Anthropometric variations in humans make it difficult to replace a temporomandibular joint (TMJ), successfully using a standard “one-size-fits-all” prosthesis. The case report presents a unique concept of total TMJ replacement with customized and modified TMJ prosthesis, which is cost-effective and provides the best fit for the patient. The process involved in designing and modifications over the existing prosthesis are also described. A 12-year- old female who presented for treatment of left unilateral TMJ ankylosis underwent the surgery for total TMJ replacement. A three-dimensional computed tomography (CT) scan suggested features of bony ankylosis of left TMJ. CT images were converted to a sterolithographic model using CAD software and a rapid prototyping machine. A process of rapid manufacturing was then used to manufacture the customized prosthesis. Postoperative recovery was uneventful, with an improvement in mouth opening of 3.5 cm and painless jaw movements. Three years postsurgery, the patient is pain-free, has a mouth opening of about 4.0 cm and enjoys a normal diet. The postoperative radiographs concur with the excellent clinical results. The use of CAD/CAM technique to design the custom-made prosthesis, using orthopaedically proven structural materials, significantly improves the predictability and success rates of TMJ replacement surgery.
Purpose -The purpose of this paper was to find a successful treatment modality for patients suffering from temporomandibular joint (TMJ) ankylosis who could not be treated through traditional surgeries. Design/methodology/approach -This work integrated the unique capabilities of the imaging technique, the rapid prototyping (RP) technology and the advanced manufacturing technique to develop the customised TMJ implant. The patient specific TMJ implant was fabricated using the computed tomography scanned data and the fused deposition modeling of RP for the TMJ surgery.Findings -This approach showed good results in fabrication of the TMJ implant. Postoperatively, the patient experienced normalcy in the jaw movements. Practical implications -Advanced technologies helped to fabricate the customised TMJ implant. The advantage of this approach is that the physical RP model assisted in designing the final metallic implant. It also helped in the surgical planning and the rehearsals. Originality/value -This case report illustrates the benefits of imaging/computer-aided design/computer-aided manufacturing/RP to develop the customised implant and serve those patients who could not be treated in the traditional way.
The approach utilised will be helpful in providing successful treatment to the deformed mandible and the mandible joints. This method allows to customise and to accurately fabricatie the implant. Advantages of this approach are that the physical model of the implant was tested for stability before the implantation, the surgeon can plan and rehearse the surgery in advance, it is a less invasive and less time-consuming surgical procedure.
Introduction
The reconstruction of the hand and forearm targets the restoration of their function and aesthetic appearance. Inferiorly based abdominal flaps are reliable and versatile flaps that can cover large defects of the forearm and hand. Here we present a modified abdominal flap design based exclusively on the superficial inferior epigastric artery (SIEA) to reconstruct the hand and forearm's extensive defects. The donor site is closed primarily.
Methods
This is a retrospective study of the patients who underwent reconstruction of hand and forearm defects with SIEA flap from 2006 to 2018. The flap was designed on the ipsilateral hemiabdomen with a narrow pedicle based on the SIEA. We describe the anatomical basis and the outcomes of SIEA flap for reconstruction of the hand and forearm's extensive defects.
Results
Forty-eight soft tissue defects of the hand and forearm were reconstructed with the SIEA-based abdominal flap. Twenty-nine (60.41%) dorsal defects, 4 (8.33%) volar defects, 4 (8.33%) circumferential defects, 6 (12.5%) hand amputation stump, and 5 (10.41%) finger and thumb defects were covered using the SIEA flap. Forty-seven (97.91%) flaps had complete survival, whereas 1 (2.08%) flap had distal necrosis at the time of division. One (2.08%) flap had marginal necrosis, and 1 (2.08%) flap had distal necrosis after the division. The donor site was closed primarily in all patients. One (2.08%) patient had wound dehiscence at the abdominal donor site. All flaps gave excellent coverage with a satisfactory contour.
Conclusion
Abdominal flap based on SIEA is a safe, reliable, and versatile flap for the reconstruction of extensive soft-tissue defects of the hand and forearm. An ability to provide a large amount of skin and soft tissue and the abdominal donor site's primary closure make it a favorable option for upper limb reconstruction in regions with limited resources and technical expertise.
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