Abstract

Rapid developments in Regenerative Medicine and Tissue Engineering has witnessed an increasing drive toward clinical translation of breakthrough technologies. However, the progression of promising preclinical data to achieve successful clinical market authorisation remains a bottleneck. One hurdle for progress to the clinic is the transition from small animal research to advanced preclinical studies in large animals to test safety and efficacy of products. Notwithstanding this, to draw meaningful and reliable conclusions from animal experiments it is critical that the species and disease model of choice is relevant to answer the research question as well as the clinical problem. Selecting the most appropriate animal model requires in-depth knowledge of specific species and breeds to ascertain the adequacy of the model and outcome measures that closely mirror the clinical situation. Traditional reductionist approaches in animal experiments, which often do not sufficiently reflect the studied disease, are still the norm and can result in a disconnect in outcomes observed between animal studies and clinical trials. To address these concerns a reconsideration in approach will be required. This should include a stepwise approach using in vitro and ex vivo experiments as well as in silico modeling to minimize the need for in vivo studies for screening and early development studies, followed by large animal models which more closely resemble human disease. Naturally occurring, or spontaneous diseases in large animals remain a largely untapped resource, and given the similarities in pathophysiology to humans they not only allow for studying new treatment strategies but also disease etiology and prevention. Naturally occurring disease models, particularly for longer lived large animal species, allow for studying disorders at an age when the disease is most prevalent. As these diseases are usually also a concern in the chosen veterinary species they would be beneficiaries of newly developed therapies. Improved awareness of the progress in animal models is mutually beneficial for animals, researchers, human and veterinary patients. In this overview we describe advantages and disadvantages of various animal models including domesticated and companion animals used in regenerative medicine and tissue engineering to provide an informed choice of disease-relevant animal models.

Highlights

  • The use of sentient animals for research purposes is a controversial topic, which has raised public and ethical concerns and is criticized by opponents claiming that animal models often do not generate appropriate benefit with regards to their potential risks and harm and as a consequence, are often ethically not permissible

  • We focus on horses, sheep, dogs, cats and pigs as the most frequently used large animal models in research and do not include primates due to the ethical dimension and limited indications, which require their specific use

  • We have shown at a molecular level that canine cardiosphere derived cells (CDCs) are immune- privileged similar to the immunomodulatory function of Mesenchymal Stem cells (MSCs) (Dutton et al, 2018b) and cryopreservation retains this property suggesting they are safe to use in vivo

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Summary

INTRODUCTION

The use of sentient animals for research purposes is a controversial topic, which has raised public and ethical concerns and is criticized by opponents claiming that animal models often do not generate appropriate benefit with regards to their potential risks and harm and as a consequence, are often ethically not permissible. For a successful translation of tissue engineering and regenerative medicine research into clinical therapies, it is critical that this misperception is corrected It is the authors’ hope that this review, which introduces different large animal models, their naturally occurring diseases and their specificities, may stimulate biomedical researchers to look for the very best model possible for their specific research question and that it will encourage interdisciplinary cooperation to optimize the choice of disease-relevant animal models in the future. Even phasing-out the use of nonhuman primates in Europe is discussed

WHY THE CHOICE OF ANIMAL MODELS IS CRUCIAL
Weight at skeletal maturity in kg Life span in years
Age Matters
Naturally Occurring and Generated Models of Genetic Disease
Naturally Occurring and Generated Models of Musculoskeletal Disease
General Considerations
Cartilage Injuries and Osteoarthritis
Additional Considerations Regarding Horses
Imaging plus validated scoring approaches
SHEEP AS ANIMAL MODELS
Musculoskeletal Disorders
Nervous System
Heart Disease
Tissue Engineering Applications in Other Systems
Additional Considerations Regarding Sheep
PIGS AS ANIMAL MODELS
Drug Discovery and Toxicology
Generated Genetic Models
Transplantation Models
Additional Considerations Regarding Pigs
COMPANION ANIMALS AS ANIMAL MODELS
Canine Inherited Copper Toxicosis
Human and Feline Hypertrophic Cardiomyopathy
Human and Canine Dilated and Arrhythmogenic Ventricular Cardiomyopathy
Musculoskeletal Disorders in Companion Animals
Additional Considerations Regarding Companion Animals
CONCLUSION
Findings
AUTHOR CONTRIBUTIONS

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