Advanced Intelligent ACLs Brian

■  Advanced Intelligent Trauma Simulator - Brian Brian is widely used in various departments such as the military, firefighting, police, aviation, coal mines, construction, etc., as well as in various emergency situations such as fires, mountains, high-altitude, oil pipelines, tunnels, collapsed buildings, ruins, explosions, etc. He can also conduct war trauma emergency simulation training indoors.

Simulator characteristics
■  This system consists of an adult simulated patient, a computer, a simulated monitor, and trauma components; Wireless or wired connection can be achieved between simulated patients, computers, and simulated monitors; The trauma component can be effectively combined with simulated humans to achieve different training effects. The simulated patient's weight matches that of an average person, which is beneficial for students to learn systematically and achieve more realistic results in handling and rescue.

Realizable trauma functions
■  The built-in bleeding control system can simulate bleeding in multiple parts of the body, and adjust the amount and speed of bleeding according to the location and size of the wound. Vital signs can automatically change with the severity of bleeding and treatment.
■  Bleeding site
﹡ The head has bleeding points, blood vessels are built in, and the amount of bleeding can be controlled. It can also practice debridement and head bandaging to stop bleeding.

﹡ There are four bleeding points on the left and right shoulders, as well as on the lateral abdomen, which can be easily connected to trauma modules to simulate the bleeding situation in various parts of the body; Modular setting of external pipelines, allowing bleeding when connected, and automatically stopping bleeding when not connected. Four areas can bleed simultaneously or individually, and the amount of bleeding can be adjusted.
﹡ Amputate the left arm and left thigh.
■  Built in blood vessels, can bleed simultaneously, can practice blood vessel ligation hemostasis, finger pressure, tourniquet hemostasis, and debridement treatment. Equipped with a built-in sensor, when the hemostasis is successful, it can automatically sense and record it in the operation record.
■  Fracture of the right lower leg, angular deformity, and bone friction sound can teach students to identify different types of fractures; Can practice splint fixation, bandaging, fracture reduction, and other operations for fractures.

The trauma module includes:
﹡ Bullet wound entrance          ﹡ Minor contusion                       ﹡ Spider bite                      ﹡ Shotgun ejection
﹡ Shotgun bullet entrance       ﹡ Military grab bullet entrance   ﹡ Penetrating injury            ﹡ Military knife injury        
﹡ Moderate electric burn         ﹡ Moderate contusion                ﹡ Second degree burn      ﹡ Third degree burn
﹡ Military bullet exit                   ﹡ Severe electric burn                ﹡ Bullet wound exit             ﹡ scalp contusion
﹡ Lower leg avulsion                 ﹡ Open fracture                 ﹡ Knife injury          ﹡ Abdominal injury with small intestine prolapse

Airway features
■  Airway management: realistic mouth, nose, tongue, gums, pharynx, esophagus, epiglottis, simulated removal of foreign bodies in the respiratory tract, and support for opening the airway in three ways: head-up and neck-lifting, head-up chin-lifting, and hands-jaw-lifting. Controlled manual or automatic airway opening/closing. The airway can be opened only when the forehead rest/jaw push-up is correct (it will be automatically sensed and recorded in the log).
■  Endotracheal intubation can be performed, which will be automatically sensed and recorded in the log; oropharyngeal ventilation, nasopharyngeal ventilation intubation, laryngeal mask ventilation; fiberoptic bronchoscopy intubation; retrograde intubation; video laryngoscope tracheal intubation.
■  It can perform mouth-to-mouth artificial respiration, and can be used in conjunction with a balloon mask. The size of the blowing volume and the blowing speed can be displayed, recorded and evaluated in real time. Tracheal ventilation can be performed.
■  Left and right bronchial ventilation can be performed.
■  Can produce flatulence.
■  The patient simulator can be configured to present various difficult airways:
﹡Tongue edema (3 degrees of swelling)  ﹡Pharyngeal enlargement  ﹡Laryngeal spasm  ﹡Trismus  ﹡Neck stiffness, etc.
■  Can perform cricothyroid puncture and tracheotomy training
■  Simulated voice: verbal communication can be realized between the operator and the simulated person (equipped with a wireless communication device); the patient's voice can be imitated through the system preset or user-defined voice file (reproduce the patient's groaning, coughing, and vomiting sounds). Wait).
■  The system has a built-in simulated secretion storage device, and the software has a secretion control platform, which can realistically simulate sweat, tears, saliva, foaming at the mouth, etc., so that it can automatically change from the simulated person's forehead, the corners of the eyes, and the corners of the mouth according to the changing conditions. , ears, nose, etc. Forehead sweat can show through inconspicuous pores.
■  Can simulate carotid pulse.
■  It can simulate cyanosis of the lips, and the severity of cyanosis is related to blood oxygen saturation.

