key: cord-0022481-u2lwyors authors: Chen, Yan; Zhou, Hong-Mei; Jiang, Qi-Jie title: The Application Value of Magnetic Resonance Imaging (MRI) in the Clinical Diagnosis in Hospital Management date: 2021 journal: Pak J Med Sci DOI: 10.12669/pjms.37.6-wit.4791 sha: ff7319fc523a5ce71e19701c2f4b46e8139e3f00 doc_id: 22481 cord_uid: u2lwyors BACKGROUND & OBJECTIVE: To evaluate the application value of dynamic enhanced magnetic resonance imaging (DCE-MRI) in the clinical diagnosis in hospital based on the fuzzy C-means clustering algorithm and conduct its cost-benefit analysis in practice. METHODS: This study was conducted from October 11th 2020 to November 25, 2020. Eighteen patients with lung cancer confirmed by pathology were collected and examined by DCE-MRI one day before and one month after surgery using a fuzzy C-means clustering algorithm. And then, taking Guang’an District People’s Hospital as an example, the present paper conducts the cost-benefit analysis with the utilization of net present value (NPV). RESULTS: After 1-month review, eleven patients with effective treatment, four numerical Ktrans, Kep, Ve, Vp compared with preoperative decreased, which Ktrans, Kep, the change of the Ve was statistically significant (P < 0.05), the Vp of decline has no statistical significance (P > 0.05), the experimental and ineffective group after an operation, compared to four numerical Ktrans and Vp difference was statistically significant (P < 0.05), the corresponding AUC (area under the curve) to 1 and 0.818, the sensitivity of 100% and 85.7%, a specific degree of 100% and 72.7%. The NPV analysis results showed that the hospital could achieve profit and loss balance in the third year after purchasing MRI equipment and then gradually obtain positive cash inflow. CONCLUSION: The application of MRI in the Clinical Diagnosis helps hospital promote the therapeutic effect, thus having great practical value, and also contributes to increasing benefits in the long run. It is of great significance to carry out quality management on the laboratory and improve the quality level of the laboratory. Dynamic enhanced magnetic resonance imaging (DCE-MRI) is an emerging functional imaging technology in recent years. 1-3 A series of parameters reflecting the hemodynamic changes of tumor micro-vessels are obtained through intravenous contrast agent injection and continuous multi-phase dynamic scanning. 4 For example, at present, the incidence of lung cancer in China remains high. According to statistics, male lung cancer patients account for the first cause of cancer death, second only to breast cancer among women. Interventional therapy can be an effective treatment for patients who cannot accept surgery or are intolerant to chemo radiotherapy. However, some realistic problems need to be considered in the practice: can the hospital make a profit after purchasing the MRI equipment because the cost of MRI equipment is usually high? How long can it be profitable? This paper attempts to focus on these questions. Firstly, we used a 3.0T superconducting MAGNETIC resonance scanner (Discovery 750), eight-channel phased array coil, plus respiratory gating. All patients were subjected to a general MRI scan: axial T2PROPELLER (TR6300ms, TE75ms, layer thickness 5mm, layer spacing 1mm, FOV40cm), Scanning time: 2min15s; DWI (B =800s/ mm2, TR5700ms, TE50ms, layer thickness 5mm, layer spacing 2mm, FOV40cm), Scan time 50S. Then scanned for DCE-MRI: first sweep 5 turn Angle of the Flip angle 3, 6, 9, 12, 15, scanning sequence for BHAxLAVA -Flex -3, 6, 9, 12, 15, scanning parameters for TR3.6 ms, TE1.7 ms, 5 mm, with a thick layer of layer 1 mm spacing, FOV40cm, each sequence scan time is 6s, then dynamic contrast enhancement scan sequence BHAxLAVA -Flex -12 + C, scanning parameters for TR3.6 ms, TE1.7 ms, 5 mm, with a thick layer of layer spacing of 1 mm, FOV40cm, before injection of contrast agent, the first phase was straightforward scanning, followed by high pressure injection of gadolinium diamine contrast agent (0.1mmol/kg) at an injection rate of 2ml/s, and injection of 0.9% normal saline at the same rate of 20ml, a total of 50 scanning periods, 6s per phase, for a total of 5min. All patients were given routine therapy after surgery 5 and reliable tumor evaluation criteria (RECIST) were used to evaluate the efficacy. Secondly, we got five turn Angle and dynamic contrast-enhanced image import OK software. ROI was delineated at the same level for each patient before and after surgery, avoiding necrotic cystic changes and normal blood vessels, and four quantitative parameters were calculated: Ktrans (volume transfer constant), Kep(interstitial -plasma rate constant), Ve(extracellular space volume fraction), and Vp(plasma volume fraction). Finally, based on the annual cash flow of MRI, the cost of MRI is analyzed by calculating the net present value. 