Role of Animal Models in Periodontal Clinical Research and its Present-Day Status: A Narrative Review
Correspondence Address :
Muskan Baheti,
Intern, Department of Periodontics and Implantology, Sharad Pawar Dental College and Hospital, DMIMS, Sawangi, Wardha-442001, Maharashtra, India.
E-mail: bahetimuskan31@gmail.com
The use of animal models have aided in the development of new information in periodontology research. Animal models enable legal acceptance of human welfare. Dogs, rats, ferrets, hamsters, mice and on rare occasions, rabbits and sheep have been used to study human periodontal diseases. Animal models were chosen because they have similar anatomical and physiological features of the oral cavity and periodontium, as well as the presence of causative agents that contribute to the occurrence of natural periodontal disease in humans. There has been a progression toward the development of a feasible and sufficiently accurate model that accurately reflects the true pathogenic mechanisms of living person periodontal disease. Non human primates have been used extensively in periodontal investigations as well as in medical technology to understand the origin of periodontal disease. Caries and calculus study is best accomplished through hamsters and rat. Periodontal disease and calculus formation in ferrets could be potential and encouraging in the research area. Thus, the structural and pathophysiology of the animal kingdom differs from that of human beings and seems sometimes troublesome with the latest therapies. Hamster stays an intriguing model for immunological studies. New possibilities in the periodontal analysis are now accessible, enabling broader cohorts that are easier to build. The goal of this review is to give an overview of the animal models that have been employed in the periodontal investigation. The purpose of this review is to identify the best animal model for periodontal research and also for the safety precautions for human beings. The use of fact-finding models used in periodontal disease is crucial to grasp the root source in the human being. Animal models are beneficial in periodontal surveys and an unavoidable step before accessing clinical testing with the latest biomaterials and therapies.
Dogs, Hamsters, Host, Mice, Periodontal disease
Periodontal disease is a highly persistent immunoinflammatory disease characterised by subgingival biofilms that comprise multiple potential periodontal pathogens all of which deteriorate periodontal structures (1). Periodontitis is induced not only by microbial contamination but may also be linked to the host’s vulnerability to the adverse effects of periodontal infection (2). Individual differences in host responses play a notable role in the development of dental disease (3). Although human cell growth is an effective method for duplicating certain components of the periodontal structure progression at the molecular level, there was a scarcity of information on the complex host immune response (4). Periodontology research employs a variety of approaches, the most important of which is to utilise experimental periodontal models to investigate the origins of periodontal disorders. Numerous breeds were employed in the research of the development of periodontitis and to assess the disease’s therapy alternatives (5).
In instances where tissue collection for histopathology is not widely accepted in humans, animal research is an excellent supplement to artificially inseminate the investigations prior to evaluating new clinical treatments. The most widely utilised species are monkeys, dogs, rodents, rabbits, ferrets, rats, pigs, and hamsters (5).
Criteria for Selecting Appropriate Animal Models
The study’s objectives, along with lab constrictions such as keeping bigger or unusual animals, influence the selection of an experimentally induced model. Monkeys and dogs, which are massive species with moral and environmental concerns can only be used for the final phase of verification of prescribed therapies before they are used in human clinical care (5). Animal models, such as rats as well as hamsters, are usually adequate for analysing the role of microbes, nutrition, or even other variables in periodontitis at the histopathologic level, which provides statistical validity and preclinical relevance (6). For choosing appropriate animal models, the following criteria are mentioned in (Table/Fig 1) (7).
Animal Models for the Analysis of Periodontal Pathogenicity
Animal models were chosen because they have similar anatomical and physiological features of the oral cavity and periodontium, as well as the presence of causative agents that contribute to the occurrence of natural periodontal disease in humans (5).
A) Non human primates: The smallest non human primate species, such as marmosets, weigh 300-355 gm, while the largest, such as chimps and gorillas, weigh upto 1,000 kilograms. These are all diphyodont genera. Teeth as well as roots have similar anatomy to humans, but they are smaller in size in marmosets. In most non human primates, canines are elongated and prehensile. Gorilla and baboon premolars have multiple roots. Monkeys have a distinct advantage in that they are phylogenetically similar to humans. When certain species of non human primates reach adulthood, they develop periodontal disease (8). Spontaneous periodontal disease is highly hazardous to rhesus monkeys, cynomolgus monkeys, and baboons. The histological morphology of the periodontium appears to be similar to that of living things. An inflammatory reaction carried by periodontal disease is remarkably comparable to the inflammatory response experienced by people. Plasma cells, lymphocytes, as well as neutrophils invade ligaments and tendons. In periodontal studies, the marmoset seems to be the most widely employed non human primate (9).
