A Proof of Concept Study to Evaluate the Precision of ABL-101 Perfluorocarbon and Fluorine-19 Magnetic Resonance Imaging in Mapping of Atherosclerotic Plaque Composition and Inflammation in Patients Undergoing Carotid Endarterectomy

This study is aimed at patients suffering from carotid atherosclerosis. In the presence of atherosclerosis of the carotid arteries, one of the treatments that can be proposed is carotid endarterectomy, the aim of which is to remove the atherosclerotic plaque that obstructs the carotid artery and therefore increases the risk of developing a stroke. The risk of rupture of these plaques is primarily assessed by anatomical medical imaging: the degree of stenosis (narrowing) that the plaque causes most often informs the decision whether or not to proceed with surgery. However, it is well established that the degree of stenosis is not a very precise decision criterion: some plaques would never have ruptured, while others have ruptured even though no surgical intervention had been performed. It has since been discovered that the degree of inflammation is a much more accurate predictor of future rupture, but there is currently no reliable non-invasive imaging marker to measure plaque inflammation.
In this study, the investigators therefore evaluate a new marker, the perfluorocarbon ABL-101, for non-invasive imaging of inflammation in atherosclerotic plaque. To assess the marker's effectiveness in quantifying inflammation in plaque, the plaque will be analyzed microscopically after removal to obtain a more accurate measure of the degree of inflammation. This will enable us to assess the effectiveness of the non-invasive marker injection method versus the more invasive microscopic analysis of the removed plaque.
ABL-101 consists of a perfluorocarbon (PFC) emulsion, a liquid mixture in which PFC particles are dispersed. PFCs are chemical compounds containing only carbon and fluorine, and are known for their ability to transport large quantities of oxygen. Totally inert, PFCs cannot be broken down by the body and are eliminated naturally. Due to their small size, these particles are also captured by certain immune system cells and, combined with 19F-MRI, constitute a marker of inflammation.

开始日期2025-07-01

申办/合作机构

Centre Hospitalier Universitaire Vaudois

CTRI/2024/10/075127

/ Not yet recruitingN/AIIT

Functional and Anatomical outcomes in a complex Rhegmatogenous retinal detachments (RRD) managed by retaining perfluorocarbon liquid (PFCL) tamponade for 2 weeks. - NIL

开始日期2024-10-24

申办/合作机构

Sankara Eye Hospital

NCT03463551

/ Unknown status临床2期IIT

Perfluorocarbon (ABL-101) Oxygenation for Stroke: Trial With GOLD (Glasgow Oxygen Level Dependent Technology) Imaging Theranostic (POST-IT)

This study evaluates the safety and tolerability of 3 dose levels of ABL-101 and supplemental oxygen in acute stroke patients.

开始日期2018-09-01

申办/合作机构

NHS Greater Glasgow & Clyde

[+2]

100 项与全氟化碳相关的临床结果

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100 项与全氟化碳相关的转化医学

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100 项与全氟化碳相关的专利（医药）

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323

项与全氟化碳相关的文献（医药）

2025-01-01·RETINA-THE JOURNAL OF RETINAL AND VITREOUS DISEASES

RHEGMATOGENOUS RETINAL DETACHMENT

Article

作者: Semionov, Anastasia ; Goldberg, Mordechai ; Potter, Michael J ; Brosh, Koby ; Hanhart, Joel

Purpose::

To report the characteristics of retinal detachment demarcation lines on infrared imaging together with retinal detachment progression analysis.

Methods::

We performed a retrospective case series of 25 eyes of 24 patients who underwent macula off rhegmatogenous retinal detachment (RRD) repair and demonstrated a postoperative demarcation line on in infrared imaging. All patients had an optical coherence tomography imaging at baseline capturing the extent of the RRD. Criteria for demarcation lines diagnosis on infrared imaging included a line parallel and with the same contour of the RRD edge. These lines were not observed on infrared imaging before RRD repair surgery.

