Comparative study between 3D guide plate assisted and free-hand insertion of anterior cervical transpedicular screw / 中国骨伤

OBJECTIVE@#To compare accuracy of anterior cervical pedicle screws between assist of rapid prototyping 3D guide plate and free-hand insertion, and evaluate the safety of two methods.@*METHODS@#Eight adult cervical cadaver specimens after formaldehyde immersion, including 4 males and 4 females, aged 32 to 65(40.3±5.6) years old. After X-ray examination to exclude bone damage and deformity, 4 of them (3D guide plate group) randomly selected were for CT scan to obtain DICOM format data, and the data was imported into Mimics software for model, designed the ideal entry point and nail path for anterior cervicaltranspedicular screw (ATPS). After obtaining the personalized guide plate of the nail channel, it was exported as STL data, and the individual guide plate was printed by rapid prototyping and 3D printing technology. In turn, with the assistance of 3D guide plates, one-to-one personalized ATPS screws were placed on the four lower cervical cadaver specimens. Another 4 (free-hand group) lower cervical cadaver specimens were implanted with ATPS screws using free-hand technique. All specimens were performed CT thin-layer scanning and three-dimensional reconstruction after operation. The Tomasino method was used to evaluate the safety of the screws on the CT cross-sectional and sagittal images, to determine whether there was a cortical puncture of the lower and inner edges of the pedicle. According to the CT rating results, gradeⅠandⅡwere safe, and grade Ⅲ- Ⅴ were dangerous.And the accuracy of screws was recorded and analyzed between two groups.@*RESULTS@#Two screws were inserted in each segment from C@*CONCLUSION@#The 3D printing rapid prototyping guide plate assisted insertion of the anterior cervical pedicle screw can significantly improve the accuracy and safety, and provide a theoretical basis for further clinical application.

3D printing of canine hip dysplasia: anatomic models and radiographs / Impressão 3D da displasia coxofemoral canina: modelos anatômicos e radiografias

Canine Hip Dysplasia (CHD) is a highly prevalent articular pathological condition. In this sense, radiography becomes an important diagnostic method to determine the presence and severity of the disease. The objective was to create 3D models and their respective radiographs representing the CHD (3D AMCHD). The research was carried out in the Laboratory of 3D Educational Technologies of UFAC, under no. 23107.007273/2017-49 (CEUA/UFAC). A canine skeleton (hip bone, femurs and patellae) was used without anatomical deformities compatible with DCF (pelvis, femurs and patella), which were scanned in order to obtain the files of the base model. In these files the deformations representing the different degrees of CHD were performed. Subsequently, the 3D AMCHD files were printed, mounted and X-rayed. The 3D AMCHD represented the bone deformations of the different degrees of CHD. In the radiographs of the 3D AMCHD it was possible to observe and determine each of the bones that constituted the hip joints. This allowed to reproduce the correct positioning to represent the CHD diagnosis and establish the precise points to determine the Norberg angle. In this way, it was evidenced that the 3D AMCHD can be a possible tool to be used in the Teaching of Veterinary Medicine.(AU)

A displasia coxofemoral canina (DCF) é uma condição patológica articular de grande prevalência. Nesse sentido, a radiografia torna-se um método de diagnóstico importante para determinar a presença e a gravidade da doença. O objetivo do presente trabalho foi criar modelos 3D e suas respectivas radiografias representando a DCF (MADCF 3D). A pesquisa foi realizada no Laboratório de Tecnologias Educacionais 3D da UFAC, sob o nº. 23107.007273/2017-49 (Ceua/Ufac). Foram utilizados esqueletos caninos (pelve, fêmures e patelas) sem deformidades anatômicas compatíveis com a DCF, os quais foram digitalizados a fim de se obterem os arquivos do modelo base. Nesses arquivos foram realizadas as deformações que representavam os diferentes graus da DCF. Posteriormente, os arquivos dos MADCF 3D foram impressos, montados e radiografados. Os MADCF 3D representaram as deformações ósseas dos diferentes graus da DCF. Nas radiografias dos MADCF 3D, foi possível observar e determinar cada um dos ossos que constituíam as articulações coxofemorais. Isso permitiu reproduzir o posicionamento correto para representação do diagnóstico DCF e estabelecer os pontos precisos para determinar o ângulo de Norberg. Dessa forma, evidenciou-se que os MADCF 3D podem ser uma possível ferramenta a ser empregada no ensino de medicina veterinária.(AU)

