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Neurxtem Neural Organoid Human Platform Development for Substance and Opioid Use Disorders

针对药物和阿片类药物使用障碍的 Neurxtem 神经类器官人类平台开发

基本信息

批准号：
10307375
负责人：
Rene Anand
金额：
$ 107.19万
依托单位：
NEURXSTEM, INC.
依托单位国家：
美国
项目类别：
财政年份：
2020
资助国家：
美国
起止时间：
2020-05-01 至 2023-01-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/10307375
关键词：
Alzheimer&apos s Disease Alzheimer&apos s disease brain Antidotes Autopsy Big Data Biological Markers Biological Models Brain Brain Diseases Businesses Cell Line Cells Central Nervous System Diseases Cerebrum Client Clinic Clinical Clinical Research Complex Data Data Collection Dependence Derivation procedure Development Diagnostic Diagnostic tests Disease Drug Addiction Drug Exposure Embryo Engineering Exhibits Faculty Feedback Future Gene Expression Genes Genetic Transcription Genotype Goals Helping to End Addiction Long-term Human Human Cell Line In Vitro Innate Immune Response Intellectual Property Legal patent Link Medical Device Medicine Methodology Microglia Midbrain structure Modeling Molecular Operative Surgical Procedures Opioid Organoids Output Pathway Analysis Patients Persons Pharmaceutical Preparations Pharmacologic Substance Phase Preclinical Testing Predisposition Process Regulator Genes Reporting Reproducibility Retina Rodent Model Safety Sampling Schizophrenia Skin Small Business Innovation Research Grant Spinal Cord Structure Substance Abuse Detection Substance abuse problem System Technology Testing Time Toxicity Tests United States National Institutes of Health Universities Validation base brain cell cell immortalization cell type clinical application commercialization cost data modeling disease mechanisms study disease phenotype drug development drug discovery drug of abuse early detection biomarkers efficacy testing hindbrain induced pluripotent stem cell mathematical model multidrug abuse opioid use disorder personalized predictions polysubstance abuse pre-clinical prospective relating to nervous system response safety testing screening substance abuse treatment substance use therapeutic target transcriptomics translational medicine translational neuroscience

项目摘要

This is a SBIR proposal from Neurxstem Inc., a company selected by NCET2 as a “Best University Startups 2016” is in response to the NIH HEAL initiative. Neurxstem’s goals are to develop and optimize a proprietary induced pluripotent stem cell derived human Neural Organoid Platform (NNOP) to develop 1) an early diagnostic NNOP for substance (SUD) and opioid (OUD) use disorder susceptibility and 2) to identify early therapeutic targets for future screens for effective SUD/OUD disease-related drug discovery, efficacy and safety screening. The current state of the art technology for such goals ranges from human primary and immortalized cell lines to rodent models. Because these models are poor surrogates for the complex network structure of the human brain, the proposed platform is expected to fill a crucial gap in translational neuroscience goals to understand and treat human brain disorders. Neurxstem has developed the proprietary methodology to make nearly complete human neural organoids and has shown that a superior NNOP compared to other ‘organoids’ that has all the major parts of the brain – retina, cortex, midbrain, hindbrain, and spinal cord - in a single, networked and scalable NNOP that also expresses all the major cell types including the microglia critically involved in SUD and exhibits responses to a drug of addiction that alters a multitude of biomarkers linked to multiple drugs of abuse. Neurxstem, a small business founded by Dr. Rene Anand, one of the technology inventors, proposes to further develop this clinically corroborated model system to test its reliability, reproducibility, robustness and utility for commercial translational neuroscience applications for SUD/OUD and initiate market entry after FDA approval. Phase I Aims: The Phase I goals are to identify early therapeutic targets by: 1) mathematical modeling of gene expression data responses to drugs of addiction to deduce early biomarkers for SUD/OUD. Phase II Aims: One goal is identify all possible early therapeutic targets by mathematical modeling from multiple data points and drug exposure samples for future SUD/OUD countermeasure development with Pharma. A second goal is to scale and validate the platform with multiple SUD patient iPSC lines to demonstrate: a) reliability, b) reproducibility and c) robustness metrics needed to demonstrate the full utility for early diagnostic and drug discovery, efficacy and safety testing commercial goals for SUD/OUD. Additionally, Neuxstem’s commercialization plan includes 1) market feedback from prospective clients for product validation; 2) initial market entry with beta customers/ business partners; and 3) continuing intellectual property development and prosecution. Fundamentally, the further development and validation of Neurxstem’s NNOP should provide a lower cost, more precise and accurate system for personalized, predictive diagnostic medicine and development of countermeasure for SUD/OUD.

这是一份由NCET2评选为最佳大学的神经干细胞公司的SBIR建议书初创企业2016“是对NIH Hear倡议的回应。神经干细胞的目标是开发和一种专有诱导多能干细胞来源的人神经器官样细胞平台的优化 (NNOP)开发1)物质(SUD)和阿片类药物(OUD)使用的早期诊断NNOP 障碍易感性和2)确定早期治疗靶点，以便将来进行有效筛查 SUD/OUD疾病相关药物的发现、疗效和安全性筛选。的当前状态。实现这一目标的ART技术范围从人类原代和永生化细胞系到啮齿动物模特们。因为这些模型不能很好地替代复杂的网络结构人脑，拟议的平台有望填补翻译神经科学的一个关键空白了解和治疗人类大脑疾病的目标。神经干细胞已经开发出了专有的制作几乎完整的人类神经有机体的方法学，并已显示出优越的 NNOP与其他拥有大脑所有主要部分-视网膜、皮质、中脑、后脑和脊髓-在单一、联网且可扩展的NNOP中表达所有主要的细胞类型，包括与SUD密切相关的小胶质细胞对一种成瘾药物的反应改变了与多种药物相关的多种生物标志物虐待。Neurxstem是由Rene Anand博士创立的一家小企业，技术之一发明者建议进一步开发这一经临床证实的模型系统以测试其商业翻译神经科学的可靠性、重复性、稳健性和实用性申请SUD/OUD，并在FDA批准后启动市场准入。第一阶段目标：第一阶段的目标是通过以下方式识别早期治疗靶点：1)对基因进行数学建模表达数据对成瘾药物的反应以推断SUD/OUD的早期生物标记物。阶段 II目标：一个目标是通过数学建模确定所有可能的早期治疗靶点用于未来SUD/OUD对策的多个数据点和药物暴露样本与医药共同发展。第二个目标是使用多个SUD扩展和验证平台患者IPSC展示：a)可靠性、b)重复性和c)稳健性指标需要证明早期诊断和药物发现的全部效用、有效性和安全性测试SUD/OUD的商业目标。此外，Neuxstrom的商业化计划包括1)潜在客户对产品验证的市场反馈；2)初步进入市场与测试版客户/业务合作伙伴合作；以及3)持续的知识产权开发和起诉。从根本上说，神经干细胞NNOP的进一步发展和验证应该提供一个成本更低、更精确和准确的个性化、预测性系统 SUD/OUD的诊断医学及对策发展。