interface
Ramani, Vijay ; Sankarasubramanian, Shrihari ; Wang, Zhongyang
T-019124

— Technology Description Engineers in Prof. Vijay Ramani’s laboratory have developed a biopolar interface membrane to prevent fuel crossover and improve the performance of direct methanol and direct ethanol fuel cells (DMFC and DEFC). This membrane separator is designed to maintain a steep pH …

Energy efficient, scalable neuromorphic computing with Growth Transform Neural Network
Chakrabartty, Shantanu ; Gangopadhyay, Ahana
T-019112

— Technology Description Engineers in Prof. Shantanu Chakrabartty’s laboratory have developed Growth Transform Neural Network (GTNN), a flexible system for designing scalable neuromorphic processors for use in deep learning systems and support vector machines. GTNN frames the neuromorphic syst…

Bio-robotic “artificial nose” system for detecting explosives and other chemicals
Altan, Ege ; Chakrabartty, Shantanu ; Chandak, Rishabh ; Mehta, Darshit ; Raman, Baranidharan ; Saha, Debajit ; Singamaneni, Srikanth ; Tadepalli, Sirimuvva ; Traner, Michael
T-019136

— Technology Description Prof. Barani Raman and colleagues have developed a robust, insect-based, non-invasive sensing system to detect explosives or other chemicals. This “artificial nose” technology includes methods to decode neural signals from the insect’s olfactory system and …

User-friendly methods to detect artifacts in super-resolution microscopy
Lew, Matthew ; Mazidisharfabadi, Hesamaldin ; Nehorai, Arye
T-019008

— Engineers at Washington University have devised an automated system to enhance super-resolution microscopy images by detecting and quantifying image artifacts using no a priori information. This project stems from the advanced imaging research in Prof. Matthew Lew’s laboratory that includes op…

Method of increasing chemotherapy sensitivity in leukemia using BET inhibitor
Mitra, Robi ; Moudgil, Arnav ; Wilkinson, Michael Nathaniel
T-019486

— Technology Description Researchers in Robi Mitra’s lab at Washington University in St. Louis have developed a method to increase the sensitivity of leukemias to chemotherapy by pre-treatment with a BET inhibitor. BET inhibitors convert stem-like leukemia cells to a more differentiated state …

NRF2 inhibitors as cancer therapeutics
Bowman, Brittany ; Dolle, Roland "Ron" ; Lapak, Kyle ; Major, Michael "Ben" ; Medcalf, Matthew
T-019534

— Disease indication – Diseases related to oxidative stress, including cancer, autoimmune disease, and Toxoplasma infection Drug format – Small molecule Drug class – Best-in-class Research stage and preliminary data – The researchers have synthesized a series of pyrimethamin…

Tissue engineering scaffold for cell differentiation and delivery to intervertebral disc for treating lower back pain
Barcellona, Marcos ; Setton, Lori ; Speer, Julie
T-019297

— Background: Severe low back pain and disability can result from intervertebral disc (IVD) degeneration caused by cell phenotype changes in the nucleus pulposus (NP) region. While autologous stem cells have be used to treat lower back pain, currently there are no tools to control differentiation of…

Deterministic two-photon controlled-phase logic gate
Chen, Zihao ; Shen, Jung-Tsung ; Zhou, Yao
T-018542

— Technology Description Researchers in the lab of Professor JT Shen at Washington University have developed a two-photon controlled-phase quantum logic gate capable of up to 97% fidelity at room temperature. The design uses chiral optical waveguides with photonic molecules to create a deterministic…

Rapid Strep Throat Diagnostic Using Host Gene Expression Analysis
Storch, Gregory ; Yu, Jinsheng
T-019526

— Technology Description Researchers in Prof. Gregory Storch’s laboratory have developed a molecular assay that utilizes the patient/host gene expression pattern to rapidly identify acute group A streptococcus (GAS) infection in patients with pharyngitis (sore throat) to help guide appropriate…

Antibody blocking IL-12 and IL-23 receptors to treat inflammatory diseases
Colonna, Marco ; Secca da Silva, Cristiane
T-019316

— Disease indication – Autoimmune diseases (plaque psoriasis, psoriatic arthritis, Crohn’s disease) Drug format – Monoclonal antibody Drug class – First-in-class Research stage and preliminary data – Researchers have stimulated human ILC3s with IL-23 in vitro, with and…

Flexible, “Single-Shot” Image Reconstruction System for Faster EIXPCT (Edge Illumination X-ray Phase-Contrast Tomography)
Anastasio, Mark ; Chen, Yujia ; Guan, Huifeng
T-016910

— Technology Description Joint reconstruction (“JR”) is a patented image reconstruction technique for “single shot” edge illumination x-ray phase-contrast tomography (EIXPCT). This system uses standard x-ray detection hardware and enables faster image acquisition times, lower…

A companion diagnostic to SARM1 inhibitors for neurodegenerative diseases
Bloom, Adam ; DiAntonio, Aaron ; Mao, Xianrong ; Milbrandt, Jeffrey
T-019378

— Technology Description Researchers at Washington University, led by Jeffrey Milbrandt, have developed a companion diagnostic for SARM1 inhibitors that detects pathogenic variants of the SARM1 gene. Patients with one of several identified variants of SARM1 would respond well to SARM1 inhibitor thera…

Range finder to improve X-ray image collection
Clayton, William ; Don, Steven
T-014196

— Technology Description Researchers at Washington University in St. Louis have developed a device that automatically measures and displays body thickness to optimize X-ray image collection. This device will improve X-ray image quality and reduce the radiation exposure to patients. The device es…

String Theory: Neurovascular Catheter System with 2-in-1 Variable Rigidity
Chandrasekaran, Vinay ; Genin, Guy ; Hafez, Daniel ; Hartquist, Chase ; Leuthardt, Eric ; Lowe, Halle ; Osbun, Joshua ; Zayed, Mohamed
T-019184

— An interdisciplinary team at Washington University has developed an easy-to-use neurovascular catheter system designed to reduce surgery time and prevent herniation during transradial interventions for stroke, aneurysms and other conditions. This device, called “String Theory”, can be sw…

Fast, simple, low-cost point-of-care diagnostics for COVID-19 and other infectious diseases
Buchser, William ; Lalli, Matthew ; Milbrandt, Jeffrey ; Mitra, Robi
T-019442

— Technology Description A team of Washington University researchers has developed a low-cost molecular diagnostics kit and reader that could provide rapid, widespread screening and surveillance for SARS-CoV-2 and other infections. This technology utilizes a reverse-transcription loop-mediated isot…

Ion Channel Blockade of Radium-223 Gut Uptake
Abou, Diane ; Thorek, Daniel
T-018999

— Technology Description Researchers at Washington University in St. Louis have developed a method to reduce gut uptake of Radium-223 and improve its targeting to metastasized bone cancer. Prostate cancer is the most common cancer among men and a leading cause of cancer-related mortality. Prostate c…

Urine-based metabolomics signature to predict severe COVID-19
Henderson, Jeffrey P. ; Marks, Laura ; Robinson, John
T-019592

— Technology Description A team of researchers has discovered a urinary metabolite pattern occurring early in COVID-19 disease progression that can predict which patients infected with SARS-CoV-2 are at high risk for respiratory failure or death. This metabolite signature could potentially provide a…

Modular Pressurized Coal Combustion (MPCC) for Highly Efficient Clean Coal Energy and Gas Production
Axelbaum, Richard ; Gopan, Akshay ; Yang, Zhiwei
T-018640

— Technology Description Engineers in Prof. Richard Axelbaum’s laboratory have developed Modular Pressurized Coal Combustion (MPCC), an economical, flexible, coal-fired boiler/burner system that could produce electricity at 1.3% higher efficiency than a state-of-the-art coal-fired plant with t…

Therapeutic food supplements that promote healthy gut microbiome to treat malnutrition
Barratt, Michael ; Chang, Hao-Wei ; Gehrig, Jeanette ; Gordon, Jeffrey ; Venkatesh, Siddarth
T-018889

— Technology Description Prof. Jeffrey Gordon and his colleagues have developed an inexpensive food formulation that could treat malnutrition and a range of associated health problems by repairing the gut microbiome. Children who are malnourished are currently treated with supplemental nutrition tha…

Engineered Oncolytic Zika Virus Therapy for Glioblastoma
Chheda, Milan ; Diamond, Michael ; Gorman, Matthew
T-017429

— T-017429 Engineered Oncolytic Zika Virus Therapy for Glioblastoma Technology Description Researchers in the laboratories of Michael Diamond and Milan Chheda at Washington University have developed prospective treatments for glioblastoma (GBM) through the application of an engineered Zika virus (ZI…

Antisense oligo to enhance neuronal survival in Huntington’s Disease
Oh, Youngmi ; Yoo, Andrew
T-020121

— Technology Description Researchers in Andrew Yoo’s laboratory at Washington University have developed an antisense oligonucleotide targeting a miRNA (miR-29b-3p) as a treatment for Huntington’s disease (HD). Inhibiting miR-29b-3p promotes neuronal survival by rescuing neurons from deg…

Dynamic seal valve to prevent aerosol infection
Cashin, John ; Hartquist, Chase ; Lowe, Halle ; Zayed, Mohamed
T-019628

— Technology Description Researchers in Mohamed Zayed’s lab at Washington University have developed a dynamic seal valve that creates a seal around devices with varying cross sections. This valve could be deployed in masks to protect health care workers from aerosol infection while using airwa…

Combination therapy for malignant peripheral nerve sheath tumors
Amin, Neha ; Borcherding, Dana ; Hirbe, Angela
T-020000

— Technology Description Researchers in Angela Hirbe’s lab at Washington University have developed a method of treating malignant peripheral nerve sheath tumors (MPNSTs) with a combination of inhibitors. The most effective therapy is to combine an inhibitor of TYK2 with a MEK inhibitor. MPNST…

Technique to reduce juxta-anastomotic stenosis development in AV fistulae
Shenoy, Surendra
T-010339

— Technology Description Researchers at Washington University in St. Louis have developed a technique for arteriovenous fistula creation that reduces the incidence of juxta-anastomotic stenosis, which often leads to graft failure. The procedure involves clamping closed one end of the graft and attac…

NRF2 inhibitors as cancer therapeutics
Bowman, Brittany ; Dolle, Roland "Ron" ; Lapak, Kyle ; Major, Michael "Ben" ; Medcalf, Matthew
T-019534

