Lab Report: Effects of Strenuous Exercise and Desmopressin on Urine Flow and Sodium Concentration

Categories: Biology

Abstract

The human body maintains equilibrium through the careful regulation of various physiological processes, with water balance being of paramount importance. This experiment investigates the regulation of solute concentration, particularly focusing on the effects of strenuous exercise and desmopressin (an anti-diuretic hormone) on urine flow and urine sodium concentration. The hypotheses tested are that vigorous exercise will decrease urine flow and increase urine sodium concentration, while desmopressin will lead to decreased urine flow and increased sodium concentration. Statistical analysis of class data, as well as physiological mechanisms, were employed to evaluate the effects of these treatments.

Introduction

The body must maintain equilibrium to function properly, and one of the most critical substances it regulates is water.

Water's balance is essential for proper bodily function, and solute concentration is meticulously controlled. An abrupt increase in water intake alters the ratio between water and solute, leading to changes in extracellular solute concentration and osmolality. Osmolality is the amount of solute in a kilogram, and it reflects the solute concentration in the extracellular space.

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Excess water must be excreted to maintain a balanced water-solute ratio within the body.

The aim of this practical experiment is to examine the effects of strenuous exercise and desmopressin (an anti-diuretic hormone) on urine flow and urine sodium concentration. The hypotheses tested are as follows: (1) Strenuous exercise will decrease urine flow and increase urine sodium concentration. (2) Desmopressin will decrease urine flow and increase urine sodium concentration.

Effects of Water Loading and Diuresis

After water consumption, both control and test subjects experienced a gradual increase in urine flow, reaching a peak before gradually decreasing.

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In contrast, the subject who received desmopressin exhibited decreased urine flow after hormone administration, followed by a plateau. Statistical analysis using Dunnett’s t-test revealed that urine flow in the treatment subjects was significantly different from that of the control subjects.

The delay in the onset of diuresis after water loading in the control subject can be attributed to the time required for water to be filtered in the body. Water is absorbed from the gut into the extracellular fluid. Osmoreceptors in the posterior pituitary detect changes in water levels through cell stretch and initiate responses that control anti-diuretic hormone (ADH) secretion (Widmaier et al., 2014).

Desmopressin, a synthetic substitute for ADH, decreases urine volume by promoting water reabsorption in the kidneys. This results in decreased diuresis. Strenuous exercise sharply decreases urine flow, leading to more concentrated urine. During exercise, sodium and water are lost through sweat, prompting the kidneys to reabsorb water to prevent dehydration, resulting in more concentrated urine.

Materials and Methods

Materials:

  • Urine collection containers
  • Desmopressin (anti-diuretic hormone)
  • Water
  • Alcohol
  • Statistical software for data analysis

Equipment:

  • Urine flow measurement apparatus
  • Experimental setup for strenuous exercise
  • Pipettes for administering desmopressin
  • Classroom computers for data recording
  • Graphing software for data visualization

Data Analysis

(a) Urine Production (Urine Flow): The rate of urine production (urine flow) was assessed for three procedures: control, desmopressin, and exercise. Statistical analysis using Dunnett’s t-test was employed to evaluate whether the responses after the treatments (desmopressin and exercise) differed from those in the control subjects.

(b) Dehydration Effect: If a control subject was dehydrated at the beginning of the practical class, it would be expected to retain some of the water and exhibit decreased urine excretion compared to a well-hydrated subject.

(c) Effect of Alcohol on Water Diuresis: Alcohol inhibits the pituitary secretion of ADH, which leads to increased water diuresis. Alcohol's mechanism of action on water diuresis involves a decrease in ADH levels, reducing water reabsorption in the kidneys and increasing urine production.

(d) Urine Sodium Concentration: Statistical analysis and examination of class graphs were used to determine differences in urine sodium concentration between control and desmopressin subjects. The relationship between urine flow and urine sodium concentration was explored, revealing an inverse relationship where higher urine flow corresponded to lower sodium concentration.

(e) Sodium Excretion Rate: Statistical analysis and class graphs were utilized to assess differences in the sodium excretion rate between control and desmopressin subjects. The relationship between urine flow and sodium excretion rate was examined, showing no significant correlation between the two variables.

Discussion

The results demonstrate that strenuous exercise and desmopressin have distinct effects on urine flow and sodium concentration. Strenuous exercise leads to decreased urine flow and increased urine concentration. Desmopressin, on the other hand, decreases urine flow and increases sodium concentration.

Dehydration at the beginning of the practical class would lead to water retention and decreased urine excretion in control subjects, as they would aim to conserve water to maintain bodily fluid balance.

Alcohol inhibits the secretion of ADH, reducing water reabsorption in the kidneys and resulting in increased water diuresis, leading to more diluted urine.

Examining the relationship between urine flow and urine sodium concentration revealed an inverse correlation. When urine flow was high, sodium concentration was relatively low, and vice versa. Similarly, there was no strong correlation between urine flow and sodium excretion rate.

Conclusion

In conclusion, this experiment provided valuable insights into the regulation of urine flow and sodium concentration in response to strenuous exercise and desmopressin administration. Strenuous exercise decreased urine flow and increased urine concentration, while desmopressin had the opposite effect. Dehydration at the start of the experiment would have led to water retention, and alcohol inhibited ADH secretion, resulting in increased water diuresis.

Recommendations

For future experiments, it is recommended to further investigate the mechanisms underlying the observed effects and explore additional factors that may influence urine flow and sodium concentration. Additionally, a larger sample size may provide more robust statistical results.

References

  • Widmaier, EP, Raff, H & Strang, KT (2014). Vander’s Human Physiology. The Mechanisms of Body Function. McGraw-Hill, Chapter 14, page 499.
Updated: Dec 29, 2023
Cite this page

Lab Report: Effects of Strenuous Exercise and Desmopressin on Urine Flow and Sodium Concentration. (2016, Mar 25). Retrieved from https://studymoose.com/document/water-diuresis-in-man-practical-report

Lab Report: Effects of Strenuous Exercise and Desmopressin on Urine Flow and Sodium Concentration essay
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