6 After one month of treatment, the DCE-MRI images of 11 patients showed that the substantial part of the tumor's diameter decreased by more than 30%, indicating that the treatment was effective. The seven patients belonged to SD or PD, that is, the invalid group and the change of the red area on the false-color map was not noticeable, or the range was more extensive than before. In the influential group, Ktrans, Kep, Ve, and Vp were all decreased compared with those before treatment, and the changes in Ktrans, Kep, and Ve were statistically significant (P=0.002, P=0.01, P=0.036), while the difference in Vp was not statistically significant (P=0.084). Postoperative Ktrans and Vp of the influential group and the non-effective group showed statistically significant differences (P=0.001, P=0.036), corresponding AUC (area under the curve) were 1 and 0.818, sensitivity 100% and 85.7%, specificity 100%, and 72.7%, as shown in Table-I And then, taking Guang' an District People's Hospital as an exam ple, the present paper conducts the cost-benefit analysis with the utilization of net present value (NPV). The annual net present value of MRI is about two million RMB. The total investment income of MRI in 2001 and 2002 reached 75% of the investment cost of the equipment. In the third year, positive cash inflow can be realized. Through the analysis of 5 -year complete data of MRI in hospital by year, through the study of cost benefit development trend, it shows that with the operation of MRI, its economic benefits increase year by year. The NPV analysis results showed that the hospital could achieve profit and loss balance in the third year after purchasing MRI equipment and then gradually obtain positive cash inflow. to the two-compartment hemodynamic model proposed in the literature, 7 tumor microcirculation characteristics, such as vascular size, distribution, permeability, 8-10 etc. were evaluated using quantitative methods. Four parameters, Ktrans, Kep, Ve, and Vp, were obtained by fitting calculation. The difference in Ktrans and Vp changes in the effective group and the ineffective group after treatment was significant. Among the four values, Ktrans had the highest sensitivity and specificity, indicating that Ktrans was used to evaluate tumor blood perfusion and predict the therapeutic effect, which was consistent with most scholars. 11, 12 The advantages of using dynamic contrastive enhanced MAGNETIC resonance quantitative parameters to evaluate the efficacy of lung cancer are as follows: first, morphological changes of the lesions and the supply of tumor microvessels can be observed at the same time to obtain rich diagnostic information, and the evaluation method is more accurate and objective. 13 Second, this examination has no radiation effect and is more suitable for long-term follow-up reviews than CT and other examination methods. Third, the examination cost is moderate, easy to be accepted by patients. 14 These results are consistence with several previous studies, for example, Zheng et al. 15 CONCLUSIONS DCE-MRI can effectively evaluate the curative effect of BACE treatment in lung cancer patients, which is objective, accurate, and non-invasive, and provides a new reference basis for clinical adjustment of the treatment plan. However, large sample data support and long-term follow-up indepth study are still needed. And the NPV analysis results showed that the hospital could achieve profit and loss balance in the third year after purchasing MRI equipment and then gradually obtain positive cash inflow and the net cash inflow in each year is increasing continuously. Tumour auto-contouring on 2d cine MRI for locally advanced lung cancer: A comparative study Assessment of brain injury using portable, low-field magnetic resonance imaging at the bedside of critically ill patients Lung cancer screening with MRI: results of the first screening round Abbreviated magnetic resonance imaging (MRI) for breast cancer screening: rationale, concept, and transfer to clinical practice Inter and intra observer agreement of ADC measurements of lung cancer in free breathing, breath-hold and respiratory triggered diffusion-weighted MRI Could new reconstruction CT techniques challenge MRI for the detection of brain metastases in the context of initial lung cancer staging The expected net present value of developing weight management drugs in the context of drug safety litigation A closed-form, aftertax, net present value solution to the mortgage refinancing decision Dosimetric evaluation of synthetic CT for magnetic resonance-only based radiotherapy planning of lung cancer Ambiguous genitalia: An overview of 7 years-experience at the Children's Hospital& Institute of Child Health Magnetic resonance imaging and positron emission tomography in anti-NMDA receptor encephalitis: A systematic review Comparison of application values of CT and MRI in the diagnosis of early lacunar infarction Outcomes of cardiovascular magnetic resonance imaging in patients recently recovered from coronavirus disease 2019 (COVID-19) Mini titanium plates; hearkening the end of non-rigid cranial bone flap fixation The prenatal diagnosis and classification of cleft palate: The role and value of magnetic resonance imaging We are immensely grateful to Guang'an District People's Hospital for its help in data collection. Funding: None. YC: Conceived, designed and did statistical analysis & editing of manuscript. HMZ: Did data collection and manuscript writing. QJJ: Takes the responsibility and is accountable for all aspects of the work in ensuring that questions related to the accuracy or integrity of any part of the work are appropriately investigated and resolved.