— Disease indication – Diseases related to oxidative stress, including cancer, autoimmune disease, and Toxoplasma infection Drug format – Small molecule Drug class – Best-in-class Research stage and preliminary data – The researchers have synthesized a series of pyrimethamin…

Antibody blocking IL-12 and IL-23 receptors to treat inflammatory diseases
Colonna, Marco ; Secca da Silva, Cristiane
T-019316

— Disease indication – Autoimmune diseases (plaque psoriasis, psoriatic arthritis, Crohn’s disease) Drug format – Monoclonal antibody Drug class – First-in-class Research stage and preliminary data – Researchers have stimulated human ILC3s with IL-23 in vitro, with and…

High-speed perovskite LED fabrication by inkjet printing
Wang, Chuan ; Zhao, Junyi
T-019910

— Technology Description Researchers in Chuan Wang’s lab at Washington University have developed a method of fabricating perovskite LEDs (PeLEDs) directly on an elastic substrate more than 10X faster than existing methods. Each layer of the PeLED is patterned using a highly scalable inkjet pri…

Range finder to improve X-ray image collection
Clayton, William ; Don, Steven
T-014196

— Technology Description Researchers at Washington University in St. Louis have developed a device that automatically measures and displays body thickness to optimize X-ray image collection. This device will improve X-ray image quality and reduce the radiation exposure to patients. The device es…

Effective test for active tuberculosis infection
Chandra, Pallavi ; Coullon, Heloise ; Philips, Jennifer
T-019244

— Technology Description Researchers in Jennifer Philips’ lab at Washington University in St. Louis have developed a more sensitive biomarker test for active tuberculosis infection. These biomarkers, found in the sputum and plasma, comprise of cholesterol metabolites that are cooperatively prod…

Mutant PDGF-B as a VEGFR inhibitor
Imoukhuede, Princess
T-018996

— Technology Description Researchers in the Imoukhuede lab at Washington University have developed a library of mutant PDGF-B proteins to develop more effective VEGF pathway inhibitors. As PDGF-B also binds to VEGF receptors, a mutant form can be used to block VEGF binding and stop tumor angiogenesi…

Targeting TPL2 in RAS-mutated cancers
Dodhiawala, Paarth ; Lim, Kian-Huat
T-019493

— Technology Description Researchers in Kian-Huat Lim’s lab at Washington University have developed a therapeutic strategy to target TPL2 in RAS-mutated cancers, which should work synergistically with chemotherapy and radiation. As TPL2 (MAP3K8) is necessary for upstream activation of both MAP…

d42m1 & F279 tumor cell lines
Schreiber, Robert
T-011286

— D42m1 is a methycholanthrene (MCA) induced sarcoma cell line generated in 129S6 strain RAG2 gene targeted mice. These cells are highly immunogenic and are rejected when transplanted into syngeneic naive wild type mice. F244 is an MCA induced sarcoma cell line generated in wild type 129S6 mice. Thes…

SARS-CoV-2 neutralizing antibodies with distinct epitopes effective against multiple variants
Ellebedy, Ali
T-019707

— Disease indication – SARS-CoV-2 infection (COVID-19) Drug format Drug class – Best-in-class Research stage and Preliminary data – The inventors have developed and characterized these antibodies, creating a chimeric version with a human IgG backbone for SARS2-38. The antibodies have …

Deterministic two-photon controlled-phase logic gate
Chen, Zihao ; Shen, Jung-Tsung ; Zhou, Yao
T-018542

— Technology Description Researchers in the lab of Professor JT Shen at Washington University have developed a two-photon controlled-phase quantum logic gate capable of up to 97% fidelity at room temperature. The design uses chiral optical waveguides with photonic molecules to create a deterministic…

TREM2 blockade as an adjuvant for checkpoint inhibitors
Colonna, Marco
T-019371

— Disease indication – In combination with anti-PD-1 therapy for cancer. Anti-PD-1 therapy is currently approved for: Drug format – Monoclonal antibody Drug class – First-in-class Target – TREM2 Research stage and preliminary data – The inventors performed initia…

ELISpot assay to immune phenotype patients
Hotchkiss, Richard ; Mazer, Monty ; Remy, Kenneth ; Turnbull, Isaiah
T-019522

— Technology Description A team of researchers, led by Richard Hotchkiss at Washington University in St. Louis, have developed a version of the ELISpot assay to determine if COVID-19 patients are in a hyper-inflammatory or immunosuppressed state. The results of this assay, which can be performed wit…

An alternative approach in antimalarial drug design
Djuranovic, Sergej ; Erath, Jessey Lee ; Pavlovic Djuranovic, Slavica
T-018688

— Technology Description Researchers in Sergei Djuranovic’s lab at Washington University have developed polybasic peptides and polymers to block Plasmodium falciparum adhesion as a treatment for malaria. These therapeutics reduce parasite infection of human cells, making this a promising alter…

Method of increasing chemotherapy sensitivity in leukemia using BET inhibitor
Mitra, Robi ; Moudgil, Arnav ; Wilkinson, Michael Nathaniel
T-019486

— Technology Description Researchers in Robi Mitra’s lab at Washington University in St. Louis have developed a method to increase the sensitivity of leukemias to chemotherapy by pre-treatment with a BET inhibitor. BET inhibitors convert stem-like leukemia cells to a more differentiated state …

Sustainable rare earth element extraction from coal ash
Jun, Young-Shin ; Zhu, Yaguang
T-019257

— Technology Description Researchers in Young-Shin Jun’s lab at Washington University have developed a more sustainable and efficient process for extracting rare earth elements from coal fly ash using supercritical fluids. Compared to the conventional roasting and acid leaching method, supercr…

Photothermal disinfection of N95 respirators
Jun, Young-Shin ; Singamaneni, Srikanth
T-019477

— Technology Description A team of researchers led by Young-Shin Jun have developed a polymer coating for N95 respirators that would permit fast, easy, and cheap N95 disinfection using only direct sunlight. The researchers coated the outermost fabric layer in polydopamine, which converts photon energ…

Fusion protein for treating multiple strains of Venezuelan equine encephalitis virus
Basore, Katherine ; Diamond, Michael ; Fremont, Daved ; Kafai, Natasha ; Kim, Arthur ; Ma, Hongming ; Thackray, Larissa
T-019414

— Disease indication – Venezuelan equine encephalitis virus (VEEV) infection, either naturally-arising and as a result of bioterrorism Drug format – Biologic (soluble receptor fusion protein) Drug class – First-in-class Mode of action – This soluble fusion protein contains domain …

PI3K inhibitors to treat Cytokine Release Syndrome
Amatya, Parmeshwar ; Carter, Alun ; Cooper, Matthew ; DiPersio, John
T-019429

— Technology Description A team of researchers, led by John DiPersio and Matthew Cooper at Washington University in St. Louis, have identified a small molecule kinase inhibitor capable of mitigating cytokine release syndrome following CAR-T cell therapy. PI3K inhibitors can suppress production of IL-…

An Intradermal Method for the Treatment of Hair Loss and Alopecia
Feng, Jing ; Hu, Hongzhen ; Luo, Jialie ; Yang, Pu
T-017716

— Technology Description: A team of researchers, led by Hongzhen Hu, at Washington University in St. Louis has developed a method of treating hair loss and alopecia by intradermal injection targeting TRPV4 activation. Using a small molecule TRPV4 agonist, a single intradermal injection is sufficient…

Tissue engineering scaffold for cell differentiation and delivery to intervertebral disc for treating lower back pain
Barcellona, Marcos ; Setton, Lori ; Speer, Julie
T-019297

— Background: Severe low back pain and disability can result from intervertebral disc (IVD) degeneration caused by cell phenotype changes in the nucleus pulposus (NP) region. While autologous stem cells have be used to treat lower back pain, currently there are no tools to control differentiation of…

String Theory: Neurovascular Catheter System with 2-in-1 Variable Rigidity
Chandrasekaran, Vinay ; Genin, Guy ; Hafez, Daniel ; Hartquist, Chase ; Leuthardt, Eric ; Lowe, Halle ; Osbun, Joshua ; Zayed, Mohamed
T-019184

— An interdisciplinary team at Washington University has developed an easy-to-use neurovascular catheter system designed to reduce surgery time and prevent herniation during transradial interventions for stroke, aneurysms and other conditions. This device, called “String Theory”, can be sw…

Fast, simple, low-cost point-of-care diagnostics for COVID-19 and other infectious diseases
Buchser, William ; Lalli, Matthew ; Milbrandt, Jeffrey ; Mitra, Robi
T-019442

— Technology Description A team of Washington University researchers has developed a low-cost molecular diagnostics kit and reader that could provide rapid, widespread screening and surveillance for SARS-CoV-2 and other infections. This technology utilizes a reverse-transcription loop-mediated isot…

MRI-based Alzheimer’s disease biomarkers for early diagnosis and clinical trials
Yablonskiy, Dmitriy ; Zhao, Yue
T-015754

— Technology Description Researchers in Prof. Dmitriy Yablonskiy’s laboratory have developed patented neuroimaging techniques to identify pre-clinical and early stage Alzheimer’s disease (AD) using MRI-based biomarkers of amyloid accumulation and other pathological changes in the brain. …

Rapid Strep Throat Diagnostic Using Host Gene Expression Analysis
Storch, Gregory ; Yu, Jinsheng
T-019526

— Technology Description Researchers in Prof. Gregory Storch’s laboratory have developed a molecular assay that utilizes the patient/host gene expression pattern to rapidly identify acute group A streptococcus (GAS) infection in patients with pharyngitis (sore throat) to help guide appropriate…

Single cell calling cards (scCC): Transposon system to simultaneously map transcription factors and quantify gene expression
Mitra, Robi ; Moudgil, Arnav ; Qi, Zongtai ; Wilkinson, Michael Nathaniel
T-018609

— Technology Description Researchers in Prof. Rob Mitra’s laboratory have developed single cell calling cards (“scCCs”), a robust and versatile self-reporting transposon system for high throughput analysis of protein-DNA binding with single cell resolution. This technology simulta…

Treatment for chronic migraines
Cao, Yu-Qing ; Cloud, Megan ; Hu, Rong ; Zhang, Jintao ; Zhang, Zhiyu
T-018942

— Technology Description Researchers at Washington University in St. Louis (WUSTL) have developed two methods for treating chronic migraine and post-traumatic headache. Chronic migraine and post-traumatic headache are highly prevalent and debilitating with limited treatment options. Further, for m…

