Granite Bio is a biotechnology company focused on developing novel monoclonal antibodies aimed at treating inflammatory, autoimmune, and fibrotic disorders. The company specializes in creating therapeutic antibodies that deplete pathogenic cells and selectively target key biological processes associated with these diseases. By concentrating on these advanced treatments, Granite Bio contributes to the broader fields of biotechnology, pharmaceuticals, and diagnostics, ultimately seeking to improve patient outcomes in complex medical conditions.
Rhygaze is focused on developing a novel gene therapy aimed at restoring vision in patients affected by diseases that lead to blindness. The company's innovative technology specifically targets cone cells, which are crucial for light detection but may lose sensitivity due to various conditions. By delivering a light-sensor gene directly to these compromised cone cells, Rhygaze seeks to repair their ability to detect light, thereby offering potential vision restoration solutions for individuals suffering from blindness.
Alesta Therapeutics is engaged in developing innovative therapies aimed at treating cancer by targeting chronic stress response pathways. The company focuses on small molecule biotech programs that address synthetic lethal metabolic dependencies essential for cancer cell survival. By targeting specific control mechanisms involved in these pathways, Alesta Therapeutics aims to provide new therapeutic approaches that can effectively disrupt the growth of cancer cells, thereby enhancing treatment options for patients.
Aeonaux Capital is a WealthTech company offering quantitative investment strategies through a digital platform for retail and HNI investors in India. Backed by international investors, the firm focuses on data-driven portfolio management, combining technology and finance.
Citryll is a private pharmaceutical company based in Oss, The Netherlands, founded in 2015. The company focuses on developing drugs aimed at treating autoimmune diseases and other human health conditions. Citryll's innovative approach involves the manipulation of the formation, function, and clearance of neutrophil extracellular traps (NETs) that are influenced by the protein citrullination pathway, specifically through the action of Peptidylarginine Deiminase (PAD) enzymes. This research supports medical professionals in addressing various serious conditions, including lupus, vasculitis, pulmonary fibrosis, rheumatoid arthritis, and organ damage resulting from sepsis.
LoQus23 is a DDF-formed company focussing on targeting DNA damage repair pathways to treat Huntington’s disease and other triplet repeat diseases.
ONL Therapeutics is a biopharmaceutical company focused on developing innovative therapeutics to protect and improve vision in patients with retinal diseases and conditions. Founded in 2006 and headquartered in Ann Arbor, Michigan, the company specializes in creating photoreceptor protective agents that target the FAS apoptotic pathway. Its drug programs aim to safeguard photoreceptors, thereby enhancing outcomes for patients undergoing surgeries related to retinal detachment and other serious vision-threatening issues. Through its research and development efforts, ONL Therapeutics seeks to provide effective solutions for preserving sight and improving the quality of life for individuals affected by these conditions.
Epsilogen Ltd is an immuno-oncology company based in London, United Kingdom, founded in 2016. The company specializes in the development of immunoglobulin E (IgE) antibodies designed to treat cancer, focusing on solid tumors. Epsilogen's portfolio includes IgE candidates that target specific cancer antigens such as HER2, EGFR, and PD-L1. The company also has an IgE platform that facilitates the development and manufacturing validation of novel antibodies. By leveraging the unique properties of IgE, Epsilogen aims to enhance tumor access and increase the potency of cancer treatments, thereby improving therapeutic outcomes for patients.
Rhygaze is focused on developing a novel gene therapy aimed at restoring vision in patients affected by diseases that lead to blindness. The company's innovative technology specifically targets cone cells, which are crucial for light detection but may lose sensitivity due to various conditions. By delivering a light-sensor gene directly to these compromised cone cells, Rhygaze seeks to repair their ability to detect light, thereby offering potential vision restoration solutions for individuals suffering from blindness.
FundaMental Pharma is a neuroscience company focused on developing innovative treatments for neurological diseases at the preclinical stage. The company creates neuroprotective molecular spacers aimed at preventing neurodegeneration in the brain. Utilizing peptides and gene therapy, FundaMental Pharma specializes in diagnosing polymorphisms and is dedicated to developing a novel class of drugs that target untreatable neurological conditions. Through its research, the company seeks to provide pharmacological solutions for patients suffering from various challenging neurological disorders.
Capstan Therapeutics is a biotechnology company focused on enhancing the therapeutic potential of in vivo RNA-based therapies. It develops proprietary targeted delivery systems, including targeted lipid nanoparticles, to improve the efficacy and control of dosage in engineered cell therapies. This innovative platform aims to address a variety of diseases, particularly in the fields of oncology, fibrosis, and inflammation, where there are significant unmet clinical needs. By advancing precision in vivo cell engineering, Capstan Therapeutics seeks to create transformative therapeutics that can offer new solutions for patients facing these challenging conditions.
Enterprise Therapeutics Ltd. is a drug discovery company based in Brighton, United Kingdom, founded in 2014. It focuses on the research and development of innovative therapies for respiratory diseases, specifically targeting chronic obstructive pulmonary disease (COPD), cystic fibrosis, and asthma. The company aims to create disease-modifying therapies that address the underlying mechanisms of mucus congestion in the lungs, which can lead to breathing difficulties and increased susceptibility to lung infections. By developing these novel treatments, Enterprise Therapeutics seeks to enhance the quality of life for patients suffering from these chronic respiratory conditions.
Aravax is an early-stage biotechnology company based in Melbourne, Australia, dedicated to developing a safe and effective treatment for peanut allergies. Founded in May 2015 through the acquisition of intellectual property from Alfred Health and Monash University, Aravax employs proprietary technology aimed at resetting the immune system to tolerate peanuts without triggering allergic reactions. The company's innovative approach seeks to eliminate the risk of life-threatening responses to peanuts, allowing patients to undergo treatment and potentially overcome mild symptoms such as itchiness, rash, and gastrointestinal upset.
AstronauTx is a biotechnology company focused on developing treatments for Alzheimer's disease and other neurodegenerative conditions. The company aims to restore the normal functioning of astrocytes, which are crucial cells in the brain that support neuronal activity, metabolism, and the integrity of the blood-brain barrier. In conditions such as dementia, astrocytes can become dysfunctional, leading to neurotoxicity and exacerbating disease progression. By targeting astrocyte homeostasis, AstronauTx seeks to enable healthcare professionals to effectively address the underlying mechanisms of neurotoxicity associated with these diseases, ultimately improving treatment options for patients suffering from dementia and related disorders.
Hyku is a biotechnology company focused on developing small molecule therapeutics that target disease-causing proteins through precise covalent binding. Utilizing its innovative platform, Hyku identifies molecules that covalently bind to non-cysteine amino acids, facilitating the creation of novel therapies. These therapies aim to address significant challenges in drug development, including issues related to selectivity, druggability, and resistance. By pushing the boundaries of covalent medicine, Hyku seeks to create effective treatments that can improve patient outcomes and advance the field of therapeutic development.
Hepalink is a manufactures ultra-pure pipeline control systems based on semiconductors and pan-semiconductor liquid circuits.
