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OBJECTIVE: The study aimed to study the association of hypomagnesemia with diabetic complications in type 2 diabetics. MATERIALS AND METHOD: This cross-sectional study, conducted at a Ghurki Trust Teaching Hospital, spanned from January to June 2023 and included 100 randomly selected diabetic patients aged 30-70. With institutional board approval and informed consent, the study focused on assessing hypomagnesemia, using a standard level of below 1.6 mg/dL, ensuring participant confidentiality and privacy. Data collected through physical assessments were analyzed using IBM SPSS Statistics for Windows, Version 24.0 (Released 2016; IBM Corp., Armonk, New York, United States), including descriptive statistics, analysis of variance (ANOVA), and paired t-test. RESULTS: A total of 100 diabetic admitted patients were randomly selected for the study ages from 30 to 70 years irrespective of their gender. The mean age of the participants was 53.86±9.74 years. The mean HbA1c of the participants was 8.7±2.32. Forty-eight percent of them had HbA1c less than 8, while 52% had greater than 8 HbA1c. The mean HbA1c in the hypomagnesemia group was 10.8±1.98, while in the normomagnesemia group, it was 8.9±2.2. There were 58.97% of foot ulcers in Group 1, while in Group 2, there were 31.14%. Around 38.46% and 14.75% had neuropathy in Groups 1 and 2, respectively. Nephropathy in Group 1 was 28.20%, while in Group 2, it was 11.47%. Around 69.23% of Group 1 had retinopathy and 37.70% had retinopathy in Group 2. Hypertension was 23.07% in Group 1 and 37.70% in Group 2; moreover, 7.69% and 8.19% had coronary diseases in Groups 1 and 2 accordingly. CONCLUSION: The current study concluded that hypomagnesemia was found to have an association with diabetic complications like neuropathy, nephropathy, foot ulcers, and poor glycemic control as evidenced by HbA1c.
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In this study, the functional metabolites of Moringa oleifera (MO) were screened to evaluate their possible role in accelerated functional retrieval after peripheral nerve injury (PNI). MO leaves were used for extract preparation using solvents of different polarities. Each dry extract was uniformly mixed in rodents' chow and supplemented daily at a dose rate of 2 g/kg body weight from the day of nerve crush until the completion of the trial. The sciatic functional index (SFI) and muscle grip strength were performed to assess the recovery of motor functions, whereas the hotplate test was performed to measure the regain of sensory functions. An optimal level of oxidative stress and a controlled glycemic level mediates a number of physio-biochemical pathways for the smooth progression of the regeneration process. Therefore, total oxidant status (TOS), total antioxidant capacity (TAC) and glycemic levels were analyzed in metabolite-enriched extract-treated groups compared to the control. The supplementation of polar extracts demonstrated a significantly high potential to induce the retrieval of sensory and motor functions. Further, they were highly effective in controlling oxidative stress, facilitating accelerated nerve generation. This study has highlighted MO as a sustainable source of nutritive metabolites and a valuable target for drug development.
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The individual application of pure and active compounds such as methionine may help to address water scarcity issues without compromising the yield of wheat. As organic plant growth stimulants, amino acids are popularly used to promote the productivity of crops. However, the influence of the exogenous application of methionine in wheat remains elusive. The present investigation was planned in order to understand the impact of methionine in wheat under drought stress. Two wheat genotypes were allowed to grow with 100% field capacity (FC) up to the three-leaf stage. Twenty-five-day-old seedlings of two wheat genotypes, Galaxy-13 and Johar-16, were subjected to 40% FC, denoted as water deficit-stress (D), along with 100% FC, called control (C), with and without L-methionine (Met; 4 mM) foliar treatment. Water deficit significantly reduced shoot length, shoot fresh and dry weights, seed yield, photosynthetic, gas exchange attributes except for transpiration rate (E), and shoot mineral ions (potassium, calcium, and phosphorus) in both genotypes. A significant increase was recorded in superoxide dismutase (SOD), catalase (CAT), hydrogen peroxide (H2O2), malondialdehyde (MDA), and sodium ions (Na+) due to water deficiency. However, foliar application of Met substantially improved the studied growth, photosynthetic, and gas exchange attributes with water deficit conditions in both genotypes. The activities of SOD, POD, and CAT were further enhanced under stress with Met application. Met improved potassium (K), calcium (Ca2+), and phosphorus (P) content. In a nutshell, the foliar application of Met effectively amended water deficit stress tolerance by reducing MDA and H2O2 content under water deficit conditions in wheat plants. Thus, we are able to deduce a positive association between Met-induced improved growth attributes and drought tolerance.