Total Knee Arthroplasty Clinical Trial
Official title:
Persona IQ Cohort Study: A Prospective Multicenter Longitudinal Cohort Study of the Persona IQ Personalized Knee System With Mymobility Platform
A prospective multicenter longitudinal cohort study of Zimmer Biomet (ZB) Persona IQ The Smart Knee which consists of the Persona Personalized Knee (PPK) System with mymobility® platform that is attempting to develop correlative measures to assist surgeons in understanding and managing risk in their patient populations. Specifically comparing four outcome measures captured via Remote Therapeutic Monitoring (RTM) utilizing the CANARY canturioTM Tibial Extension (CTE) sensors in combination with the mymobility® App. The primary objective of this prospective study is to systematically document the clinical outcomes of the Persona IQ Personalized Knee System with mymobility for primary total knee arthroplasty/replacement (TKA/TKR). This will be accomplished by monitoring subject activity trend patterns via the mymobility platform, evaluating smart system usability, monitoring short and long-term safety and effectiveness, and evaluating the value of the remote therapeutic monitoring platform. This data collection will be accomplished by the following: 1. The Canary Smart Tibial Stem comprised of the following subsystems: 1. Canary Cloud Data Management Platform (CDMP) 2. Canary Medical Gait Parameters (CMGP) Software Module 2. Persona IQ Personalized Knee System with mymobility Platform comprised of the following subsystems: 1. mymobility Platform for Patient Application 2. mymobility Care Team Dashboard 3. ZB Edge Artificial Intelligence Data Platform 3. Clinical Outcomes 1. Joint Motion: ROM and Deductions 2. Joint Stability: Medial/Lateral and Anterior/Posterior 3. Gait and Assistive Device Utilization 4. Surgical Incision Site 4. Objective Measurements: a. Timed Up & Go (TUG) and Stair Climb Test 5. System Usability Evaluation 6. Patient Satisfaction 7. Health Care Provider Satisfaction Additionally, a data repository will be maintained for future secondary data analyses when data is transmitted and captured beyond the 1-year of follow-up.
The study device is intended to relieve pain and restore function in patients with adequate quality and quantity of bone stock to support the prosthesis. In addition to traditional data collection mechanisms, four passive outcome measures will be captured among all study subjects via the CTE sensors in combination with the mymobility App, attempting to develop correlative measures to assist surgeons in understanding and managing risk in their patient populations. These correlative outcomes will be measured using qualified step counts, average walking speed, Tibial and Functional range of motion (ROM), cadence, stride length, and distance traveled that will be statistically analyzed. All the clinical outcomes and device safety data to be collected will be summarized by the applicable univariate statistics and analyzed by the appropriate statistical models. The logistic regressions for the categorical data point, especially binary data for rare events (i.e., revision, hospital readmission etc.) tend to require relatively large sample sizes to have enough power to perform conclusive analyses. 100 + 50i patients are needed to effectively use logistics regression in predicting outcomes, where i refers to the number of independent variables in the final model. It is expected between 15 and 20 independent variables will be available for the model. Assuming 18 independent variables, the sample size needs to be n = 1,000. Assuming 10% loss-to-follow-up, this study will enroll up to 1,112 patients. Data collected in this study will be summarized descriptively. Categorical data will be summarized using counts and percentages over the time periods of interest. Continuous data will be summarized by using means, medians, standard deviation, minimum, maximum, and 95% CI over the time periods of interest. Appropriate linear regression and generalized linear regression models including logistic regression, cox regression, mixed model for repeated measurements will be applied for the primary, secondary and exploratory endpoints analysis per the data type and analysis goals. The applied statistical models will be used to evaluate and quantify the relationship among the differences in the episode of care data, patient pre-op physical condition and medical history, gait parameters, ROM, patient satisfaction, nine most common post TKR complication incident rates, patient reported outcomes (PROs), TUG test, etc. Implant survival will be evaluated using Kaplan-Meier product limit estimate and raw survival rates. In addition to inference models, the predictive models will also be built to predict the patient satisfaction and PROs using patient baseline status and early PIQ data. Primary Endpoints: The four primary endpoints based on the clinical outcomes of the Canary CTE with CHIRP when used in conjunction with the ZB PPK system and mymobility® Platform for primary TKA will be analyzed by the appropriate linear and generalized linear regression models per the data type prospectively. The descriptive statistics will be provided as needed to individually describe the data points. The incidence of the nine most common post TKA medical complications will be analyzed by binary logistic regression model and time to event model such as cox regression. The relationship between pre-op, episode of care and post-operative gait recoveries will be evaluated by both binary logistic regression model and mixed model. The correlation between continuous 14 to 30-days Persona IQ data and 90-days post-operative sagittal ROM data will be evaluated by Pearson correlation, ICC with and without patient key baseline features adjusted. The relationship between categorical 14 to 30-days Persona IQ data and 90-days post-operative sagittal ROM data will be evaluated by either ANOVA or ANCOVA model per the analysis goal. The ordinary logistic regression will be applied to build predicting model for patient satisfaction at 42 and 90-days. Secondary Endpoints: The relationship and correlation between the unique patient clinical data collected via mymobility® application and pre-operative and post-operative activity profiles, surgical techniques, patient attributes, etc. will be evaluated with the stratification of ZB bearing component variants (UC, CR, MC, PS & CPS). Similar to the primary endpoint analyses, both descriptive statistics and the appropriate linear or generalized linear models will be selected to conduct the analysis based on the data type and the analysis goals. As needed, propensity score matching will be