Method to generate functionally mature, stem-cell derived, beta cells
Millman, Jeffrey ; Velazco-Cruz, Leonardo
T-019270

— Technology Description Researchers at Washington University in St. Louis have developed an improved method to differentiate stem-cells into functionally mature, insulin-secreting beta cells (SC-beta cells). Pancreatic beta cells play an important role in controlling blood glucose levels as they se…

Low-cost optical sensors for high performance, discrete hearing aids
Liao, Jie ; Yang, Lan
T-019167

— Technology Description A team of engineers in Prof. Lan Yang’s laboratory have developed ultra-sensitive, broad bandwidth optical sensors that could detect sound in low-cost, discrete hearing devices. This technology utilizes whispering gallery mode (WGM) resonators as compact photonic vibra…

PANIR: Photoacoustic near-infrared spectroscopy for monitoring preterm birth
Hu, Peng ; Macones, George ; Qu, Yuan "Ed" ; Stout, Molly ; Tuuli, Methodius ; Zhao, Peinan
T-018998

— Technology Description An interdisciplinary team of researchers has developed a photoacoustic near-infrared (PANIR) probe to predict preterm birth by quantifying water content in cervical tissue (an early and objective indicator of cervical remodeling). This compact photoacoustic endoscopy probe u…

Chimpanzee adenovirus-based vaccine for COVID-19
Curiel, David ; Diamond, Michael ; Dmitriev, Igor ; Hassan, Ahmed
T-019478

— Technology Description Researchers at Washington University in St. Louis have developed a chimpanzee adenovirus-based vaccine for COVID-19. COVID-19, the clinical syndrome caused by SARS-CoV-2 infection, has had extensive morbidity and mortality impacts and destabilized society. There is an urg…

Error correcting codes for robust, secure deep neural networks
Raviv, Netanel
T-019252

— Technology Description Researchers in Prof. Netanel Raviv’s laboratory have developed a provable error correcting code (ECC) system that could guarantee deep neural networks (DNN) are resilient to noise for robust, secure and private neural computation. This technology could be deployed in n…

Rapid PEG-based drug delivery implant for local treatment of cervical cancer
Azab, Abdel Kareem ; Federico, Cinzia ; Schwarz, Julie ; Sun, Jennifer
T-019396

— Technology Description Researchers in Prof. Kareem Azab’s laboratory have developed a fast, localized drug delivery system designed to maximize anti-tumor efficacy and reduce side effects by delivering chemotherapy directly to cervical tumors. The current standard-of-care treatment regimen …

Recombinant VSV vector for COVID-19 vaccine or drug screening
Rothlauf, Paul ; Whelan, Sean
T-019338

— Background: Recombinant vesicular stomatitis virus (VSV) has successfully been used to create a vaccine for Ebola virus that is currently on the market. Previously, Professor Sean Whelan and colleagues have exploited the VSV platform to create similar vectors for both SARS and MERS. Technology: The…

Encapsulation to protect detection antibodies in implantable and wearable biosensors
Chakrabartty, Shantanu ; Gupta, Rohit ; Luan, Jingyi ; Morrissey, Jeremiah ; Scheller, Erica ; Singamaneni, Srikanth
T-019364

— Technology Description An interdisciplinary team of researchers at Washington University have developed a universal system designed to extend the lifetime of implantable and wearable biosensors by protecting detection antibodies from harsh conditions and enabling a refreshing process to release bo…

Compound to treat alcohol use disorder
Covey, Douglas ; Mennerick, Steven
T-019232

— Technology Description Researchers at Washington University in St. Louis have developed new compounds that may be used to treat alcohol use disorder (AUD). AUD, a common condition that takes a high personal and public health toll, is characterized by severe problems with drinking- sufferers may co…

Blood-based biomarkers of Alzheimer’s disease for diagnostics and clinical trials
Cruchaga, Carlos ; Dube, Umber ; Ibanez, Laura
T-019198

— Technology Description: Researchers in Prof. Carlos Cruchaga’s laboratory have identified a sensitive and specific panel of circular RNAs (circRNA) that could be used for diagnosing, screening or monitoring patients with Alzheimer’s disease. The expression of these circRNAs tracks with …

Adhesive coated sutures for stronger musculoskeletal repairs
Genin, Guy ; Linderman, Stephen ; Thomopoulos, Stavros
T-014989

— Technology Description An interdisciplinary team at Washington University in St. Louis has developed patented adhesive-coated sutures with the potential to reduce ruptures following surgical repair of tendons and ligaments. These modified sutures are designed to minimize stress by shifting the mec…

Stent System for the Treatment of Aorto-Iliac Occlusive Disease
Wirtz, Alexander ; Zayed, Mohamed
T-018558

— Technology Description Researchers at Washington University in St. Louis developed an improved stent system to treat aorto-iliac occlusive disease. Aorto-iliac occlusive disease is caused by atherosclerotic plaque accumulation in the abdominal aorta where it connects to the common iliac arteries. …

Method to evaluate function of members of a gut microbiota
Gordon, Jeffrey ; Patnode, Michael
T-018760

— Technology Description Researchers at Washington University in St. Louis have developed a bead-based method to understand the functional states and metabolic capabilities of individual members of the human gut microbiota. The gut microbiota is increasingly linked to multiple aspects of human healt…

Antibiotic-sparing small molecule therapy for urinary tract infection and other Gram-negative pathogens
Dodson, Karen ; Hultgren, Scott ; Omattage, Natalie ; Pinkner, Jerome ; Yuan, Peng
T-018046

— Technology Description Researchers in Prof. Scott Hultgren’s laboratory have discovered an antibiotic-sparing method for treating infections from E. coli and other Gram-negative bacteria. This approach is designed to block pathogens from colonizing their host by using small molecule inhibito…

Real-time 3D MRI
Kim, Taeho ; Park, Chunjoo (Justin)
T-019011

— Technology Description Researchers at Washington University in St. Louis have developed a method for real-time, high-resolution 3D MRI that can be used in diagnostic MRI and MRI-guided radiotherapy (MRgRT). MRgRT combines medical imaging with radiation therapy to provide visualization of the tumor…

Biomimetic device for stronger repair of rotator cuff and other soft tissue-to-bone tears
Galatz, Leesa ; Genin, Guy ; Hoppe, Ethan ; Smith, Lester ; Thomopoulos, Stavros ; Yoon, Dong Hwan
T-019211

— Technology Description A team of engineers led by Professor Guy Genin has developed a device to strengthen the reattachment of soft tissue to bone for use in orthopedic procedures such as rotator cuff repairs. Although tendon and ligament tears are common, the techniques used to reattach these tis…

Improved NMR sensitivity with an integrated EPR-NMR spectrometer
Barnes, Alexander
T-014431

— Technology Description Researchers in Dr. Alexander Barnes’s lab at Washington University have developed a low-noise integrated EPR-NMR spectrometer with improved NMR sensitivity and faster acquisition times. This patented device can increase sensitivity in NMR experiments (potentially by a …

Radium Chelation For Targeted Alpha Particle Therapy
Abou, Diane ; Thorek, Daniel
T-019039

— Technology Description Researchers at Washington University in St. Louis have developed a method to chelate radium-223 and increase its utility in targeted alpha-particle therapy (TAT). TAT aims to deliver cytotoxic alpha-particles to cancer cells. Radium-223 is an alpha particle emitting isotope …

Learnable, scalable, energy efficient analog-to-digital interfaces and their automated design
Chakrabarti, Ayan ; Zhang, Xuan "Silvia"
T-017967

— Technology Description Engineers in Prof. Xuan “Silvia” Zhang’s laboratory have developed a unifying design and optimization paradigm to automate the design of analog-to-digital interfaces and create scalable, general purpose analog and mixed signal (AMS) blocks that employ machi…

Use of ent-allopregnanolone to treat glaucoma
Covey, Douglas ; Izumi, Yukitoshi ; Zorumski, Charles
T-018940

— Technology Description Researchers from Washington University in St. Louis and colleagues have identified ent-allopregnanolone (ent-AlloP) as a potential therapeutic to treat glaucoma. Glaucoma, the leading cause of irreversible blindness, results from damage to the retinal ganglion cells (RGSs) t…

Low-cost, single-step vapor deposition of thin film organic perovskites for solar and memristor applications
Banerjee, Parag ; Chen, Xiao ; Myung, Yoon
T-017124

— Technology Description Engineers in the Banerjee laboratory have developed a single-step, scalable vapor deposition process for fabricating high performance thin film perovskite materials at low temperature and atmospheric pressure. These lead-free, non-toxic films could be used as solar cell abso…

Steerable Thermoablation Probe for Improved Access to Brain Lesions
Leuthardt, Eric
T-015768

— Technology Description An interdisciplinary team led by Professor Eric Leuthardt has developed a steerable device that can be integrated into existing thermoablation systems to treat abnormal brain lesions. Thermoablation is a more targeted and less disruptive method for treating lesions than chem…

High-speed, low-cost, short-haul optical communications with on-chip polarization division multiplexing
Chamberlain, Roger ; Gruev, Viktor ; Ivanovich, Darko
T-018955

— Technology Description Engineers in Prof. Roger Chamberlain’s laboratory have developed a low-cost multiplexing technology for high-speed optical communications in data centers and other short-haul applications. This visible light communication (VLC) system is designed to create distinct par…

Therapeutic food supplements that promote healthy gut microbiome to treat malnutrition
Barratt, Michael ; Chang, Hao-Wei ; Gehrig, Jeanette ; Gordon, Jeffrey ; Venkatesh, Siddarth
T-018889

— Technology Description Prof. Jeffrey Gordon and his colleagues have developed an inexpensive food formulation that could treat malnutrition and a range of associated health problems by repairing the gut microbiome. Children who are malnourished are currently treated with supplemental nutrition tha…

Modular Pressurized Coal Combustion (MPCC) for Highly Efficient Clean Coal Energy and Gas Production
Axelbaum, Richard ; Gopan, Akshay ; Yang, Zhiwei
T-018640

— Technology Description Engineers in Prof. Richard Axelbaum’s laboratory have developed Modular Pressurized Coal Combustion (MPCC), an economical, flexible, coal-fired boiler/burner system that could produce electricity at 1.3% higher efficiency than a state-of-the-art coal-fired plant with t…

Blockchain-based algorithms for secure, collaborative risk assessment and decision making
Jain, Raj ; Salman, Tara
T-018710

