TR2021020108A2 - CHEST TUBE SUPPORT SYSTEM - Google Patents

Abstract

In the health sector, chest tube is used in the treatment of lung diseases and in the postoperative period of patients who have undergone thoracic surgery to provide drainage of unwanted fluid, air and blood accumulated in the lungs. Compression of the chest tube(s) on the parietal pleura or intrathoracic structures may cause pain. The fact that the chest tube is not held in place and often moves in place is closely associated with an increased incidence of pain and discomfort for the patient. This pain is due to irritation caused by the chest tube. Pain due to chest tube irritation; By preventing effective coughing and deep breathing, it causes atelectasis, hypoxemia and lung infection along with a decrease in respiratory capacity. Patients with chest tube drainage may have difficulty falling asleep with the effort to keep their position stable due to the concern that the tube may come out. In addition, they can wake up suddenly from deep sleep due to sudden irritation of the chest tube. This condition impairs sleep quality as long as the chest tube remains. Considering all these reasons, it is imperative to control the sharp, stabbing, sudden onset pain that momentarily inhibits breathing and movement due to the irritation of the tube during the chest drainage process. The present invention is designed to prevent pain and other discomfort associated with irritation of the chest tube in the chest drainage system. It is related to the chest tube support system, which has a physical structure that can be worn on the area where the tube is placed and has a feature that allows it to turn left or right lateral with an elevation of about 30 degrees and to adjust the pressure and position under the control of the patient according to the patient's height, weight and movement.

