Objective To explore and evaluate the accuracy and feasibil ity of individual rapid prototype (RP) drill templates for atlantoaxial pedicle screw implantation. Methods Volumetric CT scanning was performed in 8 adult cadaveric atlas and axis to collect Dicom format datas. Then three-dimensional (3D) images of atlas and axis were reconstructed and the parameters of pedicles of 3D model were measured by using software Mimics 10.01. The 3D model was saved by STLformat in Mimics. The scattered point cloud data of 3D model were processed and the 3D coordinate system was located in software Imageware 12.1. The curves and surfaces of 3D model were processed in software Geomagic Studio 10. The optimal trajectory of pedicle screw was designed and a template was constructed which accorded with the anatomical morphology of posterior arch of atlas and lamina of axis by using software Pro/Engineer 4.0. The optimal trajectory of pedicle screw and the template were integrated into a drill template finally. The drill template and physical models of atlas and axis were manufactured by RP (3D print technology). The accuracy of pilot holes of drill templates was assessed by visually inspecting and CT scanning. Results The individual drill template was used conveniently and each template could closely fit the anatomical morphology of posterior arch of atlas and lamina of axis. Template loosening and shifting were not found in the process of screw implantation. Thirty-two pedicle screws were inserted. Imaging and visual inspection revealed that the majority of trajectories did not penetrate the pedicle cortex, only 1 cortical penetration was judged as noncritical and did not injury the adjacent spinal cord, nerve roots, and vertebral arteries. The accuracy of atlas pedicle screw was grade 0 in 15 screws and grade I in 1 screw, and the accuracy of axis pedicle screw was grade 0 in 16 screws. Conclusion The potential of individual drill templates to aid implantation of atlantoaxial pedicle screw is promising because of its high accuracy.
Objective To build up a new contour and functional reconstruction technique of mandibular defects with rapid prototyping and reverse engineering technique. Methods From April 2002 to August 2004, 4 cases of mandibular defects due to resection of large mandible lesion were treated. Of 4 patients, there were 3 females and 1 male, with an age range of 21-42 years, which underwent secondary operation and presented a deviation as mandibular movement. The openingmouth extent was 1.8-2.5 cm(2.2 cm on average). The data of defects area were renewed withMimics and Geomagic Studio software; and the titanium reconstructive frame was designed and manufactured with rapid prototyping technigue. Defect were reconstructed by using CT digital data of patients. Results The CT data could be used by image software directly. The implant design could be completed by computer-aimed design(CAD)/computer-aided manufacture(CAM). The resin model and titanium frame were manufactured accurately by RP technique. Four patients achieved one stage healing. After a follow-up of 3 months to 2 years, largemandibular defect was reconstructed satisfactorily and the opening-mouth extent was 3.03.4 cm(3.2 cm on average). The occluding relation was normal. The implant denture was put on and the mastication function was good in 1 case. Conclusion Individual design and repair of large mandibular defect with CAD/CAM techniques is worth extending application clinically. It is a simple and accurate method.
ObjectiveTo investigate the association between tumor necrosis factor (TNF)-α gene polymorphism and susceptibility to chronic obstructive pulmonary disease (COPD) in eastern Heilongjiang province.MethodsA total of 347 COPD patients in the Department of Respiratory Medicine, the First Affiliated Hospital of Jiamusi University, were enrolled from January 2016 to January 2017. In the same period, 338 healthy subjects in the hospital physical examination center were selected as controls. The genotype of the two groups was analyzed by high resolution melting (HRM) and gene sequencing. The genotype and allele probability of the two groups were compared and analyzed by the SHEsis genetic imbalance haplotype analysis.ResultsBoth TNF-a –308 G/A co-dominant model and recessive model have significant differences between COPD patients and healthy subjects (P=0.036, OR 1.512, 95%CI 1.023 – 2.234; P=0.027, OR 1.202, 95%CI 1.024 – 1.741). –850G/A co-dominant model (P=0.000, OR 1.781, 95%CI 1.363 – 2.329), dominant model (P=0.000, OR 0.391 7, 95%CI 1.363 – 2.329) and hyper-dominant model (P=0.000, OR 2.680, 95%CI 1.728 – 4.156) in the two groups were statistically different. The haploid analysis and haploid genotype analysis showed statistically significant differences (all P<0.05, OR>1, 95%CI>1) at +489, –308, –850 sites by allele A, G, A, respectively between the two groups. There was a significant difference in the lung function between the –308G/A, –863C/A mutant genome and the wild type (P=0.038, P=0.02) in COPD patients according to the classification of lung function.ConclusionsA allele in TNF-α –308 and G allele in TNF-α –850 locus may be risk factors for COPD in the eastern Heilongjiang Province, and the risk of homozygous genotype is higher. +489A, –308G and –850A respectively may be the predisposing factor of COPD while the three genotypes of AGA patients were at higher risk. TNF-α –308 A allele and –863 A allele are related to lung function deterioration, and the two sites with A allele in patients with COPD indicate poor lung function.