Fore Biotherapeutics is a clinical-stage biotechnology company focused on developing precision oncology treatments tailored to patients with specific genetic mutations. By utilizing functional genomics, the company aims to create a pipeline of therapies that address unmet needs in cancer care. Fore Biotherapeutics conducts research to replicate naturally occurring mutations in vitro, allowing for the assessment of their impact on cellular signaling pathways and responses to various compounds. This approach not only facilitates the identification of novel target mutations but also helps biopharma companies broaden the patient subgroups that may benefit from existing cancer therapies.
Tagworks Pharmaceuticals is a privately held biotech company based in the Netherlands, established in 2011 as a spin-out from Philips Healthcare. The company focuses on developing innovative in vivo chemistry to enhance the effectiveness of cancer therapies and to facilitate novel companion diagnostics. Operating from the Radboud University Medical Center in Nijmegen, Tagworks specializes in antibody-based imaging and therapy technologies. Its proprietary approach allows for the selective chemical manipulation of tagged antibodies in vivo, which improves the efficacy of established methods like radioimmuno-imaging and antibody-drug conjugates. This technology enables medical professionals to conduct imaging with significantly reduced radiation exposure for patients.
Mediar Therapeutics is a pre-clinical stage biotechnology company based in Cambridge, Massachusetts, focused on developing antibody-based therapeutics for the treatment of fibrosis. Founded in 2019, the company aims to provide innovative solutions by targeting key fibrotic mediator proteins that contribute to the development of fibrosis in chronically damaged organs. Through its research and development efforts, Mediar seeks to enable medical practitioners to halt and potentially reverse critical fibrosis and related conditions, addressing a significant unmet need in the field of fibrotic diseases.
Oculis is a global biopharmaceutical company focused on advancing eye care and preserving vision through innovative drug delivery solutions. The company's unique platform enables effective drug absorption in both the anterior and posterior segments of the eye, allowing for the treatment of conditions such as diabetic macular edema (DME) with a simple topical application, thus eliminating the need for invasive procedures. Oculis is developing several therapeutic candidates, including OCS-01, a topical treatment for DME; OCS-02, aimed at addressing dry eye disease; and OCS-05, which targets acute optic neuritis and other neuro-ophthalmic disorders. This novel approach not only facilitates treatment for posterior eye diseases but also reduces the required frequency of applications for anterior conditions compared to traditional eye drops.
CatalYm GmbH, founded in 2016 and based in Munich, Germany, is a biotechnology company focused on developing innovative immunotherapies for cancer patients. The company has identified GDF-15 as a key regulator of the immune system within the tumor microenvironment. By neutralizing GDF-15, CatalYm aims to enhance the immune response against solid tumors, potentially leading to meaningful clinical outcomes. Its CTL-002 program is designed to demonstrate clinical proof-of-concept across multiple solid tumor indications, offering the prospect of expanding treatment options for cancer patients. Through its approach, CatalYm seeks to transform the tumor microenvironment, making tumors more accessible to the immune system and improving both survival rates and quality of life for patients.
Capstan Therapeutics is a biotechnology company focused on enhancing the therapeutic potential of in vivo RNA-based therapies. It develops proprietary targeted delivery systems, including targeted lipid nanoparticles, to improve the efficacy and control of dosage in engineered cell therapies. This innovative platform aims to address a variety of diseases, particularly in the fields of oncology, fibrosis, and inflammation, where there are significant unmet clinical needs. By advancing precision in vivo cell engineering, Capstan Therapeutics seeks to create transformative therapeutics that can offer new solutions for patients facing these challenging conditions.
Epsilogen Ltd is an immuno-oncology company based in London, United Kingdom, founded in 2016. The company specializes in the development of immunoglobulin E (IgE) antibodies designed to treat cancer, focusing on solid tumors. Epsilogen's portfolio includes IgE candidates that target specific cancer antigens such as HER2, EGFR, and PD-L1. The company also has an IgE platform that facilitates the development and manufacturing validation of novel antibodies. By leveraging the unique properties of IgE, Epsilogen aims to enhance tumor access and increase the potency of cancer treatments, thereby improving therapeutic outcomes for patients.
Splice Bio is a biotechnology company based in Barcelona, Spain, focused on developing innovative gene therapies using its proprietary intein platform technology. Founded in 2012 and originally named Proteodesign, S.L., the company aims to address the needs of patients suffering from incurable genetic diseases. The intein platform, developed from research in the Muir Lab at Princeton University, seeks to overcome two significant limitations of traditional adeno-associated virus (AAV) therapies: it enhances the capacity for larger gene delivery and broadens the range of tissues that can be targeted for treatment.
ImmPACT Bio USA Inc. is a cell therapy company focused on developing engineered T-cells specifically designed to target and treat solid tumors. By utilizing advanced technology, the company aims to create chimeric antigen receptor (CAR) T-cell therapies that exhibit tumor specificity, allowing them to induce cytotoxicity only when interacting with tumor cells while sparing healthy tissues. This selective targeting mitigates the safety risks commonly associated with existing CAR-T therapies, providing a promising approach to cancer treatment that enhances efficacy and reduces potential harm to noncancerous cells.
Shenzhen Ikas Industrial Automation Co., Ltd. specializes in providing intelligent manufacturing solutions for industries such as integrated circuit (IC) manufacturing, packaging testing, LED, and photovoltaic sectors. Founded in 2017 and based in Shenzhen, China, the company has developed an advanced industrial system modeling technology called ROPN, which integrates artificial intelligence and big data. This technology supports the creation of over 30 modular products designed for various aspects of the manufacturing process, including equipment maintenance and production scheduling. By leveraging industrial AI technologies and the core principles of the Industrial Internet of Things, IKAS aims to enhance automation, improve production efficiency, and minimize reliance on manual labor in the manufacturing ecosystem.
Anaveon are developing IL-2 complexes which selectively promote effector T cell functions. Our compounds act as effective immune adjuvants with a broad therapeutic window and marked preclinical efficacy against cancer either as monotherapy or in combination with other therapies.
LoQus23 is a DDF-formed company focussing on targeting DNA damage repair pathways to treat Huntington’s disease and other triplet repeat diseases.
Kedalion Therapeutics Inc. is a biotechnology company based in Menlo Park, California, specializing in the development and commercialization of innovative topical ophthalmic therapies. Founded in 2015, the company utilizes its proprietary AcuStream platform technology to deliver topical drugs to the eye with high precision and accuracy. This novel, digitally connected, electromechanical delivery device significantly reduces the required dosage by up to 80% compared to traditional eye drops, while enhancing patient comfort and minimizing side effects. Kedalion's approach aims to meet the unmet needs of patients by providing a user-friendly device that improves the administration of ocular therapies, thereby benefiting both healthcare professionals and patients through increased efficiency and comfort.
Capstan Therapeutics is a biotechnology company focused on enhancing the therapeutic potential of in vivo RNA-based therapies. It develops proprietary targeted delivery systems, including targeted lipid nanoparticles, to improve the efficacy and control of dosage in engineered cell therapies. This innovative platform aims to address a variety of diseases, particularly in the fields of oncology, fibrosis, and inflammation, where there are significant unmet clinical needs. By advancing precision in vivo cell engineering, Capstan Therapeutics seeks to create transformative therapeutics that can offer new solutions for patients facing these challenging conditions.