— Technology Description Researchers in Prof. Raj Jain’s laboratory have developed a new type of algorithm that extends the security of decentralized blockchains from consensus validation to efficient group decision making. This technology, called “probabilistic blockchains”, provi…

Cytokine therapy for juvenile dermatomyositis and other autoimmune diseases
Alinger, Joshua ; French, Anthony ; Throm, Allison
T-018911

— Technology Description Researchers in Prof. Anthony French’s laboratory have discovered a signaling mechanism associated with juvenile dermatomyositis (JDM) that could potentially be targeted with cytokine-based therapies to treat JDM as well as other autoimmune disorders. This therapeutic a…

Target and method to treat alphavirus infections
Basore, Katherine ; Diamond, Michael ; Fremont, Daved ; Kim, Arthur ; Nelson, Christopher ; Thackray, Larissa ; Zhang, Rong
T-017583

— Technology Description Researchers at Washington University in St. Louis have identified a target for therapeutic development and created methods to potentially treat arthritogenic alphavirus infection. Arthritogenic alphaviruses, including chikungunya (CHIKV), Ross River, Mayaro and O’nyong…

Brachytherapy device for outpatient, MRI-guided treatment of gynecological cancers
Grigsby, Perry
T-012905

— Technology Description Researchers in Dr. Perry Grigsby’s lab have developed a patented brachytherapy device for outpatient, MRI-guided treatment of gynecological cancers. Gynecological cancers, such as recurrent endometrial and cervical cancers, can be treated with brachytherapy, but requir…

Hydrogel substrate system with easy, robust protein functionalization for cell culture
Pathak, Amit ; Sarker, Bapi
T-018649

— Technology Description Researchers in Prof. Amit Pathak’s laboratory have developed a hydrogel system that utilizes an aldehyde-based compound to easily and reliably pre-functionalize polyacrylamide for conjugation of proteins, such as collagen and fibronectin, for cell culture applications.…

Alpha-synuclein ligands as specific PET imaging probes for Parkinson’s Disease and other disorders
Dhavale, Dhruva ; Kotzbauer, Paul ; Tu, Zhude "Will" ; Yue, Xuyi
T-018038

— Technology Description A team of researchers at Washington University have developed and optimized highly potent PET imaging probes which are specific for the misfolded protein that is the hallmark of Parkinson’s disease and related disorders. This family of molecules was designed based on s…

Potent, locally-acting chemokine binding proteins to protect organ transplants and treat ischemic or inflammatory diseases
Fremont, Daved ; Lu, Yun Hsuan ; Lubman, Olga
T-017443

— Researchers in Prof. Daved Fremont’s laboratory have identified two potent, soluble proteins that could prevent damage to transplanted organs and potentially treat other autoimmune and inflammatory diseases by evading the immune response instigated by chemokines. In organ transplants, chemoki…

Applicator device for reducing artifacts in MR-guided gynecological brachytherapy
Grigsby, Perry ; Zoberi, Jacqueline
T-011297

— Technology Description Radiation oncologists at Washington University in St. Louis have developed a patented plastic sheath applicator device to improve treatment planning and tumor targeting in image-guided brachytherapy (IGBT) for uterine and cervical cancer. Currently, high-dose rate brachyther…

Deep Learning-Assisted Image Reconstruction for Tomographic Imaging
Anastasio, Mark ; Kelly, Brendan ; Matthews, Thomas
T-017311

— Background Image reconstruction for any modern imaging technique is an optimization problem. Most image reconstructions methods are iterative in nature and produce sequential intermediate images that are compared to the raw acquisition data and subsequently updated to maximize the likelihood that t…

Targeting hepatic arginine metabolism for treatment of metabolic diseases
DeBosch, Brian ; Higgins, Cassandra ; Mayer, Allyson ; Zhang, Yiming
T-017417

— Background Over 30% of adults in the world are overweight or obese. Lifestyle management has proven to be impractical and ineffective in real-life settings and there are no current treatments available for metabolic disease. Technology Summary Pharmacological or genetic activation of the Arginine…

Tumor Detection Using Digitally Enhanced and Stimulated Thermal Imaging
Achilefu, Samuel ; Meng, Hongyu ; Mondal, Suman ; O'Brien, Christine ; Shmuylovich, Leonid
T-018541

— Background Temperature differences between tumor and healthy tissue due to increased blood flow and metabolic activity are exploited for thermal imaging (TI) as an adjunct imaging modality for cancer diagnosis. Despite many technological advances and recent improvements, TI has a limited tumor dept…

pTAT/pTAT-HA plasmids and protein purfication protocol (Vectors are on deposit with Addgene)
Dowdy, Steven
T-000717

— Technology Description: Researchers at Washington University have developed a method that allows the transduction of full-length proteins by utilizing the pTAT or pTAT-HA protein expression plasmids. A protein of choice can be fused to a HIV-TAT transduction domain under the expression system. Ba…

Drugs to supplement microglial metabolism during treatment of Alzheimer’s disease
Colonna, Marco ; Ulland, Tyler
T-017401

— Background: Alzheimer’s disease (AD) is the 6th leading cause of death in the United States, and yet causation of the disease is poorly understood and targets for therapeutic intervention are still being identified. Recently, mutations in the immune receptor TREM2 have been found to be strongl…

Blood-based prognostic marker for respiratory distress from influenza and other viral infections
Mudd, Philip
T-019387

— Technology Description A team of researchers at Washington University has discovered an easily-measured, blood-based marker that could provide an early indicator to identify patients who will develop very severe disease following a viral infection. This immune cell marker for acute respiratory dis…

High-performance, nanoengineered two-phase cooling system for high powered electronics
Agonafer, Damena ; Ma, Binjian ; Shan, Li
T-018032

— Technology Description Engineers in Prof. Damena Agonafer’s laboratory have developed a highly-efficient, compact, modular evaporative cooling platform with materials and nanostructured geometries designed to greatly enhance thermal management of 3D integrated circuits, power converters and …

Targeting hepatic arginine metabolism for treatment of metabolic diseases
DeBosch, Brian ; Higgins, Cassandra ; Mayer, Allyson ; Zhang, Yiming
T-017490

— Background Over 30% of adults in the world are overweight or obese. Lifestyle management has proven to be impractical and ineffective in real-life settings and there are no current treatments available for metabolic disease. Technology Summary Pharmacological or genetic activation of the Arginine…

Low-cost, environmentally friendly synthesis of delta-MnO2 nanosheets for battery cathodes, catalysts and remediation
Jun, Young-Shin ; Jung, Haesung
T-018510

— Technology Description Engineers in Prof. Young-Shin Jun’s laboratory have developed a cost-effective, fast, green chemistry process to produce birnessite (δ-MnO2) nanosheets with naturally abundant resources. This method uses sunlight and nitrate to oxidize Mn2+ (aq) to Mn (IV) and ha…

Cell-based tumor targeting for delivering therapeutic and imaging agents
Azab, Abdel Kareem ; Muz, Barbara
T-018893

— Researchers in Prof. Abdel Kareem Azab’s laboratory have developed a biologically-targeted cellular drug delivery system to precisely target therapeutic or diagnostic agents to a wide range of cancers. Delivering drugs directly to cancer cells and not to healthy cells could improve outcomes by…

Optimized MHC-independent T cell receptors as a CAR-T alternative
Chang, Ju Fang ; Singh, Nathan
T-019636

— Technology Description Researchers in Nathan Singh’s lab at Washington University have developed a construct for cell therapy that combines facets of existing CAR-T therapy and the endogenous T cell receptor (TCR) to better regulate adoptive cell activation. Unlike the traditional TCR, this …

Low-Power, Fast Sensors for Infrastructure‐to‐Vehicle Communications in Autonomous Driving
Aono, Kenji ; Chakrabartty, Shantanu ; Kondapalli, Sri Harsha ; Pochettino, Owen
T-019014

— Engineers in Prof. Shantanu Chakrabarty’s laboratory have developed an RFID embedded sensor system for infrastructure-to-vehicle (I2V) communications that uses near-zero standby energy and offers the robust performance of actively powered communications. This technology is designed to provide …

Automated, Improved Deformable Image Registration for Radiation Therapy and other Clinical Applications
Yang, Deshan
T-017324

— Technology Description Prof. Deshan Yang and colleagues have developed automated systems and software toolkits to provide more accurate deformable image registration (DIR) for adaptive radiotherapy and other clinical applications. In particular, they have automated tedious and labor-intensive DIR …

Neural interface device for complex, specific stimulation of peripheral nerves
Christiansen, Blaine ; MacEwan, Matthew ; Moran, Daniel
T-007621

— Technology Description This technology is patented bipolar sieve electrode designed to stimulate peripheral nerves in a specific direction and thereby expand the potential of using this type of neural interface device in clinical applications such as nerve regeneration and prosthetics. Sieve elec…

Barbed mesh for fast, suture-less surgical wound closure
Felder, John
T-018828

— Technology Description: A surgeon at Washington University in St. Louis has designed a barbed mesh wound closure device with the potential to save time and improve outcomes by eliminating the need for surgical suturing to close incisions of the skin and fascia. This device has applications in a var…

Oxygen-releasing hydrogel for rapid wound healing
Guan, Jianjun ; Guan, Ya ; Niu, Hong
T-019931

— Technology Description Researchers in Jianjun Guan’s lab at Washington University have developed an oxygen-releasing hydrogel that accelerates wound healing. The biodegradable hydrogel is loaded with oxygen release microspheres (ORM) that slowly release oxygen into the surrounding tissue to …

High-throughput blood biomarker test for peripheral atherosclerosis
Semenkovich, Clay ; Zayed, Mohamed
T-017421

— Technology Description Researchers from Mohamed Zayed’s lab at Washington University have developed a blood biomarker test for atherosclerosis more accurate than LDL. Circulating levels of Fatty Acid Synthase (cFAS) in the serum correlate to a high degree to severity of peripheral atheroscle…

Versatile airway management system to reduce exposure to aerosolized SARS-CoV-2 and other pathogens
Iqbal, Zahid ; Lee, Jin Vivian ; Zayed, Mohamed
T-019443

— Technology Description Researchers in Dr. Mohamed Zayed’s laboratory have developed a versatile, sealable valve system for airway management devices that can protect healthcare workers by reducing their risk of exposure to aerosolized SARS-CoV-2 and other pathogens during risky pulmonary pro…

