Treatment with collagenase Clostridium histolyticum (CCH) for Dupuytren's contracture (DC) is currently an accepted and widely used treatment that has already been routinely incorporated into the treatment protocols for this pathology.1 Nonetheless, treatment with CCH poses the same problems and unknowns as conventional treatments in DC: it is a non-curative treatment and the evaluation of its long-term effects by measuring the relapse rate.

The concept of relapse is still today a matter of some debate. Two articles have recently referred to the definition of this concept through a consensus of experts2,3 who establish one year as the minimum period in order to consider the DC to be in relapse, counted from a cut-off point when the treatment result is known and there is a new contracture of more than 20 degrees. In the specific case of treatment with CCH, the CORD studies4,5 and the follow-up studies (CORDLESS)6,7 adapted a number of definitions in order to consider the various aspects of the new treatment, including the concept of non-responding patients and the concept of non-durability for those patients who, despite correct administration of the treatment, did not show the desired progression or could be included in the category of normal progressions.

The aim of our paper is to evaluate our clinical series in patients subjected to treatment with CCH after one year of monitoring in order to review relapse and treatment failures.

Prospective single-centre cohort study. The study period was approximately 6 years and ran from July 7th, 2011, until March 2nd, 2017. All infiltrations with CCH included in the time period were included for consecutive analysis. All patients included in the study signed the corresponding informed consent for both the procedure and also inclusion in the study, which was approved by the Ethics Committee of our hospital and also by the Spanish Medicines and Medical Products Agency (AEMPS) under code JPJ-COL-2015-01.

The inclusion criteria for patients were to have DC with a contracture ≥20 degrees4 at the level of the metacarpophalangeal joints (MCP) or proximal interphalangeal joints (PIP) in one or both hands, with involvement of one or both radii in the hand8 and they must not have any declared allergies to CCH or local anaesthetics. Patients with involvement of the thumb or the distal interphalangeal joints were not included. Patients receiving anti-platelet treatment suspended their medication 7 days prior to treatment. Patients who were taking oral anti-coagulants temporarily changed their treatment to low molecular weight heparins 5 days prior to the injection with CCH. Both the injection and the finger extension procedure were performed according to a protocol described previously.8

All the procedures were carried out by orthopaedic surgeons, both the CCH injections and also the local anaesthetic infiltrations. The volume of the CCH injection was 0.25mL for MCP and 0.20mL for PIP. The total dose administered was 0.58mg of CCH. With combined involvement of MCP and PIP joints, the most affected joint was infiltrated in cases with more than 20° of difference; in the case of less than 20° of difference, we opted for infiltration of the area corresponding to the MCP. The extension procedure was performed between 24 and 48h following injection of the drug after applying an occlusive bandage to the patient. Anaesthetic blocks where applied prior to the moment of the extension at the level of proximal fold of the wrist with the total dose of 10mL of 2% mepivacaine by means of one or 2 punctures for anaesthesia of the median and cubital nerves. The effect of Anastasia was verified by the pinprick test at 2 discriminating points.9

Clinical results were measured by calculating the difference between the maximum passive extension prior to treatment and in the successive check-ups following it. The criterion defined as treatment effectiveness after 30 days of progress was determined using the CORD criteria as the primary endpoint (PEP)4 with a deficit of between 0 and 5° in extension and its maintenance, as measured using a digital goniometer (Baseline Digit®, Fabrication Enterprises Inc., Elmsford, New York, USA). Hyperextension was considered as a value of 0 to avoid confounding factors. A subsequent analysis was performed to evaluating the severity of the contracture, considered against the criteria used in the CORD studies4 (mild MCP≤50 degrees and mild PIP≤40 degrees) and the Tubiana classification criteria10 were used in the corresponding cases.

