Biomedical Sciences, M.S.
|
|
- Eric Kennedy
- 5 years ago
- Views:
Transcription
1 Biomedical Sciences, M.S. 1 Biomedical Sciences, M.S. LEWIS KATZ SCHOOL OF MEDICINE ( About the Program The M.S. program is aimed at broad interdisciplinary training in the major areas of Biomedical Sciences. The goal is to train students in the theory and practice of Biomedical Sciences for eventual service in research and teaching. Students are instructed in diverse laboratory techniques through a series of lecture and laboratory courses, and provided with a program of experimental research for thesis students under the guidance of a faculty member. Two options are available: Thesis Track, with a transcripted concentration in the area of thesis research. Five areas of concentration or clusters are available: Cancer Biology and Genetics, Infectious Disease and Immunity, Molecular and Cellular Biosciences, Neuroscience, and Organ Systems and Translational Medicine. Students complete and defend a master's thesis under the supervision of a faculty member. Non-Thesis Track, which is in General Biomedical Sciences. Students complete didactic coursework in each of the five cluster areas. Time Limit for Degree Completion: 3 years Campus Location: Health Sciences. With the permission of the student's Advisory Committee, elective courses not offered on the Health Sciences Campus may be taken at other campuses. Full-Time/Part-Time Status: The M.S. degree program is designed as a full-time day program of study to be completed in 20 to 24 months. Interdisciplinary Study: The graduate program in Biomedical Sciences is interdisciplinary and emphasizes translational research. Students have the opportunity to work with faculty in disease-based research centers in the Lewis Katz School of Medicine, including the Center for Inflammation, Translational and Clinical Lung Research; Center for Metabolic Disease Research; Center for Neurovirology; Center for Substance Abuse Research; Center for Translational Research; Comprehensive NeuroAIDS Center; Fels Institute for Cancer Research and Molecular Biology; Independence Blue Cross Cardiovascular Research Center; Shriners Hospitals Pediatric Research Center; Sol Sherry Thrombosis Research Center; and Temple Autoimmunity Center. Ranking: The 2014 U.S. News and World Report ranked Temple University's School of Medicine number 54 in Research and among the Best Medical Schools. Areas of Specialization: This interdisciplinary Biomedical Sciences graduate program offers five areas of concentration for students who plan to earn the M.S. with a thesis: Cancer Biology and Genetics Infectious Disease and Immunity Molecular and Cellular Biosciences Neuroscience Organ Systems and Translational Medicine Job Prospects: This well-balanced program has been designed to be individually tailored to meet the interests and needs of each student and to fully prepare each student for a Biomedical Sciences career in academia, industry, and government. The graduate program is designed to provide training in the theory and practice of Biomedical Sciences for eventual placement in research and teaching positions. Non-Matriculated Student Policy: Non-matriculated students may enroll in some courses with permission from the course instructor and approval from the Office of Graduate Studies at the Lewis Katz School of Medicine. Financing Opportunities: Limited financial support is available for M.S. students. Admission Requirements and Deadlines Pre-Application Deadline for International Applicants Only: All international applicants who have not earned a degree in the United States or from an institution where English is the sole language of instruction are required to complete a Pre-Application for approval before applying. The Pre-Application is found on the Biomedical Sciences website at medicine.temple.edu/education/biomedical-sciences-graduate-program/admissions/pre-application-international-applicants and must be submitted electronically by October 31. Application Deadline: Fall: February 15
2 2 Temple University Bulletin Applications are processed as they are received. Late applications may be considered for admission. APPLY ONLINE to this graduate program. Letters of Reference: Number Required: 3 From Whom: Letters of recommendation should be obtained from faculty and supervisors of research experiences. Coursework Required for Admission Consideration: Applicants should have undergraduate training in the life sciences such as Biology, Biochemistry, Cell Biology, or Molecular Biology and Genetics. Students are also expected to have training in Chemistry and Mathematics. Bachelor's Degree in Discipline/Related Discipline: A baccalaureate degree in the Biological or Chemical Sciences is required. Statement of Goals: Approximately 500 to 1,000 words include your interest in Temple's Biomedical Sciences