pH Homeostasis of a Biosensor in Renal Function Regulation Linked with UTI

pH Homeostasis of a Biosensor in Renal Function Regulation Linked with UTI

The homeostasis of chloropromazine has tremendous effect on the inhibition of gram positive bacteria Acanthamoeba. The growth of this bacterium is responsible for urinary Tract Infection (UTI) particularly for the women all over the world. The present paper has focused on the status of this bacteri...

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Main Authors: T. K. Basak, T. Ramanujam, V. Cyrilraj, G. Gunshekharan, Asha Khanna, Deepali Garg, Poonam Goyal, Arpita Gupta
Format: Article
Language:English
Published: IFSA Publishing, S.L. 2009-06-01
Series:Sensors & Transducers
Subjects:
Chloropromazine
UTI
pH homeostasis
Acanthamoeba
Regression model
Online Access:http://www.sensorsportal.com/HTML/DIGEST/june_09/P_452.pdf
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spelling doaj-8504bd19448e48bcac140f531f11effb2020-11-24T22:41:36ZengIFSA Publishing, S.L.Sensors & Transducers2306-85151726-54792009-06-011056127134pH Homeostasis of a Biosensor in Renal Function Regulation Linked with UTIT. K. Basak0T. Ramanujam1V. Cyrilraj2G. Gunshekharan3Asha Khanna4Deepali Garg5Poonam Goyal6Arpita Gupta7 Krishna Engineering College, Ghaziabad Krishna Engineering College, Ghaziabad Krishna Engineering College, Ghaziabad Krishna Engineering College, GhaziabadIndian Institute of forest Management, Bhopal Krishna Engineering College, Ghaziabad Krishna Engineering College, Ghaziabad Krishna Engineering College, Ghaziabad The homeostasis of chloropromazine has tremendous effect on the inhibition of gram positive bacteria Acanthamoeba. The growth of this bacterium is responsible for urinary Tract Infection (UTI) particularly for the women all over the world. The present paper has focused on the status of this bacteria when chloropromazine is used as a biosensor, during the process of inhalation of Chloropromazine by the subject suffering from UTI. The inhalation of Chloropromazine produces olfactory cyclic nucleotides gate in its channels (CNG). The statistical analysis which is based on the Matlab (7.0) simulation of the output of the model in respect of the pH homeostasis of Acanthamoeba on growth and inhibition shows good correlation in statistical analysis with a regression model of pH homeostasis.http://www.sensorsportal.com/HTML/DIGEST/june_09/P_452.pdfChloropromazineUTIpH homeostasisAcanthamoebaRegression model
collection DOAJ
language English
format Article
sources DOAJ
author T. K. Basak
T. Ramanujam
V. Cyrilraj
G. Gunshekharan
Asha Khanna
Deepali Garg
Poonam Goyal
Arpita Gupta
spellingShingle T. K. Basak
T. Ramanujam
V. Cyrilraj
G. Gunshekharan
Asha Khanna
Deepali Garg
Poonam Goyal
Arpita Gupta
pH Homeostasis of a Biosensor in Renal Function Regulation Linked with UTI
Sensors & Transducers
Chloropromazine
UTI
pH homeostasis
Acanthamoeba
Regression model
author_facet T. K. Basak
T. Ramanujam
V. Cyrilraj
G. Gunshekharan
Asha Khanna
Deepali Garg
Poonam Goyal
Arpita Gupta
author_sort T. K. Basak
title pH Homeostasis of a Biosensor in Renal Function Regulation Linked with UTI
title_short pH Homeostasis of a Biosensor in Renal Function Regulation Linked with UTI
title_full pH Homeostasis of a Biosensor in Renal Function Regulation Linked with UTI
title_fullStr pH Homeostasis of a Biosensor in Renal Function Regulation Linked with UTI
title_full_unstemmed pH Homeostasis of a Biosensor in Renal Function Regulation Linked with UTI
title_sort ph homeostasis of a biosensor in renal function regulation linked with uti
publisher IFSA Publishing, S.L.
series Sensors & Transducers
issn 2306-8515
1726-5479
publishDate 2009-06-01
description The homeostasis of chloropromazine has tremendous effect on the inhibition of gram positive bacteria Acanthamoeba. The growth of this bacterium is responsible for urinary Tract Infection (UTI) particularly for the women all over the world. The present paper has focused on the status of this bacteria when chloropromazine is used as a biosensor, during the process of inhalation of Chloropromazine by the subject suffering from UTI. The inhalation of Chloropromazine produces olfactory cyclic nucleotides gate in its channels (CNG). The statistical analysis which is based on the Matlab (7.0) simulation of the output of the model in respect of the pH homeostasis of Acanthamoeba on growth and inhibition shows good correlation in statistical analysis with a regression model of pH homeostasis.
topic Chloropromazine
UTI
pH homeostasis
Acanthamoeba
Regression model
url http://www.sensorsportal.com/HTML/DIGEST/june_09/P_452.pdf
work_keys_str_mv AT tkbasak phhomeostasisofabiosensorinrenalfunctionregulationlinkedwithuti
AT tramanujam phhomeostasisofabiosensorinrenalfunctionregulationlinkedwithuti
AT vcyrilraj phhomeostasisofabiosensorinrenalfunctionregulationlinkedwithuti
AT ggunshekharan phhomeostasisofabiosensorinrenalfunctionregulationlinkedwithuti
AT ashakhanna phhomeostasisofabiosensorinrenalfunctionregulationlinkedwithuti
AT deepaligarg phhomeostasisofabiosensorinrenalfunctionregulationlinkedwithuti
AT poonamgoyal phhomeostasisofabiosensorinrenalfunctionregulationlinkedwithuti
AT arpitagupta phhomeostasisofabiosensorinrenalfunctionregulationlinkedwithuti
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