Results::

Demarcation lines' hyperreflectivity was situated in the interdigitation-ellipsoid zone complex. These lines were more obvious on the early postoperative week but faded over time (average disappearance time 2.6 ± 2.9 months). The analysis of retinal detachment progression showed that superior RRDs progressed more than inferior RRDs (611 vs. 122 μ, P = 0.02). Among 13 cases with a superior RRD, the temporal border progressed more than the nasal side (697 vs. 426 μ, P = 0.01, Figure 1). The use of intraoperative perfluorocarbon was associated with less RRD progression (P = 0.01).

Conclusion::

The study concludes that demarcation lines are distinct findings on infrared imaging, appearing early but diminishing relatively quickly after RRD repair. It also revealed the characteristics of RRDs progression specifically that inferior RRDs and perfluorocarbon use were associated with less retinal progression.

2024-11-01·RETINA-THE JOURNAL OF RETINAL AND VITREOUS DISEASES

PERFLUOROCARBON LIQUID USE DURING VITRECTOMY FOR MACULA-OFF RETINAL DETACHMENT HAS NO IMPACT ON MACULAR FOLDS AND METAMORPHOPSIA

Article

作者: Gaucher, David ; Ballonzoli, Laurent ; Dormegny, Lea ; Muller, Candice ; Wurtz, Mathieu ; Bourcier, Tristan ; Saleh, Maher

Purpose::

To compare two drainage techniques in macula-off retinal detachment surgery: perfluorocarbon liquid (PFCL)-assisted drainage and partial subretinal fluid drainage without PFCL. This study investigated morphological and functional outcomes, focusing on metamorphopsia quantification.

Methods::

Eighty eyes with macula-off retinal detachment were retrospectively included. All underwent a 25-gauge pars plana vitrectomy. In the PFCL group, subretinal fluid drainage was performed using PFCL. In the partial subretinal fluid drainage (SRFD) group, subretinal fluid was partially drained through a preexisting retinal break without PFCL. A follow-up at 3 months and 6 months evaluated anatomical outcomes using optical coherence tomography, best-corrected visual acuity, and metamorphopsia quantified with M-charts.

Results::

Reattachment rates were comparable in the PFCL group (97.5%) and the SRFD group (95%) (P > 0.05). Mean best-corrected visual acuity (logMAR) was 0.23 ± 0.32 (PFCL group) and 0.15 ± 0.13 (SRFD group) (P = 0.206). Metamorphopsia was reported by 19 patients (47.5%) in the PFCL group and by 12 patients (30%) in the SRFD group (P = 0.332). The mean metamorphopsia score was similar in both groups (0.27 ± 0.12 in the PFCL group and 0.28 ± 0.11 in the SRFD group, P = 0.866). Morphological optical coherence tomography findings were comparable in both groups.

Conclusion::

Morphological and functional outcomes were similar in PFCL and SRFD groups. Metamorphopsia quantification scores did not improve with PFCL. While both of these techniques might be effective and could be recommended for primary macula-off retinal detachment management, potential PFCL toxicity should be kept in mind and its use dedicated to selected cases.

2024-07-01·COLLOIDS AND SURFACES B-BIOINTERFACES

Enhanced breast cancer treatment using phototherapy and RNS therapy with macrophage membrane-coated liposomes

Article

作者: He, Zhixian ; Zhang, Wei ; Xu, Xiaodong ; Li, Chenhao ; Wang, Feiran

Breast cancer, the predominant malignancy afflicting women, continues to pose formidable challenges despite advancements in therapeutic interventions. This study elucidates the potential of phototherapy, comprising both photothermal and photodynamic therapy (PTT/PDT), as a novel and promising modality. To achieve this goal, we devised liposomes coated with macrophage cell membranes including macrophage-associated membrane proteins, which have demonstrated promise in biomimetic delivery systems for targeting tumors while preserving their inherent tumor-homing capabilities. This integrated biomimetic delivery system comprised IR780, NONOate, and perfluorocarbon. This strategic encapsulation aims to achieve a synergistic combination of photodynamic therapy (PDT) and reactive nitrogen species (RNS) therapy. Under near-infrared laser irradiation at 808 nm, IR780 demonstrates its ability to prolifically generate reactive oxygen species (ROS), including superoxide anion (O^2•-), singlet oxygen, and hydroxyl radical (·OH). Simultaneously, NONOate releases nitric oxide (NO) gas upon the same laser irradiation, thereby engaging with IR780-induced ROS to facilitate the formation of peroxynitrite anion (ONOO-), ultimately inducing programmed cell death in cancer cells. Additionally, the perfluorocarbon component of our delivery system exhibits a notable affinity for oxygen and demonstrates efficient oxygen-carrying capabilities. Our results demonstrate that IR780-NO-PFH-Lip@M significantly enhances breast cancer cell toxicity, reducing proliferation and in vivo tumor growth through simultaneous heat, ROS, and RNS production. This study contributes valuable insights to the ongoing discourse on innovative strategies for advancing cancer therapeutics.

