Clinical Trials Logo

Clinical Trial Summary

The goal of this observational study is to investigate the potential of wearable sensors for monitoring the postoperative recovery of patients after TKA. The main question the study aims to answer is: • whether alterations in gait characteristics and the changes in PA levels measured by wearable PA trackers can accurately reflect a patient's postoperative recovery status and provide clinically relevant information to aid their management. Participants will wear PA trackers during the perioperative period of TKA (2 weeks before until 3 months after, and then agin for 2 weeks one year after the surgery) and we will analyze their gait and PA and correlate them with their recovery after surgery.


Clinical Trial Description

Introduction Total knee arthroplasty (TKA) is a common surgical intervention for end-stage knee osteoarthritis (OA) patients who have failed conservative treatments. However, despite advances in surgical techniques and postoperative care, some patients experience complications and delayed recovery, leading to increased healthcare costs and worse clinical outcomes. Therefore, monitoring the postoperative recovery of TKA patients is critical for improving the outcomes and reducing healthcare costs. Currently, various approaches assess patients' postoperative progress following TKA, including patient- and clinician-reported outcomes, as well as radiographic imaging. However, these methods are typically conducted at limited time intervals, and their objectivity is frequently questioned due to the potential for variability. The physical activity (PA) of patients, particularly walking as the primary form of PA, has proven to be a reliable indicator of their overall health and functionality. Abnormalities in walking patterns or reduced levels of physical activity can indicate decreased compliance, pain, or the occurrence of adverse events. Early diagnosis and treatment are crucial in mitigating the potential consequences of these adverse events, such as pulmonary embolism (PE), deep vein thrombosis (DVT), infection, and others. In recent years, wearable sensors, such as PA trackers, have emerged as a promising tool for monitoring postoperative recovery. These sensors can continuously and objectively monitor a patient's PA levels and provide data that can be used to track the patients' recovery progress based on their daily activities. Furthermore, studies have demonstrated that patients are able to comply with the use of wearable sensors during the postoperative period after orthopedic surgeries. The investigators have demonstrated the patients' compliance with using the same sensors in a separate study. However, despite the potential benefits of wearable sensors for monitoring TKA recovery, several uncertainties remain. One key issue is whether changes in PA levels and gait alterations detected by wearable sensors can provide a reliable indicator of a patient's postoperative recovery status. Moreover, it is currently unclear whether the data collected from these sensors can yield clinically meaningful information that can effectively aid in managing TKA patients. Further research is needed to address these questions and establish the potential value of wearable sensors in the context of monitoring recovery after TKA. Therefore, this study aims to investigate the potential of wearable sensors, specifically PA trackers, for monitoring the postoperative recovery of patients after TKA. Our study will recruit patients with knee OA scheduled to undergo TKA and monitor them continuously for three months after surgery using PA trackers. By analyzing the data collected from these trackers, the investigators aim to determine whether alterations in gait characteristics and the changes in PA levels measured by wearable PA trackers can accurately reflect a patient's postoperative recovery status and provide clinically relevant information to aid their management. In addition, in the study the investigators will measure PA and gait accelerations one year after TKA to evaluate the final outcome of the surgery once the recovery period is complete. Methods The investigators will use PA trackers to monitor the participants' PA levels. The PA trackers are previously validated sensors (SENS Motion®) designed for monitoring PA in health care and comprise accelerometers. Plasters on the lateral distal thigh will attach the sensors and measure 3D linear accelerations of lower limbs. The linear accelerations will be translated into the amount of PA and the number of steps taken per day by the SENS Motion algorithm. The investigators will monitor the participants 24/7 using PA trackers from two weeks before surgery until three months after surgery. A two-weeks follow-up measurement will also be performed 12 months after surgery. The study will consist of three data collection periods: pre-op (two weeks), post-op (three months), and 12-months follow-up (two weeks). A. Enrollment (Baseline visit) - At least two weeks before the surgery, patients will be enrolled in the study and given detailed information about the protocol. Informed consent will be obtained, and basic patient information, including their civil registration number, age, sex, comorbidities, surgical history, height, weight, and lower limb lengths, will be collected. In addition, patients will be given knee injury and osteoarthritis outcome score (KOOS) and European Quality of Life 5 Dimensions 3 Level Version (EQ-5D-3L) questionnaires to complete. The investigators will also evaluate the patients' frailty level using CFS. All data will be recorded in a REDCap database hosted by region of North Jutland, Denmark. - The location of the sensors on the distal thigh of the affected knee will be marked, and a PA tracker (SENS Motion) will be attached to the specified location. Patients will then be asked to walk at a self-selected speed for about two minutes to register a template for their walking pattern. The SENS app will be installed on the patients' smartphones. Next, the patients will be instructed on transferring data from sensors' internal memory to the SENS cloud system, changing the adhesives, and attaching the sensor to the exact location specified by the markers. Patients will be provided enough plasters and a marker pen, and instructional material will guide them through the process. Participants will be instructed to wear the devices at all times, even when showering or swimming. B. Pre-op period - The PA tracker will continuously record the patients' PA levels and lower limb accelerations. The collected data will be transferred daily from the PA tracker to the SENS cloud system. - To ensure the accuracy and completeness of the data, the investigators will monitor the data transfer process. Specifically, the data collected by the PA tracker will be transferred from the SENS cloud system to the Q-drive every week. If a participant fails to transfer their data within 72 hours, they will be contacted to remind them to do so. - All data collected during pre-op will be used to establish the participants' baseline PA levels. This information will be used as a reference point to assess changes in PA levels and lower limb accelerations after surgery and during the follow-up period. C. Operation day • On the day of the operation, the operation nurse will remove the sensors before surgery and reattach them in the exact location following the procedure. The patient's records will be reviewed to obtain information on the type and duration of surgery, as well as any complications that may have occurred. The data will be recorded in a REDCap database. D. Post-op Period - After surgery, participants will be instructed to wear the tracker continuously for three months. During the postoperative period, the investigators will closely monitor patients' PA levels. Patients who fail to transfer sensor data within 72 hours will be contacted to ensure continuous data collection. The sensor data will be transferred weekly from the SENS cloud system to Q-drive. The investigators will also administer weekly EQ-5D-3L questionnaires and monthly KOOS questionnaires to assess patients' health status and knee function through the REDCap platform. - After three months, the sensors will be turned off and returned to the hospital. The investigators will extract relevant information from patients' records to identify possible complications and classify them based on the standardized list and definitions of the Knee Society 14. E. 12-months follow up - The follow-up period will consist of an additional two weeks of data collection one year after surgery, during which participants will continue to wear the tracker to assess the changes in PA levels and lower limb accelerations. - At the 12-month follow-up, patients will be invited to participate in the follow-up part of the study, and if they consent, they will receive sensors to wear continuously for 14 days. Data will be collected continuously during this period, and KOOS and EQ-5D-3L questionnaires will be administered through REDCap. In addition, the patients' journals will be reviewed for any potential complications. - Once the 14-day period is complete, the sensors will be deactivated and returned to the hospital. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05992064
Study type Observational
Source Aalborg University Hospital
Contact Arash Ghaffari, MD
Phone +45-91483966
Email a.ghaffari@rn.dk
Status Not yet recruiting
Phase
Start date October 1, 2023
Completion date October 1, 2025