graduate program; your research interests and past experiences; your future career goals; and your academic and research achievements. Standardized Test Scores: GRE: Required. Acceptance by Temple University requires submission of verbal, quantitative, and analytical GRE scores. GRE scores below the 50th percentile are outside the norm set by the Graduate School, and no individual score in the verbal, quantitative, or analytical sections should be below that level. For applicants whose native language is not English, the TOEFL, IELTS, or PTE Academic exam is required: TOEFL: 79 ibt or 550 PBT minimum IELTS: 6.5 minimum PTE Academic: 53 minimum Transfer Credit: Graduate credits from an accredited institution may be transferred into the M.S. program in Biomedical Sciences. The credits must be equivalent to coursework offered at Temple, and the grades earned must be a "B" or better in order to transfer. The Academic Affairs Committee reviews the courses and make the recommendation to accept the credits based on the student's knowledge of the course material and initial performance in the program. The maximum number of credits a student may transfer is 12. Test Waivers: Upon review of the student's background by the Graduate Admissions Committee, applicants with high levels of performance in one or more areas can gain favorable consideration for an application that is otherwise outside the acceptance matrix. Program Requirements General Program Requirements: Number of Credits Required Beyond the Baccalaureate: 30 Thesis Track or 36 Non-Thesis Track Required Courses: All students participate in a common first-year interdisciplinary experience that includes the following core courses: Molecules to Cells Organ Systems: Function, Dysfunction and Therapies Scientific Design and Biostatistics Scientific Communications Bioinformatics Scientific Integrity Advanced elective courses are selected for one of the following tracks: Thesis Track (6 credits in the area of concentration) Non-Thesis Track (20 credits, with at least one course in each of the five areas of concentration) Seminar/Specialized Journal Club Culminating Events: Thesis: For the Thesis Track, the thesis must be based on an original research project. It should demonstrate the student's familiarity with laboratory techniques related to the research project and the ability to evaluate critically the literature in the student s chosen area. The student submits the thesis in complete form not less than 14 days prior to the date of the final examination. The thesis must have been read and approved by the thesis advisor prior to distribution. The student should confirm a time and date for the thesis defense with the Final Examination Committee.
3 Biomedical Sciences, M.S. 3 The final examination consists of a defense of the student's thesis to demonstrate competence within the field of the thesis and closely related areas. The student's Advisory Committee votes to pass or fail the thesis and the defense at the conclusion of the presentation. If the student must make revisions, those changes must be approved as arranged by the Committee. Note that the Non-Thesis Track has no culminating event. Students may elect to obtain research experience within a laboratory. Contacts Program Web Address: Department Information: Biomedical Sciences Graduate Program Lewis Katz School of Medicine at Temple University 3500 N. Broad Street, MERB 1111 Philadelphia, PA tusmgrad@temple.edu Mailing Address for Application Materials: Graduate Division Lewis Katz School of Medicine at Temple University 3500 N. Broad Street, MERB 1111 (556-00) Philadelphia, PA Department Contacts: Admissions and Program Coordinators: Dianne Soprano, Ph.D. Associate Dean for Graduate and M.D./Ph.D. Programs dsoprano@temple.edu Admissions and Program Coordinators: Scott K. Shore, Ph.D. Associate Dean for Graduate Studies and Specialty Programs sks@temple.edu Courses BMSC Introduction to Biochemistry and Molecular Biology. 3 Credit Hours. Graduate level course that describes fundamentals of biochemistry and molecular biology. Topics include proteins, enzymes, ligand binding, energy metabolism, carbohydrate, lipid and amino acid metabolism, structure of RNA and DNA, chromosomes and genes, DNA replication and repair, RNA transcription, and protein translation, degradation, trafficking. BMSC Introduction to Cell Biology and Immunology. 3 Credit Hours. Graduate level course that describes fundamentals of cell biology and immunology. Topics include prokaryotic and eukaryotic cell biology, mitosis and meiosis, cell cycle control, membranes and membrane channels/transporters, cytoskeleton, cell differentiation, apoptosis, principles of immunology, antigens, cells of the immune system, humoral immune responses, autoimmunity, hypersensitivity and allergies, and host-pathogen interactions.