B) Dogs: Gingival as well as periodontal disorders in dogs were the subject of numerous research. Due to its size and exceptionally cooperative attitude, the beagle is among the most widely used dogs. Overall periodontium structures and teeth sizes are remarkably identical to those seen in humans. Significant variations between humans and dogs include the absence of crevicular fluid and gingival sulcus well as a distinct composition of periodontal plaque and calculus (10). All dogs have mixed dentition. All domestic dogs are predisposed to periodontal disease as adults, but they can be kept healthy with proper plaque control. Gingival recessions are seen in dogs with advanced periodontitis. Gram-positive cocci form the majority of supragingival plaque. Feeding a gentle, finely diced food that promotes the formation of supragingival plaque and calculus can hasten the progression of gingivitis in dogs (11). In healthy dogs, the gingival sulcus is almost always absent. Gingivitis, which has already developed, causes inflamed gums in dogs. The premolar and molar teeth furcation sites may be affected by bone deficiency. Periodontitis affects bacterial colonies in dog models and is more severe than in domestic dogs (12). The interproximal spaces degrade more commonly than the bifurcated regions. The premolars seem to be the most prevalently lost teeth. The scope and sites of periodontal diseases are not consistent with those of natural periodontal diseases which could be regarded as a dog model drawback. Though Dogs are served as animal models in a variety of procedures such as in mucogingival surgery, guided osseous regeneration, and even in implant surgery dogs appear to be the most utilised animal model for periodontal investigation because of their reproducible, critical-sized abnormalities (5).
C) Rats: In terms of periodontal disease causation, the rat seems to be the most thoroughly studied animal (13). Wistar or Spraque-Dawley is the most widely utilised strain. The rat was chosen because it resembled a human. Rat’s dental gingiva has numerous similarities with human dental gingiva in terms of structure such as having a thin gingival sulcus and junctional epithelium attached to the tooth surface. There are some variations such as:
• The keratinisation of the crevicular epithelium in rats (5).
• Relationship between the gingival and junctional epithelium with desmosomal contact between the most superficial cells of the gingival epithelium and the non keratinised cells of the junctional epithelium (5).
Although there is a structure variation, the junctional epithelium appears to be a pathway for foreign substances, bacterial endotoxins, and inflammatory cell exudations, similar to that occurs in humans (14). Rats’ dental tissues change as they age, including continual tooth eruption and irreversible bone apposition in regards to the overall occlusal surface of the molar as well as cementum. All of these physical and age-related variations influence the analysis of periodontal disease (5). Rats were utilised as mono contamination for various isolated gram-positive species of bacteria from the oral cavity of humans which led to periodontal disease in 84 days (15).
D) Rice rats: American species named swamp rice rat (Oryzomys palustris) is common throughout the southern United States (16). They are prone to periodontal disease (12). Rice rats were used to investigate nutritional impacts and treatment alternatives. Changes that occur throughout a rice rat are mentioned in (Table/Fig 2) (17),(18),(19),(20),(21),(22).
E) Hamsters: Contagious periodontal disease due to plaque microbes has been demonstrated using hamsters. The most prevalent hamster is the golden Syrian hamster. The periodontium structure is histologically comparable to that of rats, though the interdental septum is thinner in this species due to its small size. To develop spontaneous periodontal disease, researchers employed an optimum diet heavy in carbohydrates, mainly sucrose (23). A plaque was formed by formic acid-producing bacteria mixed with waste food in this diet, and it predominantly affected the palatal surfaces rather than the buccal surfaces (24). The inflammatory process in hamsters is fairly limited, and it differs greatly from that in humans. The periodontal lesions and processes of alveolar bone resorption in rats affected by gram-positive bacteria are very similar to humans (5).
F) Mice: It is widely used because of unique benefits like compact size, cheap, predictable age, genetic origin, regulated microbiota, including ease of operation in rodents. They, like mice, are members of the Gilres cohort and have now been frequently employed during periodontal investigations. In periodontal research, a variety of mice models were utilised, which are listed below in (Table/Fig 3) (25),(26),(27),(28),(29),(30),(31),(32),(33),(34),(35),(36),(37),(38).
G) Ferrets: It is assumed that the domestic ferret (Mustelaputoriusfuro) is descended from the wild (European) polcat. The ferret is an ideal method for analysing calculus since its calculus is the same as human calculus and it is not dependent on the diet like that of the mouse and hamster. It’s utilised to assess periodontal abnormalities [24,25]. Ferrets have mixed dentition (5).