3D printing as a diagnostic tool for congenital malformation in a brachycephalic dog / Impressão 3D como ferramenta de diagnóstico para malformação congênita em cão braquicefálico

ABSTRACT: Congenital anomalies are hereditary or acquired, and their location and intensity are determining factors for the survival of animals. Some cases are rare, often unidentified, poorly reported and of unknown etiology. This paper reports a congenital malformation in a French bulldog, demonstrating the importance of accurate diagnosis for surgical decisions. The use of new technologies such as computed tomography and rapid prototyping enables the analysis of morphofunctional changes, resulting in excellent results for clinical cases in which it is difficult to identify and scale the anatomical deformities. Through this feature, it is possible to accurately recreate anatomical structures of interest, enabling greater assertiveness in deciding the treatment to be established, whether surgical or not. Castration of animals that survive this condition due to hereditary etiology is recommended.

RESUMO: Anomalias congênitas possuem caráter hereditário ou adquirido, sendo que sua localização e intensidade são fatores determinantes para a sobrevivência do animal. Algumas são raras, muitas vezes não identificadas, pouco relatadas e com etiologia desconhecida. O presente trabalho registra um caso de malformação congênita em um bulldog francês, demonstrando a importância do diagnóstico preciso para a decisão cirúrgica. A utilização de novas tecnologias como tomografia computadorizada e prototipagem rápida possibilitam a análise de alterações morfofuncionais, tendo ótimo resultado para casos clínicos em que há dificuldade em identificar e dimensionar deformidades anatômicas. Através desse recurso é possível recriar com precisão estruturas anatômicas de interesse, possibilitando maior assertiva na decisão do tratamento a ser estabelecido, sendo ele cirúrgico ou não. É recomendada a castração dos animais que sobreviveram a essa condição, devido a etiologia hereditária.

Application and progress of three-dimensional printing technology in hip arthroplasty / 中国组织工程研究

BACKGROUND: Three-dimensional (3D) printing technology is a new rapid prototyping technology, which has been initially applied in orthopedics, especially in the clinical application of hip replacement surgery. OBJECTIVE: To summarize the application status, existing problems and future development direction of 3D printing technology in hip arthroplasty. METHODS: The relevant articles published between January 2000 and March 2019 were retrieved from PubMed, CNKI and WanFang databases. The keywords were "3D printing, rapid prototyping, additive manufacturing, computer aided, computer-assisted, hip, hip replacement, hip arthroplasty, revision hip arthroplasty" in English and Chinese, respectively. Initially, 1 833 articles were retrieved, and finally 105 eligible articles were included for result analysis in accordance with the inclusion and exclusion criteria. RESULTS AND CONCLUSION: (1) In the clinical application of hip replacement surgery, 3D printing technology Is mainly used to make anatomical models for clinical teaching or preoperative plan, patient-specific surgical guides, customized implants or prostheses. (2) The advantages of 3D printing technology can make up for the deficiency of traditional treatment, and it can help to optimize the surgical plan, shorten the operation time, decrease the bleeding, reduce postoperative complications, improve the accuracy of surgery and clinical results. (3) Individualized treatment with 3D printing technology will become a new direction in hip arthroplasty.

