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肝脏疾病是一种由病毒或有毒物连续侵害造成肝脏晚期纤维化的慢性疾病。目前，我们的治疗方法很有限，寻找治疗方法的大多数临床试验都失败了，部分原因是由于缺乏预测肝脏疾病发展的生物标志物。公司需要寻找一种新的生物标志物，对提高疾病的可控性会有很大的帮助，定期监测生物标志物也可以促进临床试验治疗药物的进一步发展。 具体可以查看https://www.innocentive.com/ar/challenge/9933671 Challenge Overview Liver disease represents a worldwide unmet medical need. Although there are various causes, the danger is that the liver will become so damaged that it can no longer function adequately. Whether the insult is a viral infection, chemical injury, or immune-related, liver disease follows a slow and steady progression. Early stage liver disease is characterized by inflammation, which if left untreated, can cause scarring and fibrosis. A healthy liver is capable of repair and regeneration, but when there are architectural changes to the tissue, the damage can no longer be reversed. Biopsies are routinely conducted to diagnose liver fibrosis and cirrhosis. Undergoing this invasive procedure involves significant abdominal pain along with the risk for complications and sampling error. Therefore, many patients are reluctant to have a second biopsy even when it is medically advisable. The Seeker desires a specific and sensitive biomarker(s) that is highly associated with liver fibrosis and could be used as a surrogate for clinical efficacy and ideally, could guide treatment selection. Submissions to this Challenge must be received by 11:59 PM (US Eastern Time) on August 17, 2015. Late submissions will not be considered. This is a Theoretical Challenge that requires only a written proposal to be submitted. The Challenge award will be contingent upon theoretical evaluation of the proposal by the Seeker. To receive an award, Solvers will not be required to transfer their exclusive IP rights to the Seeker. Instead, as further described in the Challenge-Specific Agreement, Solvers will grant to the Seeker a one hundred and eighty (180)-day Exclusivity Period from the deadline [11:59 PM (US Eastern Time) on August 17, 2015] for a non-exclusive   [更多]

不能控制其发作的癫痫猝死（SUDEP）是导致年轻人死亡的主要原因。每年超过千分之一的癫痫患者死于猝死，如果是不受控制的癫痫发作，风险会增加一百五十分之一。一种普遍恐惧的意识和持续受到的歧视导致太多的人隐藏自己的癫痫病情而没有接受持续治疗或寻求更有效的治疗方法。这增加了他们癫痫猝死的风险 癫痫基金会帮助机构决心改变这种状况，开展一个创意的宣传活动，鼓励人们寻求最佳的癫痫发作和癫痫发作控制和教育他们自己和他们的家庭以及他们如何可以减轻癫痫猝死的风险。此外，这个活动应该邀请更广泛的医疗保健社区讨论SUDEP，明白不接受持续发作的重要性，并寻找一种更有效的治疗方法。具体（https://www.innocentive.com/ar/challenge/9933717）如下 TAGS: Global Health, Business/Entrepreneurship, Life Sciences, Scientific American, Ideation AWARD: $15,000 USD | DEADLINE: 7/13/15 | ACTIVE SOLVERS: 12 | POSTED: 6/09/15 Sudden unexpected death in epilepsy (SUDEP) is the leading cause of death in young adults who have epilepsy and cannot control their seizures. Each year, more than 1 out of 1,000 people with epilepsy die from SUDEP, and, if seizures are uncontrolled, the risk increases to more than 1 out of 150. A widespread lack of awareness and ongoing fear and discrimination lead too many individuals to hide their epilepsy and to accept ongoing seizures instead of seeking out more effective treatments. This increases their risk of SUDEP. The Epilepsy Foundation SUDEP Institute is determined to change this and is challenging Solvers to come up with ideas for a creative advocacy campaign that encourages people with seizures and epilepsy to seek optimal seizure control and to educate themselves and their families about SUDEP and how they can mitigate its risks. In addition, the campaign should invite the broader health care community to talk about SUDEP, understand the importance of not accepting ongoing seizures, and pursue all effective treatment options. Can you help us to demystify seizures and epilepsy, and empower people with epilepsy? This is an Ideation Challenge with a guaranteed award for at least one submitted solution.   [更多]

合理的大生产工艺即可或中试工艺   [更多]

