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Showing 3 results for Meshkat
BCG: the only available vaccine against tuberculosis: review article
Roghayeh Teimourpour , Zahra Meshkat , Mohsen Arzanlou , Hadi Peeridogaheh , Aida Gholoobi ,
Volume 74, Issue 10 (January 2017)
Abstract

Background: Despite advances in the vaccinology and chemotherapy in the past century, tuberculosis is still responsible for two million deaths every year. Emergence of multi-drug resistant strain and coinfection of TB-HIV make it a serious concern. Treatment and control of tuberculosis is a great health burden in every community. Active tuberculosis in children has very severe consequences especially those who are under 5-years-old, therefore vaccine indication should be taken. Bacille Calmette-Guérin (BCG) is a live attenuated strain of Mycobacterium bovis that has been used for providing immunity or protection against tuberculosis (TB). In addition, BCG provides relative protection against leprosy and Buruli ulcer, it also can be used for treatment of bladder cancer. BCG is the most widely administered vaccine around the world. It has been given to over three billion individuals over the past decades. At first it was developed in 1908 at the Pasteur Institute in Lille by Albert Calmette and Camille Guérin. In fact BCG is a strain of Mycobacterium bovis that bear deletion in its genome following too long subculture in special media. Deletion in region of deletion 1 (RD1), a specific region of Mycobacterium bovis genome, has decreased pathogenicity of BCG strain. Following culture of BCG on different media since 1921 make genetic variation in the BCG strains that have specific characteristics. BCG should begin given to only immune-competent individuals and should not be administered to immunocompromised people. This vaccine is not effective in people formerly infected or sensitized with environmental mycobacteria. Previous meta-analysis studies indicate that BCG has variable range of protection from 0 to 80 percent against pulmonary TB, but is very effective against severe disseminated forms such as meningitis and miliary form of TB. Despite many research and develop new generation vaccine against TB, BCG vaccine still remains as the only effective vaccine because many efforts to replace it with better ones were unsuccessful.


Application of bacterial shuttle vectors in designing new vaccines against infectious diseases: brief report
Kobra Salimiyan Rizi , Ehsan Aryan , Hamed Gouklani , Zahra Meshkat ,
Volume 76, Issue 9 (December 2018)
Abstract
Background: Today, several vaccines have been developed to prevent infectious diseases. The older first-generation vaccines may have many problems. In this regard, genetic engineering plays an important role using tools such as shuttle vectors to develop recombinant DNA vaccines that usually include plasmid constructed so that can propagate in two different host species. The present study reviews a variety of shuttle vectors, their structures, productions, pathogenicity and more importantly their applications in the production of novel vaccines.
Methods: A systematic review was performed based on search in international databases with no time limit including Scopus, PubMed and Google Scholar. All databases were searched using the standard (English and Persian) keywords. Relevant articles from 1996 to 2018 were collected from search of international databases including Science Direct, Google Scholar, and PubMed using keywords such as “shuttle vectors”, “recombinant plasmids” and “DNA vaccines”.
Results: In this study, a total of 31 full texts were used. A shuttle vector typically contains similar components to replication origins and promoters and can propagate in various hosts. Nowadays, they are used in designing and constructing of new vaccines against infectious diseases including tuberculosis and viral hepatitis. Also, Multi-epitope peptide DNA vaccines are effective against some viruses and they are potentially effective against some bacteria such as Helicobacter pylori.
Conclusion: Shuttle vectors as a powerful genetic engineering tool have a high ability to study the mechanisms of pathogenic microorganisms and make new vaccines such as DNA vaccines and multi-epitope vaccines. The hope is that such multi-epitope DNA vaccines might induce immunity against multiple antigenic targets, multiple strain variants, and/or even multiple pathogens. However, the ability of DNA vaccination to co-deliver a series of antibody and/or CD4 T cell epitopes remains largely unexplored.

Vitamin D level in Alzheimer's disease: a case control study
Vajiheh Aghamollaii , Abbas Tafakhori , Shakila Meshkat , Arezoo Shafieyoun , Amir Salimi ,
Volume 78, Issue 1 (April 2020)
Abstract
Background: Alzheimer's disease (AD) is a chronic neurodegenerative disease characterized by a progressive decline of cognitive performance, which has a harmful impact on social activities. AD is the main cause of dementia and loss of functional independence in the elderly. AD is a worldwide concern because of its adverse consequences and expanding prevalence and incidence. Vitamin D is the most common nutritional deficiency worldwide among children and adults. In addition to its classical function of bone metabolism regulation, vitamin D exhibits multiple biological targets mediated by the vitamin D receptor (VDR). Vitamin D is a risk factor for a wide range of diseases and, as a neurosteroid, has an essential role in nervous system development and protection. Vitamin D regulates mechanisms involved in the pathogenesis of AD, including phagocytosis of amyloid-beta plaques, anti-inflammatory action, antioxidant action, regulation of intraneuronal calcium, ischemic zone size reduction, regulation of choline acetyltransferase enzyme and neurotrophic agents. This study aimed to evaluate the association between AD and vitamin D deficiency.
Methods: In this case-control study, 44 Alzheimer’s disease patients (diagnosed based on DSM-IV-TR criteria) compared with 40 patients that had no disease related to vitamin D. This study was performed in the neurology clinics of Roozbeh and Imam Khomeini Hospitals in Tehran, from April to March 2015. The demographic data were collected. After obtaining informed consent, venous blood was taken by clinical staff to measure the level of 25-hydroxyvitamin D3. Statistical analysis was performed on data.
Results: The Mean age was 71.55 years old (69.88 for females and 73.74 for males) in the case group. Mean vitamin D levels were 26.31 ng/ml and 36.41 ng/ml in case and control groups, respectively. Vitamin D level was deficient (< 30 ng/ml) in 75% of patients, of which 23% were severely deficient (< 10 ng/ml). Statistical analysis showed no significant relationship between Alzheimer's disease and vitamin D levels (P=0.057), but when participants categorized into three groups based on serum vitamin D levels (deficient, insufficient, sufficient), we found a significant relationship between them (P=0.019).
Conclusion: Our results confirm the association between vitamin D deficiency and Alzheimer's disease. Vitamin D supplementation should be considered in individuals at risk of Alzheimer's disease to reach sufficient vitamin D level.

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