Acute Toxicity of Dental Gel Based on Origanum vulgare in Mice

Objectives The creation of new herbal medicines for their use in dentistry is relevant. The purpose of this work is to study the acute toxicity of the anticaries dental gel (ACDG3) developed by us based on Origanum vulgare. Results In case of studying the safety of anticaries dental gel “ACDG3” in animals, that with a single dose of up to 2000 mg/kg, the absence of pathological changes in the behavior of animals was noted. Biochemical studies indicate that the studied doses of dental gel did not lead to significant deviations in the blood parameters of mice and deviations fluctuated within the reference values. According to the results of a morphometric study conducted 15 days after the administration of the drug, no deviations were found. The histological evaluation of organs showed little change in the cardiac architecture in animals treated with ACDG3 at doses of 1000 mg/kg and 2000 mg/kg. On the other hand, no significant changes in the cardiac function were observed in all treated mice. Conclusion As follows from the results obtained, in case of determining acute toxicity, the studied anticaries gel, ACDG3, showed low toxicity. For mice, LD50 was 2000 mg/kg intragastrically. So, according to the generally accepted classification of the toxicity of substances, ACDG3 can be attributed to the class of low-toxic substances (IV class of toxicity, LD50 > 5000 mg/kg, intragastric administration), that is, to practically nontoxic compounds.


Introduction
Herbal medicines and preparations containing herbal components have been successfully used in dentistry for a long time [1][2][3][4][5][6][7][8][9][10].Despite this, interest in drugs based on medicinal plant materials is increasing every year.Tis trend of reviving interest in medicinal plants is explained by the following disadvantages of synthetic drugs: toxicity, side efects, and allergies [11].
Origanum vulgare has been traditionally used for centuries to favor foods and treat various diseases due to its high essential oil content [12].Te long-standing use of Origanum vulgare in folk medicine is generating even more interest in the design of new pharmaceuticals.New studies have shown medicinal properties such as antimicrobial [13], antiviral, antioxidant [14], anti-infammatory, antispasmodic [15], antiurolytic [16], antiproliferative [13], and neuroprotective [17].
Before submitting a new pharmacological agent of any origin for clinical study, it is necessary to make sure that it will not harm a person.Te preclinical study of the toxicity of new drugs ensures the relative safety of clinical trials for volunteers or patients [18,19].In recent years, the problem of drug safety has become one of the most pressing health problems in the world.An important indicator of drug safety is acute toxicity [20].
Te article presents the results of studying the acute toxicity of the anticaries dental gel (ACDG3) developed by us based on Origanum vulgare [21].
considering the body weight.Te animals were acclimatized in the conditions of the test room for 14 days.Te animals were kept under standard vivarium conditions on a normal diet with free access to water and food.
All manipulations with animals were performed according to the rules adopted by the European Convention for the Protection of Vertebrate Animals used for research and other scientifc purposes [22].
To study acute toxicity (dosage form: gel), the drug "ACDG3" was administered to experimental animals intragastrically using a special probe.Animals received a physiologically acceptable amount of the drug once.For the study of acute toxicity, doses of 500 mg/kg, 1000 mg/kg, and 2000 mg/kg were selected as recommended for the study.Each dose of the compound was administered to experimental animals divided into 4 groups (5 mice of both sexes) based on the body weight.Group A (males) received the gel at a dosage of 500 mg/kg, group B (males) received the gel at a dosage of 1000 mg/kg, group C (females) received the gel at a dosage of 2000 mg/kg, and group D (control, females) received distilled water in a volume of 1 ml.Te calculated dose required for administration was dissolved in 0.2 ml of water.Animals were weighed during the formation of groups, before the introduction of the test gel, as well as on days 1, 5, 10, and 14 after the administration of the gel.Before and after the administration of the substance, the animals did not receive food for 2-3 hours.Te animals were observed for 14 days.Te study design is presented in Table 1.
Blood sampling for clinical analysis was performed from the tail vein after 18 hours of fasting.Blood was taken into test tubes with EDTA anticoagulant.Analyses were performed on a Mindray BC-3200 hematology analyzer (Mindray, China).
On the 15 th day of the experiment, all animals were taken out of the experiment under anesthesia with further macroscopic and morphometric examination of the organs.After the registration of death, mice were subjected to complete necropsy, which included examination of the external surface of the body, all passages, and the cranial, thoracic, abdominal cavities with organs and tissues.

