Use Of Continuous Passive Motion Research Articles

Effectiveness of continuous passive motion in total knee replacement patients with slow rehabilitation under ERAS pathway

Background: Although we know routine use of continuous passive motion (CPM) has no clinical benefit on patients’ outcome after total knee replacement (TKR), the effect of CPM on patients with poor rehabilitation progress under ERAS (Enhanced Recovery after Surgery) pathway is unclear. We aimed to evaluate the clinical outcomes by using CPM in these patients under ERAS pathway. Methods: We performed a retrospective study for patients who had TKR done between 2017 and 2019 under ERAS pathway. Patients who were not able to reach 45 degrees of active range of movement (ROM) on postoperative day (POD) 3 would be reviewed to see if any CPM was used. Primary outcomes were the length of hospital stay and the active ROM upon discharge. Other outcomes were the active ROM in POD4 and the latest follow-up, pain score, and quadriceps power. Result: After exclusion, total of 68 patients were included in the study, with 30 were given CPM and 38 were not. Both groups had matched demographics. The study (CPM) group had significantly higher mean active ROM upon discharge (76.00 vs 68.42 degrees, p = 0.02) and longer hospital stay (7.3 vs 5.9 days, p =0.01). There were no significant effects on pain score, quadriceps power, and the active ROM in POD4 and the latest follow-up. Conclusion: For post TKR patients with limited rehabilitation progress under ERAS pathway, the use of CPM could attain better active ROM upon discharge with no adverse effect on pain control and quadriceps power, but at the expense of an increase in the length of stay.

Prolonged Application of Continuous Passive Movement Improves the Postoperative Recovery of Tibial Head Fractures: A Prospective Randomized Controlled Study

Methods 60 patients with THFs were randomly and equally divided into the CPM group and non-CPM group. Both groups immediately received CPM and conventional physical therapies during hospitalization. After discharge, the non-CPM group was treated with conventional physical therapy alone, while the CPM group received conventional physical training in combination with CPM treatment. At 6 weeks and 6 months postoperatively, the primary outcome which was knee ROM and the secondary outcome which was knee functionality and quality of life were evaluated. Results The CPM group had a significantly increased ROM at both follow-up time points. The Knee Society Score, UCLA activity score, and the EuroQoL as well as the pain analysis showed significantly better results of the CPM group than the non-CPM group. Conclusions The prolonged application of CPM therapy is an effective method to improve the postoperative rehabilitation of THFs.

Continuous passive motion not affect the knee motion and the surgical wound aspect after total knee arthroplasty

BackgroundThis study aimed to assess whether use of continuous passive motion (CPM) could improve range of motion in patients after total knee arthroplasty (TKA), if it could affect the surgical wound aspect (SWA) and if it could influence on pain management after TKA.MethodsWe randomized 210 patients in two groups, 102 patients in the CPM group, who received a standard rehabilitation protocol together with CPM application; and 108 patients in the no-CPM group, without CPM. Variables as knee motion (flexion, extension, range of motion) and pain were measured before surgery, on the 1st, 2nd and 3rd postoperative day, and in the 2nd, 6th, 12th and 24th postoperative weeks following TKA. The SWA was determined by the “surgical wound aspect score” (SWAS) in the next 48 h after surgery. This scale analyzes swelling, erythema, hematoma, blood drainage and blisters.ResultsThere was an improvement in the knee motion over the course of follow-up in both groups, without significant difference in flexion parameter. We found no significant differences in the total score of SWA, except for hematoma, with less severity in the CPM group. Furthermore, we found no differences in the others SWAS parameters and pain.ConclusionsThe application of CPM does not provide benefit to our patients undergoing TKA in terms of either improved flexion mobility or decreased pain. No relationship was found between the use of CPM and the global score of SWA following a TKA, except for a decrease in hematoma appearance.