Exo Therapeutics, Inc. is a drug discovery and development company focused on addressing intractable pharmaceutical targets. Founded in 2018 and based in Cambridge, Massachusetts, the company utilizes its proprietary ExoSight platform to develop a pipeline of drug candidates. These candidates are designed to bind to exosites and unique binding pockets, allowing for the reprogramming of enzyme activity to achieve targeted therapeutic effects. This innovative approach aims to provide robust treatments in areas such as oncology and inflammation, while also minimizing potential side effects for patients. By employing a precise and selective methodology, Exo Therapeutics is positioned to unlock new therapeutic possibilities for a variety of diseases.
Expansion Therapeutics is a drug discovery and development company focused on creating small molecule medicines for RNA-mediated diseases. The company specializes in developing novel RNA-targeted drug candidates that have the potential to treat a wide range of severe health conditions. By leveraging its innovative technology, Expansion Therapeutics aims to provide effective treatment options for patients suffering from these challenging diseases.
Flywheel.io is a cloud-based data management platform tailored for biomedical research and collaboration. Founded in 2012 and headquartered in Minneapolis, Minnesota, the company provides a suite of tools designed to enhance the workflow of scientists and researchers. Its platform supports medical imaging, scientific computation, and content management, enabling users to capture, manage, and analyze research data efficiently. By utilizing cloud scalability and automation, Flywheel facilitates collaborative research, machine learning applications, and multicenter studies, which help organizations streamline their research processes. The platform, featuring a modern web interface and extensible compute engine, aims to eliminate bottlenecks in innovation, allowing researchers to focus on scientific discovery rather than IT challenges.
Immunitas is unlocking human immunology using novel single cell analyses to develop targeted therapeutics for patients with challenging, complex cancers. Translating findings from laboratory research to meaningful clinical advances in humans is a longstanding challenge in the oncology field. Immunitas was founded to directly address this problem and unlock a variety of novel drug targets based on discovery rooted in human biology. They are pursuing this goal with a team of pioneers in these areas across their scientific founders, management, and investors. At Immunitas, they employ a single cell sequencing platform to dissect the biology of immune cells in human tumors. Their focus on human samples allows us to start with and stay closer to the most relevant and translatable biology for patients and accelerates the pace of their research. They are identifying novel, exciting oncology targets and, importantly, developing key biomarkers to guide the selection of patients who may benefit from their new drugs. They are leveraging expertise in antibody discovery and engineering to create powerful therapies that modulate these targets, and are currently advancing a number of programs toward early human studies.
GentiBio, Inc. is a biotherapeutics company focused on developing engineered regulatory T cells (EngTregs) aimed at treating autoimmune, alloimmune, autoinflammatory, and allergic diseases. Founded in 2020 and headquartered in Boston, Massachusetts, with additional locations in Israel and Seattle, GentiBio utilizes a proprietary platform that combines autologous and allogeneic EngTregs technologies. This innovative approach is designed to restore immune tolerance and address limitations present in current regulatory T-cell therapies. By targeting the underlying causes of diseases related to immune system dysfunction, GentiBio aims to provide effective therapeutic solutions for conditions that arise from immune system overshooting or malfunctioning. The company was co-founded by experts in Treg biology and synthetic immunology, positioning it at the forefront of this emerging field.
Artios Pharma Limited is a biotechnology company based in Cambridge, United Kingdom, that specializes in developing innovative cancer treatments targeting DNA damage response (DDR) pathways. Founded in 2015, the company is dedicated to creating first-in-class therapies aimed at selectively killing cancer cells. Artios's product pipeline features several promising programs, including a focus on DNA polymerase theta (Polθ), which plays a crucial role in DNA repair processes. Additionally, the company is advancing an in-licensed program that targets a newly identified protein linked to DDR and is developing a novel treatment aimed at DNA nucleases involved in these pathways. Artios collaborates with Cancer Research Technology and prominent DNA repair researchers globally to enhance its research and development efforts.
Ribon Therapeutics, Inc. is a biotechnology company based in Lexington, Massachusetts, focused on developing novel cancer therapies that target monoPARP proteins, which are essential regulators of cancer survival mechanisms. Established in 2015, Ribon is leveraging insights from its scientific founders and an experienced management team to create a proprietary drug discovery platform aimed at understanding the molecular actions and biological functions of monoPARPs. This platform enables the development of small molecule inhibitors designed to disrupt cancer cells' abilities to withstand stress, potentially leading to innovative treatments for cancer and other diseases. The company is supported by notable life science investors, positioning it for growth in the biopharmaceutical sector.
Soteria Biotherapeutics, Inc., founded in 2018 and based in San Francisco, California, focuses on developing innovative immunotherapies for cancer treatment. The company is creating a new generation of conditionally active bispecific T-cell engaging antibodies specifically aimed at treating solid tumors. Utilizing its advanced T-LITE™ platform, Soteria enables small molecule-dependent activation of these bispecific antibody therapies, which facilitates safer and more effective treatment options. This approach allows for pulsatile activity, resulting in reduced side effects and the potential for higher dosing, thereby improving the overall therapeutic experience for patients.
Oculis is a global biopharmaceutical company focused on advancing eye care and preserving vision through innovative drug delivery solutions. The company's unique platform enables effective drug absorption in both the anterior and posterior segments of the eye, allowing for the treatment of conditions such as diabetic macular edema (DME) with a simple topical application, thus eliminating the need for invasive procedures. Oculis is developing several therapeutic candidates, including OCS-01, a topical treatment for DME; OCS-02, aimed at addressing dry eye disease; and OCS-05, which targets acute optic neuritis and other neuro-ophthalmic disorders. This novel approach not only facilitates treatment for posterior eye diseases but also reduces the required frequency of applications for anterior conditions compared to traditional eye drops.
Amphista Therapeutics Limited is a biopharmaceutical company based in Motherwell, United Kingdom, established in 2017. The company specializes in targeted protein degradation technology to develop innovative cancer therapeutics. Amphista's approach focuses on harnessing the body's natural processes to selectively and efficiently degrade disease-causing proteins, aiming to create first-in-class treatments. By advancing novel methodologies in targeted protein degradation, Amphista seeks to improve therapeutic efficacy and modulate protein abundance linked to disease progression, ultimately enhancing patient outcomes in oncology.
TScan Therapeutics is a biopharmaceutical company dedicated to discovering and developing innovative T cell receptor (TCR) engineered therapies to combat various cancers. Based in Waltham, Massachusetts, the company focuses on TCR-T therapies for both liquid cancers and solid tumors. Its lead candidates, TSC-100 and TSC-101, are designed to address hematologic malignancies, specifically targeting residual leukemia and preventing relapse after hematopoietic stem cell transplantation. In addition, TScan is advancing a multiplexed TCR-T therapy program aimed at treating a range of solid tumors. The company's proprietary platform identifies clinically relevant T cell antigens and minimizes off-target effects, enhancing the precision of its therapies. Founded in 2018, TScan Therapeutics is committed to improving outcomes for patients with serious diseases.
Exo Therapeutics, Inc. is a drug discovery and development company focused on addressing intractable pharmaceutical targets. Founded in 2018 and based in Cambridge, Massachusetts, the company utilizes its proprietary ExoSight platform to develop a pipeline of drug candidates. These candidates are designed to bind to exosites and unique binding pockets, allowing for the reprogramming of enzyme activity to achieve targeted therapeutic effects. This innovative approach aims to provide robust treatments in areas such as oncology and inflammation, while also minimizing potential side effects for patients. By employing a precise and selective methodology, Exo Therapeutics is positioned to unlock new therapeutic possibilities for a variety of diseases.
