Reliability and accuracy of three-dimensional digital fusion anatomy in the preoperative evaluation of intracranial tumors / 中华显微外科杂志

Objective To evaluate the reliability and accuracy of three-dimensional digital fusion anatomy in the preoperative evaluation and therapeutic strategy choice of intracranial tumors.Methods MRI scan,including regular MRI,MRA,MRV and DTI,were performed in 87 case.Then tumor themselves as well as tumor-associated structures were reconstructed and fused through iPlan 2.6 software.Based on the reconstructed images,therapeutic strategy were established,preoperative and intraoperative imags were compared.Results The digital reconstruction were successfully finished in all cases.Meanwhile,digital images,originally radiological images and actual images matched well.No approach-associated complication were met in our series.Among tumors in the convexity,the relationship of the reflux veins and the tumors were divided into three types:anterior(12 cases),posterior(19 cases) and overriding(3 cases).All of the relationships were seen in the preoperative fusion image,and the veins were all effectively protected during operation.The tumor-associated arteries could be pushed or wraped by the tumors,and the three-dimensional fusion image could provided their virtually aberrant pathway as well as their relationship with tumor.During microsurgical managment of tumors in the deep brain parenchyma,safe approach were found with the help of comprehensive understanding of the tumors and their adjacent structures.Conclusion Three-dimensional digital fusion anatomy can vividly and accurately display full rang of information about the tumor,and facilitate tumor treatment safely.

Usefulness of multimodal microscopic-based neuronavigation combined with intraoperative magnetic resonance imaging system in the treatment of lesions of middle skull base / 临床耳鼻咽喉头颈外科杂志

OBJECTIVE@#To evaluate the applicative value of multimodal navigation combined with intraoperative magnetic resonance imaging system in the treatment of complex lesions of middle skull base.@*METHOD@#Nineteen consecutive patients undergoing complex lesions resection using multimodal microscopic navigation combined with iMRI were included. Preoperative radiological images were imported into navigation planning system, based on which approach and microsurgical window were designed. Transcranial approach and extracranial approach(include trans-oral-nasal-sphenoidal approach and transsphenoidal approach) were performed in our series. After presumptively total resection were finished, intraoperative magnetic resonance (iMRI)were performed, followed by navigation images updating, and continuing resection if necessary.@*RESULT@#iMRI scan were performed from 1 time to 2 times. In 5 cases with residual seen on iMRI scan, continued resection were carried on in 2 of them. There was no iMRI-associated complications.@*CONCLUSION@#Microscopic-based neuronavigation, in combination with intraoperative magnetic resonance, could provide objective basis for resection, and improve the safety level of tumor resection.

Reliability and accuracy of arcuate fasciculus navigation: analysis of 43 cases / 南方医科大学学报

<p><b>OBJECTIVE</b>To evaluate the reliability and accuracy of arcuate fasciculus (AF) navigation for AF localization and reconstruction.</p><p><b>METHODS</b>Reconstruction of the AF and assessment of the aphasia quotient (AQ) were performed in 43 cases before and after surgical removal of lesions in the language area of the brain. The minimal distance between the AF and the lesion (D(1)), preoperative AQ (AQ(1)), the minimal distance between the AF and the surgical cavity (D(2)), and the postoperative AQ (AQ(2)) were measured. Linear correlation analysis was conducted between D(1) or D(2) and the corresponding AQ(1) or AQ(2) to assess the relationship between the AF and language function. The language function of each patient was evaluated postoperatively.</p><p><b>RESULTS</b>The AF was successfully reconstructed in all the cases. The tractography results of the identical AF generated by 3 different users showed good congruency. A positive linear correlation was demonstrated between D(1) and AQ(1) (P<0.001) and between D(2) and AQ(2) (P=0.001). Only two patients (4.7%) showed language deficits at postoperative follow-up.</p><p><b>CONCLUSION</b>AF navigation is a reliable and accurate technique for AF reconstruction and localization and helps to preserve the language function after surgical removal of lesions in the language area of the brain.</p>

Evaluation of biomaterial function in repair of tissue engineering skull defect / 中国组织工程研究

OBJECTIVE: To evaluate function and application of various biomaterials in tissue engineering repair skull defect, and to seek a reasonable skull substitutes. METHODS: Using "tissue engineering, skull defect, stem cells, cytokines, composite" as key words in Chinese, and using "tissue engineering, skull defect, mesenchymal stem cells, cytokines, materials" as key words in English, a computer-based online search was performed for publications from January 1993 to October 2009. Articles concerning biomaterials and tissue engineering skull defect repair were included. Articles describing repetitive study or Mete analysis were excluded. Function of various biomaterials in tissue engineering repair skull defect was assess in 17 articles. RESULTS: Stem cell technique is to obtain seed cells from a few myeloid tissues. Following in vitro induction and amplification, cells at a certain number could compound with stents, and construct tissue-engineered bone in vitro. The cells could sustain the biological features of osteoblasts, and fuse with bone tissue in the recipient site. Simultaneously, it could avoid the occurrence of immunological rejection. Two or over materials were compounded together, or biomaterial surface received various modification. These could promote adhesion between cells and materials, elevate cell bioactivity and maintain biological function. Following moved into seed cells using some vectors, the latter ossified in bone defect site, and secreted suitable bone growth factor, induced the differentiation of peripheral non-oriented osteogenitor cells into oriented osteogenitor cells, which could harvest adequate seed cells with osteogenic activity in a short time, and accelerate the healing of skull defects. The composite made by using three-dimensional virtual imaging and computer numerical control modeling techniques has the advantages of medical composite, precise anatomical consistency with surrounding tissues of skull defects, and perfect appearance. CONCLUSION: At present, no material can be accorded with the requirement of bone tissue engineering. Combination of some materials or modification of biomaterial surface can promote adhesion of cells and materials, elevate cell biological activity, and maintain biological function, which are presently hot focus of tissue engineering research of biomaterials.