Nanomaterial to eliminate cold chain by preserving biological reagents and patient samples
Kharasch, Evan ; Morrissey, Jeremiah ; Singamaneni, Srikanth ; Wang, Congzhou

— Technology Description An interdisciplinary team at Washington University has developed low-cost, easy-to-use, nanoparticles that can preserve antibodies, proteins and other biological molecules without refrigeration. This technology employs metal organic frameworks (MOF) that can be used in two w…

Controlling charge doping in 2D materials
Balgley, Jesse ; Henriksen, Erik
T-019602

— Technology Description Researchers at Washington University in St. Louis have developed a method to control charge doping in 2D materials like graphene. This method uses α-RuCl3 to create pn junctions at a smaller scale than silicon transistors. While α-RuCl3 efficiently removes el…

Computer vision training system for robust artificial intelligence image classification
Tong, Liang ; Vorobeychik, Yevgeniy ; Wu, Tong
T-019303

— Technology Description Researchers in Prof. Yevgeniy Vorobeychik’s laboratory have developed a new adversarial model and training methods to defend deep neural networks against physical attacks that corrupt image classifications. This system outperforms previous state-of-the-art techniques a…

Therapeutic targets for atopic dermatitis
Kim, Brian ; Wang, Fang
T-019333

— Researchers at Washington University’s Center for the Study of Itch & Sensory Disorders have discovered a novel histamine-independent pathway that could be targeted to treat atopic dermatitis. Atopic dermatitis (AD) is a chronic inflammatory skin disease that presents with itch as its mos…

Metabolic biomarkers for accurate, real-time diagnostics and monitoring of C. difficile infection
Crowley, Jan ; Henderson, Jeffrey P. ; Robinson, John
T-019079

— Technology Description Researchers in Prof. Jeffrey Henderson’s laboratory have developed a method of analyzing metabolic biomarkers from fecal samples to more accurately identify C. difficile infection (CDI) and distinguish between symptomatic and asymptomatic colonization. CDI is currently …

Targeting hepatic arginine metabolism for treatment of metabolic diseases
DeBosch, Brian ; Higgins, Cassandra ; Mayer, Allyson ; Zhang, Yiming
T-017490

— Background Over 30% of adults in the world are overweight or obese. Lifestyle management has proven to be impractical and ineffective in real-life settings and there are no current treatments available for metabolic disease. Technology Summary Pharmacological or genetic activation of the Arginine…

T-018741 & T-019450 – Computational Improvements of Immunoassays
Brestoff Parker, Jonathan ; Gronowski, Ann ; Zaydman, Mark
T-018741

— T-018741 & T-019450 – Computational Improvements of Immunoassays Technology Description Researchers in Mark Zaydman’s laboratory at Washington University have optimized a new method to improve the analytical measurement range (AMR) in homogeneous turbidimetric immunoassays. The method ut…

Scalable Generation of Hematopoietic Progenitors from Human Pluripotent Stem Cells
Luff, Stephanie ; Sturgeon, Christopher
T-018886

— T-018886 — Scalable Generation of Hematopoietic Progenitors from Human Pluripotent Stem Cells Technology Description In vitro generation of CD34+ hematopoietic progenitor cells (HPC) that faithfully recapitulate in vivo behavior is an area of ongoing research. A key characteristic of CD34+ …

Uropathogen Vaccines
Dodson, Karen ; Ellebedy, Ali ; Feldman, Mario ; Hultgren, Scott ; Pinkner, Jerome ; Tamadonfar, Kevin ; Timm, Morgan
T-020120

— Technology Description Researchers in Scott Hultgren’s laboratory at Washington University have created two prospective vaccine treatments designed to prevent the colonization of prominent uropathogens. These vaccines have potential for treating urinary tract infections (UTIs) with specific m…

Oxygen-releasing hydrogel for rapid wound healing
Guan, Jianjun ; Guan, Ya ; Niu, Hong
T-019931

— Technology Description Researchers in Jianjun Guan’s lab at Washington University have developed an oxygen-releasing hydrogel that accelerates wound healing. The biodegradable hydrogel is loaded with oxygen release microspheres (ORM) that slowly release oxygen into the surrounding tissue to …

Optimized MHC-independent T cell receptors as a CAR-T alternative
Chang, Ju Fang ; Singh, Nathan
T-019636

— Technology Description Researchers in Nathan Singh’s lab at Washington University have developed a construct for cell therapy that combines facets of existing CAR-T therapy and the endogenous T cell receptor (TCR) to better regulate adoptive cell activation. Unlike the traditional TCR, this …

JAK inhibitor as conditioning agent for allogeneic hematopoietic stem cell transplantation
DiPersio, John ; Persaud, Stephen "Steve"
T-019132

— Technology Description Researchers at Washington University in St. Louis have developed an improved process for conditioning patients for allogeneic hematopoietic stem cell transplantation (alloHSCT) using JAK inhibitors. Commonly used to treat autoimmune diseases like rheumatoid arthritis, JAK inh…

IP-10 as a blood biomarker of respiratory failure
Mudd, Philip
T-019671

— Technology Description Researchers in Philip Mudd’s lab at Washington University have developed a blood biomarker test that detects impending respiratory failure before existing diagnostics. High levels of the biomarker IP-10 in the blood are correlated with the subsequent development of acu…

Controlling charge doping in 2D materials
Balgley, Jesse ; Henriksen, Erik
T-019602

— Technology Description Researchers at Washington University in St. Louis have developed a method to control charge doping in 2D materials like graphene. This method uses α-RuCl3 to create pn junctions at a smaller scale than silicon transistors. While α-RuCl3 efficiently removes el…

Chimeric antigen receptor dendritic cells
DeSelm, Carl
T-019199

— Technology Description Researchers at Washington University in St. Louis have developed a genetic method to produce chimeric antigen receptor dendritic cells (CAR-DCs) for the treatment of solid tumors. The team generated a CAR that drives differentiation of cDC1s and mediates tumor-specific uptak…

Therapeutic targeting of LDL in ALS
Kreple, Collin ; Miller, Timothy ; Nielsen, Susan ; Racette, Brad
T-020021

— Technology Description Researchers in Brad Racette and Tim Miller’s labs at Washington University have developed a therapeutic strategy for treating ALS by using statins to lower LDL. Statins were successful at prolonging both survival and time with a normal gait. The researchers identif…

High-throughput blood biomarker test for peripheral atherosclerosis
Semenkovich, Clay ; Zayed, Mohamed
T-017421

— Technology Description Researchers from Mohamed Zayed’s lab at Washington University have developed a blood biomarker test for atherosclerosis more accurate than LDL. Circulating levels of Fatty Acid Synthase (cFAS) in the serum correlate to a high degree to severity of peripheral atheroscle…

Improved MRI resolution with Diffusion Dictionary Imaging (DDI)
Wang, Qing ; Wang, Yong
T-019608

— Technology Description Researchers at Washington University in St. Louis have developed MRI post-processing software capable of imaging cellular components. The software matches specific patterns with a dictionary of signals corresponding to cellular components. While the researchers have previous…

Metabolic biomarkers for accurate, real-time diagnostics and monitoring of C. difficile infection
Crowley, Jan ; Henderson, Jeffrey P. ; Robinson, John
T-019079

— Technology Description Researchers in Prof. Jeffrey Henderson’s laboratory have developed a method of analyzing metabolic biomarkers from fecal samples to more accurately identify C. difficile infection (CDI) and distinguish between symptomatic and asymptomatic colonization. CDI is currently …

A novel modulator of tumor angiogenesis and anti-tumor immunity
Choi, Kyunghee ; Kabir, Ashraf Ul ; Krchma, Karen
T-019294

— Technology Description Researchers in Kyunghee Choi’s lab at Washington University in St. Louis have identified a novel target, Myct1, that modulates tumor angiogenesis and anti-tumor immune response. Myct1 inhibition with siRNA blocks angiogenesis and promotes infiltration of cytotoxic T ly…

Anti-fungal treatment and companion diagnostic for Crohn’s Disease
Jain, Umang ; Stappenbeck, Thaddeus
T-019293

— Technology Description: Researchers at Washington University in St. Louis have identified a new avenue for treatment of non-healing ulcers in patients with Crohn’s disease by targeting Debaryomyces hansenii. While the cause of Crohn’s disease is unknown, the fungus D. hansenii colonize…

SARS-CoV-2 neutralizing antibody effective against all variants
Adams, Lucas ; Diamond, Michael ; Fremont, Daved ; VanBlargan, Laura
T-019791

— Disease indication – SARS-CoV-2 infection (COVID-19) Drug format – Chimeric monoclonal antibody Drug class – Best-in-class Research stage and Preliminary data – The inventors have developed and characterized this antibody, creating a chimeric version with a human IgG backbone. T…

Predictive biomarker for CAR T-associated neurotoxicity
Ances, Beau ; Butt, Omar ; DiPersio, John ; Ghobadi, Armin
T-019528

— Technology Description: Researchers at Washington University in St. Louis have developed a biomarker screening assay to predict which patients receiving CAR T cell therapy will experience neurotoxicity. Patients can be screened well in advance of receiving the T cell therapy with a simple serum as…

Passive and Compact Liquid Metal Heat Switch
Weisensee, Patricia
T-019180

— Technology Description Researchers in Patricia Weisensee’s lab at Washington University have developed a compact liquid metal heat switch with a passive mechanism to control the thermal management system of spacecraft. Unlike other switch mechanisms, the liquid metal version produces high co…

Early, specific, blood-based diagnostic for septic arthritis
Luhmann, Scott
T-018905

— Technology Description: Researchers at Washington University in St. Louis have identified blood-based cytokine signatures that could be used to specifically detect, distinguish and monitor septic arthritis, synovitis and osteomyelitis. This assay could enable timely, accurate treatment to avoid joi…

Barbed mesh for fast, suture-less surgical wound closure
Felder, John
T-018828

— Technology Description: A surgeon at Washington University in St. Louis has designed a barbed mesh wound closure device with the potential to save time and improve outcomes by eliminating the need for surgical suturing to close incisions of the skin and fascia. This device has applications in a var…

Interferon-gamma treatment to improve efficacy of hematopoietic stem cell transplantation for AML and other cancer
Christopher, Matthew ; DiPersio, John ; Ley, Timothy ; Petti, Allegra ; Rettig, Michael
T-018954

— Technology Description Researchers at Washington University in St. Louis have discovered that interferon-gamma treatment could potentially prevent relapse after hematopoietic stem cell transplantation (HCT) treatment by making the cancer cells more visible to the donor immune cells. This technolog…

