New Method for Real-time Detection of Tissue Ischemia (ISCALERT)

This is a prospective, single arm, open, single centre clinical investigation designed to examine the feasibility and safety of the IscAlert™ device in patients scheduled for limb (arm/leg) surgery with tourniquet.

50 number of patients will be enrolled to undergo the procedures detailed in this clinical investigational plan using 250 devices.

IscAlert is 0.8 mm in diameter and in vitro testing, shows stable and accurate measurements of pCO2. More than 100 animal experiments have been done with the sensor. The experiments have shown that the sensor detects ischemia (Increased CO2-measurements) in real time in the following organs and tissues: Brain, heart, liver, kidneys, pancreas, intestines, musculature and subcutaneous tissue. Sensitivity and specificity are close to 100%. The sensors are inserted into tissue by a split needle technique. The split needle is the size of a 3-gauge peripheral venous catheter. In animal studies, no complications have been detected when using the sensor.

The IscAlert catheters are connected to an electronics unit that is fixed to the skin with an adhesive plaster outside the sterile area. The electrical signals are redirected to a PC approved for clinical use which continuously records tissue pressures of CO2.

IscAlert sensors (3 - three) are inserted into normal muscle and subcutaneous tissue proximal on the limb to be operated. The insertion is distal to the blood cuff, and far away from the surgery field. The insertion is done under sterile conditions in accordance with standard sterility criteria at the hospital. No pain during insertion will occur because of insertion is performed after anesthesia induction. Also, the insertion can be compared to an intramuscular injection.

Two identical IscAlert sensors are also inserted in the opposite extremity that is not to be operated and serves as a reference value. 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 within 15 - 45 minutes. In 25 patients, the biosensors will be removed from the patient before the patient is discharged from the operating room, but in 25 of the patients, IscAlert will be inserted for up to 72 hours in the operated extremity after the end of surgery to identify drifting of the sensors. After this, the sensors are removed.

The primary objective is to evaluate the ability of the IscAlert device to measure CO2-levels in ischemic and non-ischemic limb musculature and subcutaneous tissue in patients who experience orthopedic surgery with limb tourniquet and to assess the safety/efficacy using device IscAlert.

Our hypotheses are:

The IscAlert device will be able to detect the presence of ischemia in muscle and subcutaneous tissue, whereby CO2 levels, measured by IscAlert, will be higher in ischemic musculature than non-ischemic musculature in patients undergoing orthopedic limb surgery.

No clinically significant bleeding or infection will occur using IscAlert in this clinical study.