الملخص
Objetivo: La enfermedad de Caffey o hiperostosis cor- tical infantil es una enfermedad rara que afecta uno o más huesos en los primeros meses de vida y debido a su baja inci- dencia está subdiagnosticada, y por tanto se aplican procedi- mientos invasivos innecesarios en su estudio y tratamiento. Se presenta un caso clínico atípico de enfermedad de Caffey en una paciente mayor de 1 año de edad y su resolución. Caso clínico: El servicio de Cirugía Maxilofacial del Hospital Provincial Pediátrico Eduardo Agramonte Piña de Camagüey, Cuba, atiende a una niña de 1 año y 10 meses que se encontraba hospitalizada por presentar una inflamación alarmante en la región facial y cervical precedida de un cua- dro febril y dificultad para alimentarse. Se indicaron los estu- dios apropiados, cuyos resultados, junto a las características clínicas, permitieron diagnosticar la enfermedad de Caffey. Aunque sea una enfermedad rara, es importante estudiarla para realizar un correcto análisis de cada caso y diferenciarla de otras enfermedades que requieren de conductas terapéuti- cas agresivas (AU)
Aim: Caffey's disease or infantile cortical hyperostosis is a rare disease that affects one or more bones in the first months of life and due to its low incidence, it is underdiag- nosed, and therefore unnecessary invasive procedures are applied in its study and treatment. An atypical clinical case of Caffey's disease in a patient older than 1 year and its reso- lution is presented. Case report: The Maxillofacial Surgery service of the Eduardo Agramonte Piña Provincial Pediatric Hospital in Camagüey, Cuba, takes the case of a 1 year and 10-month-old female patient who was hospitalized for an alarming inflam- mation in the facial and cervical region, preceded by a fever and difficulty to eat. The appropriate studies were indicated, which results, together with the clinical characteristics, al- lowed the diagnosis of Caffey's disease. Although it is a rare entity, it is important to study it to carry out a correct analysis of each case and differentiate it from other diseases that re- quire aggressive therapeutic behaviors (AU)
الموضوعات
Humans , Male , Infant , Hyperostosis, Cortical, Congenital/etiology , Dental Care for Children/methods , Signs and Symptoms , Clinical Diagnosis , Cuba , Dental Service, Hospital/methodsالملخص
Abstract The objective of this study was to analyze the influence of insertion torque, bone type, and peri-implant bone loss on implant stability quotient (ISQ) of cylindrical external hexagon (EH) and Morse Taper (MT) implants. Forty-four single implants were placed in the edentulous areas of 20 patients who met the inclusion and exclusion criteria. Immediately after implant placement (t1) and after osseointegration (four and six months for mandible and maxilla, respectively) (t2), insertion torque, resonance frequency, and peri-implant bone loss were measured using probing depths and digital periapical radiography. A significant difference was noted in the ISQ values between t1 and t2 in type III bone for EH and MT implants. No significant difference in bone loss values was observed when comparing bone types for EH or MT in all evaluated sites. Based on marginal bone loss assessed using radiography, there was no significant difference between the MT and EH groups. A positive correlation between torque and ISQ t1 value was observed for MT (correlation: 0.439; p = 0.041) and EH (correlation: 0.461; p = 0.031) implants. For EH and MT implants, the greater the insertion torque, the greater was the ISQ value (moderately positive correlation). A weak negative correlation was found between bone type and ISQ t1 for MT implants. Contrarily, no correlation was observed between bone type and ISQ t1 for EH implants. In all cases, bone loss around the implants was clinically normal.
الملخص
BACKGROUND:Less is reported on the influence of cortical bone thickness on displacement and equivalent stress. OBJECTIVE:To analyze the influence of cortical bone thickness on the maximum displacement and equivalent stress at the implant-bone interface through a three-dimensional finite element method,thereby providing some suggestions for oral implantation. METHODS:In this experiment,we selected the cone-shaped CT image data of a patient who was scheduled for mandibular first molar implant restoration.First,we established a mandibular model in Mimics13 software,and then imported it into Solid works 2022 software.According to the related product information,we drew the cone-shaped implant(4.1 mm×10 mm)and the upper prosthesis model.Cortical bone models were obtained according to different cortical bone thicknesses(2.5,2.0,1.5,1.0 mm)and named D1,D2,D3,and D4,respectively.All the models were imported into ANSYS Workbench 2021 software and cross-combined.Finally,we applied vertical and oblique loads to the four groups of models,and analyzed the stress of the models in each group. RESULTS AND CONCLUSION:The peak equivalent stress is lowest in the cancellous bone and highest in the upper prosthesis,that is,at the abutment-implant junction.The peak stress increases with the decrease of cortical bone thickness.The peak stress of the abutment increases with the decrease of cortical bone thickness,and a similar explanation can also be applied to the other implant restoration components.The peak stress in bone tissue and implants increases with the increase of cortical bone thickness.In models D1,D2,D3,the peak stress in implants is higher than that in bone tissue,but the results are reversed in D4.