Versatile airway management system to reduce exposure to aerosolized SARS-CoV-2 and other pathogens
Iqbal, Zahid ; Lee, Jin Vivian ; Zayed, Mohamed
T-019443

— Technology Description Researchers in Dr. Mohamed Zayed’s laboratory have developed a versatile, sealable valve system for airway management devices that can protect healthcare workers by reducing their risk of exposure to aerosolized SARS-CoV-2 and other pathogens during risky pulmonary pro…

Computer vision training system for robust artificial intelligence image classification
Tong, Liang ; Vorobeychik, Yevgeniy ; Wu, Tong
T-019303

— Technology Description Researchers in Prof. Yevgeniy Vorobeychik’s laboratory have developed a new adversarial model and training methods to defend deep neural networks against physical attacks that corrupt image classifications. This system outperforms previous state-of-the-art techniques a…

Nanomaterial to eliminate cold chain by preserving biological reagents and patient samples
Kharasch, Evan ; Morrissey, Jeremiah ; Singamaneni, Srikanth ; Wang, Congzhou
T-017288

— Technology Description An interdisciplinary team at Washington University has developed low-cost, easy-to-use, nanoparticles that can preserve antibodies, proteins and other biological molecules without refrigeration. This technology employs metal organic frameworks (MOF) that can be used in two w…

Long non-coding RNA as cancer biomarker and drug target
Cabanski, Christopher ; Fields, Ryan ; Maher, Christopher ; Silva-Fisher, Jessica
T-018788

— Technology Description Researchers in Prof. Christopher Maher’s research program (in conjunction with collaborator Ryan Fields) discovered that RAMS11 (RNA Associated with Metastasis 11), a novel long non-coding RNA, (i) promotes metastatic disease, (ii) confers resistance to topoisomerase i…

Stimulating Innate Immune Cells for Cancer Therapy or Vaccine Adjuvants
Barrow, Alexander ; Colonna, Marco
T-016924

— Technology Description Researchers in Prof. Marco Colonna’s laboratory have identified a receptor-ligand interaction that could be harnessed to activate the innate immune system to treat cancer or enhance the response to vaccines for infectious disease. Specifically, platelet-derived growth f…

miRNA mimics to treat metabolic disease
Gong, Yong-feng ; Hou, Jianghui
T-017930

— Disease indication: metabolic disorders including insulin resistance and diabetic nephropathy Drug format: chemically modified synthetic microRNA (miRNA) Drug class: first-in-class for metabolic disease Research stage and Preliminary data: Target: miR-29 mimics can increase the gene expressio…

Prognostic for Lymphoproliferative Disorders
Qavi, Abraham ; Swat, Wojciech
T-019271

— Technology Description Researchers at Washington University in St. Louis have developed an improved method to monitor the progression of lymphoproliferative disorders (LPDs) and guide treatment decisions. LPDs, including leukemia and lymphoma, are characterized by the abnormal proliferation of blo…

Eye test to diagnose preclinical Alzheimer’s disease
Apte, Rajendra ; Van Stavern, Gregory
T-018518

— Technology Description Researchers at Washington University in St. Louis have developed a non-invasive screening method using optical coherence tomography angiography (OCTA) to detect Alzheimer’s disease (AD) at the early, preclinical stage. AD is characterized by progressive memory loss, be…

Intestinal biomarker predicts response to treatment for inflammatory bowel disease
Stappenbeck, Thaddeus ; VanDussen, Kelli
T-019186

— Technology Description Researchers in the Stappenbeck lab have discovered an objective histologic biomarker on intestinal cells that can predict a patient’s response to ustekinumab treatment for Crohn’s disease or ulcerative colitis. Specifically, the length of microvilli (MV) could pr…

Liquid biopsy assay for personalized prostate cancer treatment
Chaudhuri, Aadel ; Maher, Christopher ; Pachynski, Russell
T-019287

— Technology Description A team of researchers at Washington University has developed “EnhanceAR-Seq”, a circulating tumor DNA (ctDNA) assay that predicts which patients are at high risk for developing resistance to androgen receptor (AR)-directed treatment for metastatic prostate cancer…

Method to create designer stem cells for safer, more effective therapeutics
Guilak, Farshid
T-018758

— Technology Description Researchers at Washington University in St. Louis have developed a method to create designer stem cells which provide a safer, more effective cell therapy approach to treating disease. Cell-based regenerative therapies could potentially be used to treat many diseases and res…

Method to characterize gut microbiome
Gordon, Jeffrey ; Raman, Arjun
T-018977

— Technology Description Researchers at Washington University in St. Louis have developed a method to stratify gut microbiota dysbiosis and monitor treatments to correct it. In order to efficiently treat microbiota imbalance, it would first be beneficial to understand the healthy organization and in…

Low-cost, high-performance materials for solar-driven membrane distillation in water treatment and desalination
Jiang, Qisheng ; Jun, Young-Shin ; Singamaneni, Srikanth ; Wu, Xuanhao
T-019047

— Technology Description Engineers in Prof. Young-Shin Jun’s laboratory and Prof. Singamaneni’s laboratory have developed high performance, stable membrane materials that can be used for photothermal membrane distillation (PMD) to purify or desalinate water with minimal input of electric…

Arteriovenous graft designed to prevent thrombosis and graft failure
Genin, Guy ; Williams, Dillon ; Zayed, Mohamed
T-018994

— Technology Description Prof. Mohamed Zayed and colleagues have developed an arteriovenous graft cuff with features designed to normalize the blood shear rate and decrease risk of thrombosis at the venous end anastomosis. This device could reduce the failure rate of these grafts, thereby improving …

Ultrasound-guided diffuse optical tomography for fast, low-cost functional imaging of breast lesions
Mostafa, Atahar ; Zhu, Quing
T-018800

— Technology Description Prof. Quing Zhu and colleagues have pioneered a compact, low-cost ultrasound-guided optical tomography system designed to differentiate between benign and malignant breast lesions and reduce the need for costly and invasive biopsies. This technology enables fast, robust imag…

Low-Power, Fast Sensors for Infrastructure‐to‐Vehicle Communications in Autonomous Driving
Aono, Kenji ; Chakrabartty, Shantanu ; Kondapalli, Sri Harsha ; Pochettino, Owen
T-019014

— Engineers in Prof. Shantanu Chakrabarty’s laboratory have developed an RFID embedded sensor system for infrastructure-to-vehicle (I2V) communications that uses near-zero standby energy and offers the robust performance of actively powered communications. This technology is designed to provide …

Real-time air and water quality monitoring with AI-based data analysis and low cost sensors
Biswas, Pratim ; Li, Jiayu
T-018523

— Technology Description Prof. Pratim Biswas and colleagues have developed an artificial intelligence platform to provide accurate, low-cost analysis of air and water quality by integrating data gathered from particulate matter (PM) sensors and other sources. This technology could be used to make th…

Low-cost, environmentally friendly synthesis of delta-MnO2 nanosheets for battery cathodes, catalysts and remediation
Jun, Young-Shin ; Jung, Haesung
T-018510

— Technology Description Engineers in Prof. Young-Shin Jun’s laboratory have developed a cost-effective, fast, green chemistry process to produce birnessite (δ-MnO2) nanosheets with naturally abundant resources. This method uses sunlight and nitrate to oxidize Mn2+ (aq) to Mn (IV) and ha…

Automated, Improved Deformable Image Registration for Radiation Therapy and other Clinical Applications
Yang, Deshan
T-017324

— Technology Description Prof. Deshan Yang and colleagues have developed automated systems and software toolkits to provide more accurate deformable image registration (DIR) for adaptive radiotherapy and other clinical applications. In particular, they have automated tedious and labor-intensive DIR …

Neural interface device for complex, specific stimulation of peripheral nerves
Christiansen, Blaine ; MacEwan, Matthew ; Moran, Daniel
T-007621

— Technology Description This technology is patented bipolar sieve electrode designed to stimulate peripheral nerves in a specific direction and thereby expand the potential of using this type of neural interface device in clinical applications such as nerve regeneration and prosthetics. Sieve elec…

Drug target and biomarker for multiple sclerosis
Klein, Robyn ; Williams, Jessica
T-017623

— Technology Description Researchers in Prof. Robyn Klein’s laboratory have discovered that interferon lambda (IFN-λ) is a potential target for treating multiple sclerosis (MS), particularly secondary progressive MS (SPMS). Most patients with MS present with relapsing remitting MS (RRM…

Low cost electrode decoupled redox flow batteries for grid-scale energy storage
Ramani, Vijay ; Sankarasubramanian, Shrihari
T-018530

— Technology Description Engineers in Prof. Vijay Ramani’s laboratory have developed an electrode decoupled redox flow battery (RFB) with stable electrolyte materials that can generate power densities comparable to all-Vanadium RFBs at less than half the cost. RFBs are a promising option for …

Vaccine to prevent catheter-associated urinary tract infection
Caparon, Michael ; Flores-Mireles, Ana ; Hultgren, Scott ; Pinkner, Jerome
T-013965

— Technology Description Researchers at Washington University in St. Louis have developed a vaccine strategy to prevent catheter-associated urinary tract infections (CAUTIs). CAUTIs are the most common cause of hospital-acquired infections. Many of these are caused by Enterococcus bacteria. CAUTIs a…

Target and small molecule drugs to selectively neutralize bacteria in urinary tract infections
Henderson, Jeffrey P.
T-018628

— Technology Description Researchers in Prof. Jeffrey Henderson’s laboratory have discovered a drug target and a class of small molecule candidates that could be used to selectively prevent pathogenic enterobacteria from causing diseases such as urinary tract infections (UTIs). Currently, UTI…

Exosome-based therapy for tendon injuries and other soft tissue repair
Shen, Hua
T-018565

— Technology Description: A team of researchers at Washington University has developed a cell-free, nano-sized extracellular vesicle (EV/exosome) system to enhance repair of soft musculoskeletal tissue. This technology leverages the natural anti-inflammatory effects of adipose-derived stem cells (ASC…

Low cost, high performance anion exchange membranes for grid-scale energy storage and other electrochemical devices
Parrondo, Javier ; Ramani, Vijay ; Wang, Zhongyang
T-018608

— Technology Description Engineers in Prof. Vijay Ramani’s laboratory have developed a variety of robust, versatile anion exchange membrane (AEM) materials that achieve high performance through superior ion selectivity. These mechanically and chemically stable membranes have the potential to d…

