Abstract
To establish a relatively stable internal haemorrhoid model in rats. A total of 48 SPF SD rats were selected and randomly divided into a blank group of 16 and a model group of 32. The model was created by croton oil-mixed liquid stimulation combined with standing and swimming experiments, and the modelling times were 1 week and 2 weeks, respectively. By observing the symptoms and signs of rats, pathological morphology and immunohistochemical staining of anorectal tissue, anorectal laser speckle blood-flow imaging and defecation contrast, etc., the effect of different modelling times was evaluated. The stability of the model was evaluated after feeding for 2 weeks. Both model-formation times caused rats to produce local symptoms of tissue bulging in the haemorrhoid area. Microscopy showed that the rectal submucosal interstitial blood vessels were dilated, and inflammatory cell infiltration and other manifestations were observed. Laser speckle blood-flow imaging revealed increased anorectal blood perfusion and capillary dilatation, and defecography showed a longitudinal and continuous rectal mucosa. After 2 weeks of normal feeding, lifting of the haemorrhoidal tissue was still present. The effect of modelling for 1 week was most in line with the clinical manifestations of internal haemorrhoids. The 1-week modelling scheme in this study can effectively establish a rat internal haemorrhoid model that closely approximates clinical internal haemorrhoid symptoms and pathological manifestations. The operation is simple, the success rate is high, and the model has certain stability. This model can be used as an important basis for studying various treatment methods for internal haemorrhoids.
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Introduction
Conservative drug treatments are often used clinically for early internal haemorrhoids1. The establishment of a stable and reliable animal internal haemorrhoid model plays an important role in the development and research of new internal haemorrhoid drugs or the evaluation of the principles and curative effects of internal haemorrhoid drugs. At present, there are few domestic and foreign studies on the establishment of stable and feasible animal models of internal haemorrhoids; most of these studies are aimed at simulating the pathological characteristics2, 3, and there are cases where the pathogenic factors are relatively few and the pathogenesis of haemorrhoids cannot be completely replicated. The purpose of this study is to establish a suitable rat model of internal hemorrhoids, to make a good pre-basis for further study of internal hemorrhoids, and to gradually improve the study of animal models of internal hemorrhoids, with a view to providing an animal model for clinical treatment of internal hemorrhoids. Through a series of practices and explorations, the author established a rat model of internal haemorrhoids by adding methods such as standing and swimming to simulate the rat model of acute haemorrhoid attack with a croton oil mixture4. The research report is as follows:
Materials and methods
Experimental animals and grou**
Forty-eight healthy SPF grade 8-week-old SD rats, male, weighing 180–220 g, were purchased from Bei**g Huafukang Biotechnology Co., Ltd., licence number: SCXK (Bei**g) 2019-0008. Experiments were carried out after 1 week of acclimatization. The 48 rats were randomly divided into two groups: (A) blank group: 16 rats, 8 of which were fed normally for 1 week (A1), and 8 of which were fed normally for 2 weeks (A2). Modelling group: 32 rats, including 8 rats treated for 1 week (B), 8 rats treated for 2 weeks (C), 8 rats with treatment for 1 week and normal feeding for 2 weeks (D) and 8 rats with treatment for 1 week and normal feeding for 2 weeks (E). The treatment of the rats complied with the "Guiding Opinions on the Kindness of Experimental Animals"5.
The blank group
The blank group was subjected to the following: daily lighting: 12 h, temperature: 22–25 °C, relative humidity: 40–60%, free diet, normal feeding.
Modelling group
The modelling group was based on the blank group. Models were made according to the following scheme, and the normal feeding method after modelling was the same as that of the blank group.
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(1)
Dilation Using inhalation isoflurane anaesthesia (induction anaesthesia concentration: 3–3.5%, continuous anaesthesia: 1.5–2.5%), the rats were fixed on a homemade fixation frame in the supine position, the anus was fully exposed. After sterilization, tissue scissors were used to cut approximately 0.5 cm longitudinally into the canal sulcus (located at 12 o'clock at the lithotomy position), the inner and 12-point tooth lines, the outer and the outer edge of the sulcus, to the degree of unobstructed drainage. After expansion, the rats were fed normally for 3 days, and a light yellow ulcer at the 12-point incision was visible, with no obvious oedema. The experiment continued after no bleeding was observed.
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(2)
Croton oil stimulation: Distilled water, pyridine, ether and 6% croton oil were mixed at a ratio of 1:4:5:10 to form a croton oil mixture2. Then, 0.05 mL of croton oil mixture was dropped into the mucosa on the rat's tooth line with a pipette, and after immobilizing the rat for 10 s, the perianal area was massaged with fingers for 10 s, and the rat was put back into the cage 3 times.
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(3)
Standing experiment At a temperature of 18–20 °C, a plastic cylinder close to the abdominal circumference of the rat and a length of approximately 3 times the body length of the rat was selected, and a plastic cylinder with a diameter of 5 cm and a length of 35 cm was prepared. The rat was placed head up and feet down into the plastic cylinder, and the plastic cylinder was vertically fixed after the feet were exposed so that the rat stood stationary for 6 h.
