Pressure BioSciences' UltraShear Platform Maintains Nutritional, Sensory, and Other Important Qualities of Liquid Foods While Inactivating Foodborne Bacterial Spores
Pressure BioSciences' UltraShear Platform Maintains Nutritional, Sensory, and Other Important Qualities of Liquid Foods While Inactivating Foodborne Bacterial Spores
Novel Results Published in Respected Peer-Reviewed Food Science and Emerging Technologies Journal - Discussions Underway with Beverage Industry Companies
在备受推崇的同行评审的《食品科学与新兴技术》杂志上发表的新成果——正在与饮料行业公司进行讨论
SOUTH EASTON, MA / ACCESSWIRE / December 12, 2023 / Pressure BioSciences, Inc. (OTCQB:PBIO), a leading developer and provider of broadly enabling pressure-based instruments, consumables, and specialty process development and testing services across global industries, including food and beverage, health and wellness, nutraceuticals, cosmetics, biotherapeutics, and more, today announced the publication of a pivotal scientific study in the critical field of food safety, featuring the Company's Ultra Shear TechnologyTM (UltraShearTM or USTTM) platform.
马萨诸塞州南伊斯顿/ACCESSWIRE/2023 年 12 月 12 日/Pressure BioSciences, Inc. (OTCQB: PBIO) 是食品和饮料、健康与保健、营养品、化妆品、生物疗法等全球行业广泛支持的压力基仪器、消耗品以及特种工艺开发和测试服务的领先开发商和提供商,今天宣布发表一项食品安全关键领域的关键科学研究,采用公司的超剪切技术TM (UltraSheTM 或者 USTTM)平台。
The recently published article, entitled "Synergistic Effects of Pressure, Temperature, Shear, and Their Interactions on Clostridium sporogenes PA3679 Spore Inactivation During Ultra-Shear Processing" was featured in the peer-reviewed journal "Innovative Food Science and Emerging Technologies." This collaborative effort involved esteemed academic scientists from The Ohio State University ("Ohio State") College of Food, Agricultural, and Environmental Sciences ("CFAES"), with co-authorship by PBIO's Senior Vice President of Engineering, Dr. Edmund Y. Ting. The publication underscores the efficacy of PBI's revolutionary USTTM platform in advancing food safety, preservation, stability, and enhancing consumer sensory experiences.
最近发表的题为 “压力、温度、剪切力及其相互作用的协同效应” 的文章 孢子增殖梭菌 同行评审期刊《创新食品科学与新兴技术》刊登了 “PA3679 超剪切加工过程中的孢子失活”。这项合作项目涉及来自俄亥俄州立大学(“俄亥俄州立大学”)食品、农业和环境科学学院(“CFAES”)的尊敬的学术科学家,由PBIO工程高级副总裁Edmund Y. Ting博士共同撰写。该出版物强调了PBI革命性的UST的功效TM 促进食品安全、保存、稳定和增强消费者感官体验的平台。
Dr. Ting commented: "For many years, the food industry has been seeking effective methods to achieve high food safety with minimal reduction to the beneficial nutritional and sensory aspects of foods. PBIO's UltraShear platform has the potential to achieve bacterial and bacterial spore destruction required to allow consumer friendly, shelf stable, liquid foods to be made without the addition of chemical additives ("clean label") or high heat processing (often destructive to flavor, nutrition, aesthetics, stability, and other important quality attributes)."
丁博士评论说:“多年来,食品行业一直在寻找有效的方法来实现较高的食品安全,同时尽量减少食品的有益营养和感官方面。PBIO的UltraShear平台有可能实现细菌和细菌孢子破坏,从而在不添加化学添加剂(“清洁标签”)或高温加工(通常会破坏风味、营养、美观、稳定性和其他重要质量属性)的情况下生产对消费者友好、保质期稳定的液态食品。”
The collaborative effort between The Ohio State University and PBIO has successfully developed conditions that leverage the positive effects of high-pressure homogenization, controlled exposure to elevated temperatures, and high hydrostatic pressure within the UltraShear equipment, resulting in a significant reduction of viable bacterial spores while maintaining high product quality compared to current food processing methods such as thermal inactivation.
与热灭活等当前食品加工方法相比,俄亥俄州立大学和PBIO的合作成功地开发了利用高压均质化、受控高温暴露和UltraShear设备内高静水压力的积极效果的条件,从而显著减少了存活的细菌孢子,同时保持了较高的产品质量。
Key Highlights from the Publication:
该出版物的主要亮点:
- The article demonstrates the potential of UltraShear inactivation of foodborne bacterial spores by uniquely combining controlled temperature, pressure, and high fluid shear.
- The publication signals the future possibility of UltraShear processing of shelf-stable low-acid fluid products to maximize nutritional and sensory qualities for heat-sensitive products while significantly decreasing the potential of bacterial contamination, including spores.
- The authors validated the compatibility of conventional clean-in-place protocols with the UltraShear equipment.