Faze Medicines is a biotechnology company founded in 2020 and located in Cambridge, Massachusetts. The company focuses on developing small molecule drugs that target the underlying mechanisms of disease pathology, with initial therapeutic efforts directed towards conditions such as amyotrophic lateral sclerosis (ALS) and myotonic dystrophy type 1 (DM1). Faze Medicines employs advanced screening and proteomics techniques to explore biomolecular condensate interaction networks, which aids in the identification and development of novel therapeutics. Through its innovative approach, Faze aims to provide effective treatments for patients suffering from these challenging diseases.
CatalYm GmbH, founded in 2016 and based in Munich, Germany, is a biotechnology company focused on developing innovative immunotherapies for cancer patients. The company has identified GDF-15 as a key regulator of the immune system within the tumor microenvironment. By neutralizing GDF-15, CatalYm aims to enhance the immune response against solid tumors, potentially leading to meaningful clinical outcomes. Its CTL-002 program is designed to demonstrate clinical proof-of-concept across multiple solid tumor indications, offering the prospect of expanding treatment options for cancer patients. Through its approach, CatalYm seeks to transform the tumor microenvironment, making tumors more accessible to the immune system and improving both survival rates and quality of life for patients.
Rappta Therapeutics is a lead-optimization stage biopharmaceutical company. We are working on a first-in-class series of anti-cancer molecules that reactivate a key tumor suppressor, protein phosphatase 2A (PP2A).
Novellus is a biotechnology company working to develop engineered cellular medicines. The company uses its non-immunogenic mRNA molecules to reprogram and gene-edit cells safely, and with high efficiency. They engineer precision medicines for patient segments and select from its technology toolbox for in vivo, ex vivo, allogeneic and autologous delivery. Novellus platform enables the high-level expression of gene-editing and cell-reprogramming proteins for high-specificity gene repair and both autologous and allogeneic cell therapies. The company is advancing its lead program, a breakthrough therapy for a rare dermatologic disease, through pre-clinical studies. Novellus was founded in 2015 and is headquartered in Cambridge, Massachusetts, United States.
Fore Biotherapeutics is a clinical-stage biotechnology company focused on developing precision oncology treatments tailored to patients with specific genetic mutations. By utilizing functional genomics, the company aims to create a pipeline of therapies that address unmet needs in cancer care. Fore Biotherapeutics conducts research to replicate naturally occurring mutations in vitro, allowing for the assessment of their impact on cellular signaling pathways and responses to various compounds. This approach not only facilitates the identification of novel target mutations but also helps biopharma companies broaden the patient subgroups that may benefit from existing cancer therapies.
ESCAPE Bio is a clinical-stage biopharmaceutical company focused on discovering and developing small molecule therapies for genetically defined subpopulations affected by neurodegenerative diseases. Founded in 2015 and based in South San Francisco, California, the company aims to improve the lives of patients suffering from conditions such as Alzheimer's disease, Parkinson's disease, and sphingolipid storage disorders. ESCAPE Bio's pipeline includes innovative candidates like ESB1609, a small molecule S1P5 receptor agonist targeting CNS lysosomal storage disorders, and ESB5070, a kinase inhibitor specifically designed for Parkinson's patients with the LRRK2 G2019S variant. Additionally, the company is developing a program aimed at addressing the needs of Alzheimer's patients who carry the ApoE4 risk allele. Through its precision-targeted approach, ESCAPE Bio seeks to provide effective treatment options for individuals with these complex genetic profiles.
ImmPACT Bio USA Inc. is a cell therapy company focused on developing engineered T-cells specifically designed to target and treat solid tumors. By utilizing advanced technology, the company aims to create chimeric antigen receptor (CAR) T-cell therapies that exhibit tumor specificity, allowing them to induce cytotoxicity only when interacting with tumor cells while sparing healthy tissues. This selective targeting mitigates the safety risks commonly associated with existing CAR-T therapies, providing a promising approach to cancer treatment that enhances efficacy and reduces potential harm to noncancerous cells.
GentiBio, Inc. is a biotherapeutics company focused on developing engineered regulatory T cells (EngTregs) aimed at treating autoimmune, alloimmune, autoinflammatory, and allergic diseases. Founded in 2020 and headquartered in Boston, Massachusetts, with additional locations in Israel and Seattle, GentiBio utilizes a proprietary platform that combines autologous and allogeneic EngTregs technologies. This innovative approach is designed to restore immune tolerance and address limitations present in current regulatory T-cell therapies. By targeting the underlying causes of diseases related to immune system dysfunction, GentiBio aims to provide effective therapeutic solutions for conditions that arise from immune system overshooting or malfunctioning. The company was co-founded by experts in Treg biology and synthetic immunology, positioning it at the forefront of this emerging field.
mPharma is a company focused on improving access to affordable medications for patients in emerging markets. Established in 2013 by Gregory Rockson, Daniel Shoukimas, and James Finucane, mPharma collaborates with pharmaceutical manufacturers, health insurance providers, financial institutions, and governments to facilitate the direct delivery of prescription drugs to consumers. The company offers a pharmaceutical data analytics platform that assists pharmacies in managing their inventory effectively, ensuring that essential chronic disease medications are available at sustainable prices. By enabling doctors, patients, and pharmacists to connect with a network of high-quality medicines, mPharma aims to enhance the overall accessibility and affordability of healthcare for underserved populations.
FoRx Therapeutics AG is a biotechnology company based in Basel, Switzerland, founded in 2019. The company specializes in the development of innovative therapeutics for cancer treatment, specifically targeting key molecular pathways involved in DNA replication stress. By focusing on these novel pathways, FoRx Therapeutics aims to create first-in-class compounds that offer a new approach to targeted anticancer therapies. Through its research and development efforts, the company seeks to provide effective solutions in the fight against cancer.
Akouos, Inc. is a biotechnology company based in Boston, Massachusetts, dedicated to developing gene therapies aimed at restoring, improving, and preserving hearing for individuals affected by various inner ear disorders. Founded in 2016, the company utilizes an innovative platform that includes a proprietary adeno-associated viral vector library and a unique delivery method. Its leading product candidate, AK-OTOF, targets hearing loss resulting from mutations in the OTOF gene. Akouos focuses on genetically-defined patient populations, addressing conditions ranging from single genetic mutations to hearing loss caused by ototoxic drugs and aging. The company has established strategic partnerships with key institutions, including Massachusetts Eye and Ear and Lonza, Inc., to advance its mission of providing precision genetic therapies for sensorineural hearing loss.
TScan Therapeutics is a biopharmaceutical company dedicated to discovering and developing innovative T cell receptor (TCR) engineered therapies to combat various cancers. Based in Waltham, Massachusetts, the company focuses on TCR-T therapies for both liquid cancers and solid tumors. Its lead candidates, TSC-100 and TSC-101, are designed to address hematologic malignancies, specifically targeting residual leukemia and preventing relapse after hematopoietic stem cell transplantation. In addition, TScan is advancing a multiplexed TCR-T therapy program aimed at treating a range of solid tumors. The company's proprietary platform identifies clinically relevant T cell antigens and minimizes off-target effects, enhancing the precision of its therapies. Founded in 2018, TScan Therapeutics is committed to improving outcomes for patients with serious diseases.
