UPAYA PEMBUATAN ALAT PENGUKUR TEKANAN DARAH SISTOLIK DAN DIASTOLIK TIKUS SECARA NONINVASIF MELALUI EKOR
Cardiovascular disease remains one of the biggest causes of death in the world, especially in developing countries such as Indonesia. Therefore, research on hypertension will continue to grow especially welcome in Indonesia. On the other hand, Indonesia has vast natural wealth, and now there are...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/54890 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Cardiovascular disease remains one of the biggest causes of death in the world, especially
in developing countries such as Indonesia. Therefore, research on hypertension will
continue to grow especially welcome in Indonesia. On the other hand, Indonesia has vast
natural wealth, and now there are some traditional medicine which is used as an
antihypertensive and are required to be developed even become phytopharmaca (Minister
Regulation No. 760, 1992). Therefore, research on hypertension and antihypertensive
drugs from natural materials will continue to grow in Indonesia. In the research was used
animals to test and instruments needed to determine important parameters such as heart
rate and blood pressure noninvasively. Unfortunately in Indonesia, instrument available is
very limited so it is required to find an alternative that can replace the instrument. This
study aimed to pursue the creating of a simple instrument as an alternative to existing tools
to measure heart rate and blood pressure in animals, especially rats. The instrument
developed in this study consisted of a photoelectric sensor instrument and
sphygmomanometer with a tail cuff method. Photoelectric sensor was developed from the
sensor used in the human finger. The cuff size was modified so it was able to fit for rats
tail. Heart rate and blood pressure in male Sprague-Dawley rats (n = 20) were measured
then compared with existing tools, namely NIBP System ADInstrument®. Then the value
of R
2
was determined to show the relationship of both instruments. For data acquisition the
NI USB 6008® and LabVIEW®2011 Service Pack 1 were used. Pulse signal of the blood
vessel was successfully obtained although it is difficult to distinguish from noise. From the
measurement results of heart rate were obtained the relationship between NIBP System
ADInstrument® and photoelectric instrument with R
2
= 0.6652. While blood pressure can
not be determined because the pulse signal of tail blood vessel was difficult to distinguish
from noise. However, a good signal can be obtained when tested on human finger. The
simple instrument has not been established, but with the tail cuff method, photoelectric
sensor instrument has the potential to be developed further into a simple instrument
noninvasive blood pressure measurement on rats tail.
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