Otobone ®: Three-dimensional printed Temporal Bone Biomodel for Simulation of Surgical Procedures

Introduction: The anatomy of the temporal bone is complex due to the large number of structures and functions grouped in this small bone space, which do not exist in any other region in the human body. With the difficulty of obtaining anatomical parts and the increasing number of ear, nose and throat (ENT) doctors, there was a need to create alternatives as real as possible for training otologic surgeons. Objective: Developing a technique to produce temporal bone models that allow them to maintain the external and internal anatomical features faithful to the natural bone. Methods: For this study, we used a computed tomography (CT) scan of the temporal bones of a 30-year-old male patient, with no structural morphological changes or any other pathology detected in the examination, which was later sent to a 3D printer in order to produce a temporal bone biomodel. Results: After dissection, the lead author evaluated the plasticity of the part and its similarity in drilling a natural bone as grade "4" on a scale of 0 to 5, in which 5 is the closest to the natural bone and 0 the farthest from the natural bone. All structures proposed in the method were found with the proposed color. Conclusion: It is concluded that it is feasible to use biomodels in surgical training of specialist doctors. After dissection of the bone biomodel, it was possible to find the anatomical structures proposed, and to reproduce the surgical approaches most used in surgical practice and training implants (AU)

Rehabilitation of a Patient of Traumatic Anotia using Computer Aided Designing and Rapid Prototyping

Introduction: Absence of external auricle predisposes anindividual to a great deal of psychological trauma alongwith functional complications. The conventional methodsof fabrication of auricular prosthesis by duplicating themorphology of the normal contralateral ear are timeconsuming, error-prone and very much subjective in terms ofquality.Case report: The present case report describes rehabilitationof a patient of traumatic anotia of left side with a custommade adhesive retained silicone prosthesis, developed withthe help of computer aided designing and rapid prototypingtechnology.Conclusion: Consistent good quality prosthesis may beobtained using advanced digital technologies that includeoptical scanning, computer-aided designing (CAD) and rapidprototyping (RP) which are more objective in nature.

Prosthetic Rehabilitation of an Orbital Defect Using Computer Aided Designing and Rapid Prototyping

Introduction: The conventional methods of fabrication oforbital prosthesis by facial moulage fabrication and handsculpting are time consuming, error-prone and very muchsubjective in terms of quality. Prosthesis development usingcontemporary technologies like computer aided designing andrapid prototyping is simple, cost effective and also improvesproductivity ensuring enhancement of the technical quality ofcare.Case report: The present case report describes rehabilitationof a patient of left anophthalmic residual defect with a custommade silicone orbital prosthesis retained with spectacle,developed with the help of computer aided designing andrapid prototyping technology.Conclusion: Consistent good quality prosthesis may beobtained using advanced digital technologies that includeoptical scanning, computer-aided designing and rapidprototyping which are more objective in nature.

Application of digital technology in diagnosis and treatment of dentofacial deformities / 口腔疾病防治

@#Dento-maxillofacial deformity refers to an abnormal relationship of the volume or shape of the upper and lower jaw bones with the other bones of the craniofacial area. Its correction mainly involves hard tissues, such as the jaws and teeth. In recent years, digital techniques based on virtual surgery, real-time navigation, and 3D printing have developed rapidly in the area of craniomaxillofacial surgery. Digital technology has advantages for preoperative diagnosis, surgical plan formulation, surgical simulation, intraoperative navigation, effect prediction, doctor-patient communication, and young physician training. The Department of Orthognathic and TMJ Surgery of West China Hospital of Stomatology, Sichuan University, has conducted digitized diagnosis and treatment of dento-facial deformities since 2008 and has established a digital center for the treatment of dentofacial deformities based on equipment such as spiral CT, dental arch laser scanners, facial 3D cameras, virtual surgery software, 3D printers, and sleep-breathing monitoring. The result is a diagnostic and treatment protocol for dentofacial deformity specific to the characteristics of the population of West China. This article combines the latest domestic and foreign literature and comprehensively introduces the application of digital technology for the diagnosis and treatment of dental and maxillofacial deformities.

The innovative application of digitally designed appliance for preoperative cleft lip and palate / 中华整形外科杂志

Objective@#The study presents a new method to prefabricate the nasoalveolar molding appliances for preoperative cleft lip and palate by using three-dimensional technology.@*Methods@#A long term retrospective study of 40 cases of infants with unilateral cleft lip and palate who underwent the preoperative 3D models of alveolar bone acquisition, computer aided design for the rapid prototyping process, gypsum powder printing maxillary three-dimensional entity model and install the appliance for 3-4 months (or alveolar cleft<2 mm). Simultaneously, primary rhinoplasty can be done during cleft lip repair. All patients had clinic visits three times each month.@*Results@#Deformities of infants who underwent this treatment, were significantly improved. The alveolar cleft was significantly reduced (P<0.01), while bilateral alveolar tissue volume was significantly increased (P<0.01). Alveolar bone morphology was more symmetrical than before.@*Conclusions@#The digital design and manufacture system of appliances for preoperative cleft lip and palate can be successfully applied to the preoperative orthodontic treatment. The sequence treatment of cleft lip and palate becomes better improved. It can shorten the time duration and the numbers of clinic visit on the basis of ensuring the accuracy of preoperative orthodontic effect.