阿斯利康提出需求：在大多数的慢性肾脏疾病的情况下有关肾小球滤过屏障功能受损的研究。缺少良好的肾小球体外模型，就不能在细胞学和病理学的范畴详细理解肾小球的功能。 阿斯利康正在寻找方法来开发一个肾小球模型系统。理想情况下,体外模型应该包含一个独立的微型药学单元，有适当的介质，流体流动和所受压力。可以调整模拟体内黏膜所需条件属性，最终建立形成一个功能肾小球滤过屏障。 具体看下面内容： https://www.innocentive.com/ar/challenge/9933748The majority of all cases of chronic kidney disease, a key research area within AstraZeneca, originate in the glomerulus when filtration barrier function is compromised. However, a detailed cellular understanding of the functioning and pathology of the glomerulus has been limited by the lack of good in vitro models of glomerular function. AstraZeneca is looking for approaches to develop a glomerular model system. Ideally, the in vitro model should incorporate a self-contained microphysiological unit where biologically appropriate media, fluid flow and shear stress can be modulated to simulate in vivo properties that will ultimately recapitulate the conditions necessary for endothelial and podocyte cell types to form a functional glomerular filtration barrier. This is an ideation challenge and only requires a written solution. Source: InnoCentive Challenge ID: 9933748 Challenge Overview The majority of all cases of chronic kidney disease, a key research area within AstraZeneca, originate in the glomerulus when filtration barrier is compromised. The coordinated efforts of the podocytes and endothelium together with their underlying basement membrane establish the glomerular filtration barrier and injury to these cells can lead to loss of kidney function. There are currently no human in vitro models that mimic a functional or diseased glomerulus. Development of a human glomerular filtration barrier biomimetic system will thus address gaps in in vitro models for simulating human kidney disease, toxicity and DMPK. We are looking for innovative approaches to developing a glomerular model that incorporates a self-contained microphysiological unit, ideally including podocytes, the endothelium, and   [更多]

肾近端小管是肾单位的一部分(肾脏的功能部件)，是人体高专属性参与重吸收和排泄各种物质（包括盐和矿物质）的器官，盐和矿物质的重吸收对身体是非常重要的，否则会失去在尿液中。此外，肾近端小管对许多药物的处理也是至关重要的，所谓的外源性物质,来自外面的身体和环境(如许多人造物质,包括潜在的毒素)。然而,没有好的体外模型可以描述和模仿肾近端小管的功能。建立肾近端小管一个有力的模型是非常必要的，特别是在肾近端小管在药物的相互影响方面有至关重要的作用，因为它是会由于药物毒性和药物之间的作用而非常容易受到伤害导致肾脏疾病。在体外开发肾近端小管模型的系统可以帮助填补肾脏疾病研究中药物毒性和药物处理方面的一些空白。 具体看 https://www.innocentive.com/ar/challenge/9933749 The proximal tubule, a part of the kidney nephron (the functional unit of the kidney), has highly specialized properties to do with the salvage and excretion of various compounds, salts and minerals that are very important to the body and would otherwise be lost in the urine. In addition, the proximal tubule is essential for the handling of many drugs and so-called xenobiotics that come from outside the body and from the environment (e.g., many artificial substances, including potential toxins). However, there are no good human models in vitro that can recapitulate and reproduce the function of the proximal tubule. A robust model for the proximal tubule is needed, especially since the proximal tubule has an essential role in drug clearance, because it is highly susceptible to damage in many kidney diseases, and it is also a target for drug-drug interactions and drug toxicity. Development of a proximal tubule model system in vitro could help to address some of the gaps in laboratory models for the study of kidney disease, toxicity, and drug handling. AstraZeneca is seeking innovative approaches to developing a model system of the proximal tubule in vitro. Ideally, the model should incorporate a self-contained microphysiological unit in which biologically appropriate media, fluid flow, and shear stress can be modulated to reproduce the properties of the proximal tubule in vivo and ultimately recapitulate the structural and cellular conditions necessary for integrated proximal tubular function. This is an ideation challenge and only requires a written solution. Source: InnoCentive Challenge ID:   [更多]

基因治疗的概念出现在几十年前,当研究人员推测,人类疾病可以通过精确使用一种技术引入外来DNA来解决遗传缺陷和疾病症状。近年来，基因治疗的进步已经涉足治疗遗传疾病，癌症，神经退行性疾病等各领域。遗传性疾病如色素性视网膜炎等少数眼部疾病的基因也可以如此治疗。公司征集一种在人类眼部组织定性和定量(半)测量体内基因表达的方法。 具体如下https://www.innocentive.com/ar/challenge/9933643 The concept of gene therapy arose decades ago, when researchers postulated that human diseases could be treated by using a technique to introduce foreign DNA to correct genetic defects and disease phenotypes. In recent years, advances in gene therapy have been documented in the treatment of genetic disorders, cancer, and neurodegenerative diseases. Inherited diseases such as retinitis pigmentosa are among a handful of ocular diseases that are amenable to gene therapy. The Seeker desires solutions that will both qualitatively and (semi-) quantitatively measure in vivo gene expression in human ocular tissues. This Challenge requires only a written proposal. Source: InnoCentive Challenge ID: 9933643 Challenge Overview The number of clinical trials for gene therapy to treat ocular disorders is on the rise. Inherited diseases such as retinitis pigmentosa among others are thought to be good candidates for targeted treatment. Currently, there is no method in humans to determine the level or geographic location of transgene expression following administration of gene therapy for diseases of the eye, specifically the retina. The Seeker desires solutions that will both qualitatively and (semi-) quantitatively measure in vivo gene expression in human ocular tissues. Submissions to this Challenge must be received by 11:59 PM (US Eastern Time) on June 20, 2015. Late submissions will not be considered. This is a Theoretical Challenge that requires only a written proposal to be submitted. The Challenge award will be contingent upon theoretical evaluation of the proposal by the Seeker. To receive an award, Solvers will not be required to transfer their exclusive IP rights to the Seeker. Instead, Solvers will grant to the Seeker a   [更多]

