Development and prospects for the treatment of oral palsy in primary health institutions

Introduction

Oral pyromocellasis is a common oral mucous infectious disease caused by the excessive proliferation of fungi. In primary health-care institutions, a certain percentage of patients with such diseases are treated. The treatment model continues to evolve and develop as medical technology progresses and the primary health-care system evolves.

II. Status of traditional treatment of oral pomegranate in primary health-care institutions

(i) Treatment of anti-fist drugs

1. Local medicine

– Symptoms, a local antifibre drug commonly used at the grass-roots level, have a strong inhibition effect on pyrocolin. It is often formed as a stagger or a tablet, and the patient is allowed to paint or to undergo oral pathologies directly. For example, for mild oral pyromium infections, such as goose scabies, which are repeated daily incisorized with fungus, it is generally effective in a few days to mitigate symptoms and reduce or disappear the white membrane.

– Cromoxone is also widely used, and its emulsions can be used for oral mucous membranes, which are resistant to fungal cell membranes by inhibiting their synthesis. In some grass-roots clinics, the local oscillation of coronary plaster can alleviate inflammation and itchism in cases of comoritis, etc.

2. Drug use throughout the body

– Fluoride is selected for use in more serious cases of oral palsy or relapse. It has such characteristics as good oral absorption and extensive antibacterial spectrometry. Basic doctors determine the appropriate dose and course of treatment based on the patient ‘ s condition, such as the extent of the infection, overall symptoms, etc. For example, in the case of patients with low immunological combined oral pyromococcal disease, approximately one week of oral treatment may be required for fluoride to completely remove the pyrochlor and prevent relapse. However, there are also problems with traditional anti-foul medicine treatment. Local drug use can be characterized by poor patient dependence, such as a bad taste of compost and the difficulty for some patients to adhere to treatment. The whole-body use of the drug may have adverse effects, fluorine may affect the liver function, and there is a certain risk of use in the absence of adequate liver function monitoring at the primary level.

(ii) Oral health guidance

Primary level medical personnel teach patients to maintain good oral hygiene practices, such as proper brushing of teeth and the use of dental wires, in order to reduce dysentery implantation in the mouth. For patients with dentures, proper cleaning of the dentures is directed, and dentures can be effectively prevented if they are washed with water on a daily basis and immersed in specialized cleaning fluids. However, simple oral health guidance often makes it difficult to fully treat oral pyroclastic disease, which has already occurred, mostly as an aid to treatment.

III. New developments in the treatment of oral pyrophyllosis in primary health institutions

(i) New anti-fungsics and preparations

1. A number of new local anti-foulbacterial preparations are being developed and scaled up. For example, oral gel, which contains a combination of titanium and lactose protein, which has anti-bacterial, anti-inflammatory and immuno-modulation effects, is applied in conjunction with iconium, which not only enhances anti-balloccus effects but also promotes the healing of oral mucous membranes. In primary medical trials, the treatment of some difficult oral pyromococcal diseases has improved more efficiently than that of traditional fungi formulations.

2. New forms of anti-foulbacterial drugs, such as sex cycin B lipids, which are currently less used at the grass-roots level, are promising as the price of the drugs decreases and the awareness of serious fungi infections in primary care increases. Pycin B lipids reduce adverse effects, such as renal toxicity, while maintaining strong antigen activity, and make it possible to treat patients with severe and systematic haemophilus influenzae infection at the primary level.

(ii) Physical therapy methods

1. Laser treatment began to be applied to the treatment of grass-roots oral pomegranate. Low-energy lasers can assist in the treatment of oral pyroclastic disease by regulating local immune responses, promoting blood circulation and tissue rehabilitation. For example, in a number of grass-roots oral clinics, the use of certain wavelength lasers for oral pyrococcus exposures 2 – 3 times a week, after several weeks of continuous treatment, has reduced oral mucous inflammitis and decreased the number of pyroccus.

Photodynamic therapy also shows some potential. Optical sensitizers are used to kill pyromococcus, which is an active oxygen substance produced under specific wavelength light. This approach has the advantage of being selective and less resistant. However, the current relatively high cost of relevant equipment and photo-sensitizers limits their widespread availability at the grass-roots level, but is expected to be an important treatment option as technology develops.

IV. Prospects for the treatment of oral pomegranate in primary health-care institutions

(i) Integrated and personalized treatment

In the future, primary health-care institutions will focus more on the development of integrated treatment programmes. Individually tailored treatments for different patients, such as age, basic illness, immunisation status etc., are tailored to a variety of means, including medication, physiotherapy and oral hygiene maintenance. For example, in the case of a combination of oral pyromocellasis among older diabetics, the choice of appropriate anti-fluent drugs is based on blood sugar control and, in conjunction with laser treatment, the promotion of oral mucous membrane restoration, while enhancing oral hygiene guidance to improve treatment effectiveness and reduce relapse rates.

(ii) Telemedicine and artificial intelligence-assisted diagnosis

With the development of Internet technology and artificial intelligence, telemedicine will play an important role in grass-roots oral pyrophyllosis treatment. Patients can consult with higher-level specialists through the telemedicine platform, who conduct diagnosis and direct treatment based on information such as oral photographs and medical history uploaded by the patient. Artificial intelligence-assisted diagnostic systems allow for rapid analysis of images, symptoms, etc. of oral pyromococcal disease and help to improve the accuracy of diagnosis at the grass-roots level. For example, the artificial intelligence system allows for the rapid identification of the dysplasia in oral mucous images, prompting medical doctors at the grass-roots level to conduct further examinations and treatments, thus addressing the relative inadequacy of medical resources at the grass-roots level, and raising the level of treatment for dystophilia at the primary level.

(iii) Deepening the concept of prevention

Primary care institutions will further strengthen the concept of the pre-prevention of oral pyrophiliasis. Through oral health education campaigns, the community is being made aware of the causes of oral pyroclactosis, prevention methods, etc. For example, the promotion of a rational diet, the avoidance of the misuse of antibiotics and the enhancement of immunity are important for the prevention of oral pyrophiliasis. At the same time, oral health check-ups and preventive guidance are conducted in kindergartens, schools, etc., and early detection and intervention is made to reduce the incidence of oral haemophilia.

In the light of the above, the treatment of oral pyromococcal disease in primary health-care institutions has continued to develop, and the emergence and dissemination of new treatments and the renewal of the concept of diagnostics will result in better medical care and health care for the general population.