Patients Use Fewer Opioids Than Prescribed After Arthroscopic Release of Elbow Contracture: An Evidence-Based Opioid Prescribing Guideline to Reduce Excess

PurposeTo generate an evidence-based opioid-prescribing guideline by assessing the pattern of total opioid consumption and the factors that may predict opioid consumption following arthroscopic release of elbow contracture and to investigate whether the use of continuous passive motion (CPM), as compared to physical therapy (PT), was associated with a decrease in pain and opioid consumption after arthroscopic release of elbow contracture.MethodsData collected from a randomized controlled trial that compared continuous passive motion (CPM) (n = 24) to physical therapy (PT) (n = 27) following arthroscopic release of elbow contracture was analyzed for opioid use. Fifty-one participants recorded their daily opioid consumption in a postoperative diary for 90 days. Multivariate analysis was performed to identify factors associated with opioid use. Recommended quantities for postoperative prescription were generated using the 50th percentile for patients without and the 75th percentile for patients with factors associated with higher opioid use.ResultsThe median total opioid prescription was 437.5-mg morphine milligram equivalents (MMEs) (58 pills of 5 mg oxycodone) and the median total opioid consumption was 75 MMEs (10 pills of 5-mg oxycodone). Twenty-two percent of patients took no opioid medication, 53% took ≤10 pills, 69% took ≤20 pills and 75% took ≤30 pills. Predictors of higher opioid use were preoperative opioid use, age <60 years and inflammatory arthritis. The total opioid consumption appeared similar between the CPM and the PT group. Seventy-five percent of patient’s home opioid requirements would be satisfied using the following guideline: Patients undergoing contracture release for osteoarthritis or post-traumatic contracture should be given a prescription for 10 pills of 5 mg oxycodone or its equivalent at discharge. Patients with inflammatory conditions or those taking preoperative opioids should be prescribed 30 pills of 5 mg oxycodone or its equivalent.ConclusionThis study suggests that most patients undergoing arthroscopic release of elbow contracture use relatively few opioid pills after surgery. Use of an evidence-based guideline could decrease opioid prescriptions substantially, while still effectively treating patients’ pain.

Analysis of Long-Term Outcomes Following Surgical Contracture Release of the Elbow: A Case Series.

BackgroundElbow contracture is a debilitating condition with an incidence ranging from as low as almost 1% to as high as 20% and results in significant limiting consequences on a patient’s activities of daily living (ADLs). Postoperative rehabilitation is important in maintaining the range of motion and sustaining an improved range of motion. The purpose of this study was to evaluate the long-term results of elbow contracture release surgery and the effect of an occupational therapy/physical therapy (OT/PT)-guided, self-directed rehabilitation program following surgery, without the use of continuous passive motion (CPM) devices.MethodsWe enrolled patients who had undergone elbow contracture release surgery from 2005 to 2016 at a single institution under the senior author. The evaluation included objective measurements of range-of-motion, strength, and neurological sensory testing. Provocative testing of the elbow and hand was performed. American Shoulder and Elbow Surgeons-elbow (ASES-e), Simple Shoulder Test-elbow (SST-e), Disabilities of the Arm and Shoulder (DASH), Mayo Elbow Performance Index (MEPI), Short Form-36 (SF-36), and an investigator questionnaire were completed.ResultsWe enrolled 19 patients, six female and 13 male, with an average follow-up of 58.9 months (SD± 39.8, Range 22-117). We showed improvement and sustained motion between preoperative and postoperative research visit flexion (p<0.001) and flexion extension-arc (p<0.01). The mean increase in flexion was 98° to 131° and the flexion-extension arc was 36°. Patients were satisfied with the decision to undergo surgery and had sustained ability to complete ADLs.DiscussionThis patient cohort demonstrated a statistically significant increase, as well as long-term maintenance in the flexion and flexion-extension arc. A self-directed, OT/PT-guided, therapy program without CPM was effective. Patients showed good outcomes and were satisfied with their ability to perform ADLs, decreased pain, and the decision to undergo surgery.

Activity Recommendations After Total Hip and Total Knee Arthroplasty.

A formal unsupervised activity program should be recommended to all patients recovering from total knee arthroplasty (TKA) and total hip arthroplasty (THA). In a subset of all patients undergoing TKA or THA, studies have found that an unsupervised activity program may be as efficacious as supervised physical therapy (PT) after surgery. Certain patients with inadequate independent function may continue to benefit from supervised PT. For TKA, supervised telerehabilitation has also been proven to be an effective modality, with studies suggesting equivalent efficacy compared with supervised in-person PT. Following TKA, there is no benefit to the use of continuous passive motion or cryotherapy devices, but there are promising benefits from the use of pedaling exercises, weight training, and balance and/or sensorimotor training as adjuncts to a multidisciplinary program after TKA. No standardized postoperative limitations exist following TKA, and the return to preoperative activities should be dictated by an individual's competency and should consist of methods to minimize high impact stress on the joint. Despite traditional postoperative protocols recommending range-of-motion restrictions after THA, it is reasonable to recommend that hip precautions may not be needed routinely following elective primary THA.