项与全氟化碳相关的新闻（医药）

2024-09-13

·PRNewswire

Ig Nobel Prize Awarded to Takanori Takebe for "Butt-Breathing" Study

Go ahead, crack a joke. Butt seriously, this research from an expert at Cincinnati Children's and the Tokyo Medical and Dental University might save lives someday by helping people when they cannot get enough oxygen via their lungs CINCINNATI, Sept. 12, 2024 /PRNewswire/ -- On one hand, Takanori Takebe, MD, PhD, would prefer to be remembered for his multiple breakthrough contributions to organoid medicine. However, he may never be forgotten for his work to demonstrate that people can "breathe" through their butts. Continue Reading Takanori Takebe, MD, PhD The journal Med published the initial findings from Dr. Takebe and colleagues demonstrating that mammals can survive otherwise lethal conditions when receiving an enema of liquid saturated with high amounts of oxygen. Takebe's unusual insight about an alternative way to deliver oxygen to the bloodstream inspired headlines when a successful animal-model study was featured in June 2021 on the cover of the journal Med. His team's findings have since attracted attention from media outlets including the New York Times, New York Post, Science NOW, and the Canada-based science television show "The Nature of Things." Now, Takebe has received the ultimate snarky scientific honor: an Ig Nobel Prize. This satiric prize has been awarded to 10 researchers each year since 1991 by the scientific humor magazine Annals of Improbable Research to "honor achievements that first make people laugh, and then make them think." This year's prizes were presented Sept. 12, 2024, at the Massachusetts Institute of Technology by actual Nobel Prize laureates. Takebe is a native of Japan who holds academic posts in Tokyo and the United States. At Cincinnati Children's, Takebe is Director for Commercial Innovation at the Center for Stem Cell and Organoid Research and Medicine (CuSTOM). In Japan, he is a professor with the Tokyo Medical and Dental University's Institute of Research. On the side, he began thinking several years ago about an odd, eel-like fish called a loach. Sometimes this freshwater bottom-dweller can wind up in water that's running low on oxygen. When this occurs, the fish augments water-breathing via its gills by gulping surface air directly to its intestines. What if people could do something similar? Well, it appears quite possible. "There are multiple health conditions including respiratory distress in newborn patients that can threaten lives by disrupting our lungs' ability to transfer oxygen to the bloodstream. These include injuries or inflammation affecting the airway, pneumonia filling the lungs with fluid, and so on. During the COVID pandemic, many patients suffered in part because there was a global shortage of ventilators and limited accessibility to ECMO," says Takebe. "Enteric ventilation could serve as an important alternative oxygen delivery route. Further confirmation is needed by our initial studies indicate that our ventilation system is capable of supporting patients experiencing severe respiratory failure." The butt-breathing concept involves delivering a liquid (called a perfluorocarbon) that can be loaded with much more oxygen than water normally carries. When delivered through a rectal tube, the lower intestine can absorb oxygen from the liquid and send it directly into the bloodstream—much like receiving an enema. Takebe and colleagues have shown that this method has helped rodents and porcine models survive low-oxygen conditions that would otherwise be fatal. Since the initial studies, Takebe and colleagues have co-founded a start-up company called EVA Therapeutics, Inc., to further pursue human clinical trials in Japan. In June 2024, the company announced providing its first dose to a healthy human participant. More research is needed to evaluate and fine-tune the delivery system, particularly for sick people in multiple settings. Goals include learning how much oxygen can be reliably delivered, for how long, and whether receiving the liquid poses any unforeseen risks. The good news: Takebe's Ig Nobel honor comes with a monetary prize to carry on the work--a single banknote worth 100 trillion Zimbabwean dollars. Ig Nobel officials say that adds up to about 40 cents in U.S. currency. Learn more about Takebe's work Learn How Enteral Ventilation Concept Got Started Read More About Organoid Research at Cincinnati Children's Watch an Employee Video About Dr. Takebe Media Contact: Tim Bonfield Cincinnati Children's [email protected] SOURCE Cincinnati Children's Hospital Medical Center WANT YOUR COMPANY'S NEWS FEATURED ON PRNEWSWIRE.COM? 440k+ Newsrooms & Influencers 9k+ Digital Media Outlets 270k+ Journalists Opted In GET STARTED