Data Processing.
All experimental data were processed by the method of variation statistics (accepted signifcance level: p ≤ 0.05).Te signifcance of the results was assessed using Student's t-test.
Te total duration of observation of animals in the study of acute toxicity is 14 days.On the frst day after the introduction of the sample, the animals were under continuous observation.Te general condition of the animals, the peculiarities of their behavior, the intensity and nature of motor activity, the dynamics of body weight, and changes in the mass of internal organs were regularly recorded.Te degree of toxicity of the drug was assessed by changes in the general condition of animals, mortality, and the efect on the dynamics of body weight of animals.
In case of studying acute toxicity against the background of the introduction of ACDG3, the manifestation and severity of pathological signs were noted as follows: the presence of abnormal postures, abnormal movements, selfinjury, tremor, convulsions, and Straube syndrome.

Results and Discussion
When studying the safety of anticaries gel "ACDG3" in animals, that with a single dose of up to 2000 mg/kg, the absence of pathological changes in the behavior of animals was noted.Te general condition and behavior of the animals were normal and did not difer from those in the animals of the control group.Te motor activity, reactions to tactile, pain, sound, and light stimuli were unchanged.Te intensity and nature of motor activity, coordination of movements, and skeletal muscle tone remained at the same level.Behavioral reactions did not deviate from the standard type.No pathological changes were recorded in the hair, skin and the color of mucosa.During the study period, no statistically, signifcant change was found in body weight of mice injected with dental gel compared to the indicators of control animals.
Te results of the study of acute toxicity with intragastric administration of the tested gel samples are presented in Table 2. Tere are no signifcant body weight changes between the groups, which suggest the safety of the anticaries dental gel "ACDG3" at a single dose of up to 2000 mg/kg.
Te degree of toxicity of the drug was assessed by changes in the general condition of animals, mortality, and the efect on the dynamics of the body weight of animals.During the study period, the death of animals was not observed (Table 3).
Biochemical studies (Table 4) indicate that the studied doses of dental gel did not lead to signifcant deviations in the blood parameters of mice and deviations fuctuated within the reference values.Te rest of the studied parameters of the clinical analysis of the experimental groups did not difer signifcantly from the control groups.
According to the results of a morphometric study conducted 15 days after the administration of the drug, no deviations were found.All macroscopically examined organs (the lungs, heart, liver, kidneys, spleen, etc.) did not difer from the control group.Te relative mass of the internal organs of mice remained within the physiological norm (Table 5).Table 5 shows that no signifcant diferences were found in the mass ratios of internal organs of experimental animals, which testifes the absence of the toxic efect of the drug on internal organs and systems.Nevertheless, an insignifcant increase in the mass of the liver and lungs was observed.In the course of macroscopic examination of internal organs, no diferences were found between the experimental and reference groups.When examining the thoracic and abdominal cavities, no disturbances in the location of internal organs were observed.Te stomach had the regular shape and size, and the lumen was flled with dense food content.Te mucosa of the stomach body was pale pink, shiny, and folded.Te size and shape of the liver did not present signifcant changes.Te liver tissue had 2 Journal of Toxicology brownish color and moderately dense consistency.Te size and shape of the kidneys did not difer from the reference ones, and the capsule was easily removable.Te surface of the organ was smooth and of homogeneous brownishgreyish color.Te histology of liver sections of control mice showed normal hepatocellular architecture along with wellpreserved liver cells, visible central veins, and no histological abnormalities (Figure 1).In animals treated with a dose of 500 mg/kg, no adverse efects on the histoarchitecture of hepatocytes were found.Liver sections taken from the 1000 mg/kg dose group showed some histological changes such as mild sinusoidal dilatation, mild hepatic cord disorganization, steatosis, and hepatocytes.In addition, the administration of ACDG3 at the highest dose (2000 mg/kg) caused a slight change in the histoarchitecture of treated mice, showing inconspicuous central vein congestion, mild hepatic cord disorganization, and binuclear hepatocytes.
