What is ExoSiD™ ?

ExoSiD™ is a technology that allows the isolation of exosomes from liquids such as cell culture, plasma and urine in a short time and with simple laboratory equipment. Isolation of exosomes is a very difficult process that requires special equipment. Obtaining high purity from marking vesicles is a costly process. ExoSiD™ provides high purity isolation without marking for all treatment research and analysis processes. The whole process is carried out with injector, injector pump, centrifuge using ExoSiD™, which performs insulation using ultrafiltration technique.

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In Which Areas Is ExoSiD Used?

A New Look at

Regenerative Treatments…

İnfertibilite

*In AMH (Anti-Müllerian Hormone) and Low Egg Quality *Premenopause (Early Menopause) *In Patient Groups Not Responding to Ovulation Treatments.

Urology

*Azospermi Vakalarında *Erektil Disfonksiyon (Ereksiyon/Sertleşme) *Prematür Ejekülasyon (Erken Boşalma)

Ortopedy

*In Bone and Joint Disorders *Arthritis/Arthrosis (Calcification, Inflammation, Fluid Loss) *Connective Tissue Problems, Cartilage Problems *Meniscus *Sports Injuries.

Medical Aesthetics

*Skin Renewal and Repair *Strengthening of Hair and Roots *Wound *Acne, Blemish *Burn *Lifting (Sagging)

What is an exosome? What is an Autologous Exosome?

An exosome is a type of small vesicle or bubble found in microscopic size and in various biological fluids. They participate in various biological processes such as providing communication between cells and transmitting signals. Exosomes are formed inside the cell and can be released out of the cell membrane, contributing to various cellular functions. Exosomes can contain a variety of cellular contents, including proteins, nucleic acids (RNA and DNA), lipids, and metabolites. These properties make exosomes a tool for the transmission of genetic material and other molecular information between cells. Exosomes can play a role in many biological processes such as immune system regulation, cell signaling, cell growth, and tissue repair. In addition, exosomes are of great importance in research and in medicine, a field that focuses on cellular communication and the understanding of diseases. In this field, exosomes are examined as biomarkers and therapeutic tools that can potentially be used in the diagnosis and treatment of diseases."Otolog eksozom" terimi, bir kişinin kendi hücrelerinden elde edilen eksozomları ifade eder. "Otolog" terimi, aynı bireye ait olan anlamına gelir. In this context, autologous exosomes are exosomes produced using the patient's own biological material and used for therapeutic or research purposes. Autologous exosomes are usually obtained from samples taken from the patient's body. It is often used in research and potential therapeutic applications that focus on regulating cellular communication, promoting regeneration or treating diseases. Research and applications in this field are developing rapidly. In addition, it is thought that autologous exosomes may have less potential for exposure to immune incompatibility problems because they are derived from the patients' own bodies.

What is the efficiency of isolation with ExoSiD™?

In the study, Ultracentrifugal, PEG precipitation and ExoSiD™ methods were compared and shown that the efficiency of ExoSiD™ is several times higher than the other two commercial products. * In the same study, it was found that the amount of vesicles obtained from ExoSiD™ was found to be higher in 2 different cell lines, as well as plasma, bronchoalveolar lavage and urine, and in all liquids.

What is the difference between ExoSiD™ and other techniques? Why should it be preferred?

Since the person's own exosome samples cannot be performed with very difficult and simple methods, many different physical and chemical methods are used. There are many methods that allow analysis, but these methods mark or deform the exosomes so that they cannot be reused. In addition, in order for these methods to be widely used in treatment and diagnosis, it is necessary to provide the highest performance with appropriate infrastructure costs. Among these methods, ExoSiD™ is the high-tech product with the lowest infrastructure cost, the highest efficiency, and does not create physical or chemical deformation on its exosomes.

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Referanslar

Liu, F., Vermesh, O., Mani, V., Ge, T., Madsen, S. J., Sabour, A. F., … & Demirci, U. (2017).

The exosome total isolation chip. ACS Nano, 11(11), 10712-10723. Roszkowski S. (2024).

Therapeutic potential of mesenchymal stem cell-derived exosomes for regenerative medicine applications Clinical and Experimental Medicine, 24:46. Welsh, J.A., Goberdhan, D. C. I.,O’Driscoll, L., Buzas, E. I., Blenkiron, C., Bussolati, B., Cai, H., Di Vizio, D., Driedonks, T. A. P., Erdbrügger, U., Falcon-Perez, J. M., Fu, Q.-L., Hill, A. F., Lenassi, M., Lim, S. K., Mahoney, M. G., Mohanty, S., Möller, A., Nieuwland, R.,…Witwer, K.W. (2024).

Minimal information for studies of extracellular vesicles (MISEV2023): from basic to advanced approaches. Journal of Extracellular Vesicles, e12404.Sathish Muthu, Asawari Bapat, Rashmi Jain, Naveen Jeyaraman, Madhan Jeyaraman, (2021).

Exosomal therapy—a new frontier in regenerative medicine Stem Cell Investig 8:7. Gurunathan S, Kang MH, Jeyaraj M, Qasim M, Kim JH. (2019).

Review of the isolation, characterization, biological function, and multifarious therapeutic approaches of exosomes. Cells;8(4):307. Zhang Y, Liu Y, Liu H, Tang WH. (2019).

Exosomes: biogenesis, biologic function and clinical potential. Cell Biosci.;15(9):19. Al-Madhagi H. The Landscape of Exosomes Biogenesis to Clinical Applications. Int J Nanomedicine. 2024 Apr 22;19:3657-3675.