Management of the stiff elbow

Stiffness of the elbow is a relatively common problem that can result in disability. The elbow is prone to stiffness after injury or surgery and there is limited scope for compensatory motion in the shoulder and wrist. Despite advances in knowledge of the pathogenesis of elbow contractures and the development of new treatment regimens, elbow stiffness remains a challenging problem. To regain functional elbow motion several non-operative and operative treatments are available. Non-operative treatment modalities consist of static and dynamic splinting, both having comparable results and a low risk of complications. Surgical release is performed open or arthroscopically, depending on the severity of the contracture, the presence of concomitant pathology of the ulnar nerve and osseous deformity, as well as the surgeon's preference. The open lateral column procedure has been the gold standard for a number of years. With the increasing popularity and experience of arthroscopy, a shift is seen towards arthroscopic capsular release for some indications. Outcomes of both techniques are largely comparable, with low complication rates, although the rate of complications increases with the extent of the surgical procedure. With regard to the rehabilitation programme after surgical release, different protocols are used in different hospitals and countries and may include extensive physical therapy with or without the use of continuous passive motion. The current recommendation is to continue postoperative rehabilitation as long as the range of motion is improving and until no further increase is expected. The aim of this article is to provide an overview of the aetiology, treatment, rehabilitation options and outcome of elbow stiffness. Current treatment options are discussed and future perspectives are provided.

CPM Use Reduces Rates of Arthrofibrosis After ACL Reconstruction in a Pediatric Population

Purpose: Some practitioners advocate for the use of continuous passive motion (CPM) machine protocols in an effort to prevent the development of intra-articular adhesions and range-of-motion (ROM) deficits after anterior cruciate ligament (ACL) reconstruction. However, prior studies have failed to show CPM use to be effective in increasing ROM, but has been shown to reduce rates of arthrofibrosis requiring manipulation under anesthesia (MUA) after adult ACL reconstruction. The purpose of this study was therefore was to examine the efficacy of CPM use in a pediatric population for increasing post-operative ROM and reducing the number of necessary MUA. Methods …

Use of Continuous Passive Motion Reduces Rates of Arthrofibrosis After Anterior Cruciate Ligament Reconstruction in a Pediatric Population.

Joint immobilization after anterior cruciate ligament (ACL) reconstruction may lead to intra-articular adhesions and range of motion deficits. Some practitioners thus advocate for the use of postoperative continuous passive motion (CPM) machine protocols. However, previous studies have failed to show CPM to be effective in increasing postoperative range of motion. Continuous passive motion has, however, been shown to reduce rates of arthrofibrosis requiring manipulation under anesthesia (MUA) in adult populations. To date, there has been no study of the efficacy of CPM after ACL reconstruction in a pediatric population. This was a retrospective cohort study of pediatric patients (age <20 years) who underwent primary ACL reconstruction at an urban tertiary care children's hospital. Clinically significant arthrofibrosis was defined as reduced knee flexion requiring MUA within 6 months of surgery. The final dataset included 163 patients. There was no significant difference between cohorts in range of motion at the 1-week, 1-month, 3-month, and 6-month time points (P=.137, .695, .897, and .339, respectively). The 2 cohorts also did not differ significantly in pain scores at these time points (P=.684, .623, .507, and 1.000, respectively). At 3 and 6 months, neither quadriceps nor hamstrings strength differed significantly between cohorts. Four patients (7.4%) in the no-CPM cohort required MUA for arthrofibrosis within 6 months of surgery, while no patients in the CPM cohort required MUA (P=.023). This suggests that CPM use reduces arthrofibrosis requiring MUA in pediatric patients after ACL reconstruction. Future work may better define the clinical utility and cost-effectiveness of CPM in rehabilitation after these surgeries. [Orthopedics. 2019; 42(1):e81-e85.].

