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Peer-reviewed veterinary case report

Effects of oral niacin on cholesterol and thyroid in adult dogs

By Derakhshandeh, Nooshin et al.·Published in BMC veterinary research·2025·Department of Clinical Sciences·View original on PubMed

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Original publication title: Oral nicotinic acid administration effect on lipids, thyroid hormones, and oxidative stress in intact adult dogs.

Species:
dog
Canine obesityAppetite & weightDogs

Plain-English summary

A group of seven healthy adult dogs was given a daily dose of nicotinic acid (a form of Vitamin B3) for 42 days to see how it affected their cholesterol and overall health. The dogs showed an increase in good cholesterol (HDL) and a decrease in bad cholesterol (LDL), which is beneficial for their heart health. Additionally, their total antioxidant levels improved, indicating better protection against oxidative stress. Overall, nicotinic acid appeared to help improve the dogs' lipid profiles and antioxidant capacity, which could be helpful for managing obesity-related health issues.

People also search for: dog high cholesterol treatment · Vitamin B3 for dogs · improving dog heart health

Abstract

BACKGROUND: Nicotinic acid (niacin, Vitamin B3) is one of the most effective medicines for improving high-density lipoprotein concentrations. Obesity and related diseases are life-threatening to dogs. This study investigated the niacin effect on triglyceride, cholesterol, lipoproteins, thyroid hormones, oxidative stress, and lipid peroxidation in intact adult dogs. Blood samples were taken from seven healthy, intact adult dogs as a control group (day 0). Then, the animals received 1000 mg/dog of oral nicotinic acid tab daily for 42 days, and blood sampling was performed on days 14, 28, 42, and 56. RESULT: The results showed an increasing trend in high-density lipoprotein (HDL) concentration. The highest HDL concentration (138.85 ± 43.72 mg/dl) was related to day 56; the HDL level followed a statistically significant increase between day 14 and 56. Unlike HDL, there was a decreasing trend in low-density lipoprotein (LDL) concentration. The lowest LDL concentration (21.85 ± 18.60 mg/dl) was related to day 56. The concentration of apolipoprotein A-I (apoA1) was significantly increased during the study. The highest concentration of apoA1 (1.66 ± 0.06 g/l) was on day 42. There was a significant increase in apoA1 concentrations between days 0 and 14, 42, and 56. The apoA1 was significantly increased between days 14 and 42 and 56. The apoA1 followed a statistically significant increase between days 28 and 42. Changes in thyroid hormone levels did not show any constant increasing or decreasing trend. On day 14, a decreasing trend in the concentrations of TT4, FT4, and T3 was observed. However, an increasing trend was detected in the concentrations of TT4, FT4, and T3 on days 28 and 42. However, the increase in the concentrations of TT4 and FT4 was less than that on day 0. After treatment (day 56), a decreasing trend was observed in thyroid hormone concentrations. The negative correlation was detected between apoA1 and triiodothyronine (T3), total thyroxine T4 (TT4)), and free T4 (FT4) concentrations on day 42. Furthermore, a significant negative relationship was observed between HDL and T4 on day 42. However, the relationship between triglyceride and T3 was statistically positive on day 14. There was an increasing trend in serum total antioxidant capacity (TAC). The highest TAC concentration (3.83 ± 0.62 µmol /l) was on day 56; however, the malondialdehyde (MDA) concentration was decreased during the study. The total antioxidant level followed a statistically significant increase between days 0 and 56 compared to days 14 and 42. CONCLUSION: The study demonstrated the efficacy of nicotinic acid in improving serum HDL, apoA1, and TAC, as well as decreasing serum MDA and LDL concentrations.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/40038732/