الملخص
BACKGROUND:Current fracture simulation for cortical bone structure is mainly based on three numerical methods:the element instantaneous failure,continuum damage mechanics,and extended finite element methods.Although many studies focus on cortical bone fracture simulation,few have compared the differences in prediction accuracy using the three numerical methods. OBJECTIVE:To probe the accuracy and applicability of the three numerical methods in simulating cortical bone fracture under bending load. METHODS:The rat femur samples were primarily used to perform the three-point bending experiment.The rat femoral finite element models were established based on the micro-CT images of the femur samples and the three numerical methods were used to conduct the fracture simulations under three-point bending loads.The predicted fracture loads and fracture patterns were compared with the experimental data to determine the accuracy of various numerical methods in simulating cortical bone fracture. RESULTS AND CONCLUSION:(1)The discernible differences in the failure processes could be observed in the same finite element model under the three numerical simulations due to different element failure strategies.(2)The simulation results showed that the fracture simulation using the continuum damage mechanics method was in better agreement with the experimental results.(3)The numerical method that was suitable for simulating cortical bone fracture under bending load could be determined by comparing it with experimental results.The variations in the fracture parameters were observed,and the reason for the differences in the predicted results using different numerical methods was also discussed,which aided in determining the range of applicability of structural fracture simulation for each numerical method and then improving the simulation accuracy.
الملخص
BACKGROUND:At present,there are shortcomings and risks in the surgical revision of vertebral bodies that failed to be fixed in clinical practice.To avoid the risks of conventional revision surgery,the cortical bone trajectory technique is used to perform revision surgery on vertebral bodies that failed to be fixed.However,the mechanical properties of cortical bone trajectory technique screws in revision surgery are not clear. OBJECTIVE:The mechanical properties of cortical bone trajectory in lumbar revision surgery were analyzed by the finite element method to provide a theoretical basis for the clinical application of cortical bone trajectory in revision surgery. METHODS:CT scan data of the osteoporotic vertebral body were obtained and the L4 vertebral body model was established.The initial cortical bone trajectory placement and traditional pedicle screw in the L4 vertebral body model were completed,respectively,and their mechanical data were taken as the baseline standard for later evaluation of revision surgical performance.The traditional pedicle screw was removed and the screw path was retained.The cortical bone trajectory screw was used for secondary screw placement on the vertebral body to achieve lumbar refixation.The axial pull-out force,stability,and lumbar motion range of the revised screw were analyzed by the finite element method. RESULTS AND CONCLUSION:(1)The screw axial pull-out force of the cortical bone trajectory revision group was 25.6%higher than that of the traditional pedicle initial group.(2)In the lower,left,and right working conditions,the load-displacement ratio of screws in the cortical bone trajectory revision group increased by 18.5%,41.3%,and 35.0%,respectively,compared with the traditional pedicle initial group.The load-displacement ratio of screws in the cortical bone trajectory revision group was slightly higher than that in the traditional pedicle initial group under the above condition,but there was no statistically significant difference(P>0.05).(3)In anterior and posterior flexion conditions,lumbar motion range in the cortical bone trajectory revision group was increased by 45.5%and 36.1%compared with the traditional pedicle initial group,but there was no statistically significant difference in left bend,right bend,and axial rotation conditions(P>0.05).(4)There were no statistically significant differences in screw axial pull-out force,screw load-displacement ratio,and lumbar motion range between the cortical bone trajectory revision group and cortical bone trajectory initial group(P>0.05).(5)The mechanical data exhibited that although the revised nail track bone was damaged or lost to a certain extent,the mechanical properties of the cortical bone trajectory revision group were still better than those of the traditional pedicle initial group to a certain extent.Moreover,there was no significant difference in the mechanical properties between the cortical bone trajectory revision group and the cortical bone trajectory initial group.It provides a reference for revision surgery of lumbar internal fixation with cortical bone trajectory technique in patients with failed traditional pedicle fixation.
الملخص
BACKGROUND:Critical energy release rate is a global fracture parameter that could be measured during the failing process,and its value may change under different failure modes even in the same structure. OBJECTIVE:To propose an approach to predict the critical energy release rate in the femoral cortical bone structure under different failure modes. METHODS:Three-point bending and axial compression experiments and the corresponding fracture simulations were performed on the rat femoral cortical bone structures.Different critical energy release rates were repeatedly assigned to the models to perform fracture simulation,and the predicted load-displacement curves in each simulation were compared with the experimental data to back-calculate the critical energy release rate.The successful fit was that the differences in the fracture parameters between the predicted and experimental results were less than 5%. RESULTS AND CONCLUSION:(1)The results showed that the cortical bone structure occurred tensile open failure under three-point bending load,and the predicted critical energy release rate was 0.16 N/mm.(2)The same cortical bone structure occurred shear open failure under axial compression load,and the predicted critical energy release rate was 0.12 N/mm,which indicates that the critical energy release rate of the same cortical bone structure under different failure modes was different.(3)A comprehensive analysis from the perspectives of material mechanical properties and damage mechanism was conducted to reveal the reasons for the differences in the critical energy release rate in the cortical bone structure under different failure modes,which provided a theoretical basis for the measurement of the energy release rate and the accurate fracture simulation.