Establishment of electron beam computed tomography and rapid prototyping techniques for a cranial bone defect model in goat / 中华医学美学美容杂志

Objective To establish a cranial bone defect model of goat and to study application in craniomaxillo-facial surgery.Methods Electron beam computed tomography (EBCT) scanner was used to scan goat'heads and faces in series and thin layers.Data of EBCT were input in workstation from digital inlet,and then to three-dimensional reconstruction with method of surface shadow.After final data were transformed to the files,the rapid prototyping machine was able to identify and establish the 3D model.Results The EBCT continuous thin-layer (1 mm) scanning data were passed to wave filter,falling coarse,distinguishing and collecting the outline,3D-reconstruction,curved surface reconstruction with CAD and the substance reconstruction.The final data were input into the laser rapid prototyping machine.Three-dimensional bionic cranium models were fabricated by machine in layer by layer manufacturing principle.Conclusions Establishment of the cranial bone defect model in the goat is very useful to the three-dimensional measurement,individualized reconstruction and basic and clinical research for the cranial bone defect.

Computer-aided modification of Reverdin osteotomy template for hallux valgus / 中华创伤骨科杂志

Objective To provide a method to modify accurately the Reverdin osteotomy template for hallux valgus using 3D reconstruction and printing.Methods From June 2015 to June 2016,11 patients (16 feet) with hallux valgus at our departments underwent weight-bearing X-ray examination and continuous spiral CT scanning of the feet.The outer turning angle of hallux averaged 33.50° ± 6.80°,the first intermetatarsal angle 12.20°± 2.90° and the distal metatarsal articular angle 15.20°± 2.60°.Their imaging Dicom data were imported into Materialise Mimics Innovation Suite v16.0 software for generation of 3D models of the pelvis which were then stored in stereolithography format and imported into Imageware 12 software.After optimal templates were reversely rebuilt to have the best angles and range for Reverdin osteotomy in the 3D models,they were manufactured by a rapid prototyping machine.The osteotomy templates were used in surgery to guide the osteotomy of hallux valgus.Correction of hallux valgus,bone union at the osteotomy sites and weight-bearing walk were observed postoperatively.Results Accurate angles of osteotomy were confirmed by postoperative radiography in all the 16 feet.Follow-ups for 6 to 12 months showed in the 16 feet a mean outer turning angle of hallux of 7.31 °±0.33° (from 5° to 11 °) and a mean correction of 21.92°± 4.8° (from 13° to 24°).Bone union was fine at the osteotomy sites and no pain was reported during weight-bearing walk.Conclusion 3D reconstruction and printing can produce a patient-specific template for accurate Reverdin osteotomy for hallux valgus,leading to increased contact area and fine union of the osteotomy ends.

Application of computer-aided design and 3D printing model in operation for complex mandibular fractures / 中华创伤杂志