2024-09-06

·nuvoxpharma.com

NuvOx Pharma LLC Announces Receipt of Qualified Person’s Declaration Equivalence to UK / EU GMP for Investigational Medical Products

Tucson, AZ, September 6th, 2024 – NuvOx Pharma LLC, a wholly owned subsidiary of NuvOx Therapeutics Inc. (together, “NuvOx”) announced that it has received a Qualified Person’s Declaration Equivalence to UK / EU GMP for Investigational Medicinal Products Manufactured outside of EU (in Third Countries) . This declaration fulfills a key requirement to initiate the NOVEL clinical trial (“NanO2 in Large VessEL Occlusion Stroke”). The declaration verifies that, based on audits of the manufacturing of NanO2TM that the manufacturing complies with good manufacturing practice (“GMP”) standards that are at least equivalent to European Union GMP requirements. Evan Unger, MD, CEO of NuvOx, said, “The NanO2 in Large VessEL Occlusion Stroke trial is crucial in advancing our product, NanO2, in its next stage of clinical development. This trial is designed as a multi-center, single-blind, randomised, placebo-controlled blinded end-point clinical trial to evaluate the safety, tolerability and preliminary efficacy of perfluorocarbon in acute ischemic stroke due to large vessel occlusion.” “This declaration is an impressive achievement for the NuvOx team”, added Rong Wang, President and COO of NuvOx. “GMP standard in the UK / EU is very stringent, especially since 2023, when the European standard for sterile product was further tightened. We went through a site inspection at end of Q1 2024, and had to plan and implement many upgrades in our operation and quality systems. Such upgrades were completed while we also ramped up our regular production to support our multiple clinical programs. This milestone showcases our passionate spirit.” Calvin Koerner, (ex-FDA Consultant, I.Q. Auditing), said, “I have been advising NuvOx in its GMP compliance and evaluation since 2023. In the nearly 30 years that I have worked in the biopharma industry, obtaining the declaration, under the revised European Annex 1 (2022) in a relative short time, is a huge feat and very impressive. Their accomplishments and achievements are well deserved.” The NOVEL study is funded by the Efficacy and Mechanism Evaluation (EME) Programme, a partnership between the National Institute for Health and Care Research (NIHR) and the Medical Research Council (MRC). About NuvOx NuvOx is a privately held Phase IIb ready company developing a novel oxygen therapeutic where hypoxia plays a role. Hypoxia, or low oxygen, is responsible for resistance to cancer treatment, brain damage in stroke, and the death of COVID-19 patients with acute respiratory distress syndrome (ARDS). The Company’s lead drug candidate- NanO2 represents a disruptive platform technology ad-dressing multiple unmet needs, with positive results demonstrated in two completed Phase Ib/II studies: one in glioblastoma as a radiosensitizer and the other in stroke as a neuroprotect-ant. It was shown to be the most effective oxygen therapeutic among 74 clinical-stage com-pounds in literature review. It has safety and efficacy data in 7+ indications in various preclinical and clinical stages, including Orphan Drug Designation for both glioblastoma and sickle cell anemia. The product can refer to safety data in ~2,000 subjects. The product is designed to be synergis-tic, rather than competitive with standard of care. The company also has a strong IP portfolio: 11 Patent Families; 11 issued US patents and 32 foreign equivalents. NuvOx is conducting a Phase IIb clinical trial as a radiosensitizer in treatment of primary brain cancer, glioblastoma, and also plans to start a Phase IIb clinical trial for NanO2 in treatment of acute ischemic stroke, and a Phase Ib clinical trial for NanO2 in treatment of respiratory distress. About the National Institute for Health and Care Research (NIHR) The mission of the National Institute for Health and Care Research (NIHR) is to improve the health and wealth of the nation through research. We do this by: •Funding high quality, timely research that benefits the NHS, public health and social care; •Investing in world-class expertise, facilities and a skilled delivery workforce to translate discoveries into improved treatments and services; •Partnering with patients, service users, carers and communities, improving the rele-vance, quality and impact of our research; •Attracting, training and supporting the best researchers to tackle complex health and social care challenges; •Collaborating with other public funders, charities and industry to help shape a cohesive and globally competitive research system; •Funding applied global health research and training to meet the needs of the poorest people in low and middle income countries. NuvOx Contact: NuvOx Pharma Dr. Evan Unger, CEO Rong Wang, President and COO Investor Contact: Rong Wang rwang@nuvoxpharma.com Forward looking statement Certain statements in this release may constitute “forward-looking statements.” When used in this release, words like “may,” “will,” “can,” “should,” “expect,” “anticipate,” “believe,” “project,” or “intend” and other similar expressions are intended to identify forward-looking statements. Statements regarding future events and developments and future performance, as well as our expectations, beliefs, plans, or projections, are forward-looking statements which reflect only our predictions, assumptions, and estimates regarding future events and circumstances. Actual events or results may differ substantially as a result of risks and uncertainties facing us. The forward-looking statements are based on current expectations as of the date of these statements. We undertake no obligation to publicly update or revise any forward-looking statements, whether as a result of future events, new information, or otherwise.