Merits and Demerits of Various Animal used for Study
The merits and demerits of various animals used for the study are shown in the given (Table/Fig 4) (13).
Animal Models used in the Periodontal Therapy
Various surgically produced periodontal abnormalities have been employed for 10 years to investigate the effects of Guided tissue regenaratin (GTR) and the utilisation of biomaterials such as enamelled extracellular matrix components. These surgical approaches are most widely used on Macaca fascicularis. Periodontal defects in experiments can be obtained in three ways shown in (Table/Fig 5) (5).
Animal Models Utilised in the Development of Periodontal Vaccine
Humans have not yet been used as experimental subjects against bacteria in vaccine development studies, so for vaccine trials for vaccination safety and effectiveness testing, animal methods are designed. There is no ideal animal research model for vaccine trials against periodontitis with naturally occurring periodontitis in animals and humans based on the same aetiology, pathogenesis, and prevalence. Experimentally induced periodontitis models have been investigated as replacements. Some of these may not provide easy access to clinical conditions that can be easily evaluated for clinical efficacy. Dogs were not considered for periodontal vaccine research. It’s worth noting that sheep (ovine) seem to develop naturally occurring periodontitis. There is homology to human strains of P.gingivalis in sheep. Non human primates have been considered for periodontal vaccine trials, including M.fascicularis, M.nemestrina, Marmosets, Baboons, and Chimpanzees. Periodontitis occurs naturally in less than 5% of M. fascicularis. Key pathogens associated with periodontitis have been identified in samples taken from adult M.fascicularis and M.nemestrina and identified by DNA probes aimed at studies of strains found in humans, according to research (37),(39). Page RC and Schroeder HE concluded that mice, rats, and hamsters are not suited for studies on the efficacy of periodontitis vaccines in humans due to continuous tooth eruption patterns and alveolar bone changes (9).
Drawbacks of Experimental Studies of Animals
The drawbacks of experimental studies of animals are infectious diseases are not always communicable to animals. Not all findings of animal studies are universally relevant to humans. Extrapolating findings from animal experiments to humans is difficult (38).
Ethical Considerations
The ethical and responsible use of animals in research is a constant source of growing concern. This problem can be resolved by creating the National Accreditation Board of Testing and Calibration 21Laboratories (NABL), which is a member of the International Laboratory. Planning should go into every aspect of medical research, including that which uses animals. Before approving each study, experts who assess a scientist’s planned animal experiment weigh several factors. The most important thing is that the research must be relevant to human or animal health (39),(40),(41).
The use of fact-finding models used in periodontal disease is crucial to grasp the root source in the human being. Animal models are beneficial in a periodontal survey and an unavoidable step before accessing clinical testing with the latest biomaterials and therapies. The miniature used for gum disease is almost identical to that of a human being. In terms of dental pathophysiology, monkeys appear to be the closest model to humans, but they are not considered due to financial constraints. More often than not, the dog is advantageous because of its reproducible decisive dimension, which allows the biomaterial to be tested for experiments. Germ-free rats utilise as a massive model in terms of cell biology investigation. Hamster stays an intriguing model for immunological studies. New possibilities in the periodontal analysis are now accessible, enabling broader cohorts that are easier to build. The comprehensive utility of these animal models plays an essential role in future studies, particularly in surgical settings.
DOI: 10.7860/JCDR/2023/61707.17643
Date of Submission: Nov 25, 2022
Date of Peer Review: Dec 22, 2022
Date of Acceptance: Feb 09, 2023
Date of Publishing: Mar 01, 2023
AUTHOR DECLARATION:
• Financial or Other Competing Interests: None
• Was informed consent obtained from the subjects involved in the study? No
• For any images presented appropriate consent has been obtained from the subjects. No
PLAGIARISM CHECKING METHODS:
• Plagiarism X-checker: Dec 01, 2022
• Manual Googling: Jan 24, 2023
• iThenticate Software: Feb 02, 2023 (6%)
ETYMOLOGY: Author Origin
- Emerging Sources Citation Index (Web of Science, thomsonreuters)
- Index Copernicus ICV 2017: 134.54
- Academic Search Complete Database
- Directory of Open Access Journals (DOAJ)
- Embase
- EBSCOhost
- Google Scholar
- HINARI Access to Research in Health Programme
- Indian Science Abstracts (ISA)
- Journal seek Database
- Popline (reproductive health literature)
- www.omnimedicalsearch.com