Search Results

You are looking at 1 - 3 of 3 items for

  • Author: Florin Horhat x
Clear All Modify Search
Open access

Ovidiu Horea Bedreag, Alexandru Florin Rogobete, Carmen Alina Cradigati, Mirela Sarandan, Radu Nartita, Florin George Horhat, Sonia Elena Popovici, Dorel Sandesc and Marius Papurica

Abstract

The management of the critically ill polytrauma patient is complex due to the multiple complications and biochemical and physiopathological imbalances. This happened due to the direct traumatic injury, or due to the post-traumatic events. One of the most complex physiopathology associated to the multiple traumas is represented by microvascular damage, subsequently responsible for a series of complications induced through the imbalance of the redox status, severe molecular damage, reduction of the oxygen delivery to the cell and tissues, cell and mitochondrial dead, augmentation of the inflammatory response and finally the installation of multiple organ dysfunction syndrome in this type of patients. A gold goal in the intensive care units is represented by the evaluation and intense monitoring of the molecular and physiopathological dysfunctions of the critically ill patients. Recently, it was intensely researched the use of microRNAs as biomarkers for the specific physiopathological dysfunctions. In this paper we wish to present a series of microRNAs that can serve as biomarkers for the evaluation of microvascular damage, as well as for the evaluation of other specific physiopathology for the critically ill polytrauma patient.

Open access

Ioana Mihaiela Ciuca, Liviu Laurentiu Pop, Alexandru Florin Rogobete, Monica Marc, Liviu Athos Tamas and Florin George Horhat

Abstract

Background: Pulmonary infectious inflammation is a major cause of decline in lung function in patients with cystic fibrosis (CF) marked by exacerbations, consequently, slowing evolution of lung disease is a primary aim in CF management. The objective of the study was to analyze the microbiological spectrum from epidemiological point of view in our patients. Methods: An observational, cross-sectional transversal study including fifty-seven patients evaluated the prevalence of CF-related microbes in the study group and their pulmonary status. Results: The most frequent microorganism found in our group, regardless age, was Staphyloccocus aureus, closely followed by Pseudomonas aeruginosa. Bacillus tuberculosis was a rare germ, despite the important frequency in our country. The microbes frequency was different with age groups, thus 3.5% of 1-3 years old children had the methicillin sen sitive Staphylococcus aureus (MSSA) strain, while for the 6-12 years group, Pseudomonas aeruginosa was found in an equal percentage of 14% with MSSA. Pseudomonas prevalence was found in 14.0% of adults and the combined infections were diagnosed in about a fifth of our patients. Conclusions: We concluded that the percentage of respiratory infections with redoubtable microbes is relatively moderate. The presence of underweight among CF patients with severe mutations are risk factor for a worse outcome and measures should be instituted.

Open access

Monica Licker, Roxana Moldovan, Elena Hogea, Delia Muntean, Florin Horhat, Luminița Baditoiu, Alexandru Florin Rogobete, Emil Tîrziu and Csilla Zambori

Abstract

The term biofilm designates an aggregate of microorganisms belonging to one or more species which adhere to various surfaces but also to each another. These microbial communities are included and interconnected within an organic structure known as slime, composed of protein substances, polysaccharides, and DNA.

The Center for Disease prevention and control considers infections with bacteria in biofilms among the 7 most important challenges which must be overcome in order to improve the safety of health services. The risk of microbial biofilm development exists for a long list of medical devices and equipment, as well as in certain diseases such as cystic fibrosis. An aggravating aspect is represented by the almost 1,000 times higher antimicrobial resistance of bacteria growing and multiplying within biofilms. Thus, in case of biofilm-infected medical devices, the resistance to antimicrobial treatments requires the removal of the device which essentially means the failure of the exploratory or therapeutic intervention in question.

The role of microbial biofilms in medical pathology is a subject that raises interest for both researchers and clinicians in order to establish new methods for prevention and treatment of biofilms. This paper is intended as an overview in the management of microbial biofilms, presenting future insights, with technological progress in microscopy, molecular genetics, and genome analysis. Therefore the present paper will focus on describing the mechanisms involved in biofilm development, biofilm related infections, methods of detection and quantification of microbial communities and therapeutical approaches.