Mai El-Sayed Ghoneim scite author profile

BACKGROUND:Diabetes mellitus is a multisystem disease which weakens the human’s immunity. Subsequently, it worsens the sequelae of apical periodontitis by raising a fierce bacterial trait due to the impaired host response.AIM:This study aimed to estimate bacterial reduction after using different irrigation techniques in systemically healthy and diabetic patients with asymptomatic apical periodontitis.MATERIAL AND METHODS:Enterococcus faecalis, Peptostreptococcus micros, and Fusobacterium necleatum bacteria were chosen, as they are the most common and prevailing strains found in periodontitis. Bacterial samples were retrieved from necrotic root canals of systemically healthy and diabetic patients, before and after endodontic cleaning and shaping by using two different irrigation techniques; the conventional one and the EndoVac system. Quantitive polymerase chain reaction (qPCR) was utilised to detect the reduction in the bacterial count.RESULTS:The EndoVac irrigation system was effective in reducing bacteria, especially Peptostreptococcus micros in the diabetic group when compared to conventional irrigation technique with a statistically significant difference.CONCLUSION:The EndoVac can be considered as a promising tool in combination with irrigant solution to defeat the bacterial colonies living in the root canal system. Additional studies ought to be done to improve the means of bacterial clearance mainly in immune-compromised individuals.

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Most Important Cellular Changes Involved in Renal Ischemia Reperfusion Injury and the Consequent Impact on Selected Remote Organs

Khalifa

Ghoneim²

2018

UJPR

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Because of the high rate of baseline oxygen use by renal cells, kidney is highly influenced by obstruction of arterial blood inflow and subsequent shortage of the received oxygen, this condition is known as Ischemic injury. There are many clinical settings associated with unavoidable ischemic state such as kidney transplantation, partial nephrectomy or suprarenal procedures of the aorta. During ischemia many cellular changes occur including vascular congestion and adhesion of inflammatory cells to the endothelium with subsequent infiltration into the kidney tissue. Following ischemia, a phase known as Reperfusion begins and involves a return of blood and oxygen supply to micro vessels. Reperfusion was expected to restore the damage occurred during the ischemic phase, paradoxically, reperfusion leads to more congestion, red cells trapping and excessive generation of reactive oxygen species (ROS), which can oxidatively modify significantly every type of biomolecule, thereby inducing cell dysfunction and induce reperfusion injury. Ischemia reperfusion injury (IRI) is also related to a phenomenon called Remote Organ Injury (ROI) in which the damaging effect induced by I/R is not only restricted to the tissue that undergoing the initial ischemia but also it leads to injury to remote organs such as the liver, lung, gut. ROI usually occurs by the same mechanisms seen in the local injury induced by I/R including the generation of ROS, leukocytes, and inflammatory mediators (e.g; TNF-α). These substances are directly released from the primary injured tissue or indirectly from activated leukocytes or other inflammatory cells causing organ dysfunctions in distant organs.

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Mai El-Sayed Ghoneim

Gastrointestinal and hepatic diseases during the COVID-19 pandemic: Manifestations, mechanism and management

Combination of Sitagliptin and Silymarin ameliorates liver fibrosis induced by carbon tetrachloride in rats

The interrupted cross-talk of inflammatory and oxidative stress trajectories signifies the effect of artesunate against hepatic ischemia/reperfusion-induced inflammasomopathy

The Use of Different Irrigation Techniques to Decrease Bacterial Loads in Healthy and Diabetic Patients with Asymptomatic Apical Periodontitis

Most Important Cellular Changes Involved in Renal Ischemia Reperfusion Injury and the Consequent Impact on Selected Remote Organs

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