Arctos Medical is a spin-off from the University of Bern that focuses on developing optogenetic therapies to address common forms of blindness, particularly those caused by inherited retinal dystrophies (IRDs). Unlike traditional approaches that target rare genetic eye diseases, Arctos Medical's innovative gene therapy aims to enhance the quality of visual information transmitted to the brain, thereby offering potential treatments for patients experiencing complete vision loss. Through its research and development efforts, the company seeks to improve the lives of individuals affected by various forms of blindness.
Immunitas is unlocking human immunology using novel single cell analyses to develop targeted therapeutics for patients with challenging, complex cancers. Translating findings from laboratory research to meaningful clinical advances in humans is a longstanding challenge in the oncology field. Immunitas was founded to directly address this problem and unlock a variety of novel drug targets based on discovery rooted in human biology. They are pursuing this goal with a team of pioneers in these areas across their scientific founders, management, and investors. At Immunitas, they employ a single cell sequencing platform to dissect the biology of immune cells in human tumors. Their focus on human samples allows us to start with and stay closer to the most relevant and translatable biology for patients and accelerates the pace of their research. They are identifying novel, exciting oncology targets and, importantly, developing key biomarkers to guide the selection of patients who may benefit from their new drugs. They are leveraging expertise in antibody discovery and engineering to create powerful therapies that modulate these targets, and are currently advancing a number of programs toward early human studies.
Anokion, a spin-off from the Ecole Polytechnique Fédérale de Lausanne (EPFL), is focused on applying the company’s antigen-specific immune tolerance technology to reduce the immunogenicity of therapeutic proteins and to treat autoimmune and allergic diseases. As a platform technology, Anokion’s approach to antigen-specific tolerance can be translated to virtually any protein in numerous clinical indications.
Renovacor, Inc. is a preclinical-stage biopharmaceutical company based in Philadelphia, Pennsylvania, dedicated to developing gene therapies for cardiovascular diseases. Founded in 2013, the company focuses on innovative treatments for dilated cardiomyopathy (DCM), particularly cases caused by mutations in the BAG3 gene. This condition affects over 3 million individuals in the United States, with around 35,000 patients estimated to have BAG3 mutations, classifying it as an orphan disease. Patients with BAG3-associated DCM, often younger and experiencing faster disease progression, currently have limited treatment options, primarily consisting of standard heart failure care. Renovacor's lead program involves a recombinant adeno-associated virus (AAV)-based gene therapy aimed at replacing the defective BAG3 gene, which holds the potential to prevent disease progression and improve outcomes for this vulnerable patient population.
TScan Therapeutics is a biopharmaceutical company dedicated to discovering and developing innovative T cell receptor (TCR) engineered therapies to combat various cancers. Based in Waltham, Massachusetts, the company focuses on TCR-T therapies for both liquid cancers and solid tumors. Its lead candidates, TSC-100 and TSC-101, are designed to address hematologic malignancies, specifically targeting residual leukemia and preventing relapse after hematopoietic stem cell transplantation. In addition, TScan is advancing a multiplexed TCR-T therapy program aimed at treating a range of solid tumors. The company's proprietary platform identifies clinically relevant T cell antigens and minimizes off-target effects, enhancing the precision of its therapies. Founded in 2018, TScan Therapeutics is committed to improving outcomes for patients with serious diseases.
Forendo Pharma Oy is a drug discovery and development company based in Turku, Finland, established in 2013. The company focuses on the tissue-specific regulation of sex hormone effects to address various urological and endocrinological diseases. Its key products include Fispemifene, a selective estrogen receptor modulator designed to treat symptoms of low testosterone in men, and a 17HSD1-inhibitor targeting endometriosis. Forendo Pharma aims to enhance treatment options for both men's and women's health by developing innovative therapies that address unmet medical needs in gynecological conditions, such as endometriosis and polycystic ovarian syndrome.
Cala Health, Inc. is a bioelectronic medicine company based in Burlingame, California, founded in 2013. It specializes in developing wearable neuromodulation therapies aimed at treating chronic diseases. The company's flagship product, Cala Trio, is a non-invasive prescription therapy designed to provide transient relief from hand tremors in adults with essential tremor. By integrating advancements in neuroscience and technology, Cala Health focuses on delivering individualized peripheral nerve stimulation. In addition to its work on essential tremor, the company is also developing therapies for other neurological conditions, including Parkinson's disease, as well as applications in psychiatry, cardiology, and autoimmune disorders.
Twentyeight-Seven Therapeutics is a developer of microRNAs designed to target regulatory proteins.The company's modulating RNA which are short non-coding RNAs that inhibit target gene expression by suppressing mRNA translation and promoting mRNA decay and develop small molecules that can modulate levels of miRNAs by targeting proteins that interact with these miRNAs, enabling users to target miRNAs are directly involved in cancer initiation, progression, and metastasis.
Anaveon are developing IL-2 complexes which selectively promote effector T cell functions. Our compounds act as effective immune adjuvants with a broad therapeutic window and marked preclinical efficacy against cancer either as monotherapy or in combination with other therapies.
Athelas, Inc. is a healthcare company based in Mountain View, California, that specializes in developing and manufacturing in-home blood analysis devices aimed at diagnosing infections, inflammations, and malignancies. Founded in 2002, Athelas has created a portable optical unit that analyzes blood samples from a single drop, providing diagnostic reports to monitor the immune system. The company's FDA-cleared device is designed to help chronically ill patients manage their health at home, offering additional monitoring for blood pressure, weight, glucose levels, and medication adherence. This technology enables patients to monitor their immunity and assists healthcare providers in the early detection of conditions such as leukemia and other inflammatory diseases. Athelas operates as a subsidiary of MerLion Pharmaceuticals Pte. Ltd.
Ribon Therapeutics, Inc. is a biotechnology company based in Lexington, Massachusetts, focused on developing novel cancer therapies that target monoPARP proteins, which are essential regulators of cancer survival mechanisms. Established in 2015, Ribon is leveraging insights from its scientific founders and an experienced management team to create a proprietary drug discovery platform aimed at understanding the molecular actions and biological functions of monoPARPs. This platform enables the development of small molecule inhibitors designed to disrupt cancer cells' abilities to withstand stress, potentially leading to innovative treatments for cancer and other diseases. The company is supported by notable life science investors, positioning it for growth in the biopharmaceutical sector.
Occlufit AG, founded in 2018 and based in Zurich, Switzerland, specializes in the design and development of an innovative cardiovascular occluder device known as Occlufit. This device is engineered to conform to complex anatomical geometries, allowing for immediate sealing of cardiovascular defects, which is crucial in preventing conditions such as heart failure and stroke. The Occlufit device features a conformable metallic mesh mounted on a compliant balloon, facilitating effective expansion and defect sealing. The company focuses on advancing its products within the cardiovascular medical sector, emphasizing engineering, intellectual property, regulatory compliance, clinical processes, and financial management.
