The pharmacogenomic era in Asia: Potential roles and challenges for Asian pharmacists

Lee, Stephanie, Kwok, R.C.C., Wong, I.C.K., Lui, V.W.Y.

13 February 2017

Yes / Personalized medicine through Pharmacogenomics: choosing the right drug, and the right dose, for the right patients based on patient’s genetic makeup-is gradually being realised in Western countries. Yet, the practice of pharmacogenomics in Asian countries lags behind that of the West, but the medical needs for pharmacogenomics are expected to surge as better patient care is demanded in Asia. As next-generation sequencing technology advances quickly, previous technical challenges for performing pharmacogenomic studies or practices in Asia have been mostly resolved. What is lacking in Asia is an effective model of community-wide pharmacogenomics. On the delivery front, pharmacists, the drug and dosing professionals, can potentially be the main healthcare providers for pharmacogenomic services in Asia. The first large “Genomics for Precision Drug Therapy in the Community Pharmacy” in Canada, which is close to its completion, has successfully identified community pharmacists as key contact professionals for smooth facilitation and implementation of pharmacogenomics for personalized medication. It is anticipated that Asian pharmacists, with appropriate training, can have the capacity to provide expert pharmacogenomic supports for both physicians and patients in Asia. / The School of Biomedical Sciences Start-up Fund, the Chinese University of Hong Kong, the General Research Fund (#17114814; #17121616), the Theme-based Research Scheme (T12-401/13-R), Research Grant Council, Hong Kong, as well as the Hong Kong Cancer Fund, Hong Kong.

Genetic biomarkers

Oncology

Pharmacogenetics

Genetic profiling

Molekulárně genetické profilování nádorů urogenitálního traktu / Molecular genetic profiling of urogenital tumors

Martínek, Petr

January 2015

The Ph.D. thesis is a collection of eleven commented articles on the topic of molecular-genetic profiling of urogenital tract tumors published in impact factor journals. In the introduction the origin and development of classification units is described including a brief overview of recent genetic profiles of selected types of renal carcinomas. Reviewed are major signaling pathways exploited in targeted therapy as well as the function of the corresponding drugs. Directions in which the research of new biomarkers is aimed are mentioned and the introduction ends with a short list of molecular genetic methods used in classification of renal carcinomas. In the results section are summarized the most important morphological, immunohistochemical, and molecular genetic findings of the studied sets of renal carcinomas. The data are compared with the present characteristics of known entities and hypotheses of possible new entities or relations between them are inferred. In the conclusions the suitability and limitations of the used molecular genetic methods are discussed in the context of the difficulties of the material analyzed and the designs of the studies.

Molekulárně genetické profilování nádorů urogenitálního traktu / Molecular genetic profiling of urogenital tumors

Martínek, Petr

January 2015

The Ph.D. thesis is a collection of eleven commented articles on the topic of molecular-genetic profiling of urogenital tract tumors published in impact factor journals. In the introduction the origin and development of classification units is described including a brief overview of recent genetic profiles of selected types of renal carcinomas. Reviewed are major signaling pathways exploited in targeted therapy as well as the function of the corresponding drugs. Directions in which the research of new biomarkers is aimed are mentioned and the introduction ends with a short list of molecular genetic methods used in classification of renal carcinomas. In the results section are summarized the most important morphological, immunohistochemical, and molecular genetic findings of the studied sets of renal carcinomas. The data are compared with the present characteristics of known entities and hypotheses of possible new entities or relations between them are inferred. In the conclusions the suitability and limitations of the used molecular genetic methods are discussed in the context of the difficulties of the material analyzed and the designs of the studies.

A determination of the key factors and characteristics that SME-scale commercial biomedical ventures require to succeed in the South African environment

