I. What’s a serious ultrasound?
An ultrasound by the bed, also known as an instant ultrasound by the bed, does not require a full examination to assess the full range of detailed functions of an organ, but is based on a rapid assessment of life-threatening haemorrhaging, breathing, circulatory functions or a particular point of concern, as well as on a variety of innovative guidance, which is immediately available through targeted screening. It is therefore very useful for a rapid assessment of the condition, which is the most frequently needed examination of persons at risk, so it is also called “heavy ultrasound”. An issue-oriented, multi-targeted dynamic assessment process, guided by the medical theory of serious illness, is an important means of determining the direction of treatment for serious illness, particularly blood flow mechanics, and guiding precision treatment.
II. WHAT CAN IT DO? — Eagle Eye detection assessment
The hypersonics by bed are the first key equipment used by a serious disease doctor when he or she comes into contact with a seriously ill patient, because of his or her multiple, real-time dynamic monitoring, safety-free, easy-to-facility characteristics and the popularity of a serious disease doctor. The use of an ultrasound by the bed allows for the immediate assessment of the functioning of the patient ‘ s vital organs, such as the heart, lungs, kidneys, gastrointestinal tracts, the inside of the skull, as well as the flow of blood mechanics, and for the exclusion of certain dangerous diseases (such as acute CPR, acute internal infarction, acute pulmonary embolism, aerobic chest, acute abdominal haemorrhage, etc.), as well as for various difficult vascular and cavities. Once the patient’s condition has stabilized, we can again assess the patient’s post-treatment response through ultrasound, and identify some potential high-risk factors (e.g., deep vein embolism, pulmonary oedema formation, etc.). iii. Why are we doing hysteria ultrasound? — Precision treatment
Due to the fact that patients with serious illnesses often suffer from multiple organ disorders, they are characterized by a heart-pulmonary core, a vicious circle, a sharp increase, a uncontrolled response to systemic inflammation and a general pathological disorder. The limited ability of patients to self-regulate means that there is little room for serious illness to be treated in a way that is more sophisticated and responsive to the needs of the pathologically and physiologically. This is an enormous challenge for the seriously ill, and requires a deeper and more comprehensive understanding of the physical condition of the seriously ill. By means of severe ultrasound, the doctor is able to quickly identify the pathological changes that the patient currently needs to address, quantify the flow mechanics of blood and the functioning of the dirty organs, and to regulate and direct fine-tuning management, thus creating the time for the treatment of patients with severe illnesses.
IV. Scope of application of severe ultrasound: cardiac examination; intravenous examination; arterial examination; piercing guidance; abdominal examination; maternity examination; edible ultrasound; chest examination.
V. Advantages and limitations of hypersound for serious diseases
1) Strengths
a. Real-time: Illness ultrasound allows rapid access to real-time images, prompt observation of the organ structure and functions of the patient by the doctor and rapid diagnosis and intervention, especially in cases of first aid and acute illness.
b. Non-radiation: the hypersound of severe disease does not produce any radiation and therefore does not pose an ionizing radiation risk to patients. This makes the ultrasound of severe diseases applicable to patients of all ages and health conditions, especially pregnant women and children.
c. Non-invasive: Severe ultrasound imaging through skin, without ingesting or intrusive operation. This helps to reduce the suffering and improve the comfort of patients.
d. Multi-purpose: Serious ultrasound can be used in a wide range of situations, such as assessment of critical organs such as the skull, heart, lungs and kidneys, and therefore has a wide range of applications.
e. Portability: Severe ultrasound equipment is usually small and portable and can be used directly by the patient ‘ s bedside, with timely access to the patient ‘ s biological information, and can facilitate rapid decision-making and processing.
f. Repetitivability: Doctors may at any time conduct multiple examinations of the same or more parts to monitor changes in the patient ‘ s condition without increasing radiation exposure, being safe and accurate.
2) Restrictions
a. Operator dependency: Serious ultrasound requires a professionally trained operator, as image quality and correct interpretation require experience and skills, including the correct placement and interpretation of images. Operators lacking in experience or skills may lead to a deterioration in the quality of images and affect the accuracy of diagnosis.
b. Image quality limited: Image quality may be affected by a number of factors, such as patient size, gas interference and organ depth. In some cases, the image may not be clear enough and the operator needs some anatomy to correctly interpret it.
c. Limitations: Severe ultrasound may limit the imaging of deep organs. In addition, because of the transmission properties of acoustic waves, ultrasound penetration of bones or air is limited. In some cases, support from other imaging technologies is still needed to obtain more comprehensive information. Summary
As information technology continues to develop, the “eyes” of serious doctors will grow, but there will always be no substitute for the effects of severe ultrasound. And as research deepens, its importance becomes even more significant. Thus, the clinically sound, accurate and immediate use of severe ultrasound has great benefits for the assessment and treatment of persons with severe illnesses.
Hyperdiagnosis