Patient follow-up took place after one month, one year and 2 years following the procedure; in the event of cutaneous lacerations, patients were monitored by the hospital nursing unit until resolution. The relapse criterion has been established according to the consensus criteria of Kan,3 which establish relapse as more than 20° of contracture in any joint treated one year after treatment, compared to the results obtained 6 weeks after, indicating the presence of contracture individually per joint. Patients with unsatisfactory resolution have been classified according to the criteria of the CORDLESS studies7 (Table 1).

The definitions of the various complications, as well as the moment at which they occurred and how each of the variables was measured, are all given in Table 2. The pain produced by the procedure was assessed using a numerical rating score (NRS); the NRS scale used presents values from 0 (absence of pain) to 10 (worst imaginable pain). Assessments were considered to be absence of pain if the value is 0; mild pain from 1 to 3; moderate pain from 4 to 6; and severe pain >6. Pain was considered to be pathological if the value was ≥4.

Non-participating individuals have been defined as those who meet the study inclusion criteria but are not included in the analysis for two main reasons: loss during the follow-up for different reasons (palliative treatments, not being treated at a reference hospital, foreigners, or persons from other regions or health areas, …) or insufficient follow-up time in order to be included in the study. The minimum follow-up time considered for inclusion in the study was 12 months.

A QuickDASH questionnaire was completed in 34 patients for the assessment of their quality of life before and one year after the procedure. The choice of this questionnaire was determined by the availability of its validated translation into Castilian Spanish.

Clinical data were compiled in an Access® database (Microsoft®, Redmond, Washington, USA). Quantitative data were expressed as the mean plus standard deviation (SD) or as medians and percentiles (25 and 75) for variables depending on whether they had a normal distribution or not. In order to compare quantitative variables, Student's t-test or Wilcoxon's non-parametric test was applied. Dichotomic variables were analysed using the χ2 test, Pearson's test or Fisher's exact test, as appropriate in each case. Trend tests were applied to qualitative variables with more than two categories. Pearson or Spearman's correlation tests were used to correlate variables. For the before-and-after assessment of patients during follow-up, the T-Test for paired samples was used, with samples being paired for follow-up. The statistical analysis was carried out using IBM SPSS Statistics for Windows (Version 19.0. Armonk, NY: IBM Corp®). All the variables were evaluated in advance for the detection of confounding or modifying factors in accordance with the criteria of Maldonado.11

Our results are supported by the pre-existing literature with respect to the treatment of DC with CCH. A better progression is seen in cases considered mild in the classification established for the CORD studies,4,5 and progression is more favourable and has a higher success rate in the MCP joint. High rates of treatment success after 30 days’ progression (90.7%) only indicates the correct administration of the medicine and the subsequent destruction of the DC cord to a greater or lesser extent, but the real efficacy of the treatment must be evaluated over time, measured in the form of relapses.

The series presented here shows a minimum progression over one year, a period considered suitable to assess in order to establish the concept of relapse at the consensus meetings that have established the definition of relapse in DD.2,3 The relapse rate of 24% after one year, with more frequent relapses in serious cases and PIP joints, is in line with the results of some other series such as that of McFarlane et al.,12 with a rate of 20% in patients with a single dose, lower than that of Hansen et al.,13 with a relapse rate of 67% for PIP, and greater than that of Hurst et al.,4 6.7% after a year. The only study published with a five-year progression period is the CORDLESS6 study which assesses the follow-up of patients included in the CORD and JOINT studies; this study stipulated a two-year relapse rate of 20% for patients who had achieved therapeutic success, and was much more marked in PIP treatments. Our relapse rate must be increased by adding the 2 of the 4 who increased contracture after a partial improvement (SEP) (non-durability of the treatment) and also the 3 where the treatment was deemed to be a failure (progression). In total, 23 patients (30.6%) in our series did not maintain an optimal result after 13 months of follow-up. We must also take into account in our series the number of patients in whom joints considered serious were treated (70.7%), PIP joints (34.7%), the fifth finger (54.7%), almost 10% of epileptics, almost 75% of bilateralality, or the so-called Tubiana stage II cases for many of the combined involvements (mean of 75.5 degrees of contracture) that really show a PIP involvement corresponding to a degree III (contracture in excess of 45 degrees). All of these details indicate a worse prognosis in terms of the treatment for this type of joint13,14 or more aggressive forms. The results in the series from Syed et al.15 of selected patients with a single MCP joint presents a much better progression with a 100% success rate after one year and an increase of only one degree in contracture. The results of our series focus on the evaluation of the use of CCH in daily practice and cover patient from the start of the marketing of this drug in Europe. The position of some authors is currently based on the selection of patients for outcome optimization16 by excluding serious PIP or patients with very thick cords. The use of a single treatment dose may also influence our results since, on the basis of previous cost utility studies,17,18 the use of CCH is cost-effective with the use of only one phial per treatment.