NanoTCE: a nanoparticle antibody system for immunotherapy against heterogeneous multiple myeloma
Alhallak, Kinan ; Azab, Abdel Kareem
T-018892

— Disease indication – multiple myeloma Drug format – antibodies conjugated to nanoparticles for T-cell immunotherapy Drug class – improved delivery platform Research stage and Preliminary data: In vivo: In vitro proof of concept – in a MM cell line: NanoMuTEs and NanoTC…

Deep learning algorithm to expedite MRI-guided adaptive radiotherapy planning
Fu, Yabo ; Yang, Deshan
T-018708

— Technology Description Researchers in Prof. Deshan Yang’s laboratory have developed a deep-learning method for fast, robust, automated MRI segmentation to expedite treatment planning for patients undergoing MRI-guided adaptive radiotherapy (MR-IGART). Specifically, this technology utilizes a…

Ultrasound “painting” for precise, targeted drug delivery to the brain
Chen, Hong ; Williamson, Jeffrey ; Yang, Yaoheng "Mack"
T-018953

— Technology Description Researchers in Prof. Hong Chen’s laboratory have developed a safe, convenient monitoring technique to precisely deliver drugs to the brain by integrating ultrasound imaging with ultrasound therapy (focused ultrasound-blood-brain-barrier delivery, “FUS-BBBD”…

High-performance, nanoengineered two-phase cooling system for high powered electronics
Agonafer, Damena ; Ma, Binjian ; Shan, Li
T-018032

— Technology Description Engineers in Prof. Damena Agonafer’s laboratory have developed a highly-efficient, compact, modular evaporative cooling platform with materials and nanostructured geometries designed to greatly enhance thermal management of 3D integrated circuits, power converters and …

Cell-based tumor targeting for delivering therapeutic and imaging agents
Azab, Abdel Kareem ; Muz, Barbara
T-018893

— Researchers in Prof. Abdel Kareem Azab’s laboratory have developed a biologically-targeted cellular drug delivery system to precisely target therapeutic or diagnostic agents to a wide range of cancers. Delivering drugs directly to cancer cells and not to healthy cells could improve outcomes by…

PET tracer to diagnose kidney disease
Baldelomar, Edwin ; Beeman, Scott ; Bennett, Kevin ; Reichert, David
T-018902

— Technology Description Researchers at Washington University in St. Louis have developed a PET tracer that may be used to quantify kidney nephron endowment and diagnose kidney disease. Nephrons are the functional units of the kidney responsible for filtering the blood to remove waste. They are form…

PET tracer to diagnose kidney disease
Baldelomar, Edwin ; Beeman, Scott ; Bennett, Kevin ; Reichert, David
T-018902

— Technology Description Researchers at Washington University in St. Louis have developed a PET tracer that may be used to quantify kidney nephron endowment and diagnose kidney disease. Nephrons are the functional units of the kidney responsible for filtering the blood to remove waste. They are form…

Miniature, high resolution multi-spectral imaging for label-free image guided surgery and other applications
Garcia Hernandez, Nimrod Missael ; Gruev, Viktor
T-016872

— Technology Description Engineers in Prof. Viktor Gruev’s laboratory have developed a compact 27-band hyperspectral imaging system for high resolution, label-free, real-time imaging. This system can distinguish spectral signatures in image guided surgery (IGS) and other applications. The tech…

Inflammatory bowel disease biomarkers and therapeutic target
Kaiko, Gerard ; Liu, Ta-Chiang ; Stappenbeck, Thaddeus
T-017071

— Plasminogen activator inhibitor-1 (PAI-1) has been identified as a specific biomarker that is significantly elevated in patients with inflammatory bowel disease (IBD) and is correlated with disease severity. It could be used to both diagnose the disease (including ulcerative colitis and colonic Croh…

Spray Pyrolysis for the Production of Li+ Ion Battery Cathodes
Atlas, Gal ; Axelbaum, Richard ; Elhassid, Dror ; Lengyel, Miklos
T-013647

— Background Material morphology and composition are critical for production of Li+ ion battery cathodes, and there is a need for improved synthesis methods that yield high quality materials through cost effective, green, scalable processes. Further, there is often a need to dope materials during syn…

Molecular imaging of COVID binding receptor
Abou, Diane ; Thorek, Daniel ; Zhang, Hanwen
T-019485

— Technology Description A team of researchers led by Professor Daniel Thorek at Washington University have developed a peptide specific to human ACE2, the receptor for SARS-CoV-2, that can be used for imaging or therapeutic delivery. The peptide can be easily chelated for PET imaging, allowing for …

Microfluidic device for high-throughput, multiplexed electrochemical analysis with live-cell imaging and spectrometry
Binkley, Michael ; Bose, Arpita ; Meacham, John ; Rengasamy, Karthikeyan
T-018839

— Technology Description An interdisciplinary team of Washington University researchers has developed a high-throughput microfluidic bioelectrochemical cell (μBEC) that collects electrochemical data and is compatible with live-cell microscopy and spectrometry. This device transcends the capabilit…

Non-invasive Technology Enables Brain Tumor Biopsy Without Surgery
Chen, Hong ; Dunn, Gavin ; Leuthardt, Eric ; Petti, Allegra
T-017113

— Background: The American Brain Tumor Association reports that about 80,000 of the estimated 700,000 Americans that live with a brain tumor have been diagnosed in 2017. The surgery required for a traditional brain tumor biopsy entails making a hole in the skin and skull, placing a needle probe, and r…

Automated image processing tools for quantitative SPECT and PET scans
Jha, Abhinav Kumar ; Liu, Ziping ; Moon, Hae Sol ; Rahman, Md Ashequr ; Yu, Zitong
T-019331

— Engineers in Washington University’s Computational Medical Imaging Lab have developed automated, machine-learning techniques to improve nuclear medicine imaging (SPECT and PET). These tools include estimation-based segmentation methods to define boundaries and ASC (attenuation and scatter comp…

Targeted liposome drug delivery system to improve multiple myeloma treatment
Azab, Abdel Kareem ; Federico, Cinzia
T-019089

— Technology Description Researchers in Prof. Kareem Azab’s laboratory have developed a liposome drug delivery vehicle to improve efficacy and reduce side effects of multiple myeloma treatment. This system is designed to target compounds to the bone marrow microenvironment (BMME) and simultane…

Simple, stable plasmonic biosensors for point-of-care diagnosis of cardiac arrest and other conditions
Kharasch, Evan ; Morrissey, Jeremiah ; Singamaneni, Srikanth ; Tadepalli, Sirimuvva
T-014923

— Technology Description An interdisciplinary team of researchers at Washington University have developed a sensitive, shelf-stable, label-free system for quickly quantifying biomarkers in point-of-care settings (e.g., office, ambulance or battlefield). Localized surface plasmon resonance (LSPR) off…

MRI neural network segmentation in atherosclerosis
Jha, Abhinav Kumar ; Li, Ran ; Woodard, Pamela ; Zheng, Jie
T-020254

— Technology Description Researchers at Washington University in St. Louis have developed a two-stage neural network model, with CNN and BNN architecture, to segment carotid atherosclerotic plaque components based on multi-weighted MR images and measure the uncertainty of the segmentation output. Th…

Trackable pedicle screws
Brunner, Peter ; Genin, Guy ; Hacker, Carl ; Leuthardt, Eric ; Lowe, Halle ; Molina, Camilo ; Moran, Daniel ; Repka, Alicia ; Sandler, Jacob
T-019941

— Technology Description Researchers at Washington University in St. Louis have developed a system that uses lenticular arrays to better track pedicle screw placement during spinal fusion surgery. By enabling an accurate assessment of the screws’ locations, this system allows for computer-auto…

Real-time interference compensation in MRI guided radiotherapy
Curcuru, Austen ; Gach, H. Michael ; Kim, Taeho ; Villa, Umberto
T-019745

— Technology Description Researchers at Washington University in St. Louis have developed a method to improve image quality during MR imaging guided radiation therapy (MR-IGRT) by correcting for B0 fluctuation in real-time. The corrections reduce electromagnetic interference (EMI) between the MRI sc…

Peptides responsible for Type 1 diabetes
Lichti, Cheryl ; Unanue, Emil ; Wan, Xiaoxiao
T-018626

— Technology Description: Researchers in the lab of Emil Unanue at Washington University have discovered a panel of peptides responsible for autoimmune activation in Type 1 diabetes and potentially capable of diagnosing T1D at an early stage. These peptide fragments of insulin are found circulating …

CCR2-targeted cancer nanoimmunotherapy
Lim, Kian-Huat ; Liu, Yongjian ; Zhang, Xiaohui
T-019463

— Disease indication – Drug format – Combination containing radiolabeled copper nanocluster, small molecule, and peptide Drug class – First-in-class Target – CCR2, the receptor for CCL2 Mode of action – The ECL1i peptide is conjugated to a copper nanocluster loaded…

Generating pancreatic beta cells from pluripotent stem cells for diabetes cell therapy or drug development
Hogrebe, Nathaniel ; Millman, Jeffrey ; Velazco-Cruz, Leonardo ; Veronese Paniagua, Daniel ; Wernes, Kristina
T-019409

— Technology Description: Researchers in Prof. Jeffrey Millman’s laboratory have developed multiple techniques for enhancing the differentiation, maturation and function of glucose-responsive, insulin-producing SC-beta cells (pancreatic beta cells made from human pluripotent stem cells). Downst…

MRI and PET nanoparticle imaging agents for kidney disease diagnostics and transplant evaluation
Baldelomar, Edwin ; Bennett, Kevin
T-019017

— Technology Description: Researchers at Washington University in St. Louis have developed targeted, natural nanoparticle imaging agents that may be used to quantify kidney nephron endowment and diagnose renal disease with MRI or PET imaging. Nephrons are the functional units of the kidney responsi…

Inflammatory bowel disease biomarkers and therapeutic target
Kaiko, Gerard ; Liu, Ta-Chiang ; Stappenbeck, Thaddeus
T-017071

— Plasminogen activator inhibitor-1 (PAI-1) has been identified as a specific biomarker that is significantly elevated in patients with inflammatory bowel disease (IBD) and is correlated with disease severity. It could be used to both diagnose the disease (including ulcerative colitis and colonic Croh…