Annexon Biosciences is a clinical-stage biopharmaceutical company focused on developing innovative therapies for patients suffering from classical complement-mediated disorders affecting the body, brain, and eye. The company's research is centered around its platform technology that targets classical complement-mediated autoimmune and neurodegenerative diseases associated with the abnormal activation of C1q, a key molecule in the classical complement pathway. Annexon's lead product candidate, ANX005, is a full-length monoclonal antibody intended for intravenous use in treating autoimmune and neurodegenerative disorders. Another candidate, ANX007, is a monoclonal antibody Fab formulated for intravitreal administration aimed at neurodegenerative ophthalmic conditions. The company employs a disciplined, biomarker-driven development strategy to ensure its therapies effectively engage the target at tolerable doses within the intended patient tissues, while also exploring additional indications within both orphan and larger market segments.
Galera Therapeutics, Inc. is a clinical-stage biopharmaceutical company based in Malvern, Pennsylvania, dedicated to developing innovative therapies that aim to enhance the effectiveness of radiotherapy in cancer treatment. The company’s lead product candidate, avasopasem manganese (GC4419), is a small molecule dismutase mimetic currently undergoing Phase III clinical trials for the treatment of severe oral mucositis induced by radiation in patients with head and neck cancer. Additionally, it is being tested in Phase IIa trials for radiotherapy-induced esophagitis in lung cancer patients. Galera is also advancing a second candidate, GC4711, which is in Phase I/II trials targeting pancreatic and lung cancers. The company was founded in 2012 and is committed to addressing severe side effects associated with cancer treatments to improve patient outcomes.
Twentyeight-Seven Therapeutics is a developer of microRNAs designed to target regulatory proteins.The company's modulating RNA which are short non-coding RNAs that inhibit target gene expression by suppressing mRNA translation and promoting mRNA decay and develop small molecules that can modulate levels of miRNAs by targeting proteins that interact with these miRNAs, enabling users to target miRNAs are directly involved in cancer initiation, progression, and metastasis.
Forendo Pharma Oy is a drug discovery and development company based in Turku, Finland, established in 2013. The company focuses on the tissue-specific regulation of sex hormone effects to address various urological and endocrinological diseases. Its key products include Fispemifene, a selective estrogen receptor modulator designed to treat symptoms of low testosterone in men, and a 17HSD1-inhibitor targeting endometriosis. Forendo Pharma aims to enhance treatment options for both men's and women's health by developing innovative therapies that address unmet medical needs in gynecological conditions, such as endometriosis and polycystic ovarian syndrome.
Bicycle Therapeutics is a clinical-stage biopharmaceutical company focused on developing a novel class of medicines known as Bicycles, which are synthetic short peptides designed to stabilize their structural geometry through two loops. The company primarily targets oncology indications with significant unmet medical needs. Its lead product candidate, BT1718, is a Bicycle Toxin Conjugate currently undergoing Phase I/IIa clinical trials aimed at tumors expressing Membrane Type 1 matrix metalloprotease. Other oncology candidates include BT5528, also in Phase I/IIa trials targeting EphA2, and BT8009, which is in preclinical studies for Nectin-4. Additionally, Bicycle Therapeutics is developing THR-149, a plasma kallikrein inhibitor that has completed Phase I trials for diabetic macular edema. The company collaborates with various biopharmaceutical organizations to advance programs in areas like anti-infectives and cardiovascular health. Founded in 2009, Bicycle Therapeutics is headquartered in Cambridge, United Kingdom.
Artios Pharma Limited is a biotechnology company based in Cambridge, United Kingdom, that specializes in developing innovative cancer treatments targeting DNA damage response (DDR) pathways. Founded in 2015, the company is dedicated to creating first-in-class therapies aimed at selectively killing cancer cells. Artios's product pipeline features several promising programs, including a focus on DNA polymerase theta (Polθ), which plays a crucial role in DNA repair processes. Additionally, the company is advancing an in-licensed program that targets a newly identified protein linked to DDR and is developing a novel treatment aimed at DNA nucleases involved in these pathways. Artios collaborates with Cancer Research Technology and prominent DNA repair researchers globally to enhance its research and development efforts.
Akouos, Inc. is a biotechnology company based in Boston, Massachusetts, dedicated to developing gene therapies aimed at restoring, improving, and preserving hearing for individuals affected by various inner ear disorders. Founded in 2016, the company utilizes an innovative platform that includes a proprietary adeno-associated viral vector library and a unique delivery method. Its leading product candidate, AK-OTOF, targets hearing loss resulting from mutations in the OTOF gene. Akouos focuses on genetically-defined patient populations, addressing conditions ranging from single genetic mutations to hearing loss caused by ototoxic drugs and aging. The company has established strategic partnerships with key institutions, including Massachusetts Eye and Ear and Lonza, Inc., to advance its mission of providing precision genetic therapies for sensorineural hearing loss.
Enterprise Therapeutics Ltd. is a drug discovery company based in Brighton, United Kingdom, founded in 2014. It focuses on the research and development of innovative therapies for respiratory diseases, specifically targeting chronic obstructive pulmonary disease (COPD), cystic fibrosis, and asthma. The company aims to create disease-modifying therapies that address the underlying mechanisms of mucus congestion in the lungs, which can lead to breathing difficulties and increased susceptibility to lung infections. By developing these novel treatments, Enterprise Therapeutics seeks to enhance the quality of life for patients suffering from these chronic respiratory conditions.
Zikani Therapeutics, Inc. is focused on developing and commercializing innovative therapeutics for patients facing limited treatment options. The company utilizes its TURBO-ZM platform to create novel ribosome modulating agents (RMAs) aimed at addressing a variety of conditions, including cystic fibrosis, familial adenomatous polyposis, APC mutant colon cancer, recessive dystrophic epidermolysis bullosa, rare cancers, and other rare genetic diseases. Additionally, Zikani is developing antibiotic compounds that target serious, multi-drug resistant gram-negative infections, an area where existing treatments are often inadequate. Founded in 2014 and initially known as Macrolide Pharmaceuticals, the company is headquartered in Watertown, Massachusetts. Through its advancements in synthetic chemistry and microbiology, Zikani Therapeutics seeks to enhance patient recovery and improve outcomes in challenging medical scenarios.
Oculis is a global biopharmaceutical company focused on advancing eye care and preserving vision through innovative drug delivery solutions. The company's unique platform enables effective drug absorption in both the anterior and posterior segments of the eye, allowing for the treatment of conditions such as diabetic macular edema (DME) with a simple topical application, thus eliminating the need for invasive procedures. Oculis is developing several therapeutic candidates, including OCS-01, a topical treatment for DME; OCS-02, aimed at addressing dry eye disease; and OCS-05, which targets acute optic neuritis and other neuro-ophthalmic disorders. This novel approach not only facilitates treatment for posterior eye diseases but also reduces the required frequency of applications for anterior conditions compared to traditional eye drops.
Expansion Therapeutics is a drug discovery and development company focused on creating small molecule medicines for RNA-mediated diseases. The company specializes in developing novel RNA-targeted drug candidates that have the potential to treat a wide range of severe health conditions. By leveraging its innovative technology, Expansion Therapeutics aims to provide effective treatment options for patients suffering from these challenging diseases.
