One-step reconstruction with a 3D-printed, custom-made prosthesis after total en bloc sacrectomy: a technical note

Recent soft tissue studies have reported issues that occur during experimentation, such as the tissue slipping and rupturing during tensile loads, the lack of standard testing procedure and equipment, the necessity for existing laboratory equipment adaptation, etc. To overcome such issues and fulfil the need for the determination of the biomechanical properties of the human gracilis and the superficial third of the quadriceps tendons, 3D printed clamps with metric thread profile-based geometry were developed. The clamps’ geometry consists of a truncated pyramid pattern, which prevents the tendons from slipping and rupturing. The use of the thread application in the design of the clamp could be used in standard clamping development procedures, unlike in previously custom-made clamps. Fused deposition modeling (FDM) was used as a 3D printing technique, together with polylactic acid (PLA), which was used as a material for clamp printing. The design was confirmed and the experiments were conducted by using porcine and human tendons. The findings justify the usage of 3D printing technology for parts manufacturing in the case of tissue testing and establish independence from the existing machine clamp system, since it was possible to print clamps for each prepared specimen and thus reduce the time for experiment setup.

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Recurrent contracted sockets treated with personalized, three-dimensionally printed conformers and buccal grafts

European Journal of Ophthalmology ◽

10.1177/11206721211000013 ◽

2021 ◽

pp. 112067212110000

Author(s):

Annabel LW Groot ◽

Jelmer S Remmers ◽

Roel JHM Kloos ◽

Peerooz Saeed ◽

Dyonne T Hartong

Keyword(s):

Three Dimensional ◽

Case Series ◽

Secondary Outcome ◽

Retrospective Case ◽

Upper Eyelid ◽

Ocular Prosthesis ◽

Buccal Mucosal Graft ◽

Custom Made ◽

3D Printed

Purpose: Recurrent contracted sockets are complex situations where previous surgeries have failed, disabling the wear of an ocular prosthesis. A combined method of surgery and long-term fixation using custom-made, three-dimensional (3D) printed conformers is evaluated. Methods: Retrospective case series of nine patients with recurrent excessive socket contraction and inability to wear a prosthesis, caused by chemical burns ( n = 3), fireworks ( n = 3), trauma ( n = 2) and enucleation and radiotherapy at childhood due to optic nerve glioma ( n = 1) with three average previous socket surgeries (range 2–6). Treatment consisted of a buccal mucosal graft and personalized 3D-printed conformer designed to be fixated to the periosteum and tarsal plates for minimal 2 months. Primary outcome was the retention of an ocular prosthesis. Secondary outcome was the need for additional surgeries. Results: Outcomes were measured at final follow-up between 7 and 36 months postoperatively (mean 20 months). Eight cases were able to wear an ocular prosthesis after 2 months. Three cases initially treated for only the upper or only the lower fornix needed subsequent surgery for the opposite fornix for functional reasons. Two cases had later surgery for cosmetic improvement of upper eyelid position. Despite pre-existing lid abnormalities (scar, entropion, lash deficiency), cosmetic outcome was judged highly acceptable in six cases because of symmetric contour and volume, and reasonably acceptable in the remaining two. Conclusions: Buccal mucosal transplant fixated with a personalized 3D-designed conformer enables retention of a well-fitted ocular prosthesis in previously failed socket surgeries. Initial treatment of both upper and lower fornices is recommended to avoid subsequent surgeries for functional reasons.

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3D-Printed Connector for Revision Limb Salvage Surgery in Long Bones Previously Using Customized Implants

Metals ◽

10.3390/met11050707 ◽

2021 ◽

Vol 11 (5) ◽

pp. 707

Author(s):

Jong-Woong Park ◽

Hyun-Guy Kang ◽

June-Hyuk Kim ◽

Han-Soo Kim

Keyword(s):