Web-based survey results: surgeon practice patterns in Italy regarding anterior cruciate ligament reconstruction and rehabilitation.

The aim of this study was to report Italian orthopaedic surgeons' management of choice for ACL reconstruction and rehabilitation, and to compare surgical applications and rehabilitation approaches of Italian surgeons to the current approaches of "ACL Study Group". A secondary purpose was to compare the preferences of subgroup based on graft choice, surgical techniques and experience. A web-based survey was developed to investigate the attitudes of members of a national association specialized in sports traumatology and knee surgery (SIGASCOT) regarding surgical techniques, routine post-operative applications, rehabilitation approaches and starting time of specific activities and exercises following ACL reconstruction. The response rate was 17% (131 questionnaires). The most popular graft type was hamstring tendon (81% in male patients, and 91% in female patients). The rate of continuous passive motion use was 55%. Half surgeons routinely used a brace (49%), usually a hinged brace. In total, 33.0% of surgeons allowed patients to load the operated knee as much as tolerated within the first 2weeks. Fifty-nine per cent of surgeons did not limit full flexion within the first 2weeks. Most surgeons advise to wait until 4months or more (97%) for return to sports not requiring contact, and 6months or more for full-contact sport (86%). This survey demonstrates clear trends in the practice of ACL reconstruction and rehabilitation in Italy. The data obtained from the SIGASCOT members revealed a more conservative approach when compared to the current approaches of "ACL Study Group". Cross-sectional survey, Level III.

A national questionnaire survey on knee manipulation following total knee arthroplasty

BackgroundAdequate range of knee motion is critical for successful total knee arthroplasty. While aggressive physical therapy is an important component, manipulation may be a necessary supplement. There seems to be a lack of consensus with variable practices existing in managing stiff postoperative knees following arthroplasty. Hence we aim to determine the current practice and trend among knee surgeons throughout the United Kingdom. Materials and methodsPostal questionnaires were sent out to 100 knee surgeons registered with British Association of Knee Surgeons, ensuring that the whole of United Kingdom was well represented. The questions included whether the surgeon used Manipulation Under Anaesthaesia (MUA) as an option for stiff postoperative knees; timing of MUA; use of Continuous Passive Motion (CPM) post-manipulation. ResultsWe received 82 responses. 46% of respondents performed MUA routinely, 43% sometimes, and 11 never. Majority (71.23%) performed MUA within 3 months of the index procedure. 68% routinely used CPM post-manipulation while 7% of the respondents applied splints or serial cast post MUA. 41% of the surgeons routinely used Patient Controlled Analgaesia ± Regional blocks. Majority (55%) never performed open/arthroscopic debridement of fibrous tissue for adhesiolysis. ConclusionsKnee manipulation requires an additional anaesthetic and may result in complications such as: supracondylar femur fractures, wound dehiscence, patellar tendon avulsions, haemarthrosis, and heterotopic ossification. Moreover studies have shown that manipulation while being an important therapeutic adjunct does not increase the ultimate flexion achieved. Manipulation should be reserved for the patient with difficult and painful flexion in the early postoperative period.

Prospective Randomized Trial of the Efficacy of Continuous Passive Motion Post Total Knee Arthroplasty: Experience of the Hospital for Special Surgery

Conflicting evidence has created substantial controversy regarding the use of continuous passive motion (CPM) in the in-patient setting post total knee arthroplasty (TKA). A total of 109 patients were randomly assigned to two groups, CPM or no CPM, applied after TKA. All patients received the same physical therapy protocol (3 sessions per day), with the only exception being the CPM. Both groups had a knee flexion of 115° at 6weeks and 120° at 3months, with no significant differences (P=0.69 and P=0.41, respectively). Length of stay was significantly less for the group who did not receive CPM. The use of CPM had no clinically relevant benefits with respect to AROM, clinical outcomes or discharge disposition and was associated with a cost of $235.50 per TKA.

