Patient collective for study
Inclusion criteria were defined as female postmenopausal patients at least 50 years of age who sustained a single distal radius fracture (AO-type A3 or C1-3; see fig. 1a) requiring extrafocal k-wiring and mounting of an external fixateur. Exclusion criteria were malignoma or medical treatment with bisphosphonates or other drugs affecting bone turnover.
The participants were assigned to placebo or verum group following the randomization sequence created by the study biostatistician. All study personnel remained blinded to the subject treatment assignment. Randomized subjects were assigned to receive either estrogen or a corresponding placebo plaster. Estrogen was applied via a transdermal plaster containing 4 mg estradiol (Estramon® Uno 50, Hexal AG, 83607 Holzkirchen, Germany). Four plasters were handed over to the patient. Each plaster was applied for one week (this corresponds to a daily dose of 0,571 mg) resulting in a total treatment time of four weeks. The proper application was demonstrated to the patient when the first plaster was set. The patients of the control group received the corresponding placebo plaster which could not be distinguished from the estradiol plasters.
Before surgical treatment of the fracture, and four weeks later, blood samples were collected and estrogen levels were measured. After taking the first blood sample, the patients both groups received daily 1,000 mg calcium and 880 IU vitamin D (25-[OH]-vitamin D) over a period of six weeks to avoid any influence of a lack of calcium or vitamin D. The calcium, parathyroid hormone (PTH), vitamin D and alkaline phosphatase serum levels were analyzed before surgical treatment and six weeks postoperatively. The calcium, parathyroid hormone (PTH) and vitamin D values in the serum of patients of both groups have already been published in a study by Kolb et al. (2013) [16].
The present study was approved by the ethics committee of the University Medical Center Hamburg-Eppendorf (approval number: AZ 2252).
Surgical intervention
Within an interval of 48 h after trauma, patients were surgically treated by k-wiring (two 1.6 mm titanium k-wires) and mounting of an external fixateur (HoffmannTM Fixateur, Stryker Howmedica, Mahwah, NJ, USA). According to our standard clinical care, X-ray controls in anterior–posterior and lateral projections were acquired prior surgery, postoperatively and after two and six weeks (see fig. 1b and c). The X-ray controls only served to verify the correct implant position and not for tracking any kind of callus index. The external fixateur and the k-wires were removed six weeks after the surgery.
pQCT Measurements
pQCT allows the differentiation between cortical and trabecular bone. Because of the larger area, the trabecular bone reacts faster to changes in bone metabolism than the cortical bone. Bone loss or the success of a therapy can therefore be demonstrated at an earlier stage and with greater significance with pQCT than with methods that cannot distinguish between cortex and cancellous bone [15]. We applied therefore the pQCT technology to score the success of the post-surgical treatment with transdermally applied estrogen.
pQCT scans, (XCT-2000; Stratec Medizintechnik, Pforzheim, Germany) of the fractured and contralateral non-fractured distal radius were performed within defined intervals: postoperatively, after two and four weeks as well as after removal of the external fixateur and k-wires after six weeks. The device was calibrated using a standard phantom and a cone phantom provided by the manufacturer. The settings selected for the pQCT analysis were adopted according to the manufacturer's recommendations as previously described [16-20].
The forearm length was defined as the distance between the ulna styloid process and olecranon. Measurements were taken while forearm was supinated and elbow flexed at 90 degrees. A 2-mm-thick single tomographic slice with pixel size 0.59 x 0.59 mm was taken directly in the fracture plane of the distal radius using the standard mode (see fig. 1d). Image processing and calculation were performed using the manufacturers software package CXCT550 (version 5.50D). The bone mineral density (BMD) was defined as mean density of the total cross section.
The k-wires which were used to position and fix the bone fracture after surgery interfered with the pQCT measurements. Control measurements at the -4% position from the fractured site could also not been taken into account, since the fractures of the patients were at variable positions of the radius, and thus the -4% sites were at different positions dependent on the fractured site. Thus, the k-wire fixatives precluded a reliable quantitative analysis during the initial and early bone healing process. pQCT measurements at the fractured site and at the -4% control position were therefore first examined six weeks post-surgery and after the k-wires were removed and analyzed together with the corresponding X-ray images.
Determination of Calculated Bone Density (CALCBD)
Based on the protocol of the manufacturer, the calculated bone density (CALCBD), which determines the total and cancellous bone density was acquired in three steps:
- A region of interest (ROI) was defined, which was the region tight to the outer contour of the radius and was individually determined by us on the device.
- Within this ROI, based on a soft tissue threshold (280 mg/cm³), each pixel outside the bone window was defined and removed. This left the bone part of the ROI from which the total area and the total density (CALCBD) was derived.
- The total area was concentrically divided in the outer 55%, which was defined as the cortical and subcortical area, and the inner 45%, defined as trabecular area.
The total CALCBD levels were determined at different times and at different sites of the arm. These sites were (i) the fractured site which was determined on the basis of the X-ray images, (ii) a position which is 4% of the bone length of the radius above the fracture gap (-4% level) and (iii) the corresponding position of the non-fractured healthy arm. Measurements were taken from estrogen treated and placebo treated control patients. The -4% position of the fractured arm were only taken into account six weeks after the surgery and after both k-wires and fixative, since they interfere with measurements. The measurements on the healthy side were performed directly postoperatively (zero weeks) and after six weeks.
Determination of Cortical Bone Density (CORTBD)
The cortical bone density (CORTBD) is a measure of cortical bone structure in the diaphysis. For its determination, all pixels within the ROI with a lower density than the threshold (here 710 mg/cm³) were removed. From the remaining pixels, the cortical area and cortical mineral density were computed.
Examination of the serum levels of diagnostic molecules
Bone-specific alkaline phosphatase activity (U/l) in the blood samples of patients was measured immediately after the surgery and six weeks later (see fig. 2a), at the Central Laboratory of the University Medical Center Hamburg-Eppendorf as described before [21]. Calcium (mmol/l), parathyroid hormone (PTH) (ng/ml) and vitamin D (µg/l) serum levels were analyzed before surgical treatment and six weeks postoperatively [21].
Statistics
Statistical analysis was performed using a student’s t-test for age comparison and for the data comparing estrogen-treated and placebo patients. Dependent on the outcome variable, either linear regression or mixed-effects models were used to analyze the effect of the different independent variables. The significance level was set to alpha = 5% for all statistical tests. All analyses were performed with the statistics software R (version 3.4.0, www.r-project.org) using the R-package lme4 for the mixed-effects models.