【Abstract】ObjectiveTo develop a new singletube polymerase chain reaction amplification (ST Amp) protocol for the efficient sequencing-based typing (SBT) of human leukocyte antigen DRB1(HLA-DRB1).MethodsA set of 7 group-specific exonic 5′ amplification primers and a single generic 3′ primer were included together in a single PCR mix to facilitate a single PCR amplification per sample for HLA-DRB1 typing.ResultsAll samples were successfully typed, the typing result was accurate and repeatable.ConclusionST Amp technique has resulted in the ability to perform high-resolution, high-specificity and high-throughput HLA-DRB1 typing by DNA sequencing.
Objective To review recent advance in the research and appl ication of computer aided forming techniques for constructing bone tissue engineering scaffolds. Methods The l iterature concerning computer aided forming techniques for constructing bone tissue engineering scaffolds in recent years was reviewed extensively and summarized Results Several studies over last decade have focused on computer aided forming techniques for bone scaffold construction using various scaffold materials, which is based on computer aided design (CAD) and bone scaffold rapid prototyping (RP). CAD include medical CAD, STL, and reverse design. Reverse design can fully simulate normal bone tissue and could be very useful for the CAD. RP techniques include fused deposition model ing, three dimensional printing, selected laser sintering, three dimensional bioplotting, and low-temperature deposition manufacturing. These techniques provide a new way to construct bone tissue engineering scaffolds with complex internal structures. Conclusion With rapid development of molding and forming techniques, computer aided forming techniques are expected to provide ideal bone tissue engineering scaffolds.
Objective To explore the hepatic artery variations encountered in laparoscopic pancreaticoduodenectomy (LPD) surgery and its significance. Methods The clinical datas of 26 patients who underwent LPD from January 2020 to January 2023 were retrospectively collected. Preoperative evaluation of hepatic artery variability and its types based on relevant clinical and imaging data, as well as targeted measures taken during surgery, and patients’ prognosis were analyzed. Results According to preoperative abdominal enhanced CT, arterial computer tomography angiography imaging and intraoperative skeletonization of the hepatoduodenal ligament, hepatic artery variation was found in 9 of 26 patients undergoing LPD. The left hepatic artery was substituted in 1 case, the right hepatic artery was substituted in 2 cases, 2 cases were the left accessory hepatic artery, and the common hepatic artery originated from the superior mesenteric artery in 3 cases. There was 1 case, right hepatic artery coming from the abdominal aorta, whose arterial variation was not included in the traditional typing. The variant hepatic artery from superior mesenteric artery was separated by posterior approach during operation, and the variant hepatic artery from left gastric artery was separated by anterior approach during operation. Nine patients with hepatic artery variation recovered well after operation, and no serious complications occurred. Conclusions Various hepatic artery variations during LPD need to be carefully evaluated before surgery. During surgery, it should be determined whether to retain the mutated blood vessel based on its diameter and changes in liver blood flow after occlusion, so that reasonable operation can be performed during the operation to avoid hepatic artery damage.
