Introduction
The conceptualized ideas around the emergence of 3D imaging to Kidney Patients has granted researchers more effective ways of screening kidney patients with the aim conducting diagnosis and treatment (Bernhard et al., 2016). It is imperative to note that, by elevating the screening of the kidney patients by the electronic transmission microscope using a beam of electrons to the computer screening using the 3D imaging render effective diagnosis to the kidney patients within the shortest span of time. The computer 3D reconstruction design is accurate; it is less time consuming, require little operators as well as fewer dependants in the general application (Bernhard et al., 2016).
Significantly, some of the creative commercial implications of the 3D screening design have the needed potential to expedite the diagnosis process(Haas et al., 2013). I dearly, early diagnosis will help save the diabetic patients who in the long run will slow down the progression of the disease. Unlike the 2D imaging traditionally used, the 3D imaging design and software does illuminate up to 50 sections hence effective diagnosis (Haas et al., 2013).
The 3D diagnosis design has poised huge benefits in the entire medical research as well the ailing diabetic patients with kidney complication. It is worth acknowledging that fact that, the 3D which has the ideal capacity to project up to 50 sections is vastly employed during earlier diagnosis and treatment (Haas et al., 2013). On the same account, the 3D imaging which relies extensively on the software application can also be hazardous to the public due to lack of the negated techniques in the computer application (Ciatto et al., 2013). Similarly, since the entire 3D design is in the advanced stages of implementation, the minor discrepancies which might be registered can be of harm to the kidney patients. Notably, the 3D seems to be relatively insensitive to the slow flow and saturation effects that limit maximum slab thickness of each acquisition which affects all slices rendering the entire study interpretable(Ciatto et al., 2013).
As part of the recommendation, the 3D imaging techniques ought to be vastly embraced in a bid to help curb the increasing cases of chronic kidney complication. Notably, since the illumination by the 3D imaging can view up to 50 sections, it is the most developed technology worth embracing in the modern field of medicine.
References
Bernhard, J. C., Isotani, S., Matsunami, T., Duddalwar, V., Hung, A. J., Suer, E., ... & Hu, B. (2016). Personalized 3D printed model of kidney and tumour anatomy: a useful tool for patient education. World journal of urology, 34(3), 337-345.
Ciatto, S., Houssami, N., Bernardi, D., Caumo, F., Pellegrini, M., Brunelli, S., ... & Montemezzi, S. (2013). Integration of 3D digital mammography with tomosynthesis for population breast-cancer screening (STORM): a prospective comparison study. The lancet oncology, 14(7), 583-589.
Haas, B. M., Kalra, V., Geisel, J., Raghu, M., Durand, M., & Philpotts, L. E. (2013). Comparison of tom synthesis plus digital mammography and digital mammography alone for breast cancer screening. Radiology, 269(3), 694-700.
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