See also
  Status Clinical Trial Phase
Active, not recruiting NCT05666479 - CGM Monitoring in T2DM Patients Undergoing Orthopaedic Replacement Surgery
Recruiting NCT05002387 - Diagnostic Knee Needle Arthroscopy in Predicting Unicompartmental Knee Osteoarthritis N/A
Recruiting NCT06080763 - Biomechanics and Clinical Outcomes in Responders and Non-Responders
Completed NCT03008967 - A Study of Patients Undergoing Total Knee and Hip Arthroplasty at a Regional Hospital in Denmark N/A
Withdrawn NCT02255877 - ZIPS Study - Zip Incision Approximation vs. STAPLE Phase 4
Completed NCT02642731 - Kidney Biomarkers of Acute Kidney Injury in Patients With Knee Arthroplasty N/A
Completed NCT01799772 - The Feasibility of a Comprehensive Behavioral Intervention in Patient Post TKA Phase 1/Phase 2
Completed NCT02525588 - Polyethylene Wear Study on the Triathlon Total Knee Prosthesis N/A
Completed NCT02520531 - Scorpio Posterior Stabilised (PS) vs Scorpio NRG ("Energize") PS - Total Knee Arthroplasty N/A
Completed NCT03183856 - Comparison of Ambulatory and Functional Improvement by Morning Walk N/A
Completed NCT03569397 - Music Therapy Versus Control for Total Knee Arthroplasty N/A
Terminated NCT02711592 - Pharmacogenomics Information in Enhancing Post-operative Total Joint Replacement Pain Management: a Pilot Study N/A
Completed NCT03145493 - Effect of Suction Drains in Total Knee Arthroplasty With Tranexamic Acid N/A
Terminated NCT05602701 - Preoperative Prediction of Postoperative Physical Function
Recruiting NCT03570944 - Postoperative Outcomes Within an Enhanced Recovery After Surgery Protocol (POWER2)
Completed NCT02773537 - Motor-Sparing Peripheral Nerve Blockade Facilitates Mobility Post Total Knee Arthroplasty: A Randomized Controlled Trial N/A
Withdrawn NCT02553122 - The Combined Efficacy of Evicel and Tranexamic Acid on Total Knee Arthroplasty Phase 3
Recruiting NCT02385383 - An Intravenous Iron Based Protocol for Preoperative Anaemia in Hip and Knee Surgery - An Observational Study N/A
Completed NCT02121392 - Epidural Catheter With or Without Adductor Canal Nerve Block for Postoperative Analgesia Following Total Knee Arthroplasty N/A
Terminated NCT02155712 - Triathlon Tritanium Knee Outcomes Study N/A