Abstract
Likewise other stress response noise stress is also affects the homeostasis of the biological systems and produce stress response in the form of Corticosterone to prevent the damage but if the exposure is longer with higher magnitude it may disrupt the robust ability of the homeostasis and could produce the damage to the biological systems. The goal of our study was to see how five different noise intensities affected stomach tissue damage. 42 healthy rats were divided into five different stress exposure group, normal control (NC) and sham control (SC) groups. Noise stress exposure was delivered for 1 hour per day continued for 30 days in all five noise exposed groups by specially designed noise chamber whereas sham control group of animals kept in noise chamber for 1 hour per day continued for 30 days without noise stress exposure and control group of animals neither exposed to noise stress of any intensities and nor kept in noise chamber without noise but remain in the same experimental room in their homecage for 30 days respectively. Results of the study showed that animals exposed to 60 and 80 dB noise give habituated and not significant Corticosterone, Gastrin and Endothelin-1 responses compared to NC and SC groups while animals exposed to 100, 120 and 140 dB had significantly higher Corticosterone, Gastrin and Endothelin-1 response and also chronic gastric damage was observed compared to later two noise exposed groups respectively. Study concluded that not only higher but also lower noise intensities also initiated the gastric damage even after the adaptation.
Highlights
The HPA axis is a major hormone system that is constantly activated in response to stress
A & B), the CORT concentration was significantly higher in 120 and 140 dB noise exposed groups when compared to 100 dB noise exposed group on 1st day (Fig. 1 A) while there was no any statistical differences observed in CORT concentration in between 100 and 120 dB noise exposed group and in contrast the CORT concentration was significantly higher in 140 dB noise exposed group when compared to 100 dB noise exposed group on 15th days (Fig. 1 B) respectively, no any significant differences noted in CORT concentration in between 120 and 140 dB noise exposed groups on 1st day (Fig. 1 A) respectively
On 30th day, the CORT concentration observed was not significant (p>0.05) in 60, 80, 120 and 140 dB noise exposed groups when compared to normal control (NC) and Sham control (SC), whereas 100 dB noise exposed group had significantly (p0.05) in CORT concentration were observed between 60 versus 80, 100, 120 and 140 dB; 80 versus 100, 120 and 140 dB and 120 versus 140 dB noise exposed groups (Fig. 1 C) respectively
Summary
The HPA axis is a major hormone system that is constantly activated in response to stress. Noise exposure causes a variety of health issues, including deafness, poor sleep, and behavioral decline, as well as altering intellectual function. It causes coronary heart disease, hypertension, higher death risk, significant psychiatric effects, headache, anxiousness and vomiting etc [3, 4]. It has been documented that noise-exposed animals and humans both have gastric lesions [7, 8] Gastrointestinal complications such as peptic ulcers, gastrointestinal motility disorder (GIMD) and gastritis are the major issues reported after the exposure with intense (high) levels of noise in populations [9, 10]. Road noise (traffic) increased both basal and induced stomach acid output [20]
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