Chest and abdomen
■  Obvious signs on the chest surface (sternal angle, xiphoid process, ribs, etc.) are beneficial to clinical operations.
■  It can realize spontaneous breathing, and the chest rises and falls when breathing. Various breathing modes can be set, unilateral or bilateral chest ups and downs can be simulated, the breathing rate can be adjusted.
■  It can simulate normal or abnormal breath sounds; it can simulate unilateral and lobar breath sounds.
■  When using the mask for ventilation, the ventilation volume will be displayed on the computer screen.
■  Simulate that there are 5 heart sound auscultation areas, 5 lung sound auscultation areas, and 4 abdominal auscultation areas in front of the patient's body.
■  Simulate 6 auscultation areas behind the patient's body.
■  Abdominal palpation can be performed, including the left upper abdomen, right upper abdomen, lower abdomen, and navel area. According to the needs of the patient's condition, the location of abdominal pain can be set in the medical record editing. During abdominal palpation, patients will feel pain and make moaning sounds, which will be displayed on the software accordingly.
■  Abdominal palpation can be performed. According to the needs of the disease, the abdominal pain site can be set in the medical record editing. When the abdomen is palpated, the patient will feel pain, accompanied by a moaning sound. , and corresponding display on the software.
■  It can simulate stomach bloating and qigong.
■  Catheterization function: Able to undergo catheterization training, and urine volume can be automatically adjusted according to changes in the condition; The system can control urine output and adjust the flow rate. Male and female genitalia are interchangeable.
■  Pleural puncture and placement of chest drains can be performed on both sides.
■  Sternal bone marrow puncture.
■  CPR training implementation standard: 2020 American Heart Association Guidelines for CPR and Cardiovascular First Aid.
﹡ Press to automatically generate pulse, blood pressure waveform and electrocardiogram.
﹡ Real compression depth; it can provide immediate feedback on the quality of CPR, including compression depth, compression frequency, compression position information, whether the compression rebound is complete, ventilation tidal volume, ventilation frequency, etc. Graphical and text interface. Real-time feedback on the quality of cardiopulmonary resuscitation. It can display the situation of pressing and rebounding.
■  More than 100 kinds of electrocardiograms, vital signs can be changed automatically with the changes of heart waves and treatment.
■  The ECG waveform, basal heart rhythm and premature contraction can be adjusted arbitrarily.
■  The 12-lead ECG can be displayed on the monitor in real time, in line with the changes in vital signs. There is a separate icon on the monitor that, when clicked, displays a twelve-lead ECG.
■  Real electrical defibrillation and electrical cardioversion: Defibrillation and electrical cardioversion can be performed with real clinical defibrillators. The defibrillation effect and pacing threshold can be set and automatically displayed according to the needs of treatment and situation. After various treatments, the corresponding symptoms, signs and monitoring parameters of the simulated person will automatically change in accordance with the condition at that time. An optional analog defibrillator is also available (energy will be transmitted to the simulator during defibrillation, and the software has defibrillation records).

limbs
■  Non-invasive blood pressure measurement can be performed with a cuff-type sphygmomanometer and a monitor. The cuff-type sphygmomanometer needs to manually measure the blood pressure by auscultation of Korotkov sound, the volume can be adjusted, and the blood pressure reading must be consistent with the condition at the time.
■  When measuring blood pressure, it can automatically detect and record whether it touches the brachial artery, can automatically detect the cuff binding position (upper, correct, lower), and detect the drop speed of the mercury column or the drop value of the pressure gauge in real time (operation record). displayed in the log).
■  Can perform venipuncture training on the back of the hand and the arm, including the precious vein, median vein, and cephalic vein.
■  There is a sense of failure during puncture, and blood can be returned after correct puncture, and exercises such as infusion can be performed.
■  The right hand is equipped with a built-in blood circulation system, which can be used for venous blood collection, intravenous injection, and intravenous drip. The puncture is correct and there is blood return.
■  The arterial pulse at 7 locations, including the carotid artery, femoral artery, brachial artery, and radial artery, can be palpated and automatically synchronized with the electrocardiogram. The pulse will vary with changes in the condition and treatment. It can automatically sense and record the palpation pulse. Pulse intensity changes with blood pressure.
■  It can simulate the convulsion of the left hand, and the convulsion can be adjusted in intensity.
■  Peripheral fingers and toes can simulate four different degrees of cyanosis, and the severity of cyanosis is related to blood oxygen saturation.

Features of the software
■  Simulated human operation software can run, control, and monitor various aspects of learning, and can be operated in both automatic and manual modes.
■  The system conducts consultation, physical examination, auxiliary examination, operation, and medication treatment according to the steps of clinical thinking. The system presets over 80 consultation scenarios and can also preset multiple pathological signs, which can be identified through physical examination.
■  The system has three control modes: single mode, theme mode, and case mode.
■  Single mode: The mentor can precisely control each reaction of the simulated human on site.
■  Theme Mode and Case Mode: With a case editing platform, operators can freely develop cases, and all changes in simulated humans can be pre designed. During design, it is convenient to select the preset modules for patients to undergo physiological and pathological reactions to drugs and treatments, and the time and process can be controlled.