4 4 Temple University Bulletin BMSC Introduction to Molecular and Cell Biology. 3 Credit Hours. Graduate level course that describes fundamentals of molecular biology, genetics and cell biology. Topics include structure of DNA and RNA, chromosomes and genes, DNA replication and RNA, RNA transcription, protein translation, protein degradation and trafficking, prokaryotic and eukaryotic cell biology, mitosis and meiosis, cell cycle control, membranes and membrane channels/transporters, cytoskeleton, cell differentiation and apoptosis. BMSC Molecules to Cells. 6 Credit Hours. Graduate level course that describes fundamentals of biochemistry, molecular biology, cell biology and immunology. Biochemistry, molecular biology and cell biology will consider both prokaryotic and eukaryotic organisms. Immunology will include principles of immunology and host-pathogen interactions. BMSC Experimental Design and Biostatistics. 1 Credit Hour. This is a one-credit course designed to provide first year Biomedical Science graduate students basic information concerning experimental design and biostatistics. The emphasis of this course will be to provide practical information pertaining to the design of biomedical experiments and their analysis using a variety of statistical approaches. BMSC Scientific Integrity and Bioethics. 1 Credit Hour. This is a one-credit graduate course to provide Biomedical Science graduate students with instruction in ethical conduct of research. BMSC Introduction to Laboratory Research I. 1 Credit Hour. This is a one-credit graduate course to provide Biomedical Science graduate students with exposure to the research opportunities in the five Biomedical Science research clusters and to obtain supervised research experience in the laboratory. BMSC Organ Systems: Function, Dysfunction and Therapeutics. 4 Credit Hours. This graduate level course provides instruction in the physiological, pathophysiological and pharmacological aspects of various organ systems. Organ systems will include cardiovascular, pulmonary, renal, endocrine, musculoskeletal and neurological. BMSC Scientific Communications. 1 Credit Hour. This course will provide instruction in both written and oral scientific communications. Students will be guided in the preparation of power point presentations, abstracts and full manuscripts. BMSC Bioinformatics. 1 Credit Hour. This is a one-credit course to provide instruction in bioinformatic approaches to the conduct of biomedical research.
5 Biomedical Sciences, M.S. 5 BMSC Introduction to Laboratory Research II. 1 Credit Hour. This is a one-credit course to provide Biomedical Science graduate students with supervised research experiences within laboratories. BMSC Cell Structure & Function. 2 Credit Hours. The goal of this course is to learn the structure and function of basic tissues in the body. Emphasis will be on the study of the structure of different cell types in the body and how this relates to their function. BMSC Molecular, Cellular and Systems Signal Transduction. 2 Credit Hours. This course will discuss basic mechanisms of cell signaling in a variety of different cell types. BMSC Molecular Approaches to Research. 2 Credit Hours. The goal of the course is to give students an understanding of basic and novel molecular approaches to biomedical research. The following major issues are addressed: (i) what are the molecular approaches most frequently used in biomedical research; (ii) why a particular approach fits a specific question asked in the course of research, and how to select the most suitable approach; and (iii) what is the molecular basis of these experimental approaches, i.e. how and why the techniques used in the lab work. Areas of instruction will include methods for the study of DNA, RNA and protein, optical approaches, transgenic animals and other animal models of human disease and single-cell analysis using flow cytometry. BMSC Scientific Grant Writing. 1 Credit Hour. The overall purpose of this course is to provide training to Biomedical Science graduate students in the preparation of a successful grant application. BMSC Cancer Biology and Genetics Student Seminar and Journal Club. 1 Credit Hour. This course will require that the student participate in two separate activities: (i) attend and participate in the student seminar series of the Cancer Biology and Genetics cluster and present a literature based seminar on a topic within this field of study, and (ii) attend and participate in a specialized journal club in an area of interest. The course director will provide students with detailed course/grading policies, schedules, and a list of journal clubs. BMSC Cancer Biology. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Cancer Biology and Genetics Cluster of the Biomedical Sciences Graduate Program. It is an interdisciplinary course taught by faculty from the School of Medicine and the Fox Chase Cancer Center. The goals of the course are 1) to provide students with a comprehensive background of cancer, from the patient to the transformed cell, 2) to provide a molecular understanding of the difference between normal and cancer cells and 3) to provide an understanding of the origins, treatments and prevention of cancer. Course syllabus will be provided by the course director.
