Performance appraisal practice: an exploration based on basic data architecture of medical equipments / 中华医院管理杂志

The hospital effectively improved the accuracy of data acquisition in performance appraisal of medical equipment, by means of better basic data management architecture, full-course supervision, clarified responsibility system, and intelligent new technologies. It holds that the information system and application of new technologies can help ensure the collection of basic data in a timely and effective manner, while orchestrated work of sections can ensure the authenticity and accuracy of performance appraisal and improve the using efficiency of medical equipments.

Application analysis of radiological imaging tele-consultation / 中华医院管理杂志

Objective To investigate radiological imaging tele-consultation in clinical application. Methods All cases of the tele-consultation analyzed retrospectively came from the Hospital′s telemedicine center from January to December of 2015. The statistical analysis covered the level of applying hospital, modality type of imaging,inspection area,as well as the timing and purpose of the consultation.Results A total of 179 medical institutions required image consultation in 2015,most of which secondary hospitals,up to 58.66%. A total of 2 454 cases were consulted,including X-ray of 278 cases (11.33%),CT of 1 353 cases (55.13%), and MRI of 823 cases (33.54%). Purposes of tele-consultation vary from differential diagnosis of 1 602 cases(65.28%),definitive diagnosis of 766 cases(31.21%),and confirmative review of 86 cases (3.51%). 90.59% of the consultation cases were finished within 24 hours. Conclusions Radiological imaging tele-consultation could offer local hospitals with diagnosis efficiently effectively. On one hand,this service saves patients'costs and gains time for treatment. On the other,it makes primary hospitals more efficient in radiological imaging diagnosis.

Effect of femoral bowing angle on the lower limb alignment in different positions based on CT three-dimensional reconstruction / 中国组织工程研究

BACKGROUND: Measuring result of the lower limb alignment is often influenced by various factors, such as femoral bowing angle (FBA) in different positions.OBJECTIVE: To measure the FBA and femoral valgus correction angle (VCA) in different positions after CT reconstruction of lower limb model, and simulating X-ray examination, and to explore the rule of FBA affecting lower limb alignment.METHODS: Twenty patients undergoing CT angiography of lower extremity artery were enrolled, three-dimensional reconstruction of low limb was established on Mimics13.0 software based on CT data, and the FBA in standard posture was determined. All patients were divided into groups A (FBA > 2°), B (2° > FBA > 0°), C (0° > FBA > -2°) and D (FBA <-2°) (n=5 per group). Then each model was revolved through the vertical axis from 20° of internal rotation to 20° of external rotation by 2° for one motion, and 21 three-dimensional images were transformed into two-dimensional images to obtain the X-ray images of low limb. FBA and VCA in different positions were measured.RESULTS AND CONCLUSION: (1) The outcome measurements showed that FBA tended to be decreased in internal rotation and increased in external rotation. (2) VCA tended to be increased in external rotation and decreased in internal rotation. (3) FBA was positively correlated with VCA in the different positions (P < 0.01). (4) These results suggest that FBA can be altered with rotation and even expose influence on VCA. The bigger FBA is, the more influence on the lower limb alignment. Therefore, it is advisable to conduct the full length X-ray of lower limb in a standard posture, especially for the patients with larger FBA.

The research of influence of different additional filtration to image quality and radiation dose in the whole brain DSA / 中华放射学杂志

Objective To investigate the effect of different additional filtration thickness of DSA on image quality and radiation dose with cerebral angiography. Methods Prospective collected 90 patients with DSA examination of the whole cerebral artery, patients were divided into A, B and C group according to the time of the examination, each group included 30 cases. Patients underwent conventional DSA, the additional filtration of group A, B and C were (1.0 mmAl+0.1 mmCu), (1.0 mmAl+0.4 mmCu) and (1.0 mmAl+0.9 mmCu), respectively. Dose area product (DAP), air kerma (AK), tube current and tube voltage of anteroposterior and lateral radiography of the whole brain were recorded, and scored the image quality. Eye lens organ dose values were obtained by using simulation phantom and LiF dosemeter under A, B and C groups with three different additional filtrations for cerebral angiography. The image quality scores and the radiation dosewere analyzed by one-way ANOVA tests or Kruskal-Wallis tests. Results The image quality comprehensive score of three groups showed significant difference (F=40.07,P<0. 01), which were (3.8±0.4), (3.6 ± 0.5) and (3.0 ± 0.6), respectively. The DAP and AK value of anteroposterior and lateral radiography of three groups also showed significant difference (P<0.05), B and C group were lower than the A group. Left and right eye lens organ dose were decreased along with the increase of the additional filtration thickness, and the difference between the 3 groups also had significant difference (P<0.01). Conclusion Both the image quality and radiation dose can acquire when conducted the whole brain DSA with 1.0 mmAl+0.4 mmCu additional filtration.

Assessment of DSA dose effect with different combinations of parameters on brain organs：a phantom study / 中华放射学杂志

Objective To investigate the lens and pituitary dose impacted by additional filtration and collection field in head and neck DSA examinations. Methods All images were acquired by a Philips ALLura Xper FD 20 DSA machine. The combination of the different collection fields (48 cm, 42 cm, 31 cm, 22 cm) and additional filtrations (0.9 mmCu+1.0 mmAl, 0.4 mmCu+1.0 mmAl, 0.1 mmCu+1.0 mmAl) were adjusted when the anthropomorphic phantom filled with dosimeter was scanned in anterioposterior and lateral positions with 2D?DSA and 3D?DSA. The dose area product (DAP), air kerma (AK) and the radiation dose values of bilateral lens and pituitary were measured and recorded. The 2D and 3D?DSA regional absorption dose on lens and pituitary were analyzed using t' test, the correlations between DAP and AK parameters and different regional absorption doses were evaluated by Pearson rank correlation coefficient. Results Absorption doses of left lens, right lens and pituitary with 2D?DSA (n=12) were as following:(2.77 ± 0.68), (6.23 ± 3.54), (8.65 ± 2.62) mGy, while the parameters with 3D?DSA (n=12) were (1.78 ± 0.82), (2.18±1.15), (3.32±0.64) mGy, respectively;the results revealed a significant difference (t'=3.20, 3.76 and 6.85, P<0.01). DAP [(8 739±5 731) mGy·cm2] had a relationship with absorption dose of pituitary, left lens and right lens [(5.988 ± 3.299),( 2.258 ± 0.872),( 4.207 ± 3.303) mGy, r values were 0.766, 0.684, 0.727; P<0.01]. AK values was (31 ± 23) mGy and it had a relationship with pituitary absorption dose (r value was 0.894, P<0.01). The lens dose was reduced when the additional filtration was increased and the collection field was decreased, the radiation dose of the pituitary was reduced when both the additional filtration and the collection field were increased. Conclusions In the head and neck DSA examinations, the radiation dose of the lens and the pituitary had different changes with the different additional filters and collecting fields. The organ dose with 3D?DSA was significantly less than that with 2D?DSA.