Sayer, Jeremy Ryan

03 1900

The potential for private sector healthcare business in Africa has been forecasted to reach $35 billion by 2016, with South Africa being regarded as the most industrially advanced country on the continent. South Africa’s entry to modern biotechnology is fairly recent, though, with companies in the private sector still in a developmental phase, and most having limited bioproduct ranges. While considerable research has been conducted in the past to attempt to define the biotechnology environment of South Africa, as yet, a concise overview is lacking. In particular, a synopsis of the biomedical or commercial health technology environment has not been forthcoming for entrepreneurs to refer to as a ‘roadmap’. The purpose of this study was to perform a comprehensive study on the attributes that should be met for a successful, sustainable health technology venture (HTV) to be started in South Africa; while identifying the opportunities and threats that have existed in the South African market; thereby, affecting their success and sustainability to date. In this study, two phases of research were conducted. The first was a small-sampled mixed-methods (both qualitative and quantitative) study involving 21 medical devices, biogenerics, diagnostics, and contract services companies. The second was a quantitative study, involving 107 vaccines, biogenerics, therapeutics, nutraceuticals, reagents, diagnostics, medical devices, biotools, contract services and public services companies. Inferential statistical tests were conducted on the data, including Pearson’s Chi-Square, ANOVA, bivariate correlation, linear regression, logistic regression and multinomial logistic regression. From the study, the overall proportion of business sustainability for HTVs was found to be 66.7%, and at least 30% were unsustainable (or not yet at a level of sustainability). Variations were observed in the overall rate of sustainability for companies, based on their core functional classification, location, production type, size and start-up or R&D spending. By converting the observed frequencies of activity level, as an indication of sustainability, into a probability, it was possible to observe the company type that was most, and least likely to succeed in South Africa. Based on the statistical observations in this study, the HTV type most likely to succeed in South Africa, with a 63.7% probability of reaching sustainability, is a ‘vaccines’, ‘biotools’ or ‘public services’ company from Johannesburg with at least 20 employees; that has developed its goods or services internally, but manufactured externally and spent between R20 million–and–R30 million on its R&D or start-up. Conversely, least likely to succeed (3.2% probability) is a nutraceutical company from Cape Town with between six and 20 employees, that has developed and produced internally, and which has spent between R1 million–and–R10million on its start-up. / Life and Consumer Sciences / M.Sc (Life Sciences)

Medical biotechnology

Biomedical science

Health technology

Health technology commercialisation

Business success factors

Genetic profiling

RT-PCR

338.4766065

Biotechnology industries -- South Africa

Medical care --Technological innovations

Medical technology -- Economic aspects

A determination of the key factors and characteristics that SME-scale commercial biomedical ventures require to succeed in the South African environment

Sayer, Jeremy Ryan

03 1900

The potential for private sector healthcare business in Africa has been forecasted to reach $35 billion by 2016, with South Africa being regarded as the most industrially advanced country on the continent. South Africa’s entry to modern biotechnology is fairly recent, though, with companies in the private sector still in a developmental phase, and most having limited bioproduct ranges. While considerable research has been conducted in the past to attempt to define the biotechnology environment of South Africa, as yet, a concise overview is lacking. In particular, a synopsis of the biomedical or commercial health technology environment has not been forthcoming for entrepreneurs to refer to as a ‘roadmap’. The purpose of this study was to perform a comprehensive study on the attributes that should be met for a successful, sustainable health technology venture (HTV) to be started in South Africa; while identifying the opportunities and threats that have existed in the South African market; thereby, affecting their success and sustainability to date. In this study, two phases of research were conducted. The first was a small-sampled mixed-methods (both qualitative and quantitative) study involving 21 medical devices, biogenerics, diagnostics, and contract services companies. The second was a quantitative study, involving 107 vaccines, biogenerics, therapeutics, nutraceuticals, reagents, diagnostics, medical devices, biotools, contract services and public services companies. Inferential statistical tests were conducted on the data, including Pearson’s Chi-Square, ANOVA, bivariate correlation, linear regression, logistic regression and multinomial logistic regression. From the study, the overall proportion of business sustainability for HTVs was found to be 66.7%, and at least 30% were unsustainable (or not yet at a level of sustainability). Variations were observed in the overall rate of sustainability for companies, based on their core functional classification, location, production type, size and start-up or R&D spending. By converting the observed frequencies of activity level, as an indication of sustainability, into a probability, it was possible to observe the company type that was most, and least likely to succeed in South Africa. Based on the statistical observations in this study, the HTV type most likely to succeed in South Africa, with a 63.7% probability of reaching sustainability, is a ‘vaccines’, ‘biotools’ or ‘public services’ company from Johannesburg with at least 20 employees; that has developed its goods or services internally, but manufactured externally and spent between R20 million–and–R30 million on its R&D or start-up. Conversely, least likely to succeed (3.2% probability) is a nutraceutical company from Cape Town with between six and 20 employees, that has developed and produced internally, and which has spent between R1 million–and–R10million on its start-up. / Life and Consumer Sciences / M. Sc. (Life Sciences)

Medical biotechnology

Biomedical science

Health technology

Health technology commercialisation

Business success factors

Genetic profiling

RT-PCR

338.4766068

Biotechnology industries -- South Africa

Medical care --Technological innovations

Medical technology -- Economic aspects