One of the problems posed in many series is the evaluation of combined joints. The measurement of outcomes in patients of this kind invariably presents a bias as treatment with CCH is intended for the evaluation of the action of the drug on a single joint (MCP or PIP). Despite this, we have included this type of patient in order to maintain uniformity with respect to published series and have given the values for the joint most involved,19 so this bias may increase. Hayton et al.20 undertook a study comparing the progression of MCP with treatment in single and combined joints and they found that the outcome in the latter case is not as good as in the first.

Although there is no standardised system to evaluate the outcomes in the treatment of DC,21 current quality of life and patient satisfaction scales, known as Patient Reported Outcome Measure (PROM) and Patient Reported Experience Measure (PREM), are fundamental tools in the evaluation of patients with DC. The isolated involvement of the fifth finger with the moderate to severe contracture is not normally as disabling as the comisural involvement at the level of the thumb area, for instance. We must bear in mind the correlation between the passive extension deficit (TPED) and patient satisfaction, i.e. between objective and subjective outcomes, is weak.22 A variety of scales have been used for the assessment of these parameters: Patient Evaluation Measure (PEM),23Michigan Hand Outcomes Questionnaire (MHQ),24,25Southampton Dupuytren's Scoring Scheme (Southampton SDSS),26Unité Rhumatologique des Affections de la Main (URAM)12,15,22,27 … Of all of these, SDSS and URAM have been shown to have good internal consistency.28,29 We have opted to use QuickDASH because we consider it convenient and effective from the outset; nonetheless, we have had to abandon its use for a number of reasons: its lack of validation in DC,30 the evaluation of pain as a cardinal event is not valid for DC31,32 and the lack of objective outcomes in our series (they are no differences in the progression over time although the patient presents a clear objective improvement), although other CDs have shown significant differences in progression.12,15,22 The use of any of the other questionnaires indicated has not been possible because of the lack of validation of the same in Castilian Spanish.

The system put in place for the assessment of adverse effects presents the same problem as combined joints: measurement biases. We also used the initial nomenclature established in the CORD studies and followed in most of the literature, although we do not currently share this standpoint33 for reasons of uniformity. Evidence of this is the recent publication of a systematic review34 reflecting the complications of the various treatments for DC and estimating the complications rate for CCH at 78% whereas for dermofasciectomy, it is only 11.6%. It does not seem logical for more complex surgical techniques to present such a small complications rate with respect to CCH and, in fact, if we analyse only the major complications between the different techniques, the complications rate for treatment with CCH is very similar to that of fasciectomy, without any statistically significant differences presenting between the two techniques.35

With respect to the limitations in our study, we found, on the one hand, a gradual loss of patients during the follow-up, the consequential reduction in the number of patients in the series, the progression time considered as the medium term, and the possible measurement biases cited above, which could be avoided by the unification of criteria by consensuses reached at meetings of experts.

In short, we can conclude that treatment of DC with CCH is an effective medium term treatment with a high success rate and worse progression in the involvement of combined joints, the fifth finger, PIP and severe cases.

Level of evidence III.

The authors declare that they did not have any kind of conflict of interest at the moment the present paper was produced.