我们体内以分泌胰岛素来维持胰岛细胞血糖水平和体内平衡。而糖尿病患者的胰岛细胞是缺乏或无效的。没有足够活性的胰岛素，糖尿病患者就无法控制血糖。胰岛移植是一种治疗策略,糖尿病患者需要胰岛素注射来控制他们的疾病，减轻或根除症状。阿斯利康正在寻找一个简单的装置将人类胰岛移植出来，来检测药物的性能。 具体如下网站，https://www.innocentive.com/ar/challenge/9933735 Pancreatic islet beta-cells sense blood sugar levels and secrete insulin to maintain homeostasis. In patients with diabetes, islet beta-cells are either lacking or ineffective. Islet transplantation is a treatment strategy that allows diabetics to reduce or eliminate the need for insulin injections to control their disease. AstraZeneca is searching for a simple device to transplant human islets to facilitate testing of therapeutic agents. This Challenge requires only a written proposal. Source: InnoCentive Challenge ID: 9933735 Challenge Overview Diabetes is a disease of the pancreatic islet cells. Of the four cell types, insulin-producing beta-cells are the most abundant. Without adequate levels of insulin, diabetes patients have difficulty controlling their blood sugar. One alternative to self-administration of medicine is islet transplantation. The procedure involves an infusion of isolated donor islets into the patient. If the graft is accepted, these islets will function to regulate blood glucose levels through the production of insulin. AstraZeneca is searching for a simple device for the transplantation and subsequent retrieval of human islets to support in vivo testing of therapeutic agents. ABOUT THE SEEKER AstraZeneca is a global, research-based, biopharmaceutical company with a focus on five key therapeutic areas: 1) cardiovascular & metabolic diseases, 2) oncology, 3) respiratory, inflammation & autoimmunity, 4) neuroscience, and 5) infection. As an innovation-driven, research organization, AstraZeneca recognizes that great ideas come from many sources. Open innovation is an avenue by which ideas can be shared and AstraZeneca recently launched a pavilion to further its commitment to facilitate the advancement of pharmaceutical   [更多]

具体要求：　要求工艺成熟,具有成本优势.   [更多]

我们需要设计自动崩解控制器用于靶向给药。自动崩解控制器，一旦触发，应该可以在温和条件(生理)下使药物分子的释放并激活。这个我们可以参考数量有限的文献中描述“self-immolative”（自动分解或自毁）连接器，但我们提出的自动崩解控制器不是这样的装置。具体链接为https://www.innocentive.com/ar/challenge/9933733，具体如下： Design of A Self-Cleaving Linker For Targeted Drug Delivery TAGS: Physical Sciences, Novel Molecules, Chemistry, Life Sciences, Theoretical-IP Transfer AWARD: $25,000 USD | DEADLINE: 4/27/15 | ACTIVE SOLVERS: 165 | POSTED: 3/26/15 The Seeker desires the design of a novel self-cleaving linker for use in targeted drug delivery. The self-cleaving linker, once triggered, should allow for the release of molecule(s) of interest under mild (physiological) conditions. A limited number of “self-immolative” linkers are well described in the literature and are specifically excluded from this Challenge. The Seeker specifically encourages synthetic chemists to consider this Challenge even if they do not have medicinal chemistry knowledge. This Challenge requires only a written proposal. Source: InnoCentive Challenge ID: 9933733 Challenge Overview The Seeker desires the design of a novel self-cleaving linker for use in targeted drug delivery. The self-cleaving linker, once triggered, should allow for the release of molecule(s) of interest under mild (physiological) conditions. A limited number of such “self-immolative” linkers, based upon an elimination to generate a quinone methide, or utilizing a 5 or 6 member ring cyclization, are well described in the literature and are specifically excluded from this Challenge. The Seeker specifically encourages synthetic chemists to consider this Challenge even if they do not have medicinal chemistry knowledge. This is a Theoretical Challenge that requires only a written proposal to be submitted. The Challenge award will be contingent upon theoretical evaluation of the proposal by the Seeker. To receive an award, the Solvers will have to transfer to the Seeker their exclusive Intellectual Property   [更多]

标题：重金求购更昔洛韦标准提高 详细要求： 需求名称：更昔洛韦标准提高 具体要求：招标报价，价格面议 要求时间：请在2015年4月之前 交稿方式：直接点击交稿在线交稿就是了，我会每天过来看的，谢谢各位药智的战友们   [更多]