الملخص
Objective To predict the tissue-level failure strain of the cortical bone and discuss the effects of different running speeds on the mechanical properties of rat femoral cortical bone.Methods The threshold for cortical bone tissue-level failure strain was assigned,and fracture simulation under three-point bending was performed on a rat femoral finite element model.The predicted load-displacement curves in each simulation were compared and fitted with the experimental data to back-calculate the tissue-level failure strain.Results The cortical bone tissue-level failure strains at different running speeds were statistically different,which indicated that different running speeds had certain impacts on the micromechanical properties of the cortical bone structures.At a running speed of 12 m/min,the cortical bone structure expressed the greatest tissue-level failure strain,and at a running speed of 20 m/min,the cortical bone structure expressed the lowest tissue-level failure strain.Conclusions Based on the changing trends of tissue-level failure strain and in combination with the changes in macro-level failure load and tissue-level elastic modulus of cortical bone structures,the effects of different running speeds on the mechanical properties of cortical bone structures were discussed in this study.The appropriate running speed for improving the mechanical properties of the cortical bone was explored,thereby providing a theoretical basis for improving bone strength through running exercises.
الملخص
Objective A novel variable-diameter cortical threaded screw used in a modified cortical bone trajectory(MCBT)was designed to verify its mechanical properties using the MCBT technique.Methods According to MCBT technology,the screw pitch was fixed at 2 mm,the total length was 45 mm,the diameter of the thick rod was 5.5 mm,the diameter of the thin rod was 4.0-4.5 mm,and the length of variable-diameter position connecting the thick rod and the thin rod was 2 mm.The parameters were set based on three aspects:variable-diameter position,thread depth,and thread type.Three-factor and three-level L9 tests were conducted and screw models were established.The torsion and the bending and pull-out force of the designed screws were calculated based on the finite element method,the results were analyzed using range analysis,and then the screw models were determined.The three-dimensional(3D)model of L4 vertebral body in osteoporosis specimens was established and screws were placed according to the MCBT technique.The pull-out force of the novel variable-diameter cortical threaded screw was compared with that of a conventional non-variable-diameter cortical threaded screw.Results Range analysis showed that screw No.6(variable-diameter position:24 mm from the screw head,thread depth:0.7 mm,45° symmetrical thread)was the optimal screw.The anti-pull-out force of the No.6 variable-diameter cortical threaded screw was 13.1%higher than that of the 4.5 mm conventional non-variable-diameter cortical threaded screw,and no statistical difference in anti-pull-out force was found between the No.6 variable-diameter cortical threaded screw and the 5.5 mm conventional non-variable-diameter cortical threaded screw.Conclusions The variable-diameter position has the smallest influence on pull-out force of the screw,the thread type has the largest influence on pull-out force,and the thread depth has the largest influence on torsion and bending.Compared with that of the conventional non-variable-diameter cortical threaded screw,the variable-diameter cortical threaded screw had a smaller front end,which prevented splitting at the entrance point of the screw.The screw has a large diameter at rear end,thereby showing improved pull-out performance.The results provide a new theoretical basis for the clinical application of MCBT technology.
الملخص
Ameloblastoma is a benign, locally aggressive neoplasm that constitutes about 1–3% of the tumors of the jaw. Wide surgical excision with adequate safe margin is the most common treatment of choice. The study aimed to manage cases with unicystic ameloblastoma while preserving the continuity of the mandible (without resection). This article presents a series of cases ranging from 18 to 40 years old patients of both sexes with unicystic ameloblastoma, especially in the mandible showing more male predilection than female. All the cases presented in this article were treated by enucleation and curettage. None of the patients presented post?operative paresthesia. None of the cases went in for resection. Post?operative recovery was uneventful in all the patients. All the patients were followed up for a period of 3.5–5 years. None of the cases reported recurrence at the date of publication.
