Arnaud Martino Capuzzo scite author profile

Arnaud Martino Capuzzo

3Publications

0Citation Statements Received

150Citation Statements Given

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Hashimoto’s Thyroiditis Autoimmune Disease: Background and Current Status, Update Overview of Biotechnological and Biomedical Fields and Future Trends for 3D Models

Capuzzo¹

2021

AABSc

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Hashimoto thyroiditis, also known as chronic autoimmune thyroiditis or chronic lymphocytic thyroiditis, is an autoimmune illness in which thyroid cells are damaged by immunological mechanisms involving cells and antibodies. Thyroid peroxidase and/or thyroglobulin autoantibodies in the serum are biochemical indicators of the condition, with females having a higher incidence than males and increasing with age. It’s the leading cause of hypothyroidism in affluent countries. Inadequate dietary iodine intake, on the other hand, is the most common cause of hypothyroidism worldwide. The development of antithyroid antibodies that target the thyroid tissue, causing gradual fibrosis, is the pathogenesis of Hashimoto thyroiditis. The diagnosis can be difficult, and as a result, the problem is frequently not detected until late in the disease process. The most prevalent laboratory findings are raised TSH and low thyroxine (T4) levels, as well as enhanced antithyroid peroxidase (anti-TPO) antibodies. The pathogenesis, diagnosis, and management of Hashimoto thyroiditis are discussed in this article.

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Germplasm Conservation

Quazi¹,

Golani²,

Capuzzo³

2021

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With the increase in risk of extinction of various plants, the trend has been shifted to employment of many biotechnological techniques for preservation of genetic resources of plant and is the area of research which needs to be revolutionized after a specific time period because it allows the production and selection of crop varieties with desirable characteristics during breeding process such as improved fuel, food and health facilities. Having an immense research in conservation of non-threatened species, there is a small collection of knowledge available for conservation of endangered ones. This chapter aims to highlight the various techniques in germplasm conservation of endangered or the species which are at extent of extinction and also the future directions in this field. In developing countries where most of agriculture depends upon food crops, the maintenance of genetic variation is of immense importance. On farm conservation provides the best example of preservation and evolution based on genetic variability which can occur ex-situ and in- situ environment in farms or gene bank. So, it presents the best option for conservation or maintenance of ecosystem and biodiversity which ensures survival of endangered species via germplasm. The most point to consider is that germplasm or genes have to be conserved instead of genotype. In situ conservation involves preservation of plant crops in the field condition in ecosystem where plant is adopted to grow in order to maintain self –sustaining process in natural ecosystem. Similarly ex-situ involve the collections of seed banks of genes collected from plant under natural conditions to produce desirable varieties or from tissue culture in laboratory also referred as in-vitro methodology. In –vitro techniques include cryopreservation which include freezing at much lower temperature than that of freezing point i.e. -196 °C in liquid nitrogen for preserving species which are near to extent of endangerment. Cold storage and storing at lower temperature provides best opportunity for protection against damage caused by rapid freezing. Germplasm exchange has become now a usual practice ensuring exchange of varieties between cultivated and wild types as for example in potatoes specie etc. DNA as well as gene or seed banks provide molecular sources for conservation at biotechnological level. The techniques of introgression and incorporation are basic approaches for germplasm conservation. So there is need to revolutionize and practice germplasm conservation for fulfilling future needs being aimed at conserving endangered or threatened species from conservation hotspots.

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From the Classification of Stem Cells to the Release of Potential in Cell Therapies: Limits, Considerations and Future Aspects in Regenerative Medicine

Capuzzo¹,

Ossanna²,

Sierra³

et al. 2023

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Regenerative medicine aims to repair organs or tissues that have congenital abnormalities, or that have been damaged by disease, aging, or trauma, and to restore or at least improve their native function. One of the strategies used in regenerative medicine is stem cell therapy, due to the enormous regenerative potential of stem cells. A staminal cell line is a group of cells that can replicate for an extended period in vitro, that is outside the body. These cells are grown in incubators using a culture medium that should have a temperature and an oxygen/carbon dioxide composition that simulates the desired environment. This chapter describes the main characteristics of stem cells, the main fields of application, and outlines what could be the future developments of their use, also considering the ethical and technical problems that currently limit their use. There is still much to be done in the field of stem cell research, and researchers are working tirelessly to remain leaders and innovators in it. A struggle, step by step, will make it possible to have more information on current knowledge by expanding the scientific literature and push current limits ever further.

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