applied to select retrospective cohorts for ongoing exploratory analysis to support future product feature development and research. Exploratory Endpoints: Implant survival and safety will be analyzed by Kaplan-Meier product limit estimate and raw survival rates with 95% CI. Patient functional performance, clinical benefit measurements and healthcare utilization with index procedure will be analyzed for the whole cohort and for varied subgroups stratified by important surgical or clinical or patient physical features via both appropriate statistical models and descriptive statistics. The continuous clinical outcome differences between the subjects utilizing ROSA and conventional implantation will be evaluated by ANCOVA model with baseline function score, patient key baseline features and visit time adjusted. Persona IQ is a system comprised of the following subsystems: 1. RTM utilizing mymobility® patient application and care team dashboard, 2. PPK System with 3. CTE Extension Implant and Instrumentation, 1. Surgical Base Station System, 2. Home Base Station System, 3. Canary CDMP, 4. Canary CMGP software module, and 4. The ZBEdgeTM Connected Artificial Intelligence data platform. The system combines physical components, electronics, software, and user interfaces to collect, store, analyze, transmit, and display patient data for use by both physicians and patients. The CTE with CHIRP System is intended to provide objective kinematic data from the implanted medical device during a patient's TKA post-surgical care. The kinematic data are an adjunct to other physiological parameter measurement tools applied or utilized by the physician during the course of patient monitoring and treatment post-surgery. The device is indicated for use in patients undergoing a cemented TKA procedure that are normally indicated for at least a 58 mm sized tibial stem extension. The objective kinematic data generated by the CTE with CHIRP System are not intended to support clinical decision-making and have not been shown to provide any clinical benefit. The CTE with CHIRP System is compatible with ZB PPK System. ZB PPK components included in this study are commercially available, fixed bearing (FB) left and right-side configurations and various component sizes to accommodate anatomical variation. FB components may be configured for use in posterior cruciate-retaining, cruciate-sacrificing, or cruciate-substituting knee arthroplasty procedures. They are intended for long-term implantation in accordance with product labeling. Investigators should refer to the package insert for additional information on indications, contraindications, warnings, precautions, and compatibility with other ZB products. The CTE with CHIRP System is a tibial extension implant containing electronics and software. Using internal motion sensors (3-D accelerometers and 3-D gyroscopes), the CTE collects kinematic data pertaining to a patient's gait and activity level following TKA. The kinematic data produced by the CTE implant is intended as an adjunct to the TKA post-procedure standard of care, as directed by the physician. The CTE implant is assembled with the ZB Persona Tibial Baseplate to form a total knee prosthesis. In addition to its data collection and reporting capabilities to the physician and patient, the CTE implant provides additional stability to the complete knee prosthesis in the same manner as a traditional tibial extension. The CTE with CHIRP System uses external OR and Home Base Station units to query the CTE implant (which has an internal radio and antenna) and upload the data collected by the CTE implant to the CDMP. Information from the implant is processed by the system's CMGP software, located in the Cloud, into clinically relevant metrics. A list of functionally compatible ZB products may be located with the product instructions for use (IFU) and/or the Persona IQ The Smart Knee CANARY CTE with CHIRP TM System, ZB Persona CPS and PPK Surgical Techniques. ZB will make every attempt to update that reference regularly, but to ensure patient safety, please refer to the package insert or other accompanying product information that is provided with the implant. This device is compatible with ROSA Knee System. Investigators may reference the ROSA Knee System User Manual for further system details and IFU. The devices used in the study are commercially available: 1. Canary CTE with CHIRP via FDA DeNovo # DEN200064. 2. ZB PPK System (compatible with CANARY CTE with CHIRP System). 3. mymobility® patient application and care team dashboard 4. ROSA Robotics ROSA Knee System 5. Other ZBEdgeTM Connected Intelligence Suite Technologies Device accountability is not required for this study if a commercial contract has been executed. In the event a commercial contract has not been executed, a "for research only" study agreement can be offered for a non-commercial user. If a "for research only" contract is executed, device accountability will be required for this study. This is a post-market study that does not involve investigational products or procedures, and the physical risks to the patients for participation in the study are minimal. Many assessments are standard-of-care for these patient populations and do not require special training for their use in the study. Non-standard assessments, such as patient-reported outcome measures (PROMs), are used frequently in clinical research and instructions can easily be communicated by remote methods. As such, site initiation visits (SIV) may be conducted remotely for this study. During the course of the study, the Sponsor will conduct periodic central monitoring, remote monitoring, and maintain contact with the study staff to monitor compliance and evidence of adverse events, in accordance with the Sponsor's policies and procedures. The Sponsor will address any identified non-compliance with the executed CTA, study protocol, and applicable regulatory requirements. If onsite monitoring visit(s) are deemed appropriate by the Sponsor, the Investigator will permit representatives of the Sponsor's monitoring team to have direct access to inspect all source data/documents, study documents/binders, study subject case report forms, corresponding sections of study subject medical/hospital records, and any other documents relevant to the study. The Site Monitoring Visit Log will be maintained throughout the course of the study. The log will contain the visit date, monitor name/signature and the purpose of the visit (i.e., SIV, interim monitoring, site closeout, etc.). The site monitoring visit log will be filed in the site Regulatory Binder for the study. ;
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