View clinical trials related to Biosensing Techniques.
Filter by:This is an open, observational, prospective, descriptive, single-centre study including 60 patients. The study is designed to investigate if IscAlert sensor system can be used for reliable and continuous tissue carbon dioxide (pCO2)- and temperature monitoring in muscular tissue in lower extremity in patients at risk of developing acute compartment syndrome.
The investigators will test if changes in CO2 is detected postoperatively in ischemic tissue in a reconstructed flap. IscAlert is measuring continuously CO2 in muscular and subcutaneous tissue. IscAlert is inserted distal to the operative field into normal muscle and/or subcutaneous tissue in the reconstructed flap. Local tissue CO2 and temperature will be monitored continuously postoperatively until maximal 10 days. If a reduced or totally obstructed blood flow appear (thrombosis), an increase in tissue CO2 and a lower local temperature will emerge rapidly as a sign of ischemia. This will be detected by the sensor which will alarm the investigators. This will lead to assessment of the reconstructed flap and if restricted blood flow is diagnosed, a reoperation or other intervention will be performed. 56 patients will be enrolled to undergo the procedures. The IscAlert will be removed from the patient before the patient is discharged from the hospital or a maximum of 10 days (the event that occurs first). 360 devices are planned to be used in this clinical study.
Investigators will test if changes in CO2 is detected postoperatively in ischemic tissue in a replanted extremity of a traumatically amputated upper or lower extremity. IscAlert is measuring continuously CO2 in muscular and subcutaneous tissue. IscAlert is inserted distal to the operative field into normal muscle and/or subcutaneous tissue in the replanted extremity. Local tissue CO2 and temperature will be monitored continuously postoperatively for the next 10 days. If a reduced or totally obstructed blood flow appear (thrombosis), an increase in tissue CO2 and a lower local temperature will emerge rapidly as a sign of ischemia. This will be detected by the sensor which will alarm the investigators. This will lead to assessment of the replanted extremity and if restricted blood flow is diagnosed, a reoperation will be performed. After reoperation new sensors will be implanted for another ten days if applicable. Sixty patients will be enrolled to undergo the procedures. The IscAlert will be removed from the patient before the patient is discharged from the hospital or a maximum of 10 days (the event that occurs first). 500 devices is planned to be used in this clinical study.
This is a prospective, single arm, open, single centre clinical investigation designed to examine the feasibility and safety of the IscAlertâ„¢ device in patients scheduled for limb (arm/leg) surgery with tourniquet. IscAlert is measuring carbon dioxide in muscular and subcutaneous tissue. IscAlert is inserted into normal muscle and subcutaneous tissue in ischemic (operated limb with a tourniquet) and non-ischemic limb (non-operated limb).After the tourniquet is inflated, ischemia develops in the muscles and subcutaneous tissue. This will result in an increase in carbon dioxide, which will be detected by the sensor on the operated extremity, while the sensor on the non-operated will show normal values. After releasing the tourniquet cuff, the muscle will be reperfused and the carbon dioxide level is expected to decrease into normal levels. 50 number of patients will be enrolled to undergo the procedures. The IscAlert will be removed from the patient before the patient is discharged from the operating room, but in 25 of the patients, IscAlertâ„¢ will be inserted for 72 hours in the operated extremity after the end of surgery. After this, the sensors are removed.250 Devices is planned to be used in this clinical study.
This is a prospective, single arm, open, single centre clinical investigation designed to examine the feasibility and safety of the IscAlertâ„¢ device in patients scheduled for limb (arm/leg) surgery with tourniquet. IscAlert is measuring CO2 in muscular and subcutaneous tissue. IscAlert is inserted into normal muscle and subcutaneous tissue in ischemic (operated limb with a tourniquet) and non-ischemic limb (non-operated limb).After the tourniquet is inflated, ischemia develops in the muscles and subcutaneous tissue. This will result in an increase in CO2, which will be detected by the sensors on the operated extremity, while the sensors on the non-operated will show normal values. After releasing the tourniquet cuff, the muscle will be reperfused and the CO2 level is expected to decrease into normal levels. 50 number of patients will be enrolled to undergo the procedures. The IscAlert will be removed from the patient before the patient is discharged from the operating room, but in 25 of the patients, IscAlertâ„¢ will be inserted for 72 hours in the operated extremity after the end of surgery. After this, the sensors are removed. 250 Devices is planned to be used in this clinical study.
This study is being conducted to determine whether providers who have access to their patients' acoustic intestinal rate score as calculated by an abdominal acoustic sensor that continuously monitors bowel sounds (AbStats) will be more likely to advance their patients' diets to a solid diet sooner than those who do not have access to this rate. AbStats calculates intestinal rates by using two small sensors placed on a patient's abdomen to measure and analyze their abdominal sounds. Patients will be asked to wear a sensor every morning for 20 minutes while they are fasting daily during their inpatient visit. The sensor will measure the sounds within their abdomen. This data will be interpreted by the AbStats device, which will provide an intestinal rate measurement based on the sounds recorded by the sensors. This intestinal rate will be provided to the patient's treating physician together with other vital signs. The doctor, at his/her discretion, may choose to use this information to make decisions about the patient's feeding status.