Aelin Therapeutics, a privately held Belgian biotherapeutics company.Aelin Therapeutics is founded by VIB and its partner universities KU Leuven, VUB and UGent, based on the groundbreaking work of renowned structural biologists Prof Joost Schymkowitz and Prof Frederic Rousseau. The company is based on a very comprehensive preclinical Proof of Concept data package illustrating different applications of the technology such as in bacteria and cancer cells, but also in fungi, viruses and plant cells, with publications in high impact journals including Science. The Pept-in technology allows for the rational design of novel biotherapeutics and differentiates itself from any other therapeutic modality through its unique mode of action, its designability and intracellular target space out of reach for typical small molecule or antibody approaches.
eFFECTOR Therapeutics Inc is a clinical-stage biopharmaceutical company based in San Diego, California. Established in 2012, the company specializes in developing selective translation regulators for cancer and other serious diseases. Its innovative approach involves small molecule drugs known as selective translation regulator inhibitors (STRIs), which target the eIF4F complex and its associated kinase, mitogen-activated protein kinase 1/2 (MNK 1/2). This complex plays a crucial role in the translation of specific messenger RNA into proteins linked to cancer progression. eFFECTOR's lead product candidate, tomivosertib, is currently being evaluated in a Phase 2b trial in combination with pembrolizumab for non-small cell lung cancer. Additionally, zotatifin, an inhibitor of eIF4A, is undergoing dose-escalation trials with plans for further expansion. The company also collaborates with Pfizer to develop inhibitors targeting eIF4E. Through these efforts, eFFECTOR aims to address the challenges of tumor growth, survival, and immune evasion in cancer treatment.
NeuroVia, Inc. is committed to addressing unmet medical needs in neurological diseases with the primary goal to arrest the onset of devastating neurological deficits associated with X-ALD.
ESCAPE Bio is a clinical-stage biopharmaceutical company focused on discovering and developing small molecule therapies for genetically defined subpopulations affected by neurodegenerative diseases. Founded in 2015 and based in South San Francisco, California, the company aims to improve the lives of patients suffering from conditions such as Alzheimer's disease, Parkinson's disease, and sphingolipid storage disorders. ESCAPE Bio's pipeline includes innovative candidates like ESB1609, a small molecule S1P5 receptor agonist targeting CNS lysosomal storage disorders, and ESB5070, a kinase inhibitor specifically designed for Parkinson's patients with the LRRK2 G2019S variant. Additionally, the company is developing a program aimed at addressing the needs of Alzheimer's patients who carry the ApoE4 risk allele. Through its precision-targeted approach, ESCAPE Bio seeks to provide effective treatment options for individuals with these complex genetic profiles.
Lemonaid Health is an online telemedicine platform founded in 2013 and headquartered in San Francisco, California. The company aims to enhance the patient experience and optimize clinical care by utilizing advancements in machine learning and artificial intelligence. By collecting details about medical history, symptoms, current medications, and allergies, Lemonaid Health employs evidence-based guidelines to provide patients with prescriptions. This approach allows users to access quality healthcare services at a price point lower than typical co-pays, making healthcare more affordable and accessible.
Vivet Therapeutics SAS is a biotechnology company focused on researching, developing, and commercializing gene therapy treatments for inherited liver disorders and orphan diseases. Founded in 2016 and based in Paris, France, the company employs a liver-targeting adeno-associated virus (AAV) vector to deliver therapeutic genes directly into hepatocytes, addressing genetic disorders at their source. Vivet is particularly known for its work on diseases such as Wilson disease, Progressive Familial Intrahepatic Cholestasis, and Citrullinemia Type I. In collaboration with the Fundacion para la Investigacion Medica Aplicada and the Centro de Investigación Medica Aplicada at the University of Navarra, Vivet aims to enhance gene delivery technologies and ensure long-term expression of therapeutic genes, thereby advancing the field of gene therapy for liver-related conditions.
Aerpio Pharmaceuticals, a clinical-stage biopharmaceutical company based in Cincinnati, Ohio, is dedicated to developing innovative compounds for treating ocular diseases and diabetic complications. Its lead product candidate, razuprotafib, is a small molecule that activates the Tie2 pathway and has completed a Phase IIb clinical trial for diabetic retinopathy. The company is also advancing ARP-1536, a humanized monoclonal antibody in preclinical stages for diabetic vascular complications, and GB004, a selective stabilizer of hypoxia-inducible factor-1 alpha, currently in a Phase 1b clinical trial for inflammatory bowel disease. Additionally, Aerpio is working on a bispecific antibody targeting wet age-related macular degeneration and diabetic macular edema through intravitreal injection. The company has partnered with Quantum Leap Healthcare Collaborative to evaluate razuprotafib for treating acute respiratory distress syndrome in COVID-19 patients. Founded in 2011 as a spin-out from Akebia Therapeutics, Aerpio adopts an outsourced approach to pharmaceutical development, leveraging the expertise of its management team.
Binx Health Limited is an in vitro diagnostics company based in Trowbridge, United Kingdom, focused on developing point-of-care diagnostic solutions for infectious diseases. Established in 2005, the company offers the binx io system, a FDA-cleared and CLIA-waived platform that detects sexually transmitted infections, including chlamydia and gonorrhea, delivering results comparable to central lab performance within approximately thirty minutes. Additionally, Binx Health provides the Callisto system, which meets various throughput requirements for testing in decentralized and near-patient settings. The company's innovative approach aims to enhance access to healthcare by overcoming traditional barriers and improving patient experiences through rapid polymerase chain reaction (PCR)-based testing and a comprehensive digital program that includes counseling and follow-up care. Binx Health has also formed a strategic partnership with Sherlock Biosciences to further advance its capabilities in diagnostics.
Cavion is a clinical stage pharmaceutical company committed to providing patients with therapies for cancer and neurologic diseases through the development of drugs that selectively inhibit the T-type calcium channel (Cav3). Built on the discovery by Cavion’s founders that ion channels are a target for the treatment of solid tumor cancers, they were the first company to invent therapies engaging Cav3 for the treatment of solid tumors. The innovative idea of treating pathologically proliferating, non-electrically excitable cells by targeting an ion channel has already shown success in preclinical studies and is being tested in Phase 1 safety and dose-finding clinical trials in brain cancer. Their technology is intended to magnify the effects of combined chemotherapy, radiation, and targeted therapies for all solid tumor cancers. Their neurology program uses superior chemistry and clinical expertise to deliver a novel class of drugs that will provide patients with treatments for neurologic diseases. While Cav3 is an established target in neurology, particularly neuropathic pain, Cavion is working to bring the first non-addictive, non-opioid T-type calcium channel antagonist to patients with neuropathic pain. Given that Cav3 plays a role in numerous pathologic conditions, Cavion is simultaneously developing therapies for additional neurologic afflictions such as essential tremor, Parkinson’s disease, epilepsy, and Angelman syndrome.
Inflazome Ltd. is a biotechnology company based in Dublin, Ireland, founded in 2016. It specializes in developing orally available drugs aimed at addressing unmet clinical needs in inflammatory diseases by targeting the inflammasome, a component involved in the inflammatory process. The company’s innovative therapies are designed to block inflammasome signals, effectively tackling various inflammatory-driven conditions. These include orphan diseases, central nervous system disorders such as Alzheimer's and Parkinson's, systemic inflammatory diseases like cardiovascular and pulmonary conditions, and applications in ophthalmology and dermatology. By targeting the root causes of inflammation, Inflazome enables the development of precise treatments for a range of diseases, thereby enhancing therapeutic options for healthcare providers. As of September 2020, Inflazome operates as a subsidiary of Roche Holding AG.
