BioLegacy provides a comprehensive suite of in vivo oncology platforms designed to deliver definitive efficacy and mechanism-of-action data for your program. Our portfolio of cancer models spans from xenografts and syngeneic tumor models representing the major type of cancers. Orthotopic implantations that faithfully replicate the unique microenvironments of diseases are available. By leveraging sophisticated models and integrating them with advanced imaging and biomarker analysis, we empower our partners with the critical, translationally relevant insights needed to accelerate their most promising candidates toward the clinic.

BioLegacy provides an extensive portfolio of in vivo platforms to definitively assess the efficacy of your novel immunomodulatory therapeutics. Our expertise spans a wide range of inflammatory conditions, from systemic and organ-specific inflammation to validated models of arthritis, asthma, COPD, and hypersensitivity. By integrating these robust models with advanced immune cell profiling and biomarker analysis, we deliver the critical, mechanistic data you need to demonstrate target engagement and de-risk your path to IND and beyond.

BioLegacy offers preclinical neurology studies leveraging a wide-ranging suite of in vivo neuroscience platforms designed to deliver definitive efficacy and mechanistic data. Our validated models span neurodegenerative disorders and multiple sclerosis to complex spinal cord injury surgeries and models of seizure and epilepsy. Armed with a battery of sensitive behavioral and cognitive tests, we provide the translatable data needed to demonstrate therapeutic potential.

BioLegacy’s cardiovascular studies utilize a broad range of in vivo platforms. These include models of heart failure with preserved or reduced ejection fraction (HFpEF, HFrEF), advanced models of thrombosis and vascular remodeling, and specialized vein graft and vascular access studies. Combined with sophisticated assessments of cardiovascular function, vascular permeability, and blood flow, BioLegacy delivers the critical efficacy and mechanistic data required to gain a comprehensive understanding of your therapeutic candidates and advance your leads to regulatory submission.

BioLegacy’s suite of in vivo dermatology platforms deliver definitive data on your compound’s efficacy and mechanism of action. We offer quantitative models of incisional and excisional wound healing, well-characterized models of atopic dermatitis, psoriasis, and acute skin irritation, and more. In combination with specialized functional assessments, including passive cutaneous anaphylaxis assays and quantitative histopathology, we provide translationally relevant data to advance your topical or systemic therapeutic.

Definitive data on glucose homeostasis, body composition, and lipid metabolism is essential for advancing novel therapeutics targeting metabolic disease. We generate this critical information using a comprehensive suite of well-characterized genetic and diet-induced rodent models of Type 1 and Type 2 diabetes, obesity, and hyperlipidemia. Combined with gold-standard functional assessments and key biomarker analysis, BioLegacy delivers a clear, quantitative profile of your compound’s efficacy and mechanism of action.

A clear understanding of a compound’s effect on gut inflammation, barrier integrity, and GI function is pivotal for developing novel gastroenterology therapeutics. BioLegacy provides this critical data using extensively validated in vivo models. Our portfolio of models ranges from gold-standard chemically-induced colitis models for inflammatory bowel disease (IBD) to assessments of gastric irritation and gastrointestinal motility, delivering a definitive profile of your compound’s efficacy and / or GI-related safety.

From complex hepatobiliary surgery to comprehensive functional assessment, BioLegacy provides an integrated platform for advancing your hepatology pipeline. Our expertise includes the maintenance of a dedicated bile duct cannulated (BDC) colony for critical PK/ADME studies and proficiency in direct organ cell inoculation for advanced disease modeling and cell therapy evaluation. We leverage these specialized capabilities alongside gold-standard models of liver fibrosis and inflammation to provide a clear assessment of therapeutic efficacy, backed by robust liver function testing and quantitative histopathology.

BioLegacy delivers a definitive understanding of airway hyperresponsiveness, inflammation, and fibrotic remodeling using well-characterized in vivo models for asthma, COPD, and lung fibrosis. By integrating these robust platforms with specialized dosing techniques and gold-standard functional and cellular analyses, we deliver a clear, quantitative profile of efficacy and mechanism of action for your novel respiratory therapeutics.

Tackling the dual challenges of drug-resistant pathogens and dysregulated host immunity requires preclinical models that can simultaneously assess both antimicrobial efficacy and the resulting immune response. BioLegacy’s infectious disease platform is engineered to meet this need, providing definitive data from our robust models of sepsis and drug-resistant bacterial infections. By integrating bacterial load quantification with in-depth immunophenotyping and cytokine analysis, we deliver a clear, comprehensive profile of your therapeutic’s ability to combat infection and beneficially modulate the host immune response.

A definitive evaluation of therapeutics and devices for bone safety and therapeutic potential requires a multidimensional approach, integrating functional and histological endpoints. BioLegacy provides such comprehensive assessments, leveraging our deep expertise in models of bone healing and remodeling to deliver clear definitive data. Combining robust surgical models with biomechanical testing and histomorphometry, we and our partner laboratories provide a complete profile of your therapeutic or device’s impact on tissue regeneration and structural integrity.

BioLegacy provides definitive data on renoprotective therapeutics using a suite of well-characterized in vivo models of kidney fibrosis, unilateral ureteral obstruction (UUO), acute renal failure, chronic kidney disease (CKD), and others. By integrating gold-standard functional assessments with in-depth biomarker analysis and quantitative histopathology, we deliver a robust profile of your small molecules, biologics, and ATMPs ability to preserve renal function and mitigate tissue damage.