In a patient simulator in particular premature infant, newborn or infant simulator, comprising a thorax replication, which comprises a chest replication with at least one liftable and lowerable chest element for simulating a lifting and lowering of the thorax, abdominal wall mechanics, which comprise an abdominal wall replication with at least one liftable and lowerable abdominal wall element for simulating a lifting and lowering of the abdominal wall, a lung simulator, an anatomical trachea replication opening out into a cavity, an anatomical oesophagus replication opening out into a cavity and a control unit, the patient simulator includes at least one sensor whose sensor data is transmitted to the control unit to determine whether the ventilation gas supplied to the patient simulator is conducted into the trachea replication or into the oesophagus replication.
In a patient simulator, in particular a premature baby, newborn or child simulator, including a simulated thorax, a pneumatic lung simulator and a simulated trachea leading to the lung simulator, wherein the simulated thorax includes a simulated chest including at least one liftable and lowerable chest element to simulate lifting and lowering of the chest, the at least one liftable and lowerable chest element cooperates with a lifting and lowering mechanism actuatable independently of the lung simulator.
G09B 23/28 - Models for scientific, medical, or mathematical purposes, e.g. full-sized device for demonstration purposes for medicine
A63H 13/02 - Toy figures with self-moving parts, with or without movement of the toy as a whole imitating natural actions, e.g. catching a mouse by a cat, the kicking of an animal
09 - Scientific and electric apparatus and instruments
Goods & Services
Instrumentation simulators, namely, medical training simulators for use as teaching aids for medical team training in order to simulate critically-ill children and stabilization measures to be taken, namely, ventilation, chest compressions, intubation, defibrillation and placing of peripheral and central catheters; medical training simulators for use as teaching aids for medical team training in order to simulate critically-ill children and stabilization measures to be taken; resuscitation mannequins for use as teaching apparatus; downloadable computer software for operating medical training simulators
The invention relates to a patient simulator (1), in particular a premature baby simulator, newborn baby simulator or child simulator, comprising: a thorax replica (2), which has a rib cage replica having at least one rib cage element which can be raised and lowered to simulate raising and lowering of the rib cage; an abdomen mechanism which has an abdomen replica having at least one abdomen element which can be raised and lowered to simulate raising and lowering of the abdomen; a lung simulator (3); an anatomical trachea replica (5) opening into a cavity (4); an anatomical oesophagus replica (6) opening into a cavity; and a control device (14). The patient simulator (1) has at least one sensor, the sensor data of which are fed to the control device (14) to detect whether ventilating gas fed to the patient simulator (1) passes into the trachea replica (5) or into the oesophagus replica (6).
The invention relates to a patient simulator, in particular a premature baby simulator, newborn baby simulator, or child simulator, comprising a thorax replica, a pneumatic lung simulator, and a trachea replica leading to the lung simulator, wherein the thorax replica has a rib cage replica having at least one rib cage element that can be raised and lowered for simulating raising and lowering of the rib cage, wherein the at least one rib cage element that can be raised and lowered interacts with a raising and lowering mechanism that can be controlled independently of the lung simulator.
The invention relates to a patient simulator, in particular a premature baby simulator, newborn baby simulator, or child simulator, comprising a thorax replica, a pneumatic lung simulator, and a trachea replica leading to the lung simulator, wherein the thorax replica has a rib cage replica having at least one rib cage element that can be raised and lowered for simulating raising and lowering of the rib cage, wherein the at least one rib cage element that can be raised and lowered interacts with a raising and lowering mechanism that can be controlled independently of the lung simulator.
09 - Scientific and electric apparatus and instruments
41 - Education, entertainment, sporting and cultural services
Goods & Services
Instrumentation simulators; Medical simulators [teaching aids]; Resuscitation mannequins [teaching apparatus]; Simulation software. Educational instruction; Provision of training courses; Arranging and conducting of seminars and workshops.
9.
METHOD AND DEVICE FOR TRAINING IN THE INSERTION OF AN UMBILICAL CATHETER ON A PREMATURE BABY AND NEONATE SIMULATOR
The invention relates to a method and device for training in the insertion of an umbilical catheter (1) on a premature baby and neonate simulator (2), wherein an umbilical cord simulator (3) is provided with a vein simulator (4) and two artery simulators (5), which umbilical cord simulator (3) can be connected via a connector (6) to the premature baby and neonate simulator (2). In order to create realistic training conditions, at least one position sensor (7) is provided to detect the correct position of the umbilical catheter (1) in the vein simulator (4) or the artery simulators (5), which position sensor (7) is connected to a control device (10) and a display (8).
The invention relates to a method and a device for training in artificial respiration with a tube (1) for introduction into a simulated trachea (2) for endotracheal intubation, which tube (1) can be connected to a ventilator port (6), and with sensors (8) for measuring the position of the tube (1) in the simulated trachea (2) and a display (7) for indicating the correct position of the tube (1) as an indication of a correct intubation. For optimum simulation of respiration, a capnometer simulator (3) with a connector (4) for connection to the tube (1) and to the ventilator port (6) is provided, wherein sensors (9) are provided to monitor the connection of the tube (1) to the capnometer simulator (3), and wherein the display (7) indicating correct intubation and correct breathing is activated upon correct connection of the tube (1) to the capnometer simulator (3) and the correct position of the tube (1) in the simulated trachea (2).