临床2期孤儿药临床结果

2022-09-23

·Science Daily

Scientists use modified silk proteins to create new nonstick surfaces

Scientists developed a method to make silk-based materials that refuse to stick to water, or almost anything else containing water. Molded into forms like plastic, or coated onto surfaces as a film, the silk material has nonstick properties that surpass those of commercially available non-stick surfaces. Researchers at Tufts University have developed a method to make silk-based materials that refuse to stick to water, or almost anything else containing water for that matter. In fact, the modified silk, which can be molded into forms like plastic, or coated onto surfaces as a film, has non-stick properties that surpass those of nonstick surfaces typically used on cookware, and it could see applications that extend into a wide range of consumer products, as well as medicine. Silk is a natural fiber spun by moths and has been used for thousands of years to make durable and fine fabrics -- and surgical sutures to close wounds. More recently, scientists have learned to break down the fibers to their basic protein element -- silk fibroin -- and reconstitute it into gels, films, sponges, and other forms to create everything from implantable orthopedic screws to textile inks that change color in response to body chemistry. "What makes silk such a unique material is that not only can it take on a wide range of forms and shapes, but one can easily change its properties by chemically modifying the silk fibroin," said Krishna Kumar, Robinson Professor of Chemistry at Tufts. "If we want to make orthopedic screws that are absorbed by the body at different rates using silk fibroin, we modify the chemistry," he said. "If we want to create a blood sensor that detects oxygen, or glucose, or other blood components, we modify the chemistry. In this study, we modified silk fibroin to repel water, and we can do it in a way that can 'tune' the material to be more or less water repellant." The advance was reported in the journal ChemBioChem. Turning silk into a water repellent material involved covering the surface of the silk fibroin with short chemical chains containing carbon and fluorine, called perfluorocarbons. These chains are very stable and do not react with other chemicals, nor do they interact with proteins and other biological chemicals in the body. While the natural surface of the silk protein acts like a magnet to water, with negatively and positively charged branches on the silk attracting water, a silk protein covered with perfluorocarbons leaves little for the water to grab on to. Perfluorocarbons even resist attraction caused by other forces that typically bring molecules together. Changing the number and length of perfluorocarbon chains on the silk protein can adjust how 'unsticky' it behaves. Luke Davis, Assistant Professor of Chemistry, established the level of fluorine required on the surface of silk to exhibit nonstick behavior. The chemical synthesis is done under mild conditions, so unlike the production of other non-stick substances, the manufacturing process could be safer, both for workers and the environment Safer manufacturing and a renewable biological source of material checks off two boxes for sustainability. The Tufts researchers measured the nonstick property by observing how water beads up on the surface of the material -- like how water rolls off a waxed car. In fact, on nonstick silk molded into bars using the highest level of perfluorocarbons, the water rolled up into drops that are rounded even tighter than they do on Teflon. It's not just water that rolls off the nonstick silk, but any substance that has water as a major component, which could include various foods, blood, cells, and tissues. Although not tested in this study, perfluorinated materials are known to repel oils as well. "Modifying medical devices to prevent detrimental interactions with water and other biologics has the potential to preserve strength and integrity for as long as they are needed," explained Julia Fountain, graduate student in Kumar's lab and co-author of the paper. "Silk is already relatively inert to the immune system, so tuning its ability to repel cells or other substances could make it even more useful." The advantages of highly nonstick surfaces go well beyond medical applications. While there is concern regarding chemicals absorbed in the body from commercially available nonstick coatings, silk-based non-stick surfaces may offer an alternative option which can be explored for its relative safety. One could also imagine automotive windshields where rainwater just rolls off without using wipers, coatings on metals that help prevent rust, or on fabrics to make them easier to clean. "The success we had with modifying silk to repel water extends our successes with chemically modifying silk for other functionalities -- such as the ability to change color, conduct electrical charge, or persist or degrade in a biological environment," said David Kaplan, Stern Family Professor of Engineering at Tufts. "As a protein, silk lends itself well to modular chemistry -- the ability to 'plug in' different functional components on a natural scaffold."

