The heart, as the “power engine” of the human body, once it stops, the rhythm of life ceases and falls into a life-and-death emergency. The treatment of cardiac arrest is an extreme race with death, with every second carrying hope of life and requiring a precise and efficient response.
A cardiac arrest is a sudden termination of the heart-shot function, the loss of a large aneurysm and the sound of the heart, and the serious and important organs of the dirty organs of the haemorrhage and anaerobics, which, without immediate intervention, cause irreversible brain damage or even death in a matter of minutes. Acute heart infarction due to complications, coronary heart disease, vascular congestion due to the break-up of porridge plaques, instant stoppage of the heart muscles, if the blood potassium concentration is abnormal, severe electrolyte disorders, excessive or low-level interference with the physiology of the CPR; and accidents, such as drowning, electrocution, etc., exposure to external shocks, electrical currents, and normal rhythms of the heart can be responsible.
When a suspected cardiac arrest was found, the first time on-site first aid pushed the CPR. The first step is to quickly determine the safety of the environment and to ensure that those who deliver are not exposed to a second risk of harm, immediately tap and shout at the patient to see if they are conscious and breathing. Once it is confirmed that the heart breaks and the pressure is carried out rapidly outside the chest, the rescuer reaches 5-6 cm vertically at the midpoint of the two nipples of the patient, with a frequency of 100-120 times per minute, folding hands, and pushing hands, with two artificial breathings per 30 pressure. Artificial respiration must hold the patient’s nose, blow the mouth to the mouth for about one second at a time, see how the curvature is effective, recycles, sustains the basic blood cycle of life, and for subsequent treatments “continues to life”, by means of artificial respiration for about one second at a time and by means of artificial respiration.
The auto-extra-fibrillator (AED) is described as the “life-saving god” of a heart stoppage. The AED operation is simple, is activated with a voice tip, the electrode is attached to the patient ‘ s naked chest, the device automatically analyzes the heart rate, recharges, prompts discharges, a powerful current passes through the heart instantaneously, removes disruptions and restarts normal rhythms. The early use of AEDs can nearly double the survival rate of heart-cardiac arrest patients, and it is therefore essential to provide universal training in configuration and use in public places such as airports, malls, etc.
Patients arrive in the hospital emergency room and the medical team relays to the advanced cardiovascular maintenance system (ACLS). The first priority is to maintain a high-quality, continuous CPR, a parallel bronchial intubation, the placement of a catheter into the catheter through the mouth or nasal cavity, an external respirator, precision control of parameters such as oxygen flow, frequency of breathing, and so forth, and to ensure permeability, oxygen convergence, correction of hypoxic acidism, and a firm “root” of vital signs.
The establishment of an intravenous route, which appears to be “the opening of a rescue supply line”, involves the rapid penetration of an external ecstasy by a nurse and the injection of first aid drugs such as adrenaline. Adrenalin makes the heart agitated, constrictes the blood vessels, increases the pressure on the coronary artery and helps the heart to revegetate. Aminodone, based on the results of surveillance of the condition and the heart, is accurate in “offset” to treat persistent heart disorder, while inhibiting the disruption of electrical impulses and restoring an orderly heart.
After a series of rescues, the relapsing of the heart was only an initial victory, followed by a “multi-lane level”. Patients are placed in intensive care units (ICUs), which closely monitor indicators such as electrocardiograms, blood pressure, blood oxygen, etc., and prevent complications such as heart failure, shock and brain damage. Some patients suffer severe cardiac damage following cardiac arrest and a sharp reduction in their heart output, requiring “strong heart” vascularly active drugs such as dopamine; and ischaemic oxygens can cause brain edema, dehydration agents such as gernoliol and so forth to reduce brain “water problems” and to support nervous functions. At the same time, the introduction of low-temperature treatment, which reduces the patient’s body temperature to 32-34°C, reduces metabolism and brain damage, as if by pressing the “life-suspension” button, waits for stabilization and slow reheating, in the course of which the control body’s temperature and blood are refined to help the patient cross the “brain damage level”.
Cardiac arrest treatment is a systematic project that combines first aid, serious illness and rehabilitation and requires “co-operation” across society. (c) Provide universal access to first aid, so that CPR and AED can be used more widely; improve the configuration of first aid facilities in public places; and the medical teams must seize the time, pull back endangered lives, continue the life chapter while saving lives, and practice good medicine and collaborate efficiently.
Cardiac arrest.