الملخص
Objective:To evaluate the feasibility of using cortical bone trajectory (CBT) screws in the osteoporotic thoracolumbar fixation by comparing the bone CT values at the bone-screw interface between traditional trajectory (TT) screws and CBT screws in patients with different bone densities.Methods:The high-resolution CT imaging data of thoracolumbar segments following thoracic or lumbar spine fractures from April 2020 to October 2022 were collected at The Second Hospital Affiliated to Wenzhou Medical University for retrospective analysis. They were divided into 3 groups: a normal bone mass group, an osteopenia group and an osteoporosis group. From each group 30 cases were chosen (90 cases in total, 36 males and 54 females). All the data were imported into Mimics 18.0 for three-dimensional bone reconstruction in which placement of TT and CBT screws was simulated on the vertebrae from T10 to L2 (non-fractured vertebrae). Regions of interest (ROI) where each simulated screw intersected the bone were segmented to measure their CT bone values. For each vertebra in each group, the relative difference percentage in average CT value of ROI between TT and CBT screws was calculated. The CT values of ROI were compared in the same group between TT and CBT screws from T10 to L2; the CT values of ROI were compared in the same screws among the 3 groups from T10 to L2; the CT values of ROI were compared between the CBT screws in the osteopenia and osteoporosis groups and the TT screws in the normal bone mass group; the relative difference percentages in average CT value of ROI between CBT and TT screws were compared between the 3 groups from T10 to L2.Results:The average CT value of ROI for CBT screws was significantly higher than that for TT screws from T10 to L2 in every group ( P< 0.001); as for the CT values of ROI for CBT and TT screws from T10 to L2, the osteoporosis group<the osteopenia group<the normal bone mass group ( P<0.001); from T10 to L2, the CT value of ROI for CBT screws in the osteopenia group was significantly higher than that for TT screws in the normal bone mass group ( P<0.001); the CT value of ROI for CBT screws in the osteoporosis group was not significantly different from that for TT screws in the normal bone mass group ( P>0.05). At T10, T12, and L1, the relative difference percentage in average CT value of ROI between CBT and TT screws was significantly higher in the osteopenia and osteoporosis groups than that in the normal bone mass group ( P<0.05), but there was no such a difference between the osteopenia and the osteoporosis groups ( P>0.05). At T11 and L2, there was no significant difference between the 3 groups in the relative difference percentage in average CT value of ROI between CBT and TT screws ( P>0.05). Conclusions:As bone mass decreases, both CBT and TT screws lead to a significant decrease in the bone density at the bone-screw interface. In patients with osteoporosis, CBT screws can still lead to a higher bone density at the bone-screw interface than TT screws, thus providing a higher strength at the bone-screw interface.
الملخص
Objective To compare the effects of cortical bone trajectory ( CBT) and traditional trajectory ( TT)pedicle screw internal fixation on the range of motion (ROM) and rod system stress of normal and osteoporotic(OP) spines. Methods The L3-S1 finite element models of normal and OP spines were established. The screwrod system with two kinds of trajectory was used for internal fixation of the L4-5 segment, so as to simulate sixphysiological loads, namely, flexion, extension, left / right bending, left / right rotation. The effects of two internalfixation methods on ROMs and maximum equivalent stress of screws in normal and OP spines were compared.Results For both bone conditions, CBT and TT significantly reduced ROM of the fixed segment (L4-5) and theentire segment of lower lumbar spine ( L3-S1). However, the ROM decline of CBT group was slightly smaller than that of TT group, and their ROMs were similar under flexion and extension, but the ROM differences were significant under lateral bending and axial rotation. In addition, for both the normal and OP spine models, themaximum equivalent stress of screws in CBT group was significantly higher than that in TT group. Compared withTT group, the screw stress of CBT group in normal spine model under flexion and extension, lateral bending,axial rotation was increased by 27% , 268% and 58% , respectively. However, when CBT technique was used atthe same time, the OP spine model had a smaller screw stress distribution than the normal spine model.Conclusions Compared with TT technique, CBT technique can achieve higher screw stress under OP conditionand reduce screw stress concentration under normal bone condition. In addition, CBT slightly increases ROMs of each segment, which is conducive to recovery of spinal physiological function after surgery. Lateral bending and axial rotation can produce negative mechanical effects, and these two physiological loads should be avoided.
الملخص
Objective To study changes in bone microstructure of osteoporotic rats by multiscale analysis. Methods A total of 20 5-month-old female SD rats were randomly divided into two groups, i.e., ovariectomy (OVX) group (n=12) and the SHAM group (n=8), respectively. The rats in OVX group were subjected to bilateral ovariectomy and became osteoporosis models after 8 weeks, while sham operation was performed for the SHAM group. Changes in microstructure of cortical bone and cancellous bone at tissue scale, and osteocyte lacunar-canalicular network (LCN) and extracellular matrix (ECM) at cell scale were quantitatively analyzed using Micro-CT and SR-Nano-CT. Results At tissue scale, the cross-sectional area of cortical bone in OVX group was significantly higher than that in SHAM group (P<0.05), and the bone mineral density (BMD) and thickness of cortical bone were not significantly different from those in SHAM group. The trabecular BMD, bone volume fraction, trabecular thickness and trabecular number in OVX group were significantly decreased in comparison with SHAM group (P<0.01), while the trabecular separation was significantly increased (P<0.01). At cell scale, there was no significant difference in the semiaxes of lacunae between OVX group and SHAM group, but the thickness of lacunae and the diameter of canaliculi in OVX group were significantly increased in comparison with SHAM group (P<0.05). At the same time, the porosity of cortical bone in OVX group was significantly higher than that in SHAM group at cell scale (P<0.05). Conclusions The bone microstructure in OVX group varied to different extents at tissue and cell scales. At tissue scale, the cancellous bone loss was severe, while the cortical bone had fewer changes. At cell scale, porosity of the lacunar-canalicular network significantly increased, which directly affected the BMD and strength of cortical bone. Multiscale analysis on changes in bone microstructure of OP rats has potential application value for clinical diagnosis and pathological analysis of osteoporosis.
