Distal radius fracture in diaphyseal-metaphyseal junction is unstable in rotation and is difficult to reduce and sustain due to the interaction among interosseous membrane of forearm, brachioradialis, pronator teres and quadratus. Johari et al.[7] found that distal ridial physis had nothing to do with the angulation deformity in coronal plane almost. Roberts[8] emphasized the influence of radial inclination of distal ridius to function was greater than angulation in sagittal plane. Radius rotates around ulna should be considered as motion of articulation for which rotation of forearm is as significant as extension-flexion. Morrey et al.[9] suggested in 1981 that it needed at least 100° of rotation of forearm to complete most daily works. Today this lower limit of rotation should be improved higher. Other studies suggested it was an indication to operate that interosseous membrane of forearm compressed remarkablely for the restriction of rotation[8, 10]. Asadollahi et al.[11] found it easier to re-displace if the initial angulation of fracture was more than 10° and no anatomical reduction achieved. Higher ratio of re-displacement is refered to closed reduction and cast fixation[12]. If cast index is oversized, this ratio would be greater[13]. The findings above reminded that angulation should be corrected completely in coronal plane and as far as possible in rotation. The residual angulation should be less than 10° in sagittal plane. For these reasons, to achieve more precise reduction became a purpose of operation.
Open reduction and plate fixation was used before ESIN technique was available. This method which is more recommended for children whose skeletal maturity is within one year provides anatomical reduction and rigid fixation[14]. Early functional exercise could be given as long as the incision healed. However, the larger incision sometimes is the only consideration of parents. The strength of pronation may descend for the injury to pronator quadratus and open reduction may be the strongest risk factor of delayed union of forearm fracture in children for its damage to blood supply of broken ends[15]. For these reasons, indirect reduction was acquired with another method antegrade ESIN in our institution.
In this study, adequate motions of flexion-extension and inclination of wrists and rotation of forearms were acquired in all 27 cases. There was no statistically difference seen in the ROM of bilateral wrists. According to Cooney modified Green and O’Brien score, two cases (7%) were evaluated as good for their “grip strength” in involved limbs were less than the healthy. Another reason was the ROM of bilateral wrists were not congruent completely. Considering that their dominant hands were not the same, more evaluating criterion such as score of disability of arm-shoulder-hand would be used for further assessment. Huang et al.[4] reported 48 cases of irreducible distal radius fracture treated with percutaneous joystick having acquired an excellent-rate of 91.7% (44/48) and a good-rate of 8.3% (4/48). Fisher’s exact test was used to compared the difference in functional evaluation between K-wire technique above and this study. No statistical significance was seen in the distributions of excellent or good cases (p = 0.89>0.05).
ESIN is the optimum selection for long bone fractures in children[16]. The advantage of this implant to fix fracture is controlling the fragment far away from the point of implanting nail. For which proximal radius was selected to implant antegrade ESIN. Anatomical study suggested that the distance of supinator entrance of deep radial nerve to lateral epicondyle of humerus was about 1/5 length of the whole forearm (lateral epicondyle of humerus to radial styloid process)[17]. Deep radial nerve went outward obliquely to the back crossing the superficial and deep layers of supinator. So the superior 1/3 point between lateral epicondyle of humerus and radial styloid process was located as implanting plane. 1cm was translated palmarly to utilize the muscular interval and to keep away from deep radial nerve in the muscle belly of supinator. In our experience, ESIN reduces fracture by adjusting its tip and fixes the broken ends by penetrating into the distal segment rather than by support of three points. There is no need to insist on anatomical reduction as cancellous bone is major in metaphysis. Compared with crossed K-wires, antegrade ESIN provides more stable fixation and would not injure the tendon, nerve or vessel but another operation to remove the implant is inevitable.
It is noteworthy that ESIN is merely an effective implant for reduction and fixation which could not instead of manual reduction completely. Large-scale clinical case studies suggested that 93.3% forearm fractures in children could be treated effectively with cast fixations alone[18]. Thus for children younger than six years, we do not advise them to treat with ESIN radically for good outcomes of casts. For children elder than 14 years or overweight than 50kg whose strengths of bones and soft tissues are close to adults and remolding capacities decline, the correction abilities and fixation stabilities of ESIN are inferior relatively. So we do not advocate this technique to be used for them as no deterministic evidence. Opened reduction and plate fixation or hybrid fixation with plate and ESIN should be preferred all the same[19].
In conclusion, antegrade ESIN technique shows great advantage in treating irreducible distal radius fracture in diaphyseal-metaphyseal junction with effective outcomes. This surgical procedure is established basing on the anatomical character of muscular intervals. The site to implant ESIN in proximal radius is a supplement to the minimal invasive operation. The criterion of this approach to implant nail should be studied further.