Objective To investigate the value of computer aided design and 3D printing model in operation for complex mandibular fractures.Methods The clinical data of 136 patients with complex mandibular fractures treated from June 2006 to June 2016 were retrospectively analyzed.The patients were divided into 3D group (n =28) and conventional group (n =108) based on the use of computer aided design and 3D printing model.There were 24 males and four females in 3D group,with the age of (33.8 ± 15.4) years.There were 91 males and 17 females in conventional group,with the age of (30.3± 11.9)years.The 3D group used computer aided design and 3D printing model to develop the surgical plan,and the conventional group used traditional CT scan image data.The operation time,intraoperative blood loss,incidence of postoperative adverse events,and the distance differences between the ipsilateral and the five contralateral maxillofacial markers were compared between the two groups (△L1:the difference between the mandibular angle point and the condyle apex;△L2:the difference between the mandibular angle point and the chin vertex;△L3:the difference between the apex of the chin and the apical point;△L4:the difference between the inner mandibular angle point and the Inferior alveolar margin point;△L5:the distance between the inner mandibular angle and the sagittal plane).Results The operation time in the 3D group and the conventional group were 155 (126.25,183.75)min and 235 (156.25,268.75)min,respectively.The intraoperative blood loss in the 3D group and the conventional group were 100 (50.0,187.5) ml and 125 (100.0,200.0) ml,respectively.In the 3D group,one patient had mild occlusion disorder.In the conventional group,4 patients had postoperative infection,1 repulsion reaction of internal fixation device,and 19 mild occlusion disorder.The differences between the two groups in operation time and postoperative adverse events were statistically significant (P ＜ 0.05),but there was no significant difference in intraoperative blood loss (P ＞ 0.05).There was no significant difference between the ipsilateral △L and contralateral △L in two groups (P ＞ 0.05).No significant difference in △L4 was found (P ＞ 0.05),but there were significant differences in △L1,△L2,△L3,and △L5 between the two groups (P ＜0.05).Conclusion For patients with complex mandibular fractures,the use of computer-aided design and 3D printing model can helps shorten operation time,reduce postoperative adverse events and hence improve the fracture reduction outcome.

Research advances of clinical applications in repairing surgery for orbital fracture / 眼科新进展

As one of the common type of ocular injuries,orbital fracture can result in enophthalmos,diplopia and infraorbital nerve injury,which affects the physiological function of eyeball.Repairing surgery for orbital fracture should be treated for reconstructing the orbital anatomical structure in case of severe enophthalmos and diplopia,or infraorbital nerve injury.Meanwhile,it's crucial to identify the suitable surgery approach and implants because of the specificity and complexity of the orbit.What a clinician expected most is the ideal prognosis obtained easily with minimal operation complication.Transconjunctival approach should be applied as one of the standard approaches for repairing surgery of orbital fracture,offering good operative field with less complications.Titanium mesh and resorbable materials are the ideal implants at present,for their high level of stable quality and plasticity.More and more applications of 3D-printed rapid prototyping technique can guide the new directions of individualization and precision of repairing surgery for orbital fracture.

Comparison of the effect of navigation template assisted spinal pedicle fixation and traditional pedicle screw fixation:a Meta-analysis / 中国骨伤

OBJECTIVE@#To systematically evaluate the efficacy of rapid prototyping drill navigation template-assisted pedicle screw fixation and traditional anatomic landmark-based fixation in the treatment of spinal disease by accessing and searching some relevant literatures home and abroad.@*METHODS@#Randomized Controlled Trials (RCTs) and prospective case-control studies or retrospective case-control studies about rapid prototyping drill templates-assisted pedicle screw fixation and traditional anatomic landmark-based fixation for the treatment of spinal disease were searched electronically in PubMed, The Cochrane Library(Issue 5, 2017), Clinical Trial, Google Scholar, Web of Science, CNKI, Wanfang database and VIP database before June 2017. According to the inclusion and exclusion criteria, two researchers independently screened the literatures, and extracted the data. The methodological quality of randomized controlled trials were evaluated by the Cochrane Handbook, and prospective case-control studies and retrospective case-control studies were evaluated by the NOS scale. The outcomes were analyzed using RevMan 5.3 software provided by the Cochrane information management system.@*RESULTS@#A total of 7 articles were included, including 2 RCTs, 1 prospective case-control study and 4 retrospective case-control studies. A total of 237 patients were implanted with 1 688 pedicle screws, including 898 screws in the navigation template group, 790 screws in the conventional method group. Meta-analysis results showed that there was significant difference in the excellent rate of screw implantation between navigation template group and conventional method group [OR=5.05, 95% CI(3.13, 8.16), <0.000 01], there was significant difference in operative time, intraoperative blood loss for thoracolumbar surgery [WMD=-27.19, 95% CI(-38.21, -16.17), <0.000 01; WMD=-100.82, 95% CI(-182.26, -19.37), =0.02].@*CONCLUSIONS@#Compared with traditional pedicle screw fixation, navigation template spine pedicle screw fixation has better clinical effect, which can improve the excellent rate of screw placement, reduce the operation time and intraoperative bleeding.