الملخص
Objectives:To compare the clinical efficacy between robot-assisted cortical bone trajectory screw(RCBTS)and robot-assisted pedicle screw(RPS)for patients with lumbar spinal stenosis(LSS)undergoing sin-gle-level decompression and fusion.Methods:In this retrospective cohort study,LSS patients who underwent robot-assisted single-level decompression and fusion in Beijing Shijitan Hospital between June 2020 and June 2022 were reviewed.A total of 99 patients were included and divided into RCBTS group of 41 patients and RPS group of 58 patients.There were 59 males and 40 females,with an average age of 67.07±4.65 years old.The incision length,operative time,intraoperative blood loss,24h postoperative drainage,and postopera-tive hospital stay were compared between groups.The Japanese Orthopaedic Association(JOA)score and visual analogue scale(VAS)of low back pain were compared at 3d,3 months and 6 months after operation,and the fixed effects of JOA score and VAS score changes were tested.The screw positions were graded according to the Gertzbein-Robbins method.The accuracy of screw placement of the two surgical methods was evaluated by reviewing the postoperative imaging data.The perioperative and postoperative 3 months of complications were compared between the two groups.Results:There were no significant differences in baseline data be-tween the two groups(P<0.05).Comparing with the RPS group,the RCBTS group was shorter in operative time(134.39±22.23min vs 152.93±19.10min,P<0.001),smaller in incision length(64.93±3.71mm vs 78.84±3.82mm,P<0.001),less in intraoperative blood loss(155.61±37.15mL vs 172.41±43.22mL,P=0.001)and postoperative drainage within 24h(83.66±21.54mL vs 101.21±29.80mL,P=0.002),and shorter in postoperative hospital stay(4.90±1.26d vs 6.26±1.66d,P<0.001),with statistical significance.There was no significant difference in JOA score and VAS score changes between the two groups at each time point(P>0.05).The fixed effect test showed that time was a fixed effect of JOA and VAS score changes(P<0.001).The RCBTS group was no sig-nificantly different from the RPS group in the accuracy of screw placement(grade A:152/164 vs 211/232,P=0.538;grade B:9/164 vs 15/232,P=0.688;grade C:3/164 vs 6/232,P=0.619),the rate of clinically accept-able screw placement(161/164 vs 226/232,P=0.619),the rate of bad screw placement(3/164 vs 6/232,P=0.619),and the incidence of postoperative complications(only 1 patient in the RCBTS group developed delayed wound healing)(P>0.05).Conclusions:Compared with RPS,RCBTS has significant advantages in operative time,incision length,intraoperative blood loss,volume of postoperative drainage,and postoperative hospital stay.However,there is no significant difference between the two groups in terms of postoperative functional recovery and alleviation in low back pain.
الملخص
SUMMARY OBJECTIVE: To reduce surgical exposure and improve accuracy, this study evaluated the anatomical distance parameter D (including D1, D2, and D3) of the lumbar isthmus for cortical bone screw insertion. METHODS: A total of 25 structurally complete lumbar dry specimens were used for lumbar anatomy measurements. The six cadaver specimens were divided into upper and lower parts on the plane of the T11-T12 vertebrae, and we use the lower parts. Therefore, six lumbar wet specimens and another four complete lumbar dry specimens were selected. The lumbar isthmus tangent point was considered a coordinate origin, and the insertion point was determined through translating the distance of D1 value to the midline of the vertebral body horizontally and then vertically moved toward inferior board of the transverse process with the distance of D3 value. RESULTS: In four dry and six wet intact lumbar specimens, cortical bone screws were placed according to the average value of the isthmus parameter D. A total of 100 trajectories were verified in specimens by X-ray and computed topography scan to evaluate the safety, accuracy, and feasibility of the surgical use of isthmus parameter D. Using this parameter, the rates of excellent screw placement were 95% (38/40) in four dry specimens and 88.7% (53/60) in six wet specimens. CONCLUSION: The isthmus parameter D is easier to use by the operator, which can improve surgical accuracy and reduce operation time. LEVEL OF EVIDENCE: Level IV, prospective study.
الملخص
ABSTRACT Introduction: This study aims to evaluate the safety of using the cortical path screw with transfixation of the second cortical bone in relation to the vascular structures. Methods: This retrospective observational study (level of evidence: III, study of non-consecutive patients) analyzed data from the medical records of patients who underwent computed angiotomography scans of the abdomen at Hospital Mater Dei, measuring, in millimeters, the distance between the point of the lumbar vertebra considered the anatomical reference for the transfixation of the second cortical bone and the vascular structures adjacent to the spine (abdominal aorta, inferior vena cava, iliac vessels, segmental lumbar arteries). Results: Forty-eight patients were evaluated, with a mean age of 60 years (±8 years, 41-75), of whom 52% were male and 48% female. The measurements obtained between the pre-vertebral vessels and the possible screw exit points did not demonstrate contact in any of the vertebrae studied. Conclusions: The measurements obtained suggest the safety of using the cortical path screw transfixing the second cortical bone. Knowing the position of the vessels is essential to reduce intra- and postoperative complications related to spinal instrumentation. Level of evidence III; Study of non-consecutive patients.