- 本文通过独特地结合受控温度、压力和高流体剪切力,展示了UltraShear灭活食源性细菌孢子的潜力。
- 该出版物表明,UltraShear未来有可能对可保质期的低酸流体产品进行加工,以最大限度地提高热敏感产品的营养和感官品质,同时显著降低细菌污染(包括孢子)的可能性。
- 作者验证了传统的就地清理协议与UltraShear设备的兼容性。
In their article, the authors spoke to the industrial relevance of their results, stating "UltraShear Technology is a novel processing method that has a potential to help produce value-added liquid foods, sauces, gels, and nanoemulsions, while helping to preserve foods by inactivating undesirable microorganisms using the combination of pressure, shear, and temperature."
作者在文章中谈到了其研究结果的工业意义,他们指出:“UltraShear Technology是一种新的加工方法,有可能帮助生产增值的液体食品、酱汁、凝胶和纳米乳液,同时通过使用压力、剪切和温度的组合使不良微生物失活来帮助保存食物。”
Mr. John B. Hollister, Director of Marketing and Sales, added: "Food safety remains a critical concern worldwide, especially with the rising popularity of low-acid, preservative-free liquid products such as dairy and non-dairy plant-based beverages. While various treatment methods exist for preserving vulnerable chemical constituents in food, none individually ensure acceptable inactivation levels of bacterial spores, the dormant forms of dangerous bacteria, while maintaining nutrition, flavor, and overall quality of the food. The Ohio State results indicate that PBIO's patented UltraShear processing platform might be the answer to this very serious global problem."
营销和销售总监约翰·霍利斯特先生补充说:“食品安全仍然是全球关注的关键问题,特别是乳制品和非乳制植物基饮料等低酸、不含防腐剂的液体产品越来越受欢迎。尽管有多种处理方法可以保存食物中的脆弱化学成分,但没有一种方法可以单独确保细菌孢子(休眠形式的危险细菌)的灭活水平达到可接受的水平,同时保持食物的营养、风味和整体质量。俄亥俄州立大学的结果表明,PBIO的专利UltraShear处理平台可能是这个非常严重的全球问题的答案。”
Mr. Richard T. Schumacher, President and CEO of PBIO, concluded: "What an incredible way to end 2023. In addition to reporting on our patented UltraShear platform and its potential future role in ensuring food safety while maintaining nutritional, sensory, and stability qualities of the food, we also recently announced the following key achievements: (i) independent confirmation in a peer-reviewed journal from a world-renowned scientific team that PBIO's UltraShear processing platform delivers oil-based CBD with unprecedented absorption, speed of action, and bioavailability; (ii) presentation at a key international bioprocess conference by scientists at PBIO and Lonza Biologics ($7 billion global protein therapeutics CMO), highlighting PBIO's BaroFold platform for breakthrough protein refolding/disaggregation capabilities; and (iii) announcement of a 10X increase in Nano CBD topical spray bottles ordered from the Veterans Service Team, as part of what both organizations believe to be a multi-million dollar transaction over the next five years. As good as things have been recently, we believe that the best is yet to come - we are very much looking forward to 2024!"
PBIO总裁兼首席执行官理查德·舒马赫先生总结说:“结束2023年的方式真是不可思议。除了报道我们的专利UltraShear平台及其在保持食品营养、感官和稳定质量的同时确保食品安全的未来潜在作用外,我们还宣布了以下关键成就:(i)在世界知名科学团队的同行评审期刊中独立证实,PBIO的UltraShear加工平台提供的油基CBD具有前所未有的吸收、作用速度和生物利用度;(ii)科学家在重要的国际生物工艺会议上发表演讲 PBIO 和Lonza Biologics(价值70亿美元的全球蛋白质疗法首席营销官),重点介绍了PBIO的突破性蛋白质再折叠/分解能力的BaroFold平台;以及(iii)宣布将从退伍军人服务团队订购的Nano CBD局部喷雾瓶增加10倍,这是两个组织都认为未来五年数百万美元交易的一部分。尽管最近情况良好,但我们相信最好的还在后面——我们非常期待2024年!”
About Pressure BioSciences, Inc.
关于压力生物科学公司
Pressure BioSciences, Inc. (OTCQB:PBIO) is a global leader in providing innovative, broadly enabling, high pressure-based solutions for a range of industries, including biotechnology, pharmaceutical, nutraceutical, cosmeceutical, and agrochemical, as well as food and beverage manufacturing. Our products utilize both constant and alternating pressure. Our patented enabling technology platform, Pressure Cycling Technology (PCT), utilizes alternating cycles of pressure to control bio-molecular interactions (such as cell lysis and biomolecule extraction) safely and reproducibly. PCT-based products are beginning to be widely used for biomarker and target discovery, drug design and development, biotherapeutics characterization and quality control, soil & plant biology, forensics, and counter-bioterrorism applications. We have recently expanded our market opportunities with the acquisition of the BaroFoldTM patented technology platform, allowing us to enter the bio-pharma contract services and GMP manufacturing equipment sector. We have also developed the scalable and high-efficiency pressure-based UltraShear TechnologyTM (UltraShearTM) platform, which allows for the creation of stable nanoemulsions of otherwise immiscible fluids. It also allows for the preparation of higher quality, homogenized, extended shelf-life or room temperature-stable low-acid liquid foods that cannot be effectively preserved using existing non-thermal technologies. Our commitment to innovation and cutting-edge technology has established PBIO as a leader in the high-pressure industry, providing unique and effective solutions to our customers.
