Comparison of a fast track protocol and standard care after hip arthroplasty in the reduction of the length of stay and the early weight-bearing resumption: study protocol for a randomized controlled trial

The main purpose of the controlled intervention trial is to evaluate if the application of a fast track protocol, compared to the standard clinical practice, can allow early functional recovery after hip replacement surgery. In detail, the objectives of this intervention are as follows: (a) improving the clinical-functional outcome of the hip surgical intervention, (b) minimizing the impact of the procedure on the patient’s quality of life, and (c) reducing the economic-social costs that the standard clinical treatment path involves.

Outcomes will be collected at different time points during a total of 12 months, and the primary endpoint is at 3 days after a hip surgery.

An overview of the study is reported in Table 1, Fig. 1, and the SPIRIT chart (Fig. 2). This intervention trial is an open-label controlled randomized trial of arthroplasty for primary osteoarthritis of the hip designed to include at least 90 patients, 45 for each treatment arm.

The study population consists of patients affected by primary hip arthrosis with the indication for hip arthroplasty performing by anterior approach. Recruited patients are randomly assigned to the fast track (FT) or standard care (SC) group. In case of admission to the study, an informed consent form must be signed by the participant before participating in one of the two procedures provided in the intervention.

The course of the study is explained to each potential participant during the pre-admission visit (t₀), planned and coordinated by an experienced medical team. Each patient is subjected to blood tests for the evaluation of hemochrome and indices of nonspecific phlogosis and x-rays of the pelvis and affected hip. A specific patient teaching is scheduled only for patients assigned to the FT group, as exhaustively reported in the “Interventions” section.

Both groups are subjected to a minimally invasive surgery performed with erythropoiesis and bleeding control (t₁), whereas only FT patients are asked to follow a short-term antalgic therapy and a 3-day intensive rehabilitation protocol that begins about 4 h after surgical intervention.

In order to reduce bias between groups related to the problem of different skill levels of surgeons, surgical interventions in FT and SC patients are performed by the same expert surgeon of the Reconstructive Orthopaedic Surgery and Innovative Techniques Unit. Besides, regarding hip prostheses, in this study protocol it is planned to use the same models of short uncemented stems, hemispherical acetabular cups, and ceramic-ceramic coupling for both treatment arms, with the aim of avoiding postoperative differences related to the features of the devices. However, during surgical interventions, it may happen that some patients need a standard stem. Thus, information regarding the use of different stems is collected on the CRF and considered during pain management and data analysis, although recent meta-analyses of randomized clinical trials show that both types of stems achieve similar radiological and clinical outcomes [25, 26].

On the day of surgery (t₁) and in the following days of hospitalization, patients are asked to rate their pain by NRS. Pain scores are collected on CRF, and a NRS ≤ 3 is defined as the value for considering patients fit for discharge.

Three days after surgical intervention (t₄), the Iowa Level of Assistance Scale (ILOA), a valid and reliable measure for patients following THR, as reported in several studies [27‐30], is collected to measure the early functional autonomy of patients—i.e., primary outcome. Among the indication for THR, there are particularly pain and impaired physical function, which are the two dominating domains in HHS [31, 32]. On the other hand, the WOMAC index, being a self-administered questionnaire validated for osteoarthritis in the lower extremities, is usually used as a disease-specific instrument to assess the quality of life for patients with THR [33, 34]. Therefore, in this study protocol, the data from HHS and WOMAC are collected during allocation to reach baseline parameters (t₀) for each participant. These scores are also collected by outpatient appointments during follow-up fixed at 6 weeks and 3, 6, and 12 months (t₇, t₈, t₉, and t₁₀, respectively) to assess the improvements of patient health status (secondary outcomes). All data are collected by medical outcome assessors not involved in surgical interventions.

Compared to the use of questionnaires drafted via telephone or mail, in our experience, outpatient appointments favor more continued participation from the outset. In addition, in order to promote patient retention to the study, some strategies such as creating a welcoming environment, establishing an efficient tracking system of patients, and educating participants about their role as research participants are used. The request for further rehabilitation after discharge in the two groups will also be monitored. As reported in the informed consent, each participant has the right to withdraw from any aspect of the trial at any time. Nevertheless, patients will continue to receive the appropriate therapeutic treatment to address their primary hip osteoarthritis in case of withdrawal.

The study is conducted following the ISO 14155:2011 and Good Clinical Practice (GCP) for the design, conduct, recording, and reporting of clinical investigations carried out in human subjects.

Patients referred for this trial are screened for eligibility according to the principle of inclusion and exclusion criteria, as reported in Table 2. The study population consists of patients with primary osteoarthritis of the hip with the indication of anterior hip arthroplasty. As reported by Pulido et al. [35], although total joint arthroplasty is a safe surgical procedure, it may be associated with rare serious and life-threatening complications. In particular, advanced age and severe comorbidities are identified as significant risk factors, which also caused a considerable variation in the LOS with reported stays of 5–11 days [3, 36].

