Event Title

The Effect of Exercise on Kidney Salt Excretion in Female Hypertensive Rats

Location

CSU Ballroom

Start Date

2-4-2019 10:00 AM

End Date

2-4-2019 11:30 AM

Student's Major

Biological Sciences

Student's College

Science, Engineering and Technology

Mentor's Name

Penny Knoblich

Mentor's Department

Biological Sciences

Mentor's College

Science, Engineering and Technology

Description

Hypertension, or high blood pressure, affects approximately 33% of the U.S. population. If untreated, hypertension can lead to heart disease, kidney disease, stroke, and other pathologies. A majority contributor to hypertension is the inability of the kidneys to properly eliminate sodium (salt) from the body when blood pressure elevates. This relationship between blood pressure and urinary sodium excretion is known as the pressure-natriuresis curve, which is altered in hypertensive patients. Exercise is commonly recommended as a prevention or treatment for hypertension. Although exercise does lower blood pressure, the exact effect of exercise on the pressure natriuresis curve, is unclear. In this study, female spontaneously hypertensive rats SHR rats were exercised voluntarily from 4 to 12 weeks of age, using an exercise wheel and counter. At 12 weeks of age, the rats were anesthetized, and the urine sodium excretion was determined at different levels of blood pressure, 20 mmHg below the baseline and 30 mmHg above baseline. Urine samples were collected in 15 min intervals and analyzed for sodium content by flame photometer. A pressure-natriuresis curve was generated by graphing the relationship between the excretion of sodium from the urine and the blood pressure. The curve was compared between exercised and sedentary rats and a steeper slope was found in the exercise group. Furthermore, the exercised rats excreted more sodium at any level of blood pressure. This shows that exercise improves the excretion of sodium in the urine, and this may contribute to the blood pressure lowering effects of exercise.

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Apr 2nd, 10:00 AM Apr 2nd, 11:30 AM

The Effect of Exercise on Kidney Salt Excretion in Female Hypertensive Rats

CSU Ballroom

Hypertension, or high blood pressure, affects approximately 33% of the U.S. population. If untreated, hypertension can lead to heart disease, kidney disease, stroke, and other pathologies. A majority contributor to hypertension is the inability of the kidneys to properly eliminate sodium (salt) from the body when blood pressure elevates. This relationship between blood pressure and urinary sodium excretion is known as the pressure-natriuresis curve, which is altered in hypertensive patients. Exercise is commonly recommended as a prevention or treatment for hypertension. Although exercise does lower blood pressure, the exact effect of exercise on the pressure natriuresis curve, is unclear. In this study, female spontaneously hypertensive rats SHR rats were exercised voluntarily from 4 to 12 weeks of age, using an exercise wheel and counter. At 12 weeks of age, the rats were anesthetized, and the urine sodium excretion was determined at different levels of blood pressure, 20 mmHg below the baseline and 30 mmHg above baseline. Urine samples were collected in 15 min intervals and analyzed for sodium content by flame photometer. A pressure-natriuresis curve was generated by graphing the relationship between the excretion of sodium from the urine and the blood pressure. The curve was compared between exercised and sedentary rats and a steeper slope was found in the exercise group. Furthermore, the exercised rats excreted more sodium at any level of blood pressure. This shows that exercise improves the excretion of sodium in the urine, and this may contribute to the blood pressure lowering effects of exercise.

Recommended Citation

Rockenback, Nickolas and Cortney McDonald. "The Effect of Exercise on Kidney Salt Excretion in Female Hypertensive Rats." Undergraduate Research Symposium, Mankato, MN, April 2, 2019.
https://cornerstone.lib.mnsu.edu/urs/2019/poster-session-A/14