Outpatient Rehabilitation Care Process Factors and Clinical Outcomes Among Patients Discharged Home Following Unilateral Total Knee Arthroplasty

Research examining care process variables and their relationship to clinical outcomes after total knee arthroplasty has focused primarily on inpatient variables. Care process factors related to outpatient rehabilitation have not been adequately examined. We conducted a retrospective review of 321 patients evaluating outpatient care process variables including use of continuous passive motion, home health physical therapy, number of days from inpatient discharge to beginning outpatient physical therapy, and aspects of outpatient physical therapy (number of visits, length of stay) as possible predictors of pain and disability outcomes of outpatient physical therapy. Only the number of days between inpatient discharge and outpatient physical therapy predicted better outcomes, suggesting that this may be a target for improving outcomes after total knee arthroplasty for patients discharged directly home.

Mechanical stimulation enhances integration in an in vitro model of cartilage repair.

(1) To characterize the effects of mechanical stimulation on the integration of a tissue-engineered construct in terms of histology, biochemistry and biomechanical properties; (2) to identify whether cells of the implant or host tissue were critical to implant integration; and (3) to study cells believed to be involved in lateral integration of tissue-engineered cartilage to host cartilage. We hypothesized that mechanical stimulation would enhance the integration of the repair implant with host cartilage in an in vitro integration model. Articular cartilage was harvested from 6- to 9-month-old bovine metacarpal-phalangeal joints. Constructs composed of tissue-engineered cartilage implanted into host cartilage were placed in spinner bioreactors and maintained on a magnetic stir plate at either 0 (static control) or 90 (experimental) rotations per minute (RPM). The constructs from both the static and spinner bioreactors were harvested after either 2 or 4weeks of culture and evaluated histologically, biochemically, biomechanically and for gene expression. The extent and strength of integration between tissue-engineered cartilage and native cartilage improved significantly with both time and mechanical stimulation. Integration did not occur if the implant was not viable. The presence of stimulation led to a significant increase in collagen content in the integration zone between host and implant at 2weeks. The gene profile of cells in the integration zone differs from host cartilage demonstrating an increase in the expression of membrane type 1 matrix metalloproteinase (MT1-MMP), aggrecan and type II collagen. This study shows that the integration of in vitro tissue-engineered implants with host tissue improves with mechanical stimulation. The findings of this study suggests that consideration should be given to implementing early loading (mechanical stimulation) into future in vivo studies investigating the long-term viability and integration of tissue-engineered cartilage for the treatment of cartilage injuries. This could simply be done through the use of continuous passive motion (CPM) in the post-operative period or through a more complex and structured rehabilitation program with a gradual increase in forces across the joint over time.

Use of Continuous Passive Motion in the Postoperative Treatment of Intra-Articular Knee Fractures.

The use of continuous passive motion in the postoperative treatment of intra-articular fractures around the knee is increasing. The purpose of this study was to determine the effects of a continuous passive motion device on knee range of motion after operative treatment of intra-articular fractures around the knee. Forty patients with intra-articular fractures of either the proximal part of the tibia or the distal end of the femur were prospectively randomized to the use of continuous passive motion or standardized physical therapy in the immediate postoperative period for forty-eight hours. The primary outcome was knee range of motion. Secondary outcome measures included pain scores, Lower Limb Outcomes Questionnaire scores, and Short Musculoskeletal Function Assessment scores. Evaluations were conducted at forty-eight hours, two weeks, six weeks, three months, and six months postoperatively. There was no significant difference in knee extension between the groups at any time point measured. Knee flexion was significantly greater at forty-eight hours in the group managed with the continuous passive motion device than in the group managed without the continuous passive motion device (p < 0.005). However, there was no significant difference in knee flexion at any other time point. There was no significant difference in knee pain at forty-eight hours between groups. Six (30%) of twenty patients were unable to tolerate the use of the continuous passive motion device. There were no significant differences in overall complications. The results of this study suggest that the use of continuous passive motion in the immediate postoperative period following the treatment of intra-articular fractures offers no benefit with regard to knee motion at six months and is not tolerated by all patients. Therapeutic Level II. See Instructions for Authors for a complete description of levels of evidence.

New and updated reviews published by the Cochrane collaboration

The first Cochrane Corner of 2014 reports on a bumper number of new and updated reviews from the Cochrane Collaboration. Since November the Cochrane collaboration have turned their beady eye to scrutinise several topical (and sometimes controversial) orthopaedic issues such as pin site care, the use of Continuous Passive Motion (CPM) in the rehabilitation of total knee replacement (TKR) and the efficacy of nerve blocks.