Therefore, although an unselected population provides a more useful assessment of effectiveness, a homogeneous study population makes the evaluation of efficacy more straightforward, especially for a small sample size population. Consequently, the majority of THR studies have employed a selected population with restrictions on age, BMI, and the severity of comorbidities [37].

According to these studies, patients older than 70 years with a BMI greater than 32 are here excluded. Besides, the American Society of Anesthesiologists (ASA) physical health status classification [38] is used as inclusion/exclusion criteria. Specifically, patients with some functional limitation due to diseases, such as diabetes, chronic renal failure, heart and respiratory diseases, and implanted pacemaker, are excluded (ASA ≥ 3). In addition, while poor preoperative status determined by the ASA scores are recognized as risk factors for short-term complications after THA and TKA [39, 40], the risk contributed by rheumatoid arthritis (RA) has not been as well defined [41]. Therefore, as reported in Table 2, each stage RA patient is excluded.

In the Emilia Romagna region (Italy), the last Regional Register of Orthopaedic Prosthetic Implantology (RIPO) report [42], referred to 2017, shows that about 53% of patients who underwent primary THR is younger than 70 years.

For this protocol study, also considering BMI < 32 and ASA ≤ 2 as inclusion criteria, a 10% reduction of eligible patient number is expected.

Patients are recruited at the time of clinical-instrumental assessment as required by the usual clinical practice during the 4–6 weeks before admission.

After the patients’ consent to inclusion in the trial, they are screened at the Reconstructive Orthopaedic Surgery and Innovative Techniques Unit of the IRCCS Istituto Ortopedico Rizzoli (Bologna, Italy), and baseline medical history, including general medical history, is recorded. In detail, a baseline measure of WOMAC and HHS scores is collected with an interview about quality of life and medication usage. The baseline assessment is collected on the day of the pre-admission visit (t₀). The absence of functional autonomy of the patient—i.e., the preoperative use of crutches—is considered as an exclusion criterion.

The sample size was calculated based on the primary outcome—i.e., score changes in the ILOA scale collected at the third postoperative day. Specifically, considering a standard deviation of the ILOA scale of ± 6.9, a difference of seven points deemed clinically significant [20, 29], and a power of 90% with a significance level of 0.05, the minimum number of patients to be enrolled is estimated at 40 per arm (1:1 ratio) [43]. Presuming a 10% drop-out rate, following potential rare severe complications during surgery, it is necessary to enroll 90 patients, 45 per arm.

The subjects are randomized to either the SC group or the FT group by the ER software [44] using the permuted blocks method [45] to randomly allocate the participants to each group in order to avoid imbalance in the number of participant assignment. Randomization, 1:1 ratio for each treatment arm, is performed centrally at the IRCCS Istituto Ortopedico Rizzoli by a colleague who is not involved in subject enrolment and is blinded to the participants, investigators/health care providers, or persons assessing outcomes. The randomization list is inserted in envelopes sequentially numbered and sealed; the investigator opens the envelopes in sequence on the day of enrolment.

A modified intention-to-treat (mITT) analysis is used to handle data of patients. Specifically, every subject who is randomized to each treatment group, excepted for patients with severe intraoperative complications, ignoring withdrawal, and anything that happens after surgery, is accounted for in the interpretation of results.

Patients are monitored at third postoperative day, at discharge, and during follow-up fixed at 6 weeks and 3, 6, and 12 months (according to standard clinical practice).

ILOA, NRS, WOMAC and HHS scores, LOS, the number of postoperative blood transfusions, the need for rescue doses during analgesic therapy and AEs are assessed to compare the two treatment arms. Outcome assessors and analysts are blinded.

Analyses are performed using GraphPad Prism ver. 6. For the values for which the mean and standard deviation is determined, a 95% confidence coefficient (CI 95%) is also determined, indicating a range of values with a 95% confidence level of a similar group mean. The ILOA difference between groups is calculated using the chi-square criterion method or Fisher’s direct test. A significant difference between groups is considered for P < 0.05. In addition, for the evaluation of secondary outcomes (i.e., scores for the NRS, WOMAC, HHS, LOS, the number of blood transfusion and rescue doses, AEs), a comparison between groups will be performed using the Student t-test if the data will be normally distributed. If not, the Mann-Whitney U test will be used to compare groups at each measurement time. Differences between groups are considered significant for P < 0.05. In case of data collected by primary and secondary outcome measurements will be affected by covariates (e.g., age, gender, BMI, ASA, short/standard stem, or the number of blood transfusions), a post hoc regression analysis will be performed to reduce any bias in the estimation of treatment effect which may occur by a potential random imbalance between groups [46].

Personal identity and all personal medical information of the patients are confidential. Each participant is assigned a unique ID number. The study participants’ consent is obtained before the trial.