ROX Medical is an early phase medical device company that is pioneering an innovative treatment for Chronic Obstructive Pulmonary Disease (COPD). Their therapy is intended to improve the delivery of oxygen to tissue to treat hypoxemia in COPD patients via the creation of a therapeutic fistula.
Bionano Genomics is a biotechnology company that specializes in genome mapping and analysis, focusing on structural variation detection in DNA. The company develops the Saphyr system, which offers ultra-sensitive and specific detection of structural variations—such as insertions, deletions, inversions, and translocations—linked to various genetic disorders, including cancer. Utilizing optical genome mapping technology, the Saphyr system enables the direct visualization of long DNA molecules and their structural variations without the need for sequencing. This capability is crucial for researchers and clinicians aiming to gain insights into disease mechanisms and genetic disorders, ultimately aiding in the development of personalized treatment strategies. Bionano Genomics markets its products primarily to academic and governmental laboratories, as well as pharmaceutical and biotechnology companies across multiple regions, including North America, Europe, and Asia. Headquartered in San Diego, California, the company was founded in 2003 and was previously known as BioNano Genomics, Inc. until its name change in July 2018.
Annexon Biosciences is a clinical-stage biopharmaceutical company focused on developing innovative therapies for patients suffering from classical complement-mediated disorders affecting the body, brain, and eye. The company's research is centered around its platform technology that targets classical complement-mediated autoimmune and neurodegenerative diseases associated with the abnormal activation of C1q, a key molecule in the classical complement pathway. Annexon's lead product candidate, ANX005, is a full-length monoclonal antibody intended for intravenous use in treating autoimmune and neurodegenerative disorders. Another candidate, ANX007, is a monoclonal antibody Fab formulated for intravitreal administration aimed at neurodegenerative ophthalmic conditions. The company employs a disciplined, biomarker-driven development strategy to ensure its therapies effectively engage the target at tolerable doses within the intended patient tissues, while also exploring additional indications within both orphan and larger market segments.
F2G Ltd is a biotechnology company based in Manchester, United Kingdom, that specializes in developing innovative therapies for serious fungal diseases. Established in 1998, F2G focuses on its F3 series of antifungal compounds, particularly targeting challenging fungi such as Aspergillus and other filamentous molds that pose significant health risks. The company leverages its proprietary genomics technology, MycoBank, to identify critical gene targets in fungi, facilitating the creation of effective antifungal agents. Since its initial funding in 2002, F2G has expanded its research and development capabilities, enabling it to advance its patented compounds and contribute to addressing life-threatening fungal infections that affect individuals with compromised immune systems.
Bionano Genomics is a biotechnology company that specializes in genome mapping and analysis, focusing on structural variation detection in DNA. The company develops the Saphyr system, which offers ultra-sensitive and specific detection of structural variations—such as insertions, deletions, inversions, and translocations—linked to various genetic disorders, including cancer. Utilizing optical genome mapping technology, the Saphyr system enables the direct visualization of long DNA molecules and their structural variations without the need for sequencing. This capability is crucial for researchers and clinicians aiming to gain insights into disease mechanisms and genetic disorders, ultimately aiding in the development of personalized treatment strategies. Bionano Genomics markets its products primarily to academic and governmental laboratories, as well as pharmaceutical and biotechnology companies across multiple regions, including North America, Europe, and Asia. Headquartered in San Diego, California, the company was founded in 2003 and was previously known as BioNano Genomics, Inc. until its name change in July 2018.
Galera Therapeutics, Inc. is a clinical-stage biopharmaceutical company based in Malvern, Pennsylvania, dedicated to developing innovative therapies that aim to enhance the effectiveness of radiotherapy in cancer treatment. The company’s lead product candidate, avasopasem manganese (GC4419), is a small molecule dismutase mimetic currently undergoing Phase III clinical trials for the treatment of severe oral mucositis induced by radiation in patients with head and neck cancer. Additionally, it is being tested in Phase IIa trials for radiotherapy-induced esophagitis in lung cancer patients. Galera is also advancing a second candidate, GC4711, which is in Phase I/II trials targeting pancreatic and lung cancers. The company was founded in 2012 and is committed to addressing severe side effects associated with cancer treatments to improve patient outcomes.
eFFECTOR Therapeutics Inc is a clinical-stage biopharmaceutical company based in San Diego, California. Established in 2012, the company specializes in developing selective translation regulators for cancer and other serious diseases. Its innovative approach involves small molecule drugs known as selective translation regulator inhibitors (STRIs), which target the eIF4F complex and its associated kinase, mitogen-activated protein kinase 1/2 (MNK 1/2). This complex plays a crucial role in the translation of specific messenger RNA into proteins linked to cancer progression. eFFECTOR's lead product candidate, tomivosertib, is currently being evaluated in a Phase 2b trial in combination with pembrolizumab for non-small cell lung cancer. Additionally, zotatifin, an inhibitor of eIF4A, is undergoing dose-escalation trials with plans for further expansion. The company also collaborates with Pfizer to develop inhibitors targeting eIF4E. Through these efforts, eFFECTOR aims to address the challenges of tumor growth, survival, and immune evasion in cancer treatment.
Galera Therapeutics, Inc. is a clinical-stage biopharmaceutical company based in Malvern, Pennsylvania, dedicated to developing innovative therapies that aim to enhance the effectiveness of radiotherapy in cancer treatment. The company’s lead product candidate, avasopasem manganese (GC4419), is a small molecule dismutase mimetic currently undergoing Phase III clinical trials for the treatment of severe oral mucositis induced by radiation in patients with head and neck cancer. Additionally, it is being tested in Phase IIa trials for radiotherapy-induced esophagitis in lung cancer patients. Galera is also advancing a second candidate, GC4711, which is in Phase I/II trials targeting pancreatic and lung cancers. The company was founded in 2012 and is committed to addressing severe side effects associated with cancer treatments to improve patient outcomes.
Proteostasis Therapeutics is discovering and developing novel small molecule therapeutics designed to control the body's protein homeostasis, or Proteostasis Network. The Proteostasis Network maintains the body's natural balance of proteins to protect us from numerous diseases. These novel therapies, or Proteostasis Regulators, are designed to treat multiple genetic and degenerative disorders associated with deficiencies of the Proteostasis Network, such as emphysema, type II diabetes, Alzheimer's Disease and Huntington's Disease.
Ra Pharmaceuticals, Inc. is a clinical-stage biopharmaceutical company headquartered in Cambridge, Massachusetts, focused on developing therapeutics for diseases associated with the overactivation of the complement system. Utilizing a peptide chemistry platform, the company creates synthetic macrocyclic peptides that combine the specificity of antibodies with the pharmacological advantages of small molecules. Its lead candidate, Zilucoplan, is an injectable treatment that has completed Phase II clinical trials for generalized myasthenia gravis and paroxysmal nocturnal hemoglobinuria, along with a Phase Ib trial for patients with renal impairment. Additionally, Ra Pharmaceuticals is advancing pre-clinical programs targeting Factor D inhibition for C3 glomerulonephritis and other complement factors for various diseases. The company has established a collaboration with Merck & Co., Inc. to explore orally available cyclic peptides for non-complement cardiovascular targets. Founded in 2008, Ra Pharmaceuticals operates as a subsidiary of UCB SA.