Te histological evaluation of the heart showed little change in the cardiac architecture in animals treated with ACDG3 at doses of 1000 and 2000 mg/kg.On the other hand, no signifcant changes in the cardiac function were observed in all treated mice.
In the group of animals treated with ACDG3 at a dose of 1000 mg/kg, normal, well-defned histological structures were observed without signs of vascular changes.Changes in histoarchitecture, portal triads, hepatocytes, sinusoids, and infammation and the presence of dystrophy, necrosis, and fatty changes in animals in the group in the studied histological sections were not detected.
In addition, in no case was there a change in the diameter and appearance of the central veins, hepatic sinusoids, and portal veins.
During the study period, the animals were neat, active, had a positive appetite, adequately responded to sound and light stimuli, the processes of urination and defecation proceeded normally, and convulsions and respiratory disorders or any other manifestations of toxic efects were not observed.Te study of the dynamics of the body weight of animals during the experiment indicates the absence of a toxic efect of the drug on the growth processes of animals.
Te study of acute toxicity of the drug during preclinical investigation is an essential step in the drug development process [23].According to the data of this study, the application of the new dental gel on mice of both genders in doses from 500 to 2000 mg/kg does not cause toxicity.
In the process of analyzing the change in the body weight of mice over 14 days, no signifcant abrupt fuctuations or decrease in indicators were found compared to the reference group.Body weight growth of all the studied mice proceeded gradually and evenly.
Changes in the hematological characteristics of males and females were detected; diferences in parameters such as the number of leukocytes and erythrocytes were observed in the blood of mice as well as small variations were registered in the percentage of lymphocytes, monocytes, and granulocytes.However, these changes in the indicators were not statistically signifcant (p < 0.05) (Table 4).
Small changes in biochemical characteristics of blood serum of both males and females were recorded (Table 4); there is a tendency to increase total protein in all groups, which is quite consistent with the increase in the body weight of both experimental and reference animals.
Examination of the data on organ weight indices (Table 5) did not reveal statistically signifcant diferences  between the groups of animals.Te body weight and weight parameters of internal organs were within the normal range, which indicated the absence of toxic efect of the drug on the state of internal organs.Tis fact is also confrmed by the results of the histological study of internal organs conducted on animals receiving the maximum dose of the drug.Consequently, in accordance with the conclusions of the study of acute toxicity of the new dental gel, its administration to mice of both genders in doses from 500 to 2000 mg/kg has no adverse efect on hematological characteristics of blood, biochemical parameters of blood serum, and organ weight.
Tis investigation work was carried out at a high level, which is confrmed by the data of the modern scientifc literature describing similar studies [3, 18-20, 22, 23].Te obtained fndings have an important signifcance as they confrm the toxicological safety of the dental gel and allow us to recommend it for further clinical trials as a tool of dental therapy.

Conclusion
As follows from the results obtained, when determining acute toxicity, the studied anticaries gel, ACDG3, showed low toxicity.For mice, LD50 was 2000 mg/kg intragastrically.So, according to the generally accepted classifcation of the toxicity of substances, ACDG3 can be attributed to the class of low-toxic substances (IV class of toxicity, LD50 > 5000 mg/kg, intragastric administration), that is, to practically nontoxic compounds.
the manuscript, and made formal analysis.AM and IL investigated the study, wrote the fnal draft, and provided logistical support.All the authors have read and agreed to the published version of the manuscript.

Table 1 :
Design of the study of acute toxicity of anticaries gel, ACDG3, when administered intragastrically in mice.

Table 2 :
Change in the body weight of animals after a single injection of ACDG3.Note.p < 0.05 compared to the values in animals of the control group.

Table 4 :
Mean blood tests of mice.

Table 5 :
Average weight of the internal organs of mice.