【Abstract】 Objective To evaluate the feasibility and effectiveness of reconstruction of mandibular bone defects using three-dimensional skull model and individualized titanium prosthetics from computer assisted design. Methods Between July 2002 and November 2009, 9 patients with mandibular defects accepted restorative operation using individualized bone prosthetics. Among 9 cases, 4 were male and 5 were female, aged 19-55 years. The causes of mandibulectomy were benign lesions in 8 patients and carcinoma of gingival in 1 patient. Mandibular defects exceeded midline in 2 cases, involved condylar in 4 cases, and was limited in one side without involvement of temporo-mandibular joint in 3 cases. The range of bone defects was 9.0 cm × 2.5 cm-17.0 cm × 2.5 cm. The preoperative spiral CT scan was performed and three-diamensional skull model was obtained. Titanium prosthetics of mandibular defects were designed and fabricated through multi-step procedure of reverse engineering and rapid prototyping. Titanium prosthetics were used for one-stage repair of mandibular bone defects, then two-stage implant denture was performed after 6 months. Results The individualized titanium prosthetics were inserted smoothly with one-stage operative time of 10-23 minutes. All the cases achieved incision healing by first intention and the oblique mandibular movement was corrected. They all got satisfactory face, had satisfactory contour and good occlusion. In two-stage operation, no loosening of the implants was observed and the abutments were in good position with corresponding teeth which were designed ideally before operation. All cases got satisfactory results after 1-9 years of follow-up. At last follow-up, X-ray examinations showed no loosening of implants with symmetry contour. Conclusion Computer assisted design and three-dimensional skull model techniques could accomplish the design and manufacture of individualized prosthetic for the repair of mandibular bone defects.
3D printing technology has a promising prospect of medical use and clinical value, and may play an important role in the field of thoracic and cardiovascular surgery, such as preoperative diagnosis, surgical planning, surgical approach alternatives and organ replacement. This review focuses on the development of 3D printing technology in recent years and its use and prospect in the field of thoracic and cardiovascular surgery including surgical teaching and simulation, personalized prosthesis implantation, and artificial organ transplantation.
ObjectiveTo review recent literature on three-dimensional (3-D) plotting as a rapid prototyping method for the manufacturing of patient specific biomaterial scaffolds and tissue engineering constructs.
MethodsLiterature review and description of own recent work.
ResultsIn contrast to many other rapid prototyping technologies which can be used only for the processing of distinct materials, 3-D plotting can be utilized for all pasty biomaterials and therefore opens up many new options for the manufacturing of bi- or multiphasic scaffolds or even tissue engineering constructs, containing e. g. living cells.
Conclusion3-D plotting is a rapid prototyping technology of growing importance which provides flexibility concerning choice of material and allows integration of sensitive biological components.
Objective To investigate the value of a 4-color and 10-antibody flow cytometry immunophenotyping panel using 10 antibodies including CD45, CD38, CD19, CD56, CD20, CD5, CD10, human leukocyte antigen-DR (HLA-DR), κ antibody and λ antibody marked by four kinds of fluorescein including R-phycoerythrin (PE), fluorescein isothiocyanate (FITC), peridinin chlorophy Ⅱ protein (PerCP) and allophycocyanin (APC) in the diagnosis of multiple myeloma (MM). Methods A 4-color and 10-antibody flow cytometry immunophenotyping panel which used CD45dim/-/CD38high as gating strategy supplemented by CD19, CD56, CD20, CD10, CD5, HLA-DR, κ antibody and λ antibody was used to test the bone marrow (BM) specimens of 45 MM patients treated between December 2013 and March 2015. Then by morphological examination, we analyzed the quantitative results and characteristics of myeloma cells. Results In all the 45 MM patients, the myeloma cell detection rate was 100% by flow cytometry. The proportion range of myeloma cells in BM was between 1.17% and 72.31%, which showed a good consistency with the results of 7.5%-90.0% detected by morphological examination. The positive expression rates of antigen on myeloma cells were: 100.00% for CD38, 11.11% for CD45, 2.22% for CD19, 73.33% for CD56, 17.78% for CD20, 42.22% for HLA-DR, and 0% for CD10 and CD5. About 64.44% of the MM patients were restricted cytoplasmic λ light chain typing, and 35.56% were restricted cytoplasmic κ light chain typing. There was no obvious phenotype difference among the 3 Durie-Salmon stages of MM (P>0.05). The expression of CD56 was different among different immunoglobulin types of MM, and the types of immunoglobulin with an expression from high to low were non-secretory, IgA, IgG, and light chain (P<0.05). Conclusion The 4-color and 10-antibody flow cytometry immunophenotyping panel using 10 antibodies including CD45, CD38, CD19, CD56, CD20, CD5, CD10, HLA-DR, κ antibody and λ antibody marked by four kinds of fluorescein including PE, FITC, PerCP and APC has a good diagnostic value for MM.