Pressure BioSciences, Inc.(OTCQB: PBIO)是全球领导者,为生物技术、制药、营养品、药妆和农用化学品以及食品和饮料制造等一系列行业提供创新、广泛支持、基于高压的解决方案。我们的产品同时使用恒定压力和交变压力。我们的专利赋能技术平台压力循环技术(PCT)利用压力的交替循环来安全、可重复地控制生物分子相互作用(例如细胞裂解和生物分子提取)。基于PCT的产品已开始广泛用于生物标记物和靶标发现、药物设计和开发、生物疗法表征和质量控制、土壤和植物生物学、法医和反生物恐怖主义应用。最近,通过收购BaroFold,我们扩大了市场机会TM 专利技术平台,使我们能够进入生物制药合同服务和GMP制造设备领域。我们还开发了可扩展且高效的基于压力的UltraShear技术TM (UltraSheTM)平台,该平台允许用原本不可混溶的流体制造稳定的纳米乳液。它还允许制备质量更高、均质化、更长的保质期或室温稳定的低酸液态食品,这些食品无法使用现有的非热技术进行有效保存。我们对创新和尖端技术的承诺使PBIO成为高压行业的领导者,为我们的客户提供独特而有效的解决方案。
Forward Looking Statements
前瞻性陈述
This press release contains forward-looking statements. These statements relate to future events or our future financial performance and involve known and unknown risks, uncertainties and other factors that may cause our or our industry's actual results, levels of activity, performance, or achievements to be materially different from any future results, levels of activity, performance or achievements expressed, implied, or inferred by these forward-looking statements. In some cases, youcan identify forward-looking statements by terminology such as "may," "will," "should,""could,""would," "expects," "plans," "intends,""anticipates," "believes," estimates,""predicts," "projects,""potential" or "continue" or the negative of such terms and other comparable terminology. These statements are only predictions based on our current expectations and projections about future events. You should not place undue reliance on these statements. In evaluating these statements, you should specifically consider various factors. Actual events or results may differ materially. These and other factors may cause our actual results to differ materially from any forward-looking statement. These risks, uncertainties, and other factors include, but are not limited to, the risks and uncertainties discussed under the heading "Risk Factors" in the Company's Annual Report on Form 10-K for the year ended December 31, 2022, and other reports filed by the Company from time to time with the SEC. The Company undertakes no obligation to update any of the information included in this release, except as otherwise required by law.
本新闻稿包含前瞻性陈述。这些陈述与未来事件或我们未来的财务业绩有关,涉及已知和未知的风险、不确定性和其他因素,这些因素可能导致我们或我们行业的实际业绩、活动水平、业绩或成就与这些前瞻性陈述所表达、暗示或推断的任何未来业绩、活动水平、业绩或成就存在重大差异。在某些情况下,你可以通过诸如 “可能”、“将”、“应该”、“可以”、“期望”、“计划”、“打算”、“预期”、“预期”、“相信”、“估计”、“预测”、“项目”、“潜力” 或 “继续” 等术语和其他类似术语的否定词来识别前瞻性陈述。这些陈述只是基于我们当前的预期和对未来事件的预测而作出的预测。您不应过分依赖这些陈述。在评估这些陈述时,应特别考虑各种因素。实际事件或结果可能存在重大差异。这些因素和其他因素可能导致我们的实际业绩与任何前瞻性陈述存在重大差异。这些风险、不确定性和其他因素包括但不限于公司截至2022年12月31日止年度的10-K表年度报告以及公司不时向美国证券交易委员会提交的其他报告中在 “风险因素” 标题下讨论的风险和不确定性。除非法律另有要求,否则公司没有义务更新本新闻稿中包含的任何信息。
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有关PBI和本新闻稿的更多信息,请点击以下网站链接:
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Press Contacts: | ||
Richard T. Schumacher, President & CEO | (508) 230-1828 (T) | |
Edmund Y. Ting, Ph.D. Sr. VP Engineering | (508) 230-1828 (T) | |
John B. Hollister, Director of Sales and Marketing | (805) 908-5719 (T) |
新闻联系人: | ||
理查德·舒马赫,总裁兼首席执行官 | (508) 230-1828 (T) | |
Edmund Y. Ting 博士高级工程副总裁 | (508) 230-1828 (T) | |
约翰·霍利斯特,销售和营销总监 | (805) 908-5719 (T) |
SOURCE: Pressure BioSciences Inc.
来源:压力生物科学公司