Abstract
Moringa oleifera Lam. tree grows in many tropical and subtropical countries. The seed, leaves, root and flowers of M. oleifera are often used in traditional medicine, while the immature pods, leaves and seed are used as nutrition products in human food. This study carried out proximate analysis for mineral elements assessment in dried M. oleifera leaves. Fresh leaves of M. oleifera lam were plucked from M. oleifera trees in River Nile State (Atbara Town). Analyzed for the mineral element content using Inductively Coupled Plasma-Mass Spectrometry (ICP-MS) and Atomic Absorption Spectrophotometer (AAS). Leaves powder of M. oleifera digested with nitric acid solution before determining concentrations of mineral elements. By using (AAS) mineral elements concentrations decrease in the order: "Ca (585.10ppm) > Mg (117.0ppm) > K (62.39ppm) > Na (24.05ppm) > Fe (22.94ppm) > Zn (1.854ppm) > Mn (1.015ppm) > Cu (0.336ppm) Cr (0.017ppm)" Pb and Ni not detected. By using (ICP) mineral elements concentrations decrease in the order: "Ca (46560ppm) > Mg (14140ppm) > K (12620ppm) > Al (1491ppm) > Fe (1401ppm) > Na (913ppm) > Si (526.00ppm) > Sr (113.30ppm) > Ti (71.65ppm) > Mn (61.69ppm) > Ba (14.78ppm) > Zn (13.76ppm) > Cu (13.43ppm) > Li (7.128ppm) > Mo (4.88ppm) > V (3.342ppm) > Cr (2.086ppm) > Ni (1.919ppm) > Pb (1.547ppm) > Be (0.0207ppm)". Mineral elements content of leaves powder determining using inductively coupled plasma into the microwave digestion of plant tissue in an open vessel. Concentrations of mineral elements decrease in the order: "Ca (54450ppm) > K (16370ppm) > Mg (16250ppm) > Al (1426ppm) > Fe (1402ppm) > Si (1804ppm) >Na (960.6ppm) > Sr (118.3ppm) > Mn (76.52ppm) > Ti (25.95ppm) > Zn (19.21ppm) Ba (17.21ppm) > Cu (10.54ppm) > Pb (6.463ppm) > Mo (5.436ppm) > Li (4.190ppm) > V (3.022ppm) >Cr (2.484ppm) > Ni (2.081) > Be IV (0.0257ppm)". The results showed no difference for mineral elements concentrations by two different methods when using (ICP), but by using (AAS) mineral elements concentrations were less compared to concentrations by using (ICP). On the other hand this study aims to investigate the effects of M. oleifera leaves powder on the blood glucose in humans, and determine suitable quantity of powder to use. The study targeted patients who their blood glucose not lowering by drugs. Eighty three volunteers of diabetic patients were divided into three groups. Three doses 0.25, 0.5, 1.0 g of M. oleifera leaves powder were taken by group 1, 2 and 3, respectively for a month. Blood sugar levels for all patients was determined before and after using M. oleifera leaves powder. Results showed blood sugar levels decreased statistically significant (p
Ahmed, N (2021). Mineral Content Of Moringa Oleifera Leaves And Its Utilization In Controlling Blood Glucose Level In Diabetes Mellitus Patients.. Afribary. Retrieved from https://afribary.com/works/mineral-content-of-moringa-oleifera-leaves-and-its-utilization-in-controlling-blood-glucose-level-in-diabetes-mellitus-patients
Ahmed, Noor "Mineral Content Of Moringa Oleifera Leaves And Its Utilization In Controlling Blood Glucose Level In Diabetes Mellitus Patients." Afribary. Afribary, 20 May. 2021, https://afribary.com/works/mineral-content-of-moringa-oleifera-leaves-and-its-utilization-in-controlling-blood-glucose-level-in-diabetes-mellitus-patients. Accessed 07 Dec. 2024.
Ahmed, Noor . "Mineral Content Of Moringa Oleifera Leaves And Its Utilization In Controlling Blood Glucose Level In Diabetes Mellitus Patients.". Afribary, Afribary, 20 May. 2021. Web. 07 Dec. 2024. < https://afribary.com/works/mineral-content-of-moringa-oleifera-leaves-and-its-utilization-in-controlling-blood-glucose-level-in-diabetes-mellitus-patients >.
Ahmed, Noor . "Mineral Content Of Moringa Oleifera Leaves And Its Utilization In Controlling Blood Glucose Level In Diabetes Mellitus Patients." Afribary (2021). Accessed December 07, 2024. https://afribary.com/works/mineral-content-of-moringa-oleifera-leaves-and-its-utilization-in-controlling-blood-glucose-level-in-diabetes-mellitus-patients