The use of bloodless field is a helpful and important method in orthopedic surgery. The surgery can be done without interrupting bleedings, while keeping an exact overlook of the anatomy. However the method is not without risks, and complications of various kind may occur. One of the most important factors to minimise the risk of complications, is to keep the lowest possible cuff pressure. Previous electromyography (EMG) studies have indicated neuromuscular abnormalities after bloodless field among many patients which may lead to a prolonged rehabilitation period since they cause a postoperative weakness in the muscles. Although in these studies an unnecessary high tourniquet pressures were used and the EMG tests were made 6 weeks and 6 months after the surgery. With today's demand for fast rehabilitation, there is a need for better knowledge if lower tourniquet pressure in bloodless field surgery may lead to less neuromuscular abnormalities. Limb Occlusion Pressure (LOP) is the tourniquet cuff pressure required to occlude the blood flow. It accounts for a patients limb and vessel characteristics and the type and fit of the tourniquet cuff. The method has developed and is now simplified, by using an automatic (plethysmographic) sensor placed on the second toe on the involved limb, and after administration of anaesthesia, and immediately before limb preparation and draping it measures the limb occlusion pressure. When surgery starts, the cuff is inflated again; plus a safety margin based on the LOP pressure measured. The LOP method is still rarely used it has been seen as difficult and time consuming. The primary aim of this study is to investigate whether you can reduce the used tourniquet pressure with the new LOP measurement technique and still have a adequate bloodless field; and if this will lead to any clinical difference regarding postoperative pain. The secondary aim is to investigate the difference between the test groups concerning muscle function and wound healing and if these are remaining and of clinical importance. The third aim is to study how common neuromuscular abnormalities are after the use of bloodless field with lower cuff pressures and if there are any differences between the standard method and the LOP method.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
TRIPLE
Enrollment
164
The tourniquet cuff pressure were decided by measurement of limb occlusion pressure (LOP) using an automated photo plethysmographic sensor connected to a ATS 3000 tourniquet apparatus (Zimmer Sweden Inc®).
Standard method at our department, the tourniquet cuff pressure was based on the patient's systolic blood pressure and a margin that were decided by the surgeon.
Department of clinical science and education, Södersjukhuset
Stockholm, Sweden
Cuff pressure (mmHg)
For patients in the control group the tourniquet cuff pressure was based on the patient's systolic blood pressure and a margin that were decided by the surgeon. In the LOP group the tourniquet cuff pressure were decided by measurement of limb occlusion pressure (LOP) by using an automated photo plethysmographic sensor connected to a ATS 3000 tourniquet apparatus
Time frame: participantswill be followed for the duration of hospital stay , an expected avarage of 4-5 days
Quality of bloodless field
Direct after surgery the surgeon rated the quality of bloodless fiels on a visual analog scale (VAS)
Time frame: particpants will be followed for the duration of the hospital stay, an expected avarage of 4-5 days
Postoperative pain
The patients filled in the modified WOMAC scale daily during their hospital stay. The WOMAC is a self -administered and validated health status instrument with 3 domains i.e. pain , physical function and stiffness.A wound control was performed by a ward nurse at discharged. The functional assessment included measurement of the range of motion of the knee joint and a straight leg lifting test (with 1kg weigth) and was performed at third postoperative day by an independent physiotherapist. All patients were followed up two months postoperatively (wound, ROM and WOMAC).
Time frame: The participants were followed daily during their hospital stay (4-5 days) and at the two months follow up after surgery
Range of motion (ROM)
Time frame: The participants were examined at third postoperative day and at the two months follow up after surgery
Postoperative wound complications
Time frame: The participants were examined at discharged (day 4 or 5 postoperatively) and at the two months follow up after surgery
EMG/EnEG
Time frame: Participans were examined day three and two months postoperatively
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