In recent years, the term heat-spray disease has gradually entered the public eye and has become a health threat that we have to focus on. As a senior medical practitioner, I am well aware of the dangers of thermal radiation, especially the serious damage it causes to the nervous system. Today, I will give you an in-depth knowledge of thermal diseases, from definition, common behaviour, performance of the nervous system, to the principles of healing.
I. Definition of thermal disease
It may sound strange, but it’s actually one of the worst forms of heat. When humans are exposed for long periods to high temperatures, high humidity and wind-free conditions, body-regulating functions are imbalanced, producing heat greater than dispersion heat, resulting in a rapid increase in core temperature above 40°C, accompanied by serious clinical syndromes of damage to multi-organ systems such as skin burning and cognitive disorders, which is thermal injection. It is like a “body crisis” triggered by high temperatures that puts the lives and health of patients at serious risk.
II. Common manifestations of thermal disease
Symptoms of thermal radiation are diverse and are increasing as the condition progresses.
Common performances include:
• High heat: the patient’s temperature has risen sharply, usually at more than 40°C, which is one of the most typical features of heat-jet disease.
• No sweat or sweat: As the disease progresses to a certain extent, the sweat glands may fail, patients may change from their former high-swept to non-swept and their skin becomes dry and hot.
• Consciousness disorders: due to the direct effects of high temperatures on the central nervous system, patients may suffer from dizziness, headaches, nausea, vomiting, and, in serious cases, go into a coma, in the form of retardation, orientation disorder or even total loss of consciousness.
Skin change: The skin may be red or hot and feel very hot when touching.
• Symptoms of the circulatory system: increased heart rate, reduced blood pressure, which can lead to shock in serious cases, in the form of wet cold skin and velocities.
• Respiratory system symptoms: acute respiratory distress, and possibly high temperature effects due to metabolic acid poisoning or respiratory centre.
III. Performance of the nervous system for heat-jet diseases
Thermal radiation is particularly damaging to the nervous system, which is characterized by:
• Consciousness disorders: patients may have different levels of sensory disorders, such as pretence, convulsion and coma.
Behavior abnormality: Anomalous behaviour such as irritation, gossip, convulsions may occur.
• Damage to the central nervous system: serious cases can lead to diseases of the central nervous system, such as brain oedema, brain haemorrhage and even life-threatening conditions.
IV. Mechanisms for damage to the nervous system by thermal radiation
The mechanisms for causing damage to the nervous system are complex, but we can understand them in the following ways:
1. Direct damage to high temperature: The high temperature environment leads to a sharp increase in body temperature and direct heat damage to nerve cells.
2. Aminotoxicity: At high temperatures, metabolic barriers to harmful substances such as internal ammonia, increased blood ammonia concentrations and toxic effects on nerve cells.
Inflammatory response injuries: High temperatures cause inflammation of the whole body, and inflammation media cause damage to nerve cells.
4. Micro-circle disorders: high temperature leads to microcircle disorders and ischaemic oxygen in neurocells, further exacerbating the damage.
V. Principles for the treatment of heat-jet diseases
The key to the treatment of heat-jet diseases is rapid cooling, rehydration and electrolytics, prevention and treatment of complications, and medical treatment under the guidance of a doctor. Specific treatment principles include:
1. Rapid cooling: this is the primary principle for the treatment of heat-jet diseases. In vitro cooling can be combined with internal cooling, such as cold water spraying or washing of body, wet towel cold head dressing, under armpits and upper thigh root, as well as in vitro cooling, i.e., i.e., ice-saline intestines, gastrobs or peritoneal cavities. Temperature reduction needs to be moderate to avoid other problems caused by excessive cooling.
2. Replenishment of liquids and electrolyte: Thermal patients need timely resupply of liquids and electrolytes to maintain hydrolyte balance and correct acid poisoning as a result of extensive sweating and loss of body fluids. Patients may be given drinks containing electrolyte, such as saline or sports drinks. For patients suffering from severe dehydration or electrolytic disorders, the medical instructions for intravenous infusion liquids are followed.
3. Prevention and treatment of complications: Thermal disease can cause serious complications such as multi-organ functional failure and requires close monitoring and effective measures for prevention and treatment. In case of convulsions, irritation, etc. of the patient, a sedative may be given; a severe patient needs a vein supplement to coagulation to prevent or correct a condensation. 4. Medicinal treatment: Assisted treatment may be provided with medications such as those for the protection of neurons, the reduction of blood ammonia concentrations and the improvement of microcycles.
Concluding remarks
Hot-jet disease is a serious type of heat and heat, which is moving rapidly and can endanger life. It is not just a simple increase in body temperature, but a severe blow to multiple systems, especially the nervous system. We must therefore be more vigilant and more aware of prevention. In high-temperature weather, maximum exposure to high-temperature, high-humid, wind-free environments, timely recharge of moisture and electrolytics, wear of air-breeding and light clothing and appropriate summer cooling measures are avoided. In the event of symptoms of the fever, medical attention should be provided immediately, under the direction of a medical professional. Let us all protect our health from the threat of heat-jet disease.