Posttraumatic Knee Stiffness

Commentary Complex periarticular knee trauma presents many challenges for both the patient and the physician. One of the most debilitating postoperative sequelae is knee stiffness. Although that complication is rare after elective knee surgery, Gaston et al.1 reported that 20% of the patients in their prospective study had stiffness (a residual knee flexion contracture of >5°) at twelve months after surgery for a tibial plateau fracture. Range of motion after both elective and emergency knee surgery has been shown in multiple studies to correlate with functional outcome. Although Miner et al.2 reported that knee flexion after total knee arthroplasty did not correlate directly with outcome, their findings did reveal a significant decrease in the Western Ontario and McMaster Universities Osteoarthritis Index (WOMAC) scores for patients with <95° of flexion. The WOMAC scores at twelve months postoperatively correlated with patient satisfaction and perceived improvement. In 2008, Ritter et al.3 studied the knee range of motion of patients after posterior cruciate-retaining arthroplasty and reported substantially worse outcomes in patients with <118° of total motion. Although multiple factors have been identified as increasing the risk of stiffness following total knee arthroplasty4 as well as after sports medicine reconstruction5, there have been no previous significant studies examining the predictors for knee stiffness after treatment of knee fracture. The authors of the current case-control study attempted to describe these factors by examining patients requiring knee manipulation after periarticular knee fracture. Although it is not an exact measure of postinjury stiffness, knee manipulation was chosen by the authors as the identifying marker of knee stiffness. This benchmark clearly does not capture all patients with potentially function-limiting knee stiffness; however, its use as the defining element of knee stiffness, as opposed to trying to define a specific critical range of motion, allows a relatively clear delineation between patient groups to allow for comparison. Despite a relatively small number of patients, the authors matched these patients with a control group with similar ages and fracture severity (as measured with the AO/OTA classification). The authors are to be commended for this effort and their success in carrying it out. Although patients treated with manipulation had a significant improvement in their range of motion compared with that before the manipulation, the final results revealed a significant difference between the final flexion of the case group compared with the control group (107° versus 124°). The factors associated with increased knee stiffness included extensor mechanism disruption, a need for fasciotomy, ongoing wound management, and three or more surgical procedures on the limb. Multiple factors found to have no impact on outcome included age, sex, side of injury, mechanism of injury, length of intensive care unit stay, head injury, use of continuous passive motion, and discharge to home versus to a rehabilitation facility. Finally the authors were able to conclude that late manipulation of a stiff knee after fracture is a worthwhile procedure, improving the range of motion by an average of 62°. As do all studies, this one had limitations whose impact must be recognized. The retrospective chart review limited the ability to verify the accuracy of documented knee motion measurements. The exact timing and nature of physical therapy compliance, which could have affected the results, could not be measured. Finally, there was some overlap between the category of open wound management and presence of fasciotomy that leads to difficulty in identifying whether each factor individually predicts knee stiffness (or both do together). Despite these limitations, this study definitely advances our knowledge in an area of orthopaedics in which there is a dearth of published knowledge. Simply put, this study will be very helpful to all orthopaedic surgeons who treat trauma patients. Clinically, this study has the potential to change how we view and treat periarticular knee injuries. Just as studies examining immediate intramedullary nailing of open tibial fractures ultimately led to a paradigm shift in orthopaedic trauma twenty years ago, this study may be the first step in changing how we manage these periarticular fractures in the future. A focus on closing wounds sooner, obtaining definitive fracture fixation sooner, and limiting the overall number of surgical interventions might improve patient outcomes after these very difficult injuries. Earlier identification of “at risk patients” could also lead to a decision to return to the operating room for manipulation and quadricepsplasty procedures earlier in the patient’s rehabilitation course. Furthermore, the study’s findings will enable orthopaedic surgeons to better counsel patients and their families with regard to expected outcomes. This additional knowledge should help most patients adjust more readily to their “new reality” as they proceed through the long and difficult rehabilitation process after major orthopaedic knee trauma.