Rapid prototyping navigation template assisted cervical screw implantation:a review / 中国骨伤

The cervical screw fixation has been used widely in the clinic setting due to the high fusion rate, immediate fixation of the surgical segment and good correction of the deformity. However, owing to the variation of anatomical structures and the narrow pedicle screws, it's rather difficult to implant the screws through traditional methods. The perforation rate of the screw is high, which can cause serious complications such as neurovascular injury. In recent years, rapid prototyping navigation templates have been reported in the appilication to assist cervical screw placement for improving the accuracy of screw placement. In this paper, we reviewed and summarized published literatures about navigation template assisted cervical screw implantation in the past 20 years, systematically introduced the methods of producing and using of navigation templates, the development of design concept and the status of application in cervical spine surgery. To date, relevant clinical and cadaveric studies confirm that the use of rapid prototyping navigation template assisted cervical screw placement in cervical surgery can reduce screw perforation rate, intraoperative ionizing radiation injury and operation time, which is worth applying in the clinical practice. However, specific clinical effects of different design types of navigation templates are not well summarized. As a result, more clinical and cadaveric studies comparing the accuracy and safety of navigation templates of different design types are needed to help clinicians select the appropriate navigation template for surgery.

Role of 3D printing positioning guide template in pedicle screw fixation of unstable atlas fractures / 中华创伤杂志

Objective To investigate the clinical outcomes of pedicle screw fixation assisted with the 3D printing positioning guide template for treatment of unstable atlas fractures.Methods A retrospective case series review was made on 10 patients with unstable atlas fractures undergone direct posterior C1 pedicle screw fixation assisted with the 3D printing drill guide template from September 2012 to May 2015.There were 7 males and 3 females,with a mean age of 52.6 years (range,23-75 years).All patients complained of neck pain,stiffness and decreased range of motion without neurologic deficit.Preoperative skull traction was used routinely.After the three-dimension reconstruction of cervical vertebrae,ideal trajectory for C1 pedicle screws was designed with a complementary basal template for posterior surface of atlas corresponding anatomical structure.Then the drill guide template was materialized in a rapid prototyping machine and used during operation.Start point and direction of the ideal and actual trajectories were measured after matching the position of the pre-and post-operative patients' cervical spine.Safety of pedicle screw fixation was assessed in the transverse and sagittal planes of CT scan.Operation time and blood loss were recorded.Visual Analogue Scale (VAS) of neck pain was recorded before operation and 3 months after operation.Clinical efficacy,fracture reduction,stability and surgical complications were reviewed at the follow-up.Results A total of 20 screws were inserted safely.No significant differences existed in deviation of entry point and direction between ideal and actual trajectories (P ＞0.05).Operation time was 60-90 min (mean,75 min) and intraoperative blood loss was 110-300 ml (mean,160 ml).No spinal cord or vertebral artery injury was noted during operation.All patients were followed up for 12-36 months (mean,20.5 months).VAS was improved from preoperative 7.3 (6.3-9.5) points to 1.4 (0.3-2.5) points 3 months after operation (P ＜ 0.05).All patients had normal range of motion of the cervical spine 3 months after operation.Bony fusion was achieved 6 months after operation.At the follow-up,good cervical alignment was maintained with no instrument failure and C1.2 instability.Conclusion For treatment of unstable atlas fractures,direct posterior C1 pedicle screw fixation assisted with the 3D printing drill guide template can improve the precision of screw placement,reduce complications,and preserve the function of the occipital-atlantoaxial junction.