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(4)
Swimming experiment: the standing rats were placed into warm water at 20–25 °C for 1 h. After 1 h, the rats showed sparse hair and wisps, a lack of energy, unresponsiveness to external stimuli, weak hind legs, trembling, exhaustion and fatigue. The rats were placed in a room with a room temperature of 25 °C to dry their fur for 1 h, and step (2) was repeated after an interval of 6 h.
Experimental drugs and reagents
The experimental drugs and reagents included 6% croton oil (Bei**g Huawei Ruike Chemical Co., Ltd.); pyridine (Bei**g Lamboride Trading Co., Ltd.); ether (** the modelling stimulation to evaluate the stability of this model, so we divided the group with 1 week of modelling and 2 weeks of normal feeding into a group with 2 weeks of modelling and a group with 2 weeks of normal feeding.
Because the anal diameter of rats is small, it is not easy to expose the mucosa of the haemorrhoid area; therefore, the anus was expanded before modelling so that the croton oil mixture was evenly distributed on the mucosa of the haemorrhoid area, and a better observation field of view was obtained. In the original experimental method2, a cotton ball soaked in the croton oil mixture was placed into the anus of the rat. In actual operation, the cotton ball will absorb the croton oil mixture, which cannot ensure that the liquid stimulates the rectal mucosa evenly; consequently, pipetting is used instead. The gun accurately controls the dose, and the liquid medicine is dripped quantitatively in batches so that the mucous membrane can evenly absorb the croton oil mixture. Haemorrhoids are produced under the stimulation of multiple factors. Haemorrhoidal disease arises under multifactorial stimuli, and the present modelling scheme was designed based on the previous animal modelling experiments of our team15 in combination with the pathogenesis of haemorrhoidal disease. Currently, in international rats, exhaustion swimming is considered a classical model for evaluating the antifatigue effect of drugs16. Li17 and other teams studied interstitial oedema, skeletal muscle fibre deformation, and obvious inflammatory cell infiltration in rats after swimming exercise. Li18 and other teams found that after swimming exercise, rats were withered and emaciated and looked tired and weary, and when out of the water, their limbs were weak. A long time elapsed before the rats were able to shake their own fur, their reaction to the outside world also gradually slowed, their eyes appeared lifeless and numb, and swimming exhaustion manifested. Our team’s rabbit rectal mucosal prolapse modelling15 experiments revealed that after the rabbits stood for 6 h per day for 2 months, the rabbit rectal mucosa was lax in the lower layer of the rectal mucosa, the hind limbs were exhausted, the ligaments were lax, and the rectal mucosa presented a prolapsed state. In this study, by simulating the principle of haemorrhoidal prolapse caused by muscle weakness and ligament laxity after fatigue in humans, we designed an increased modelling method of standing and swimming in rats.
Analysis of the feasibility of the modelling scheme from the observation indicators
As shown in Table 1, the rectal mucosa of rats in model D3 was oedematous, bright red, protruding, and exhibited a split flap. In D6, the haemorrhoid mucosa prolapsed during defecation and then gradually merged, appearing similar to rectal mucosal prolapse. As shown by the changes in the anal mucosa during the modelling process, the oedema and prolapse of the mucosa gradually became more serious over time, and the appearance of human haemorrhoids was clearly visible at D6-7 and then remained stable. According to the pathological and histological observations (Table 2) after the rat model was established, rectal vasodilation, capillary hyperplasia, submucosal interstitial loosening, and inflammatory cell infiltration were observed, which were similar to the pathological changes in human haemorrhoids. Compared with the blank group, the blood flow diagrams of the 1-week modelling group and the 2-week modelling group showed that the microvessels of the rats expanded significantly, and the surrounding new blood vessels formed branch-like structures, which reflected the effectiveness of the modelling method. One week after modelling, the mucous membrane prolapsed, resembling clinical internal haemorrhoid. After 2 weeks, the appearance of the mucosa was circular, resembling rectal mucosal prolapse. Therefore, in this study, the modelling period of 1 week was considered the most appropriate. Changes in the haemorrhoidal mucosa were observed 2 weeks after stop** the modelling. The appearance of the normal anal mucosa of the rats was not restored due to the cessation of the modelling. Hyperplasia was relieved, but there was still a significant difference from the blank group. The physical appearance and blood flow diagram indicated that the modelling method has certain stability.