RESUMO Introdução: Este trabalho objetiva avaliar a segurança do uso do parafuso de trajeto cortical com transfixação da segunda cortical óssea com relação às estruturas vasculares. Métodos: Estudo observacional retrospectivo (nível de evidência: III, estudo de pacientes não consecutivos) analisou dados de prontuários de pacientes submetidos ao exame de angiotomografia computadorizada do abdome no Hospital Mater Dei, realizando a medida, em milímetros, entre o ponto da vértebra lombar considerado a referência anatômica para a transfixação da segunda cortical óssea e as estruturas vasculares adjacentes à coluna (aorta abdominal, veia cava inferior, vasos ilíacos, artérias lombares segmentares). Resultados: Foram avaliados 48 pacientes, com média de idade de 60 anos (±8 anos, 41-75), sendo 52% do sexo masculino e 48% do feminino. As medidas obtidas entre os vasos pré-vertebrais e os pontos possíveis de saída do parafuso não demonstraram contato, em todas as vértebras estudadas. Conclusões: As medidas obtidas sugerem a segurança do uso do parafuso de trajeto cortical transfixando a segunda cortical óssea. Conhecer a posição dos vasos é essencial para reduzir as complicações intra e pós-operatórias relacionadas à instrumentação da coluna vertebral. Nível de evidência III; Estudo de pacientes não consecutivos.
RESUMEN Introducción: Este estudio tiene como objetivo evaluar la seguridad del uso del tornillo de trayectoria cortical con transfijación de la segunda cortical ósea con respecto a las estructuras vasculares. Métodos: Estudio observacional retrospectivo (nivel de evidencia: III, estudio de pacientes no consecutivos) que analizó datos de registros médicos de pacientes sometidos a examen de angiografía por tomografía computarizada de abdomen en el Hospital Mater Dei, realizando la medición, en milímetros, entre el punto de la vértebra lumbar considerado la referencia anatómica para la transfijación de la segunda cortical ósea y las estructuras vasculares adyacentes a la columna (aorta abdominal, vena cava inferior, vasos ilíacos, arterias lumbares segmentarias). Resultados: Se evaluaron 48 pacientes, con una edad promedio de 60 años (±8 años, 41-75); 52% eran hombres y 48% mujeres. Las medidas obtenidas entre los vasos prevertebrales y los posibles puntos de salida del tornillo no demostraron contacto en todas las vértebras estudiadas. Conclusiones: Las medidas obtenidas sugieren la seguridad de utilizar el tornillo de trayectoria cortical transfijando la segunda cortical ósea. Conocer la posición de los vasos es fundamental para reducir las complicaciones intra y postoperatorias relacionadas con la instrumentación espinal. Nivel de evidencia III; Estudio de pacientes no consecutivos.
الموضوعات
Humans , Male , Female , Middle Aged , Spinal Fusion , Orthopedic Procedures , Blood Circulationالملخص
Objective To study mechanical properties of traditional trajectory (TT) and modified cortical bone trajectory (MCBT) on osteoporotic vertebrae through finite element analysis. Methods The three-dimensional model of L4 segment was established, and pedicle screw (PS) (diameter 6.0 mm, length 45 mm) and MCBT screw (diameter 4.5 mm, length 40 mm) were placed on both sides of the lumbar spine. The pull-out strength and the load-displacement ratio of screws in two different screw trajectories under up, down, left, right working conditions were analyzed, and the stability between the screw and vertebral body under osteoporotic conditions was evaluated. Results Compared with TT, the pull-out strength of MCBT screw was increased by 13.1%. Compared with PS, the load-displacement ratio of MCBT screw under up, down and left working conditions was increased by 57.2%, 32.4%, and 31.6%. Under right working condition, although the load-displacement ratio of MCBT screw was higher than that of PS, no statistical difference was found. The load-displacement ratio of vertebral body in MCBT group under lateral bending and axial rotation was significantly higher than that in TT group. The load-displacement ratio of vertebral body in MCBT group under flexion was lower than that in TT group. Although the load-displacement ratio of vertebral body in MCBT group under extension was higher that that in TT group, no statistical difference was found. Conclusions MCBT is superior to TT in pull-out strength, screw stability and vertebral body stability under lateral bending and axial rotation, but its vertebral body stability under flexion and extension was weaker than that of TT. The research findings demonstrate the superiority of MCBT under osteoporotic conditions and lay the foundation for clinical application of MCBT.
