Thesis\Treatise Track: Total Credit Hours Required to Finish the Degree ( 37 Credit Hours ) as Follows
Specialization Requirements
Students must pass all of the following courses plus ( 6 ) credit hours for the Thesis
|
Course Number |
Course Name |
Weekly Hours |
Cr. Hrs. |
Prerequisite |
||
|---|---|---|---|---|---|---|
|
Theoretical |
Practical |
|||||
| 152516000 | ADVANED RESEARCH METHODS | 3 | - | 3 |
- |
|
| 152516010 | ADVANCED BIOCHEMISTRY | 3 | - | 3 |
- |
|
| 152516030 | MOLECULAR GENETICS AND GENOMICS | Genetics concepts (Human genome and the chromosomal basis of heredity, variation of the human genome, transmission of the genome, gametogenesis, fertilization). Clinical cytogenetics and genome analysis (Chromosomal abnormalities, cancer). Complex inheritance of multi-factorial, qualitative and quantitative traits, heritability. Population genetics (Genotypes and phenotypes in population, Hardy-Weinberg equilibrium, ethnic-dependent differences, genetics and ancestry. Identifying the genetic basis for human diseases (Linkage analysis and genome sequencing for finding human genes, gene identification). Developmental genetics and birth defects (Relevance to medicine, genes and environment in development, cellular and molecular mechanisms in development, embryogenesis). Medicine and Personalized Health Care (Genetic screening in populations…). Special Topics in Modern Genetics (Epigenetics, Emerging Roles of RNA, DNA Forensics, Genomics and personalized medicine, genetically modified food, gene therapy) in addition to evoking recurrently ethical and social issues. | 3 | - | 3 |
- |
| 152516050 | ADVANCED CELL AND TISSUE ENGINEERING | One of the most exciting and rapidly growing areas in biomedical engineering, tissue engineering offers vast potential for changing traditional approaches to clinical treatment. Cell and Tissue Engineering are dynamic and rapidly growing fields within Biomedical Engineering. This course will examine fundamental biological processes and medical engineering tools essential to regenerative medicine both at the single cell and whole organism level. Topics include biocompatibility, biodegradability, stem cell engineering, cell-matrix and cell-scaffold interactions, cell-cell interactions and tissue morphogenesis, wound healing and in vitro organogenesis. This lecture is an integrative class of theoretical and lab sessions, which are given altogether as interactive missions on a weekly basis. | 3 | - | 3 |
- |
| 152516110 | ADVANCED IMMUNOLOGY | 3 | - | 3 |
152516050 ADVANCED CELL AND TISSUE ENGINEERING One of the most exciting and rapidly growing areas in biomedical engineering, tissue engineering offers vast potential for changing traditional approaches to clinical treatment. Cell and Tissue Engineering are dynamic and rapidly growing fields within Biomedical Engineering. This course will examine fundamental biological processes and medical engineering tools essential to regenerative medicine both at the single cell and whole organism level. Topics include biocompatibility, biodegradability, stem cell engineering, cell-matrix and cell-scaffold interactions, cell-cell interactions and tissue morphogenesis, wound healing and in vitro organogenesis. This lecture is an integrative class of theoretical and lab sessions, which are given altogether as interactive missions on a weekly basis. |
|
| 152516120 | STEM CELLS AND BIOTECHNOLOGY | 3 | - | 3 |
152516110 ADVANCED IMMUNOLOGY |
|
| 152516150 | SEMINAR | 1 | - | 1 |
- |
|
Students must pass ( 12 ) credit hours from any of the following courses
|
Course Number |
Course Name |
Weekly Hours |
Cr. Hrs. |
Prerequisite |
||
|---|---|---|---|---|---|---|
|
Theoretical |
Practical |
|||||
| 152516210 | DNA TECHNOLOGY ADVANCED | 3 | - | 3 |
152516030 MOLECULAR GENETICS AND GENOMICS Genetics concepts (Human genome and the chromosomal basis of heredity, variation of the human genome, transmission of the genome, gametogenesis, fertilization). Clinical cytogenetics and genome analysis (Chromosomal abnormalities, cancer). Complex inheritance of multi-factorial, qualitative and quantitative traits, heritability. Population genetics (Genotypes and phenotypes in population, Hardy-Weinberg equilibrium, ethnic-dependent differences, genetics and ancestry. Identifying the genetic basis for human diseases (Linkage analysis and genome sequencing for finding human genes, gene identification). Developmental genetics and birth defects (Relevance to medicine, genes and environment in development, cellular and molecular mechanisms in development, embryogenesis). Medicine and Personalized Health Care (Genetic screening in populations…). Special Topics in Modern Genetics (Epigenetics, Emerging Roles of RNA, DNA Forensics, Genomics and personalized medicine, genetically modified food, gene therapy) in addition to evoking recurrently ethical and social issues. |
|
| 152516220 | MOLECULAR BIOLOGY | 3 | - | 3 |
152516030 MOLECULAR GENETICS AND GENOMICS Genetics concepts (Human genome and the chromosomal basis of heredity, variation of the human genome, transmission of the genome, gametogenesis, fertilization). Clinical cytogenetics and genome analysis (Chromosomal abnormalities, cancer). Complex inheritance of multi-factorial, qualitative and quantitative traits, heritability. Population genetics (Genotypes and phenotypes in population, Hardy-Weinberg equilibrium, ethnic-dependent differences, genetics and ancestry. Identifying the genetic basis for human diseases (Linkage analysis and genome sequencing for finding human genes, gene identification). Developmental genetics and birth defects (Relevance to medicine, genes and environment in development, cellular and molecular mechanisms in development, embryogenesis). Medicine and Personalized Health Care (Genetic screening in populations…). Special Topics in Modern Genetics (Epigenetics, Emerging Roles of RNA, DNA Forensics, Genomics and personalized medicine, genetically modified food, gene therapy) in addition to evoking recurrently ethical and social issues. |
|
| 152516230 | ADVANCED MICROBIOLOGY | 3 | - | 3 |
- |
|
| 152516240 | MICROBIAL BIOTECHNOLOGY | 3 | - | 3 |
- |
|
| 152516250 | CHRONIC DISEASES BIOLOGY | 3 | - | 3 |
152516010 ADVANCED BIOCHEMISTRY |
|
| 152516260 | MOLECULAR MEDICINE AND TRANSLATIONAL SCIENCE | 3 | - | 3 |
152516010 ADVANCED BIOCHEMISTRY |
|
| 152516270 | STRUCTURAL AND COMPUTATIONAL BIOLOGY | 3 | - | 3 |
- |
|
| 152516280 | ADVANCED BIOINFORMATICS | 3 | - | 3 |
- |
|
| 152516290 | TRADITIONAL AND CLINICAL APPLICATION OF MEDICINAL PLANTS | 3 | - | 3 |
152516050 ADVANCED CELL AND TISSUE ENGINEERING One of the most exciting and rapidly growing areas in biomedical engineering, tissue engineering offers vast potential for changing traditional approaches to clinical treatment. Cell and Tissue Engineering are dynamic and rapidly growing fields within Biomedical Engineering. This course will examine fundamental biological processes and medical engineering tools essential to regenerative medicine both at the single cell and whole organism level. Topics include biocompatibility, biodegradability, stem cell engineering, cell-matrix and cell-scaffold interactions, cell-cell interactions and tissue morphogenesis, wound healing and in vitro organogenesis. This lecture is an integrative class of theoretical and lab sessions, which are given altogether as interactive missions on a weekly basis. |
|
| 152516300 | CELL TRANSPORT AND SIGNALING | 3 | - | 3 |
- |
|
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