Publications

Export 1659 results:
Sort by: [ Author  (Asc)] Title Type Year
A B C D E F G H I J K L M N [O] P Q R S T U V W X Y Z   [Show ALL]
O
Ozdemir, V., D. S. Rosenblatt, L. Warnich, S. Srivastava, G. O. Tadmouri, R. K. Aziz, P. J. Reddy, A. Manamperi, E. S. Dove, Y. Joly, et al., "Towards an ecology of collective innovation: Human variome project (HVP), rare disease consortium for autosomal loci (RADical) and data-enabled life sciences alliance (DELSA)", Current pharmacogenomics and personalized medicine, vol. 9, no. 4: PMC Canada manuscript submission, pp. 243, 2011. Abstract
n/a
Ozdemir, V., J. Armengaud, L. Dubé, R. K. Aziz, and B. M. Knoppers, "Nutriproteomics and proteogenomics: Cultivating two novel hybrid fields of personalized medicine with added societal value", Current pharmacogenomics and personalized medicine, vol. 8, no. 4: PMC Canada manuscript submission, pp. 240, 2010. Abstract
n/a
Ö
Özdemir, V., Y. K. Arga, R. K. Aziz, M. Bayram, S. N. Conley, C. Dandara, L. Endrenyi, E. Fisher, C. K. Garvey, and N. Hekim, Digging Deeper into Precision/Personalized Medicine: Cracking the Sugar Code, the Third Alphabet of Life, and Sociomateriality of the Cell, , vol. 24, issue 2: Mary Ann Liebert, Inc., publishers 140 Huguenot Street, 3rd Floor New …, pp. 62 - 80, 2020. Abstract
n/a
O
Ozdemir, V., D. S. Rosenblatt, L. Warnich, S. Srivastava, G. O. Tadmouri, R. K. Aziz, and et al, "Towards an Ecology of Collective Innovation: Human Variome Project (Hvp), Rare Disease Consortium for Autosomal Loci (Radical) and Data-Enabled Life Sciences Alliance (Delsa)", Current Pharmacogenomics and Personalized Medicine, 2011. Abstract

The Millennium Summit in 2000 established the Millennium Development Goals (MDGs), which were agreed upon by 193 countries and 23 international organizations to combat extreme poverty and other pressing global priorities for human development. In the December 2011 issue of CPPM, Borda-Rodriguez and Huzair present an analysis of the close ties and synergies among the MDGs, pharmacogenomics and personalized medicine. Notably, MDGs promote the creation of collective innovation, a concept with both substantive and instrumental pertinence for the personalized medicine R&D that is currently undergoing rapid globalization. The ethos for collective innovation in global health is also embodied in the Paris Declaration on Aid Effectiveness, endorsed in 2005 by more than 100 signatories, including donor and developing country governments, regional development banks and international aid agencies.

Ö
Özdemir, V., Y. K. Arga, R. K. Aziz, M. Bayram, S. N. Conley, C. Dandara, L. Endrenyi, E. Fisher, C. K. Garvey, N. Hekim, et al., "Digging Deeper into Precision/Personalized Medicine: Cracking the Sugar Code, the Third Alphabet of Life, and Sociomateriality of the Cell", OMICS: A Journal of Integrative Biology, vol. 24, no. 2, pp. 62-80, 2020. AbstractWebsite

Precision/personalized medicine is a hot topic in health care. Often presented with the motto “the right drug, for the right patient, at the right dose, and the right time,” precision medicine is a theory for rational therapeutics as well as practice to individualize health interventions (e.g., drugs, food, vaccines, medical devices, and exercise programs) using biomarkers. Yet, an alien visitor to planet Earth reading the contemporary textbooks on diagnostics might think precision medicine requires only two biomolecules omnipresent in the literature: nucleic acids (e.g., DNA) and proteins, known as the first and second alphabet of biology, respectively. However, the precision/personalized medicine community has tended to underappreciate the third alphabet of life, the “sugar code” (i.e., the information stored in glycans, glycoproteins, and glycolipids). This article brings together experts in precision/personalized medicine science, pharmacoglycomics, emerging technology governance, cultural studies, contemporary art, and responsible innovation to critically comment on the sociomateriality of the three alphabets of life together. First, the current transformation of targeted therapies with personalized glycomedicine and glycan biomarkers is examined. Next, we discuss the reasons as to why unraveling of the sugar code might have lagged behind the DNA and protein codes. While social scientists have historically noted the importance of constructivism (e.g., how people interpret technology and build their values, hopes, and expectations into emerging technologies), life scientists relied on the material properties of technologies in explaining why some innovations emerge rapidly and are more popular than others. The concept of sociomateriality integrates these two explanations by highlighting the inherent entanglement of the social and the material contributions to knowledge and what is presented to us as reality from everyday laboratory life. Hence, we present a hypothesis based on a sociomaterial conceptual lens: because materiality and synthesis of glycans are not directly driven by a template, and thus more complex and open ended than sequencing of a finite length genome, social construction of expectations from unraveling of the sugar code versus the DNA code might have evolved differently, as being future-uncertain versus future-proof, respectively, thus potentially explaining the “sugar lag” in precision/personalized medicine diagnostics over the past decades. We conclude by introducing systems scientists, physicians, and biotechnology industry to the concept, practice, and value of responsible innovation, while glycomedicine and other emerging biomarker technologies (e.g., metagenomics and pharmacomicrobiomics) transition to applications in health care, ecology, pharmaceutical/diagnostic industries, agriculture, food, and bioengineering, among others.

O
Ozfatura, E. M., S. ElAzzouni, O. Ercetin, and T. ElBatt, "Optimal throughput performance in full-duplex relay assisted cognitive networks", Springer Wireless Networks, vol. 25, pp. 1931–1947, 2019.
Ö
Özkan, Y. S., E. Yaşar, and M. S. Osman, "Novel multiple soliton and front wave solutions for the 3D-Vakhnenko–Parkes equation", Modern Physics Letters B, vol. 36, issue 9, pp. 2250003, 2022.
O
O’Abdulazim, D., A. Fayed, M. M. El-Nokeety, K. Marzouk, A. A. Heikal, H. Hammad, M. M. Naguib, M. M. Salem, and U. S. A. El-Din, "Negative Association between Serum 25 Hydroxy Vitamin D and Serum Uric Acid among Stage 3-5 Chronic Kidney Disease Patients", Annals of Medical and Health Sciences Research, vol. 8, issue 1, 2018. negative-association-between-serum-25-hydroxy-vitamin-d-and-serum-uric-acid-among-stage-35-chronic-kidneydisease-patient.pdf
O’KEEFE, T. R., H. B. Graves, and H. S. Siegel, "Social organization in caged layers: the peck order revisited", Poultry science, vol. 67, issue 7: Poultry Science Association, pp. 1008-1014, 1988. Abstract
n/a