Aggressive continuous passive motion exercise does not improve knee range of motion after total knee arthroplasty

The aim of this study was to evaluate the effects of continuous passive motion on the range of motion, postoperative pain and life quality of patients undergoing total knee arthroplasty within six months after the operation. Total knee arthroplasty reduces pain and improves range of motion of the osteoarthritic knee joint. Continuous passive motion increases postoperative movement, but there is some controversy regarding whether aggressive continuous passive motion can improve range of motion or life quality, and whether it induces more pain. A prospective controlled study was conducted in a medical centre in Taiwan from January to December 2006. One hundred and seven patients were recruited. The patients underwent the basic rehabilitation protocols (the control group) or the basic rehabilitation protocols and additional daily use of continuous passive motion for more than six hours per day (the experimental group). The range of motion, modified Short Form-36 (SF-36) and semi-quantitative visual analogue scale were recorded. Results. Range of motion increased from 109° preoperatively to 125° at six months postoperatively in the treatment group and from 111° preoperatively to 125° at six months postoperatively in the control group. Visual analogue scale decreased from 7·78 preoperatively to 0·37 at six months postoperatively in the treatment group and from 7·92 preoperatively to 0·21 at six months postoperatively in the control group. The SF-36 improved from 3·76 preoperatively to 1·77 at six months postoperatively in the treatment group and from 3·68 preoperatively to 1·83 at six months postoperatively in the control group. There was no significant difference in range of motion, visual analogue scale and SF-36 between groups at each visit. With the advances in total knee arthroplasty surgical technique, aggressive continuous passive motion does not provide obvious benefits. Total knee arthroplasty can alleviate pain and improve range of motion, but aggressive continuous passive motion does not provide additional benefits.

Effectiveness of Continuous Passive Motion in an Inpatient Rehabilitation Hospital After Total Knee Replacement: A Matched Cohort Study

To examine the use of continuous passive motion (CPM) as an adjunct to physical therapy after total knee replacement in patients who were transferred to an inpatient rehabilitation facility (IRF) and to compare the effectiveness of CPM on active range of motion (AROM), functional tasks, destination after discharge, the need for home care services, and the ambulation device at discharge. Matched cohort study. IRF. Patients admitted to a rehabilitation setting after total knee replacement surgery with an initial AROM for knee flexion of less than 75° at admission to the IRF. From this initial population, a matched sample of 61 patient pairs was included in the analysis (61 who used the CPM and 61 who did not receive the adjunct therapy). Use of CPM for 2 hours per day as an adjunct to the 3 hours of physical and occupational therapy customary in an IRF. Primary outcomes were discharge active knee flexion ROM and flexion gain. Secondary outcomes were motor, cognitive, and total Functional Independence Measure scores; discharge ambulation device; destination after discharge; and the need for home care services after the inpatient stay. The outcome variables of 61 matched pairs of CPM users and non-CPM users were reported. No statistically significant differences were found in any of the outcome variables that were compared in this matched case design, including AROM knee, flexion gain, discharge to the community, need for home care services after discharge, and discharge with cane/no device. No significant difference was found in all functional scores as measured by the Functional Independence Measure scale. For this population, we determined at one facility that less than 30% are provided with a CPM as an adjunct to physical therapy. Using a matched cohort design, we compared CPM use with non-CPM use and determined that the application of CPM may not significantly influence ROM gain.

Retracted Article: Clinical effectiveness of continuous passive motion (CPM) following femoroacetabular impingement surgery in adolescents

This study hypothesizes that the use of continuous passive motion (CPM) following open femoroacetabular impingement (FAI) surgery in the adolescent population improves clinical outcomes in terms of the modified Harris hip score (mHHS). Twenty-nine symptomatic adolescent FAI patients were postoperatively divided into one of three groups; no CPM, twodays of inpatient CPM, and twoweeks of CPM. mHHS was used preoperatively and postoperatively at sixweeks, threemonths, six months, and ninemonths in all cases. Kruskal-Wallis (KW) analysis was performed to determine statistical differences in mHHS. mHHS was then re-evaluated using the Mann-Whitney test. There were no statistically significant differences in hip scores between the three groups preoperatively (p=0.158). There were statistically significant differences (p<0.001) in mHHS between the three groups at all postoperative time periods. The group that received twoweeks of CPM had the best outcome scores. The results of this study suggest that postoperative CPM use following open hip preservation surgery for symptomatic FAI in adolescents improves clinical outcomes. These benefits seem to be related to the duration of CPM. Retrospective comparative study, Level III. Patients treated one way compared with patients treated another way at the same institution.