Description

DESCRIPTION Technical Field This invention consists of the "Chest Tube Support System", which prevents pain and other disorders due to irritation of the chest tube in the chest drainage system, which is used to provide fluid, air and blood drainage in the pleural space in patients with lung diseases and patients undergoing chest surgery. State of the Art The lungs consist of the pleura, which is a two-leafed membrane that surrounds the lungs. Pleura; It is divided into two: the parietal pleura, which is located on the outside, attached to the chest wall, and the visceral pleura, which surrounds the lungs on the inside. Chest tube application is performed in the treatment of lung diseases such as pneumothorax, hemothorax, pleural effusion and empyema and in the drainage of fluid, blood and air accumulated in the pleural space after chest surgery. The chest tube is placed in the pleural space by making an incision in the intercostal space. After correct positioning, the entrance part of the tube is fixed by suturing with the skin, and the other end of the tube is connected to the closed underwater drainage system. Thanks to the closed underwater drainage system, fluid, blood and air exit from the pleural space and the return of the incoming drainage is prevented. Observation of air bubbles in the fluid in the underwater drainage system is stated as an indication that the negative pressure holding the lungs together is maintained. The chest tube must be used correctly to achieve one-way drainage in the lungs and to ensure the continuity of effective ventilation and closed drainage. However, it is a mandatory practice for patients to be mobilized and perform activities such as walking, breathing and cough exercises in order to recover in the postoperative period. Following lung surgery, patients complain of severe pain at the incision site and sudden and sharp stinging pain that occurs due to the movement of the chest tube. The pressure of the chest tube(s) on the parietal pleura or intrathoracic structures may cause pain. The fact that the chest tube is not kept fixed in place and moves frequently in its place is closely related to the increased incidence of pain and discomfort for the patient. In the studies conducted, patients with chest tube drainage]; They reported that they experienced stinging and sharp pain due to irritation of the tube while moving, coughing and breathing. Patients also reported waking up suddenly from deep sleep due to sudden irritation of the chest tube. This situation disrupts sleep quality as long as the chest tube remains. Considering all these reasons, it is necessary to control the sharp, dull, sudden pain that occurs due to irritation of the tube during the chest drainage process and that temporarily prevents breathing and movement. Technical Problems That the Invention Aims to Solve: One of the most effective methods in controlling pain due to chest tube irritation is the stabilization of the tube. According to our clinical observations and a study; Patients try many methods to control the movement of the tube, such as restricting movement, supporting the entrance area of the tube with pillows or sheets, taking a unilateral lying position, and trying to hold the tube steady with their hands. However, all these efforts may cause some negative situations since they are methods developed by the patient himself. For example, restricting movement to fix the tube can directly lead to serious consequences such as atelectasis and pneumonia by preventing expansion during breathing. Similarly, uncontrolled lateral position causes the tube to dislodge or the body to put pressure on the tube, causing the tube to become blocked. Compression applied by patients themselves can create similarly negative situations. Uncontrolled compression may directly cause atelectasis because it prevents the expansion of the ribs. Considering all these negative consequences, it can be clearly seen that pain control due to chest tube irritation cannot be controlled with analgesics alone, and that safe stabilization of the tube will have positive results for the benefit of the patient. Chest tube support system; It is a tool that allows patients with chest tube drainage to turn left or right laterally, with an elevation of approximately 30 degrees in the back area where the tube is placed, while in a semi-sitting position. The most prominent features of the chest tube support system are; It is under individual control of the patient and thanks to the monitor on it, the necessary air pressure can be adjusted depending on the body mass index and the patient can be given the most suitable position. In an observation study previously conducted by the patent applicants, but not yet published, the patient's most comfortable position and angle were determined. According to the results of this study, patients stated that they were comfortable in the lateral-semifawler (half-sitting) position at 30 degrees elevation. In the same study, patients also stated that they felt very relieved with the stabilization of the tube and that they needed support for this. Dimensioning of the chest tube support system will be carried out in accordance with these data. In addition, no matter what body mass index the patient has, in order to maintain the most comfortable angle for the patient, the patient's height and weight will be recorded on the monitor on the system before inflation, and the system will be shaped with the most appropriate inflation pressure. If the patient is not comfortable enough when the support system in the system is inflated as a result of the values entered on the monitor, he will be able to take the most appropriate position by decreasing or increasing the air pressure in the system with his own individual control. The safest and most effective aspect of the chest tube support system to be developed for the patient is; The pressure and position can be adjusted under patient control according to the patient's height, weight and movement. The chest tube support system is aimed to reduce pain without hindering breathing by providing pressure changes with patient data and control. Thus, the pillow law is based on height, weight, etc. It can be used in effective pain management in all patients with chest tube drainage, regardless of discrimination. As a result, the most general purpose of the chest tube support system is to reduce pain due to chest tube irritation, optimize respiratory functions, ensure mobilization and a quality sleep process. In line with this purpose, - To reduce the level of pain caused by movement of the patient by ensuring the stabilization of the tube, - To reduce tube irritation during breathing and cough exercises thanks to controlled pressure and to ensure maximum lung expansion during inspiration and expiration, - To ensure that the patient is comfortable and comfortable with the design of air channels that can be shaped according to body position. It is aimed to make the patient feel safe, to shorten the time it takes to fall asleep, - to prevent sudden sleep interruptions at night by stabilizing the tube, - to provide the patient with the most comfortable position by shaping the pillow with adjustable inflation pressure according to weight and height. Description of the invention The invention aims to reduce pain due to chest tube irritation, protect respiratory functions at an optimum level, ensure mobilization and a quality sleep process. Chest tube support system; It is a tool that allows patients with chest tube drainage to turn left or right lateral (left or right side) with an elevation of approximately 30 degrees in the back area where the tube is placed while in a semi-sitting position. The most prominent features of the chest tube support system are; It is under individual control of the patient and thanks to the monitor on it, the necessary air pressure can be adjusted depending on the body mass index and the patient can be given the most suitable position. Regardless of the body mass index the patient has, in order to maintain the most comfortable angle for the patient, the patient's height and weight will be recorded on the monitor on the pillow before inflation, and the pillow will be shaped with the most appropriate inflation pressure. If the patient is not comfortable enough when the support system is inflated as a result of the values entered on the monitor, he will be able to take the most appropriate position by decreasing or increasing the air pressure in the system with his own individual control. The safest and most effective aspect of the chest tube support system to be developed for the patient is; The pressure and position can be adjusted under patient control according to the patient's height, weight and movement. The chest tube support system is aimed to reduce pain without hindering ventilation by providing pressure changes with patient data and control. Thus, the system calculates age, height, weight, etc. It can be used in effective pain management in all patients with chest tube drainage, regardless of discrimination. Explanation of the Parts Shown with Reference Numbers in the Pictures Picture 1: Chest Tube Support System 1) Vest consisting of elastomer sheath 2) Air cushion modules 3) Air supply and discharge system 4) Support system control controller ) Electronic card and control system 6) Connecting the support system belt 7) Chest tube Picture 2: Appearance of the Chest Tube Support System on the Patient Before It is Shaped by Inflation Pressure Picture 3: View of the Chest Tube Support System on the Patient After Being Shaped by Inflation Pressure How the Invention is Applied to Industry The chest tube support system that serves the above-mentioned purposes can be produced in a branch of industry. It is applicable in the medical sector. The aim is to help the rapid growth of the product in the sector, as there is no product according to the patients' conditions (intensive care, clinic care and home care) and physical types. It is planned to increase its applicability by creating a system that can be applied to every bed type, independent of the different bed types in hospitals in our country. TR TR

Claims (1)

1. CLAIMS: It is Bulus Chest Tube Support System and its features are; Vest consisting of elastomer cover (1), airbag modules (2), air supply and discharge system (3), support system control remote (4), electronic card and control system (5), belt that connects the support system (6). is to characterize it. The invention is in the form of a vest (1) that covers the chest. The vest consists of airbag modules (2) developed from elastomer sheath. Elastomer is a bendable material that provides good insulation, is not easily deformed, does not harm human tissue, and can be molded into different shapes. It includes an air supply and discharge system (3) that allows the airbag modules (2) developed from the elastomer cover of the invention to be inflated and deflated with air under patient control, depending on the body mass index and comfort level. This invention is characterized by the support system control unit (4) which provides data input to inflate and deflate the airbag modules (2) developed from elastomer sheath by adjusting the required air pressure depending on the body mass index and comfort level under the individual control of the patient. The invention is characterized by the support system control controller (4) and the electronic card and control system (5), which enables the connection of the vest and the inflation and deflation of the airbag modules (2) in line with the data entered by the patient, and stores the relevant data. The invention is characterized by a belt (6) that connects the front and back surfaces of the vest so that it remains fixed on the patient's back while lying down. TR TR