Exploring the Relationship between Bowel Microbiota and Impaired Glucose Tolerance
Journal of Pharmaceutical Research International • 2022
معلومات البحث
المؤلفون
Attia Ahmed Attia a*, Alaa Elmetwalli b
and Jayda G. Eldiasty c
الكلمات المفتاحية
Microbiota; type 2 DM; impaired glucose tolerance.
Microbiota; type 2 DM; impaired glucose tolerance.
Microbiota; type 2 DM; impaired glucose tolerance.
Microbiota; type 2 DM; impaired glucose tolerance
المجلة العلمية
Journal of Pharmaceutical Research International
الناشر
Not Available
المجلد
34
العدد
Not Available
الصفحات
54-59
publication.type
International
رابط البحث
Open Link
المواد المرفقة
Not Available
الملخص
Background and Aim: Because of the large number of genes found in the gut microbiome, it has
recently been determined that numerous human microorganisms have significant implications for
human health.
Aim: The significance of gut bacteria in the development of T2DM was investigated in this study.
Materials and Methods: Microbial species were extracted from fecal materials; they were
identified and quantified using genomic spectrophotometric equipment, and certain biochemical
parameters for Diabetes were quantified.
Result: We observed a concentration of firmicutes, Bacteroides, and proteobacteria, with the
Escherichia coli population predominating. Biochemical parameters reveal a several-fold raised
value for some biomarkers in T2DM. In a paired sample test results gave significant differences for
all tested pairs.
Conclusion: Microbiomes can affect the gut environment and trigger alterations that embolden the
development of T2DM, according to study findings.
recently been determined that numerous human microorganisms have significant implications for
human health.
Aim: The significance of gut bacteria in the development of T2DM was investigated in this study.
Materials and Methods: Microbial species were extracted from fecal materials; they were
identified and quantified using genomic spectrophotometric equipment, and certain biochemical
parameters for Diabetes were quantified.
Result: We observed a concentration of firmicutes, Bacteroides, and proteobacteria, with the
Escherichia coli population predominating. Biochemical parameters reveal a several-fold raised
value for some biomarkers in T2DM. In a paired sample test results gave significant differences for
all tested pairs.
Conclusion: Microbiomes can affect the gut environment and trigger alterations that embolden the
development of T2DM, according to study findings.
أعضاء هيئة التدريس - جامعة بنها