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KEGG	Wiki	ATC	Drug Bank
-	全氟化碳	-	DB12477

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适应症	最高研发状态	国家/地区	公司	日期
急性缺血性卒中	临床2期	-	Aurum Biosciences Ltd.	2018-09-01
创伤性脑损伤	临床2期	美国	Tenax Therapeutics, Inc.	2005-09-01
闭合性头部受伤	临床2期	美国	Tenax Therapeutics, Inc.	2005-09-01
脑损伤	临床2期	-	Aurum Biosciences Ltd.	-
脑损伤	临床2期	-	Naval Medical Research Center	-
缺氧	临床2期	-	Tenax Therapeutics, Inc.	-
缺氧	临床2期	-	Aurum Biosciences Ltd.	-
缺氧	临床2期	-	Naval Medical Research Center	-
炎症	临床2期	-	Aurum Biosciences Ltd.	-
中毒	临床2期	-	Tenax Therapeutics, Inc.	-

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研究	分期	人群特征	评价人数	分组	结果	评价	发布日期


EURETINA2024	N/A	孔源性视网膜脱离 - 黄斑脱落	-	Perfluorocarbon liquid (Partial subretinal fluid (SRF) drainage (SRFD) group)	窪顧艱蓋蓋憲願鹹糧築(衊鹹窪鏇膚廠觸蓋鬱窪) = 顧鑰築鬱艱餘蓋繭齋製衊構齋廠構繭膚鹹鑰艱 (夢齋齋製蓋遞衊築簾憲 ) 更多	-	2024-09-19
PO268 (AAO2018)	N/A	视网膜脱离	-	Perfluorocarbon Liquid	網艱壓艱襯築壓顧襯網(壓蓋鬱鏇廠構選鑰膚壓) = 製醖繭齋淵襯艱鹹網網顧夢鏇窪鹹膚醖壓襯願 (壓淵築顧夢襯鹹膚積憲 ) 更多	积极	2018-10-28
PO290 (AAO2002)	N/A	视网膜穿孔	-	Perfluorocarbon	淵遞遞網遞鑰膚夢鑰範(衊繭糧獵衊鹽鹽願憲繭) = 窪艱網選醖獵膚窪壓壓鹹願廠獵鏇顧鏇構齋鹹 (淵築鹹鹹構鬱醖艱廠鏇 ) 更多	积极	2002-10-22
PO290 (AAO2002)	N/A	视网膜穿孔	-	Perfluorocarbon	淵遞遞網遞鑰膚夢鑰範(衊繭糧獵衊鹽鹽願憲繭) = 淵築願範願遞範糧顧願鹹願廠獵鏇顧鏇構齋鹹 (淵築鹹鹹構鬱醖艱廠鏇 ) 更多	积极	2002-10-22