Capitate shortening osteotomy with or without vascularized bone grafting for the treatment of early stages of Kienböck's disease

Kienböck Disease: Recent Advances in Understanding and Management

➢ An at-risk lunate (due to anatomic factors) subjected to a trigger event (axial load, embolism, hypercoagulability) leads to the development of lunate osteonecrosis.➢ Children, adolescents, and elderly patients with Kienböck disease respond well to nonoperative treatments, and this should be considered before any surgical intervention.➢ For disease limited to the lunate, treatment decisions should be driven by the condition of the cartilage; intact lunate cartilage can be treated with joint leveling or core decompression, whereas disrupted cartilage surfaces should be bypassed with scaphocapitate or scaphotrapeziotrapezoid arthrodesis. Newer surgical procedures such as wrist arthroscopy and the introduction of contrast-enhanced magnetic resonance imaging have expanded the treatment options for these patients.➢ Once disease extends outside of the lunate, reconstruction with proximal row carpectomy or partial or total wrist arthrodesis should be considered on the basis of which articular surfaces are affected.➢ The new unified classification system and treatment are applicable to almost all patients with Kienböck disease.

Radiography versus computed tomography for osseous staging of Kienböck's disease

This retrospective study compared the diagnostic accuracy of conventional radiography (CR) and computed tomography (CT) in classifying Kienböck's disease (KD) according to Lichtman staging. Besides age, cartilage condition and vascularity, bone morphology is important in choosing the most appropriate treatment in KD. In 278 patients, two musculoskeletal radiologists performed a consensus reading of 281 lunate necroses according to the Lichtman classification, based on CR and CT. Stage IIIc was most common in CR (43%) and CT (61%), followed by stage IIIa for CR (25%) and stage IV for CT (15%). In 67%, KD was classified as the same in both modalities. The KD stage had to be upgraded in CT in 34% of cases, notably with stage IIIa progressing to IIIc in 24 out of 69 patients and stage IIIb to IIIc in 23 out of 38 cases. Overall, the Lichtman score was significantly higher on CT. The findings suggest that CT is better than CR in accurately determining the stage of KD stage, indicating a potential shift towards more surgical salvage procedures.Level of evidence: III.

Application of Mirror Image 3D-Printing Technology Bone Cement in Treatment of Stage IIIb Necrosis of the Lunate Bone

BACKGROUND

At present, conventional operations are weak for pain relief and restoring the carpal joint function in the treatment of avascular necrosis of the lunate bone.

CASE REPORT

Mirror image 3-dimensional (3D)-printing technology has rarely been reported for the treatment of lunate bone necrosis, The use of mirror 3D-printed lunar bone replacement and bone cement technology in the treatment of stage IIIb lunar bone necrosis has been rarely reported in previous literature. Personalized customized 3D-printed prostheses have become an effective solution for solving many complex cases, and the flexible application of bone cement technology can also achieve satisfactory clinical results. The authors report 3 patients who underwent mirror printing of lunar bone prostheses based on healthy side lunar bone computed tomography data, 3D printing of lunar bone prostheses replacement through small incisions, and intraoperative selection of alternative bone cement technology based on actual conditions.

CONCLUSION

Mirror image 3D printing relieved the pain and resulted in satisfactory functional recovery for stage IIIb lunate bone necrosis.

A novel means of capitate distraction lengthening for end-stage Kienböck's disease

We present a patient with Kienböck's disease treated with a novel technique of capitate distraction lengthening using two wires in the proximal capitate and two in the ulna.

Kienböck's disease: preventing disease progression in early-stage disease

Currently Kienböck's disease remains an 'unsolved' problem in hand surgery. Different factors have been associated with the avascular necrosis of the lunate. Mechanical, vascular and biological factors, alone or in combination, may have an influence in the aetiopathogenesis and determine the progress of the disease and even the results of the treatment. This is especially relevant in the early stages, in which conservative or surgical treatment may modify the natural history of the disease, maintaining the lunate structure and thus preserving the joint surfaces. There are multiple surgical treatments for Kienböck's disease in the early stages, before lunate collapse; each one is based on one of the possible factors that can cause avascular necrosis of the lunate. The objective is not only to treat symptoms but to prevent progression. This article is a review of the most frequent treatments used in the early stages and a personal view of the authors.Level of evidence: V.

Osteotomies, Core Decompression, and Denervation for the Treatment of Kienböck Disease

Various osteotomies, core decompression, and denervation all have demonstrated favorable outcomes in treatment of Kienböck disease. Given the rarity of this disease, there is a dearth of high-level comparative studies to direct treatment. In this article, the authors review the current literature surrounding these techniques, and provide summary recommendations for the procedure choice.

Vascularized Bone Flaps for the Treatment of Kienböck Disease

Of the many treatments for Kienböck disease, only lunate revascularization procedures provide a direct mechanism for reversing the process of osteonecrosis. Owing to the redundant blood supply of the distal radius and carpus, pedicled flaps are versatile solutions for patients with bone loss but intact cartilage. With the advent of free vascularized flaps, the indications for lunate revascularization procedures are expanding. These flaps can be used when the articular cartilage has been compromised and are suitable options to restore native anatomy in patients previously thought to have unreconstructible disease.

Precision Medicine for Kienböck Disease in the 21st Century

One of the most popular treatment algorithms for Kienböck disease is based on a progression of successive radiographic changes that was developed in the 1970s. Since then, 2 other important classifications systems have been introduced. One is centered on contrasted magnetic resonance imaging findings and the other, articular cartilage degeneration. All 3 systems have been used, in isolation, to recommend specific treatment modalities. To coordinate all available clinical data and to simplify the treatment selection process, we combined the 3 classification systems into 1 unified classification and treatment algorithm. With the added consideration of some recently introduced surgical options and further knowledge of how Kienböck disease affects children and the elderly, we anticipate that this unified classification system will allow for a more precise and individualized treatment plan.

Bone Bricks: The Effect of Architecture and Material Composition on the Mechanical and Biological Performance of Bone Scaffolds

Large bone loss injuries require high-performance scaffolds with an architecture and material composition resembling native bone. However, most bone scaffold studies focus on three-dimensional (3D) structures with simple rectangular or circular geometries and uniform pores, not able to recapitulate the geometric characteristics of the native tissue. This paper addresses this limitation by proposing novel anatomically designed scaffolds (bone bricks) with nonuniform pore dimensions (pore size gradients) designed based on new lay-dawn pattern strategies. The gradient design allows one to tailor the properties of the bricks and together with the incorporation of ceramic materials allows one to obtain structures with high mechanical properties (higher than reported in the literature for the same material composition) and improved biological characteristics.