الملخص
Abstract Aiming to evaluate cortical bone microarchitecture and osteonal morphology after irradiation, twelve male New Zealand rabbits were used. The animals were divided: control group (no radiation-NIr); and 3 irradiated groups, sacrificed after: 7 (Ir7d); 14 (Ir14d) and 21 (Ir21d) days. A single radiation dose of 30 Gy was used. Computed microtomography analyzed the cortical microarchitecture: cortical thickness (CtTh), bone volume (BV), total porosity (Ct.Po), intracortical porosity (CtPo-cl), channel/pore number (Po.N), fractal dimension (FD) and degree of anisotropy (Ct.DA). After scan, osteonal morphology was histologically assessed by means: area and perimeter of the osteons (O.Ar; O.p) and of the Haversian canals (C.Ar; C.p). Microtomographic analysis were performed by ANOVA, followed by Tukey and Dunnet tests. Osteon morphology analyses were performed by Kruskal-Wallis, and test Dunn's. Cortical thickness was significant difference (p<0.010) between the NIr and irradiated groups, with thicker cortex at Ir7d (1.15±0.09). The intracortical porosity revealed significant difference (p<0.001) between irradiated groups and NIr, with lower value for Ir7d (0.29±0.09). Bone volume was lower in Ir14d compared to control. Area and perimeter of the osteons were statistically different (p<0.0001) between NIr and Ir7d. Haversian canals also revealed lower values (p<0.0001) in Ir7d (80.57±9.3; 31.63±6.5) compared to NIr and irradiated groups. Cortical microarchitecture was affected by radiation, and the effects appear to be time-dependent, mostly regarding the osteons morphology at the initial days. Cortex structure in Ir21d revealed similarities to control suggesting that microarchitecture resembles normal condition after a period.
Resumo Com o objetivo de avaliar a microarquitetura óssea cortical e a morfologia dos osteons após irradiação, foram utilizados doze coelhos machos da Nova Zelândia. Os animais foram divididos: grupo controle (sem radiação-NIr); e 3 grupos irradiados, sacrificados após: 7 (Ir7d); 14 (Ir14d) e 21 (Ir21d) dias. Foi utilizada uma dose única de radiação de 30 Gy. A microtomografia computadorizada analisou a microarquitetura cortical: espessura cortical (CtTh), volume ósseo (BV), porosidade total (Ct.Po), porosidade intracortical (CtPo-cl), número de canal/ poro (Po.N), dimensão fractal (DF) e grau de anisotropia (Ct.DA). Após a varredura, a morfologia dos osteosn foi avaliada histologicamente por meio de: Área e perímetro do osteon (O.Ar; O.p) e dos canais de Havers (C.Ar; C.p). A análise microtomográfica foi realizada por ANOVA, seguida pelos testes de Tukey e Dunnet. As análises morfológicas do osteon foram realizadas por Kruskal-Wallis e testadas por Dunn. A espessura cortical foi diferente (p<0,010) entre os grupos controle e irradiados, com córtex mais espesso no Ir7d (1,15±0,09). A porosidade intracortical revelou diferenças significativas (p<0,001) entre os grupos irradiados e o controle, com menor valor para Ir7d (0,29±0,09). O volume ósseo foi menor no Ir14d em relação ao controle. Área e perímetro do osteon foi diferente (p<0,0001) entre o controle e Ir7d. Os canais haversianos também revelaram valores mais baixos (p<0,0001) em Ir7d (80.57±9.3; 31.63±6.5) em relação ao controle e demais grupos irradiados. A microarquitetura cortical é afetada pela radiação e os efeitos parecem ser dependentes do tempo, principalmente em relação à morfologia dos osteons nos dias iniciais. A estrutura cortical em Ir21d revelou semelhanças com o controle, sugerindo que a microarquitetura se assemelha à condição normal após um período.
الموضوعات
Animals , Male , Rabbits , Cortical Bone/diagnostic imaging , Haversian System , Bone and Bones , Porosity , Fractalsالملخص
Os inibidores de aromatase (IAs) são medicamentos mais comumente utilizados para tratamento para pacientes com câncer de mama. Os IAs atuam inibindo a enzima aromatase, que é responsável pela conversão de hormônios esteroidais. Vários estudos mostram a importância do estrógeno para a formação óssea. Acredita-se que a privação do estrógeno possa ter um efeito deletério no osso causando o aumento da reabsorção óssea, diminuição da densidade mineral óssea (DMO) e com isso o aumento do risco de osteoporose e fraturas. A osteoporose é uma doença sistêmica multifatorial caracterizada pela redução da massa óssea e desorganização estrutural do tecido ósseo. O diagnóstico da osteoporose é baseado em critérios densitométricos da Organização Mundial de Saúde (OMS) com referência na classificação do T-score, realizada pela técnica de absorciometria de energia dupla de raios X (DXA), cujo valor avalia a DMO. Por se tratar de uma doença sistêmica, a osteoporose também afeta os ossos maxilares. Desta forma, o trabalho tem como objetivo avaliar parâmetros imaginológicos em pacientes mulheres que fazem tratamento com; IAs e encaminhadas para investigação de perda de massa óssea em um hospital de referência no tratamento dessas pacientes. Foram avaliadas 40 mulheres sob terapia com IAs. Foram avaliados índices radiomorfométricos (IR) de tomografia computadorizada de feixe cônico (TCFC) e análise fractal (AF) para algumas regiões de interesse (RI), espessura da cortical mandibular (ECM) e índice cortical mandibular (ICM) em radiografias panorâmicas digitais (RPD). Todas as pacientes foram submetidas ao exame DXA para avaliar a condição de DMO e divididas nos grupos: normal e baixa DMO. Para cada IR e para as RI da dimensão fractal, foram estabelecidas a curva característica de operação do receptor (ROC), a área sob a curva (AUC), a sensibilidade e a especificidade com seus receptivos intervalos de confiança. Os valores de AUC para os índices de RPD variaram de 52,6%-75,8%. O índice com a maior AUC foi a ECM, apresentando sensibilidade de 38,1%-100,0% e especificidade de 36,8%-84,2%. Para a AF, a RI do trabeculado total teve a maior sensibilidade, enquanto a RI anterior ao forame mentual teve a maior especificidade. Na análise da TCFC, os valores de AUC variaram de 51,8%-62,0%. Os índices com a AUC mais elevada foram o índice molar (M), com sensibilidade 18,1%-61,6% e especificidade de 66,9%-98,7% e o índice anterior (A) com sensibidade de 25,7%- 70,2% e especificidade de 48,8%-90,9%. O índice da sínfise (S) apresentou a maior sensibilidade e o índice posterior (P) apreentou a maior especificidade. Os índices de tomografia computadorizada inferior (ITC I) apresentou sensibilidade e especificidade razoáveis. Assim a ECM, a AF das RI do ângulo da mandíbula e do trabeculado total da RPD, bem como os índices ITC (I), M, P e A na TCFC mostraram-se úteis para identificar mulheres na pós-menopausa que usavam AI com baixa DMO.
