TY - JOUR AU - Egbuonu, Anthony Cemaluk Chinedum AU - Obi, Emmanuel AU - Nwuke, Chinedu P AU - Simon, Cynthia Uchechi AU - Oleghibe, Justina Utodinachi AU - Ezenwafor, Nnaemeka Raymond AU - Chukwu, Ebere Mercy PY - 2019/12/07 Y2 - 2024/03/28 TI - Monosodium Glutamate Plus Artemether-lumefantrine Overdose Altered Malondialdehyde, Total Protein and Albumin Concentration in Rats JF - Advanced Journal of Graduate Research JA - Adv. J. Grad. Res. VL - 7 IS - 1 SE - Graduate Research Articles DO - 10.21467/ajgr.7.1.70-79 UR - https://journals.aijr.org/index.php/ajgr/article/view/2121 SP - 70-79 AB - <p>This study aimed at assessing alterations in malondialdehyde, MDA, total protein and albumin concentration in the serum and liver homogenate of monosodium glutamate (MSG)-challenged rats co-treated with artemether-lumefantrine, AL. Methods involving colourimetric estimation were employed in thirty rats randomly grouped into six (n = 5) and for seven consecutive days, fed feed and water (Group A), AL therapeutic dose (Group B), AL overdose (therapeutic dose × 5) (Group C), MSG (8000 mg/kg body weight) (Group D), AL therapeutic dose plus MSG (Group E) or AL overdose plus MSG (Group F). Total protein concentration (2.64±0.09 g/dL, 2.81±0.14g/dL, respectively) in the liver homogenate of rats exposed to MSG (group D) or MSG plus AL overdose (group F) and malondialdehyde concentration in the liver homogenate of MSG plus AL overdose-fed rats (0.45±0.04 mg/ml) lowered (P&lt;0.05) as against other groups. However, serum albumin concentration in MSG (2.59±0.13 g/dl) or AL overdose plus MSG (3.24±0.12 g/dl) fed rats was higher (P&lt;0.05) compared to the control (2.02±0.04 g/dl). The Total protein: Albumin ratio lowered while the Albumin: total protein ratio increased in rats in MSG, AL overdose plus MSG or AL overdose groups compared with the control. Thus, the apparent MSG plus AL overdose-induced adverse influence on the studied parameters and samples of non-malarial infested rats could be <em>via </em>compromised liver-mediated protein metabolism capacity and bio-functions following possibly enhanced protein-malondialdehyde adduct formation in the rats.</p> ER -