Automated image processing tools for quantitative SPECT and PET scans
Jha, Abhinav Kumar ; Liu, Ziping ; Moon, Hae Sol ; Rahman, Md Ashequr ; Yu, Zitong
T-019331

— Engineers in Washington University’s Computational Medical Imaging Lab have developed automated, machine-learning techniques to improve nuclear medicine imaging (SPECT and PET). These tools include estimation-based segmentation methods to define boundaries and ASC (attenuation and scatter comp…

Targeted liposome drug delivery system to improve multiple myeloma treatment
Azab, Abdel Kareem ; Federico, Cinzia
T-019089

— Technology Description Researchers in Prof. Kareem Azab’s laboratory have developed a liposome drug delivery vehicle to improve efficacy and reduce side effects of multiple myeloma treatment. This system is designed to target compounds to the bone marrow microenvironment (BMME) and simultane…

Self-capacitance Power Transfer for Efficient Wireless Charging of Small Wearables
Alazzawi, Yarub ; Aono, Kenji ; Chakrabartty, Shantanu ; Scheller, Erica
T-018759

— Technology Description Engineers in Prof. Shantanu Chakrabartty’s laboratory have developed a convenient, wireless power transfer system that exploits the body’s self-capacitance to charge small, low power, wearable and minimally-invasive devices. Wearable devices traditionally rely o…

Toolkit to efficiently design exact pulse code sequences for MRI, NMR or quantum computing
Li, Jr-Shin
T-017456

— Technology Description Engineers in Prof. Jr-Shin Li’s laboratory have developed a computationally efficient analytical technique to design exact RF pulse code sequences which optimize quantum applications such as MRI for medical diagnosis, NMR spectroscopy for uncovering protein structures …

Synthetic Dendritic Cells for Expanding Antigen-Specific T Cells used in Cancer Immunotherapy
Klechevsky, Eynav ; Pathak, Amit ; Sarker, Bapi
T-017391

— Technology Description: A team led by Drs. Amit Pathak and Eynav Klechevsky have developed a soft alginate-gelatin matrix-based synthetic dendritic cell to rapidly expand and deliver CD8+ T cells for cancer immunotherapy. CD8+ T cells kill tumors, but current methods to expand them also activate r…

Miniature, high resolution multi-spectral imaging for label-free image guided surgery and other applications
Garcia Hernandez, Nimrod Missael ; Gruev, Viktor
T-016872

— Technology Description Engineers in Prof. Viktor Gruev’s laboratory have developed a compact 27-band hyperspectral imaging system for high resolution, label-free, real-time imaging. This system can distinguish spectral signatures in image guided surgery (IGS) and other applications. The tech…

TR3: a stabilized TRAIL timer for use as an anticancer therapeutic
Hawkins, William ; Hotchkiss, Richard ; Spitzer, Dirk
T-007646

— WUSTL Technology 007646 Technology Description Researchers at Washington University in St. Louis (WUSTL) have developed a novel TRAIL (TNF-related apoptosis inducing ligand)-based anticancer drug platform, designated TR3. TRAIL has potent and specific apoptotic activity against tumor cells. Thus,…

Microfluidic device for high-throughput, multiplexed electrochemical analysis with live-cell imaging and spectrometry
Binkley, Michael ; Bose, Arpita ; Meacham, John ; Rengasamy, Karthikeyan
T-018839

— Technology Description An interdisciplinary team of Washington University researchers has developed a high-throughput microfluidic bioelectrochemical cell (μBEC) that collects electrochemical data and is compatible with live-cell microscopy and spectrometry. This device transcends the capabilit…

Therapy to treat and prevent respiratory disease in pre-term and at-risk neonates
Morley, Sharon "Celeste" ; Todd, Elizabeth (Betsy)
T-017434

— Technology Description Researchers in Prof. S. Celeste Morley’s laboratory have developed a long-lasting prophylactic therapy that could protect pre-term and at-risk infants from pneumonia, respiratory distress and bronchopulmonary dysplasia. Neonates born prematurely are at increased risk f…

Simple, stable plasmonic biosensors for point-of-care diagnosis of cardiac arrest and other conditions
Kharasch, Evan ; Morrissey, Jeremiah ; Singamaneni, Srikanth ; Tadepalli, Sirimuvva
T-014923

— Technology Description An interdisciplinary team of researchers at Washington University have developed a sensitive, shelf-stable, label-free system for quickly quantifying biomarkers in point-of-care settings (e.g., office, ambulance or battlefield). Localized surface plasmon resonance (LSPR) off…

MRI-based multiparametric cardiac strain analysis of myocardial viability
Cupps, Brian ; Pasque, Michael
T-006692

— Background: Assessing left ventricle (LV) cardiac contractile function is a good indicator of overall heart health and is used to determine which patients are good candidates for revascularization surgery. With over 3 million new coronary artery disease patients annually and over 1 million annual re…

Non-invasive Technology Enables Brain Tumor Biopsy Without Surgery
Chen, Hong ; Dunn, Gavin ; Leuthardt, Eric ; Petti, Allegra
T-017113

— Background: The American Brain Tumor Association reports that about 80,000 of the estimated 700,000 Americans that live with a brain tumor have been diagnosed in 2017. The surgery required for a traditional brain tumor biopsy entails making a hole in the skin and skull, placing a needle probe, and r…

Spray Pyrolysis for the Production of Li+ Ion Battery Cathodes
Atlas, Gal ; Axelbaum, Richard ; Elhassid, Dror ; Lengyel, Miklos
T-013647

— Background Material morphology and composition are critical for production of Li+ ion battery cathodes, and there is a need for improved synthesis methods that yield high quality materials through cost effective, green, scalable processes. Further, there is often a need to dope materials during syn…

High Throughput Acoustic Particle Separation
Berezin, Mikhail ; Binkley, Michael ; Meacham, John
T-017364

— Technology Description: Methods and devices used for acoustophoresis of biologics have been developed and allow for more than 10,000 fold throughput than existing acoustophoretic devices. Applications: 1. Isolation of cells in low abundance (immune cells, circulating tumor cells) from whole bloo…

A Truly Tumor-Specific Epitope Carried by BG-A Antigen for Cancer Diagnosis and Treatment
Xu, Mai
T-016998

— Background: In the US alone, 154,000 new cases of colorectal cancer (CRC) are diagnosed each year. Unfortunately, a third of those patients will die due to diagnosis at late stages – the 5-year survival rate is 11%, compared to 91% for those who are diagnosed with only localized CRC. A colonos…

Machine learning paired with photoacoustic microscopy and ultrasound for improved rectal cancer imaging
Chapman Jr., William "Will Jr" ; Leng, Xiandong ; Mutch, Matthew ; Uddin, Shihab ; Zhu, Quing
T-019449

— Technology Description: Researchers led by Quing Zhu at Washington University have developed a method for imaging rectal tumors using photoacoustic microscopy and ultrasound with a machine learning component. This method is better able to differentiate residual cancer from healthy tissue following…

Software to predict low back pain from brain imaging
Hawasli, Ammar ; Jayasekera, Dinal ; Lamichhane, Bidhan ; Leuthardt, Eric ; Ray, Wilson
T-019322

— Technology Description: Researchers at Washington University, led by Eric Leuthardt, have developed software that can identify specific brain regions involved in chronic low back pain from neuroimaging data. This software, powered by machine learning, relies on differences in cortical thickness an…

Lightweight, wearable cap for bedside functional optical neuroimaging
Bergonzi, Karla ; Culver, Joseph ; Eggebrecht, Adam ; Ferradal, Silvina
T-013611

— Technology Description Researchers in Prof. Joseph Culver’s laboratory have developed a patented, compact, lightweight functional neuroimaging device for long-term bedside monitoring. This technology, based on high-density diffuse optical tomography (HD-DOT), could be used as a surrogate for …

Novel Method and Device to Produce Fluorine-18 PET Tracers
Zhou, Dong
T-019276

— Technology Description Researchers at Washington University in St. Louis (WUSTL) have developed a new method and device for the preparation of flourine-18 (F-18) radiolabeled compounds as positron emission tomography (PET) tracers. PET is a widely used clinical and research imaging tool that will …

SIMPEL: electrode device to safely and precisely stimulate sympathetic nerves to treat asthma, hypertension and other conditions
Cloonan, Paige ; Kamath, Ashwin ; Leuthardt, Eric ; MacEwan, Matthew ; Moore, Amy ; Moran, Daniel ; Qin, Yidan (Ida) ; Ray, Wilson ; Zhang, Christopher
T-017895

— Technology Description A team of researchers at Washington University have developed “SIMPEL”, a small, implanted electrode device designed to manage a variety of conditions (such as asthma, hypertension or neuropathy) by delivering current from a defined, fixed position near specific …

Accurate, efficient 2D strain mapping with robust detection of strain localization
Boyle, John ; Genin, Guy ; Pless, Robert ; Thomopoulos, Stavros
T-014090

— Summary DDE (Direct Deformation Estimation) and SIMPLE (Strain Interference with Measures of Probable Local Elevation) are two simple Digital Image Correlation algorithms that combine image analysis techniques with mechanical engineering principles to provide accurate, efficient, quantitative strai…

Machine learning methods for real-time MRI image processing: MRI-only radiation treatment planning and improving MR image resolution
Green, Olga ; Mutic, Sasa ; Park, Chunjoo (Justin) ; Zhang, Hao
T-018522

— Technology Description A team of researchers at Washington University School of Medicine developed deep learning image processing techniques to improve MRI diagnostics and potentially enable faster, more precise MRI-guided radiation therapy without exposing patients to radiation from CT imaging. S…

Machine learning method for fast, reliable quality assurance of patient imaging in radiation therapy or computer-aided detection
Altman, Michael ; Green, Olga ; Kavanaugh, James ; Li, Hua ; Mutic, Sasa ; Wooten, Hasani
T-013577

— Technology Description A team of researchers at Washington University has created a machine learning method to quickly and reliably validate patient contours in digital medical images for radiation therapy and computer aided image analysis. Currently, automated contouring tools for delineating tu…

Novel human astrovirus sequences for diagnostics and vaccine development for encephalitis and gastroenteritis
Finkbeiner, Stacy ; Virgin, Herbert ; Wang, David ; Zhao, Guoyan
T-009294

— Technology Description A team of researchers at Washington University and the Centers for Disease Control discovered, sequenced and patented a novel human astrovirus that can cause encephalitis and gastroenteritis (non-etiologic diarrhea), offering a path to detection and diagnostics. The virus (…

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