Aromatase inhibitors (AIs) are the most commonly used drugs to treat breast cancer patients. AIs work by inhibiting the aromatase enzyme, which is responsible for converting steroid hormones. Several studies show the importance of estrogen for bone formation. It is believed that estrogen deprivation can have a deleterious effect on bone, causing increased bone resorption, decreased bone mineral density (BMD) and thus an increased risk of osteoporosis and fractures. Osteoporosis is a multifactorial systemic disease characterized by reduced bone mass and structural disorganization of bone tissue. The diagnosis of osteoporosis is based on densitometric criteria of the World Health Organization (WHO) with reference to the T- score classification, performed by the dual energy X-ray absorptiometry (DXA) technique, whose value assesses the BMD. As it is a systemic disease, osteoporosis also affects the maxillary bones. Thus, the study aims to evaluate imaging parameters in female patients undergoing treatment with AIs and referred for investigation of bone mass loss in a reference hospital in the treatment of these patients. Forty women undergoing therapy with AIs were evaluated. Radiomorphometric indices (RI) of cone beam computed tomography (CBCT) and fractal dimension (FD) were evaluated for some regions of interest (ROI), mandibular cortical width (MCW) and mandibular cortical index (MCI) in digital panoramic radiographs (DPR). All patients underwent the DXA exam to assess the status of BMD and divided into groups: normal and low BMD. The AUC values for the DPR indices ranged from 52.6%-75.8%. The index with the highest AUC was the mandibular cortical width ([MCW]; sensitivity: 38.1%-100.0%; specificity: 36.8%-84.2%). For FD, the total trabecular index had the greatest sensitivity, while the index anterior to the mental foramen (MF) had the highest specificity. In CBCT analysis, the values of AUC ranged from 51.8%-62.0%. The indices with the highest AUC were the molar index (M, sensitivity: 18.1%-61.6% and specificity: 66.9%-98.7%) and anterior (A, sensitivity: 25.7%-70.2% and specificity 48.8%-90.9%). The symphysis (S) index had the highest sensitivity, and the posterior (P) index presented the highest specificity. Sensitivity and specificity reasonable were obtained to computed tomography index (Inferior) [CTI (I)]. The MCW, FD of ROI of the mandible angle and total mandibular in the DPR, as well as the CTI (I), M, P, and A indices in the CBCT are useful to identify postmenopausal women who were using AI with low BMD.
الموضوعات
Osteogenesis , Osteoporosis , Bone Density , Aromatase Inhibitors , Estrogens , Radiography, Panoramic , Cone-Beam Computed Tomography , Cancellous Bone , Cortical Boneالملخص
OBJECTIVE@#To investigate the related factors of aseptic necrosis of femoral head after closed reduction and internal fixation of femoral neck fracture.@*METHODS@#From January 2009 to January 2016, 236 patients with femoral neck fracture were treated with closed reduction and internal fixation with 3 hollow lag screws, including 111 males and 125 females, aged from 19 to 89 (50.17±12.88) years. According to the follow-up results, the correlation of aseptic necrosis of femoral head was analyzed. Univariate analysis of age, gender, injured side, body weight, injury mechanism, preoperative waiting time, Garden classification and whether there was comminution of femoral neck cortex was conducted to obtain the independent variables with significant difference. Then binary logistic regression analysis was conducted to explore the independent risk factors of avascular necrosis of femoral head.@*RESULTS@#The average follow-up period of 236 cases was 4.58 years. There were significant differences in the range of injury (24.69% vs. 5.16%, @*CONCLUSION@#High energy injury, preoperative waiting time (>48 h) and comminution of femoral neck cortex were independent risk factors for aseptic necrosis of femoral head. In addition, cortical comminution on the pressure side and tension side of the femoral neck is a strong prognostic risk factor for aseptic necrosis of the femoral head, because it indicates a more serious and complex injury mechanism.