SIMULATION IN MEMS OF THE STATUS OF SPECIFIC GRAVITY OF URINE AND ITS CORRELATION IN DATA MINING

Authors

  • Basak T K Director, Krishna Engineering College, Mohan Nagar, Ghaziabad. Uttar Pradesh, India. - 201007
  • T Ramanujam Department of Electronics and Communication Engineering, Krishna Engineering College, Mohan Nagar, Ghaziabad. Uttar Pradesh, India. - 201007
  • Arpita Gupta Department of Electronics and Communication Engineering, Krishna Engineering College, Mohan Nagar, Ghaziabad. Uttar Pradesh, India. - 201007
  • Poonam Goyal Department of Electronics and Communication Engineering, Krishna Engineering College, Mohan Nagar, Ghaziabad. Uttar Pradesh, India. - 201007

Keywords:

Simulation of MEMS, Analysis of Specific Gravity of Urine, Renal Diseases, Data Mining

Abstract

The status of specific gravity of urine in respect of parenchymal lesion involved in bacterial infection is of great medical importance for the treatment of the subject. The conclusion of the doctor is based on the accurate results in respect of the status of the specific gravity of urine. Mems is a effective and accurate tool for the measurement of the specific gravity of the liquid and thus the simulated results of the MEMS is of importance in respect to the diseases like nephropathy and parenchymal lesion. The trend of the diseases can be correlated with the simulated output for which classification is done in the data mining software DTREG for helping the physicians so that they can prescribe the treatment of the subject in a precise manner.

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References

Hein Van Poppel (2000), “Nephron Sparing Surgery in Renal Cell Carcinoma”, Clinical Urology, Vol. 26(4), 342-353.

Leiinon E J, Lcmann J and Litzow J R (1966), “The Effects of Diet and Stool Composition on the Net Exte Acid Balance of Normal Subjects”, I. Clin. Invest, Vol. 45, 1601-1607.

Burton R F Acid and Bose Exretion (1980), “Assessment Krelationships To Diet 81 Urine Composition”,Comp. Biochemistry, Physiol, Vol.66a, 371- 375.

Sparks D, Massoud-Ansari, Straayer M, Smith R, Schneider R, Cripe J, Zhang Y, Meng G (2002) “A Density / Specific Gravity Meter Based on Silicon Microtube Technology”, Proceedings Sensors Expo, Fall 2002, Boston, MA 2002, 171-176.

Bergamo F and Dikstein S (1955). “The Relationship Behveen Spectral Shifts and Structural Changes in Uric Acids and Related Compounds” J. Ain Chem. Soc. Vol 77,691-696.

Jorgeiisen K (1957), “Micrometric Determination of the Net Excretion of Acidbase in Urine”. Scand. I. clin-lab. Invest. Vol 9,287-291

Albright F and Bauer W (1929), “The Action of Sodium chloride, Ammonium Chloride, And Sodium Bicarbonate 181. J .clin. Invest. Vol. 7, 465-486.

Rohbins S L, Kumar V (1987) “Basic Pathology”, The Kidney and Its Collecting System, edited by Cotran RS, Philadelphia, W.B. Saunders,4th ed, 457–491

Tenenbaum J B, De Silva V and Langford J C, “ A Global Geometric Framework for Dimensionality Reduction” Vol.290(no.5500)2319-2323,

Basak TK, Ramanujam T, Cyrilraj V, Rahul Dayal, Arpita Gupta, Prachi Mohan Kulshrestha and Poonam Goyal (2008) “Measurement Of Specific Gravity Of Urine Using MEMS And Data Mining”. VCAN Chennai

Tapas K Basak, Suman Halder, Madona Kumar, Renu Sharma and Bijoylaxmi Midya(2005) “A Topological Model Of Biofeedback Basedon Catecholamine Interactions”. Theoretical Biology And Medical Modelling, 2:11

Paul S Uster and David W Deamer, (1985). “pH – Dependent Fusion Of Liposomes Using Titrahle Polycatioiis”, J. Am..Chem. Soc. Vol 24,1,1985

Nicolas Demaurex (2002). “pH Homeostasis of Cellular Organelles”. News in Physiological Sciences, Vol. 17, No. 1, 1-5

Rivera F, Vazmediano C, Gonzalez Lopez L, Carrano A, and Blanco J (1985), “Subacute renal failure in diabetic nephropathy due to endocapillary glomerulonephritis and cholesterol embolization” Journal of nephrology Vol 21(4),615-620

Lawton JM, Conway LT, Crosson JT, Smith CL, Abraham (1985), “Acute oxalate nephropathy after massive as ascorbic acid administration” Arch Intern Med,145(5):950-1

Basak T K (1996), “pH dependent transduction in renal function regulation”, 18th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, Amsterdam.

Basak T K, Ramanujam T, Cyrilraj V, Gunshekharan Asha Khanna G, Deepali Garg, Poonam Goyal and Arpita Gupta (2009 ), “ pH Homeostasis of a Biosensor in Renal Function Regulation Linked with UTI” Vol. 105, (6), 127-134.

Basak T K (1991), “Entropy Transduction on Photoinduction”, Proceedings of the 13th Annual International Conference, IEEE (EMBS), part –4/5, 1534-1535.

Betz A, Hofsteangc J and Kr stonc S R, (1992), “pH Dependence of the interaction of hirudin with thrombin”, .I. Am.chem. Society (Bio-chemistry) Vol .31, (4), 1168-1172.

Basak T K and Islam R (1993), “Role of Scnwry Hormones in Estimation of Blood Pressure Transduction”’, Proceedings of 15th Annual International Conference, IEEE (EMBS), Vol 3 .

Basak T K, and Dutla J(1994), “pH Dependence Of The Interactions In Blood Pressure Transduction” Proceedings Of The 16th Annual International Conference Of IEEE (EMBS), Vol.1 .

Pascal Houillier, Pascale Borensztein, Maurice Bichara, Michel Paillard, and Alian Prigent (1992), “Chronic Neutral Phosphate Supplementation Induces Sustained, Renal Metabolic Alkalosis”. Kidney International, Vol .41, 1182-1191.

J. A. Costa and A. O. Hero, (2001) “Classification Constrained Dimensionality Reduction”. In IEEE International Conference on Accoustic Speech, and Signal Processing, volume 5, 1077-1080.

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Published

2009-12-01

Issue

Vol. 4 No. 4 (2009): December 2009

Section

Articles

How to Cite

[1]
“ SIMULATION IN MEMS OF THE STATUS OF SPECIFIC GRAVITY OF URINE AND ITS CORRELATION IN DATA MINING”, JME, vol. 4, no. 4, pp. 293–297, Dec. 2009, Accessed: Oct. 16, 2024. [Online]. Available: https://smenec.org/index.php/1/article/view/578

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