| With the continuous development of eye care, the people suffered eye health careenvironment. Hospitals need to provide high quality services to patients. Early eye systemcan’t fully meet the needs of the diagnosis of eye diseases, the need to design a new eyehealth care system to adapt to the needs of the majority of patients and hospitals.In1956, ultrasound for eye examinations from this ultrasound school had a pro-found impact on clinical practice of ophthalmology. At present, ultrasonic testing hasbecome a measure of the eye anterior chamber depth, lens thickness, axial length, whichmeans of standard clinical diagnosis of eye disease. Ultrasound systems can be fast, non-invasive real-time, high-definition image of the eye structure, and organization of the eyealmost does not cause significant damage. In addition, ultrasound biometry in intraocularlens implantation in the data of axial length before surgery and corneal surgery, as thedevelopment of surgical planning and to estimate the visual acuity to improve the index.Lack of eye disease diagnosis system, designed and implemented a combination ofan A-mode ultrasound and B-mode ultrasound eye disease diagnosis software system.Traditional ophthalmic diagnostic ultrasound system features a single shortcoming in thesystem image brightness and contrast adjustment, pseudo-color processing, distance andarea measurement, diagnostic report automated printing function. With these capabilities,the diagnosis can be better, quick of eye disease diagnosis, and automatically generate thecorresponding report. Organizational characteristics parameters of the eye, a data filtermodule, and use the mean, variance, and other indicators of the reliability of the filtereddata, to assess the accuracy of, and provide a more reliable basis for the diagnosis of eyediseases. |
PDF Full Text Request