VEGF can increase vascular permeability and vascular regeneration and induce the formation of a new capillary network. At the same time, when VEGF is highly expressed, it will also aggravate tissue oedema19,20,21. Combining Table 2 with Fig. 5, we believe that VEGF was significantly positive in the modelling group, indicating that angiogenesis was obvious after modelling, accompanied by tissue oedema. In the model group, vascular hyperplasia was observed, mainly concentrated in the mucosal layer, and the lumen of blood vessels in the tissue was significantly expanded. The results of the study showed that the model group was marked by CD34, showing mononuclear stromal cells with a brownish yellow positive reaction. These results are consistent with the increased anorectal blood perfusion and increased microvascular dilatation detected by laser speckle flow imaging. The positive expression of CD68 was seen in the modelling group, and its positive expression was also observed 2 weeks after the cessation of modelling. When macrophages are activated, the expression of CD68 will also increase significantly, which can be used as a marker of macrophages, indicating that local macrophages are activated after modelling, and the inflammatory response is obvious22. The results showed that the expression of CD3 staining in the cytoplasm of the 1-week modelling group and the 2-week modelling group was brownish yellow, with a weak reaction and a small number. There was no significant change between the 1-week modelling and 2-week normal feeding groups for 2 weeks. CD3 exists on the membrane surface of mature T lymphocytes. Since memory T lymphocytes can generate a stronger immune response again, CD3 is mainly concentrated in necrotic tissue with severe tissue damage23, 24. After local lymphocyte activation, there was no significant damage to the tissue.
In terms of animal adverse reactions and safety, the routine blood, liver and kidney functions of the 1-week modelling group and the 2-week modelling group did not change significantly compared to those of the normal group. This modelling method had no obvious toxic effects in rats. Perianal skin ulcers in rats during the modelling process are considered related to skin stimulation by a croton oil mixture. According to the classic two-stage carcinogenic model of DMBA/croton oil-induced mouse skin papilloma25, the Ba soybean oil mixture is destructive to the skin.
Implications of modelling results for the clinic
Correlation analysis between internal haemorrhoids and rectal mucosal prolapse
During the experiment, the author found that although the longitudinal and continuous rectal mucosa appeared normal in the defecography examination, after 2 weeks of modelling, the anus of the rats appeared to prolapse in a ring-shaped mucosa, which was seen under HE staining. Tortuous expansion, tissue loosening, and gap expansion were present; Masson staining revealed that the collagen fibres were densely arranged and increased, accompanied by interspersed muscle fibres and tissue relaxation. The author observed rectal area prolapse in the establishment of a rabbit rectal mucosal prolapse model26. Proliferation of glandular tissue in the lamina propria, vasodilation and congestion, infiltration and accumulation of interstitial inflammatory cells, interstitial oedema, and looseness were observed. The pathological manifestation of rectal mucosal prolapse in this model was observed after 2 weeks of modelling. Therefore, the author believes that internal haemorrhoids are the early stage of rectal mucosal prolapse, and the clinical treatment of internal haemorrhoids can delay the progression of rectal mucosal prolapse. This finding can provide experimental design ideas and directions for further research on rectal prolapse disease.
Discussion on treatment options for haemorrhoids
In the 2-week modelling group, submucosal collagen fibres were densely arranged and increased under microscopic analysis with Masson staining. This shows that during the formation of haemorrhoids, the body undergoes self-repair. Clinically, we often encounter patients with internal haemorrhoids in the early stage. When they go to the doctor, the main symptom is visible blood. Whether such patients require interventions such as sclerotherapy injections is debatable. From the results of this experimental study, it is possible for this type of internal haemorrhoid to heal itself.
The laser speckle blood-flow imaging system (Fig. 1B,C) showed obvious vasodilation and surrounding angiogenesis that formed branch-like bifurcations after modelling, and the counts of VEGF and CD34 in the haemorrhoid area increased significantly after modelling. The expression was still obvious after 2 weeks of normal feeding after modelling. The author believes that because there are many new collateral blood vessels around the internal haemorrhoid tissue and the immunohistochemical indicators suggest that it is not easy for this condition to subside within a certain period, it is necessary to pay attention to new collateral blood vessels in the recurrence of internal haemorrhoids. Internal haemorrhoids cannot be seen, and during treatment, that is, surgical resection, it is necessary to take measures to improve blood flow around the haemorrhoids to reduce their recurrence.
In summary, this study adopted standardized operation procedures, multiple local inductions, and stimulation of anorectal mucosal prolapse and oedema. In addition, the standing test and swimming test consumed the physical strength of the rats. After fatigue, the muscles relaxed and the haemorrhoids prolapsed, thereby imitating the cause of haemorrhoids. Symptoms and pathological changes occurred in the acute attack stage of haemorrhoids; consequently, the model has a uniform and stable effect, providing a good experimental basis for the discussion and study of animal models of internal haemorrhoids.
Data availability
The simulation experiment data used to support the findings of this study are available from the corresponding author upon request.
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Funding
This study was supported by the National Natural Science Foundation of China (81774118).
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M.H.K. was responsible for experimental design and thesis writing. S.Y.H. and H.R.L. participated in experimental research, thesis writing and data analysis. X.Y.L. and H.S.W. participated in animal modelling. Z.G.X. participated in pathological data analysis. Z.F.L. participated in blood flow data analysis. F.C. participated in experimental design. All authors reviewed the manuscript.
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Ke, M., Huang, S., Lin, H. et al. Establishment and study of a rat internal haemorrhoid model. Sci Rep 13, 21385 (2023). https://doi.org/10.1038/s41598-023-48677-2
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DOI: https://doi.org/10.1038/s41598-023-48677-2
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