Investigation of personalized titanium mesh combined with free flap for reconstruction of maxillary defect / 口腔疾病防治

Objective @#To explore the clinical effect of personalized titanium mesh combined with free flap in the repair of maxillary defect.@*Methods@#36 cases of maxillary defect patients as the research object were selected in our hospital during May of 2010 to May of 2016. 36 defect cases were repaired with personalized titanium mesh combined with free flap, and summarize the treatment programs to explore the value of clinical application.@*Results @#By the end of follow-up, all of the flap survived, tumor recurrence rate was 5.56% with paitient satisfaction was 100%; Diplopia and dysphagia occurred in no cases; Masticatory function declined accompanied with a longer chewing time but language communication was not affected.@*Conclusion@# The application of personalized titanium mesh and free flap repair methods in maxillary defect is significant, which effectively improve the quality of life of patients whereas still have difficulties in late denture at the same time.

RPD framework fabrication using computer-aided design (CAD) and rapid prototyping / 대한치과보철학회지

Nowadays, digital dentistry is generally applied to prosthodontics with fabrication of inlays or any other fixed prostheses by utilizing CAD/CAM (computer-aided design/computer-aided manufacturing) technology and intraoral scanner. However, in fabricating removable prosthesis, there are some limitations for digital technology to substitute conventional casting method. Therefore, approaching removable prostheses fabrication with CAD/CAM technology would be a meaningful trial. In this case report, Kennedy class III mandibular edentulous patient who was in need of increasing the vertical dimension of occlusion was treated with removable partial denture using CAD and rapid prototyping technique. Surveying and designing the metal framework of the partial denture was performed with CAD, and sacrificial plastic pattern was fabricated with rapid prototyping technique. During the follow up period of nine months, the removable partial denture has provided satisfactory results in esthetics and function.

A digital approach for design and fabrication by rapid prototyping of orthosis for developmental dysplasia of the hip

Abstract Introduction Immobilization in a hip spica cast is required in surgical and nonsurgical treatments for children aged three months to four years diagnosed with developmental dysplasia of the hip. Skin complications are associated with the use of the spica cast in 30% of the cases. This research explores the use of photogrammetry and rapid prototyping for the production of a lighter, shower friendly and hygienic hip orthosis that could replace the hip spica cast. Methods Digitalized data of a plastic dool was used for design and fabrication of a customised hip orthosis following four steps: 1) Digitalization of the external anatomical structure by photogrammetry using a smartphone and open source software; 2) Idealization and 3D modeling of the hip orthosis; 3) Rapid prototyping of a low cost orthosis in polymer polylact acid; 4) Evaluation tests. Results Photogrammetry provided a good 3D reconstruction of the dool's hip and legs. The manufacture method to produce the hip orthosis was accurate in fitting the hip orthosis to the contours of the doll. The orthosis could be easily placed on the doll ensuring mechanical strength to immobilize the region of the hip. Conclusion A new approach and the feasibility of both techniques for hip orthosis fabrication were described. It represents an exciting advance for the development of hip orthosis that could be used in orthopedics. To test the effectiveness of this orthosis for developmental dysplasia of the hip treatment in newborns, material and mechanical tests, design optimization and physical tests with patients should be carried.

Clinical analysis on rapid prototyping oriented template for total hip replacement in adult developmental dyspla-sia of the hip / 局解手术学杂志

Objective To study the clinical value of rapid prototyping oriented template for total hip replacement in patients with adult developmental dysplasia of the hip .Methods Totally 51 cases with adult developmental dysplasia of the hip who were admitted into our hos -pital from January 2014 to March 2015 were randomly divided into the observation group and the control group .The observation group were treated by total hip arthroplasty assisted with rapid prototyping oriented template , while the control group were treated with traditional surgical method for total hip replacement.The curative effect, operation time, amount of bleeding, hospitalization time and satisfaction rate were compared between the two groups .Results The operation time , intraoperative blood loss and length of hospital stay of the observation group were significantly lower than those in the control group , and the differences were statistically significant (P<0.01).The Harris hip function score and satisfaction rate of the observation group were significantly higher than those in the control group with statistically significant differ -ences (P<0.05).Conclusion Total hip arthroplasty assisted with rapid prototyping oriented template could shorten the operation time , re-duce the intraoperative blood loss , cut down the hospitalization time , quicken the hip joint function recovery , and improve the satisfaction rate of patients .