Limb Salvage ◽

Salvage Surgery ◽

Revisional Surgery ◽

Limb Salvage Surgery ◽

Musculoskeletal Tumor ◽

Musculoskeletal Tumor Society ◽

Proximal Ulna ◽

Custom Made ◽

Orthopedic Oncology ◽

3D Printed

In orthopedic oncology, revisional surgery due to mechanical failure or local recurrence is not uncommon following limb salvage surgery using an endoprosthesis. However, due to the lack of clinical experience in limb salvage surgery using 3D-printed custom-made implants, there have been no reports of revision limb salvage surgery using a 3D-printed implant. Herein, we present two cases of representative revision limb salvage surgeries that utilized another 3D-printed custom-made implant while retaining the previous 3D-printed custom-made implant. A 3D-printed connector implant was used to connect the previous 3D-printed implant to the proximal ulna of a 40-year-old man and to the femur of a 69-year-old woman. The connector bodies for the two junctions of the previous implant and the remaining host bone were designed for the most functional position or angle by twisting or tilting. Using the previous 3D-printed implant as a taper, the 3D-printed connector was used to encase the outside of the previous implant. The gap between the previous implant and the new one was subsequently filled with bone cement. For both the upper and lower extremities, the 3D-printed connector showed stable reconstruction and excellent functional outcomes (Musculoskeletal Tumor Society scores of 87% and 100%, respectively) in the short-term follow-up. To retain the previous 3D-printed implant during revision limb salvage surgery, an additional 3D-printed implant may be a feasible surgical option.

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Biomaterial shell bending with 3D-printed templates in vertical and alveolar ridge augmentation: a technical note

Oral Surgery Oral Medicine Oral Pathology and Oral Radiology ◽

10.1016/j.oooo.2016.12.011 ◽

2017 ◽

Vol 123 (6) ◽

pp. 651-660 ◽

Cited By ~ 6

Author(s):

Florian G. Draenert ◽

Florian Gebhart ◽

Gergo Mitov ◽

Andreas Neff

Keyword(s):

Technical Note ◽

Alveolar Ridge ◽

Alveolar Ridge Augmentation ◽

Ridge Augmentation ◽

3D Printed

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Custom-Made 3D-Printed Implants as Novel Approach to Reconstructive Surgery after Oncologic Resection in Pediatric Patients

Journal of Clinical Medicine ◽

10.3390/jcm10051056 ◽

2021 ◽

Vol 10 (5) ◽

pp. 1056

Author(s):

Giovanni Beltrami ◽

Gabriele Ristori ◽

Anna Maria Nucci ◽

Alberto Galeotti ◽

Angela Tamburini ◽

...

Keyword(s):

Pediatric Patients ◽

Soft Tissues ◽

Lower Limbs ◽

Host Bone ◽

Limb Salvage Surgery ◽

Musculoskeletal Tumor ◽

Musculoskeletal Tumor Society ◽

Custom Made ◽

3D Printed

Recently, custom-made 3D-printed prostheses have been introduced for limb salvage surgery in adult patients, but their use has not been described in pediatric patients. A series of 11 pediatric patients (mean age 10.8 years; range 2–13) with skeletal tumors treated with custom-made implants for the reconstruction of bony defects is described. Patients were followed up every 3 months. Functional results were evaluated by the Musculoskeletal Tumor Society Score (MSTS) for upper and lower limbs. The mean follow-up was 25.7 months (range 14–44). Three patients died after a mean of 19.3 months postoperatively—two because of disease progression and the other from a previous malignancy. Three patients experienced complications related to soft tissues. One patient required device removal, debridement, and antibiotic pearls for postoperative infection. Partial osseointegration between grafts and host bone was observed within a mean of 4 months. At the final follow-up, mean MSTS score was 75%. 3D prostheses may yield biological advantages due to possible integration with the host bone and also through the use of vascularized flaps. Further research is warranted.

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3D-Printed Graphene Antennas and Interconnections for Textile RFID Tags: Fabrication and Reliability towards Humidity

International Journal of Antennas and Propagation ◽

10.1155/2017/1386017 ◽

2017 ◽

Vol 2017 ◽

pp. 1-5 ◽

Cited By ~ 6

Author(s):

Han He ◽

Mitra Akbari ◽

Lauri Sydänheimo ◽

Leena Ukkonen ◽

Johanna Virkki

Keyword(s):

Rfid Tags ◽

High Humidity ◽

Direct Write ◽

Uhf Rfid ◽

Printed Antenna ◽

Passive Uhf Rfid ◽

Measurement Results ◽

One Step ◽

3D Printed ◽

Wireless Measurement

We present the possibilities of 3D direct-write dispensing in the fabrication of passive UHF RFID graphene tags on a textile substrate. In our method, the graphene tag antenna is deposited directly on top of the IC strap, in order to simplify the manufacturing process by removing one step, that is, the IC attachment with conductive glue. Our wireless measurement results confirm that graphene RFID tags with printed antenna-IC interconnections achieve peak read ranges of 5.2 meters, which makes them comparable to graphene tags with epoxy-glued ICs. After keeping the tags in high humidity, the read ranges of the tags with epoxy-glued and printed antenna-IC interconnections decrease 0.8 meters and 0.5 meters, respectively. However, after drying, the performance of both types of tags returns back to normal.

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