6 6 Temple University Bulletin BMSC Genetics and Epigenetics. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Cancer Biology and Genetics Cluster of the Biomedical Sciences Graduate Program. The focus of this course is on Hereditary Mechanisms and Epigenetics. Mendelian diseases and complex phenotypes will be reviewed. The major focus will be on mechanisms of Epigenetic modifications and heritability, including its role in development and disease. Experimental approaches to epigenetics studies will be presented and papers from the literature will be the backbone of the course. Course syllabus will be provided by the course director. BMSC Special Topics in Cancer Biology and Genetics. 2 Credit Hours. This course is based on the breaking research findings in the area of Cancer Biology and Genetics and the interests of the faculty and students within this cluster. Topics will vary year to year. The course director will provide students with detailed course/grading policies, schedules and reading lists. BMSC Infectious Disease and Immunity Student Seminar and Journal Club. 1 Credit Hour. This course will require that the student participate in two separate activities: (i) attend and participate in the student seminar series of the Infectious Disease and Immunity cluster and present a literature based seminar on a topic within this field of study, and (ii) attend and participate in a specialized journal club in an area of interest. The course director will provide students with detailed course/grading policies, schedules and a list of journal clubs. BMSC The Biology of the Immune Response. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Infectious Disease and Immunity Cluster. The focus of this course is the study of the components of the immune system, their development and function, and their roles in various pathological processes. Readings are from the primary literature including landmark papers and recently published work. The successful completion of this course will allow the application of evidence based knowledge to the graduate student's own research project. Course syllabus is provided by the course director. BMSC Molecular Genetics of Human Viruses. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Infectious Disease and Immunity Cluster. This course aims to provide graduate students with the opportunity to gain knowledge of human viruses and viruses of zoonotic origins. The research methods used in medical virology relevant to elucidating viral replication and pathogenesis will be covered. In addition, the ways for which viruses are used in genetic engineering, cancer treatment and basic research will be discussed. The course covers materials from seminal papers and latest published work. The successful completion of this course will allow the application of evidence based knowledge to the graduate student's own research. Course syllabus is provided by the course director. BMSC Cellular and Molecular Basis of Host-Microbe Interactions. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Infectious Disease and Immunity Cluster. The focus of this course is to understand the cellular and molecular mechanisms of microbial pathogenesis and the host response to the pathogen. Selected model organisms will be used for in depth exploration of host-pathogen interactions. In addition, certain general strategies of microbial survival and penetration, and of host recognition and response to danger signals, will be covered. Lectures present evidence for current concepts and theories from the primary literature and review articles. Conference hours cover recent relevant research papers. Course syllabus is provided by the course director.
7 Biomedical Sciences, M.S. 7 BMSC Special Topics in Infectious Disease and Immunity. 2 Credit Hours. This course is based on the breaking research findings in the area of Infectious Disease and Immunity and the interests of the faculty and students within this cluster. Topics will vary year to year. The course director will provide students with detailed course/grading policies, schedules and reading lists. BMSC Molecular and Cellular Biosciences Student Seminar and Journal Club. 1 Credit Hour. This course will require that the student participate in two separate activities: (i) attend and participate in the student seminar series of the Molecular and Cellular Biosciences cluster and present a literature based seminar on a topic within this field of study, and (ii) attend and participate in a specialized journal club in an area of interest. The course director will provide students with detailed course/grading policies, schedules and a list of journal clubs. BMSC Enzymes and Proteins. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Molecular and Cellular Biosciences Cluster. The overall goal of this course is to enable students to understand protein structural and catalytic aspects of contemporary biochemistry. The student who completes this course will be able to engage in dialog about protein structure and function. The student will be able to understand, visualize, reshape, present and discuss data from original sources. Course syllabus is provided by the course director. BMSC RNA and its Role in Gene Expression. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Molecular and Cellular Biosciences Cluster. The focus of this course is on the study of RNA and its multiple roles in gene expression. The structure, synthesis, processing and function including protein translation of both classic RNA molecules (mrna, trna and rrna) and nontraditional RNA molecules (such as mirnas, long noncoding RNAs, RNAs with enzymatic activity) are discussed. Both single molecule based approaches and genomic approaches are discussed. Readings are from the primary literature including landmark papers and recently published work. Course syllabus is provided by the course director. BMSC Molecular Physiology of Ion Signaling. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Molecular and Cellular Biosciences Cluster. The overall focus of this course is on ion channels and their function in biological systems. Part 1 of the course focuses on ion balance, channel classes and channel structures. Part 2 focuses on the biological impact of ionic control of cytosolic Ca2+ concentration. Part 3 focuses on the impact of these changes on physiology and disease in multiple organ systems. Course syllabus is provided by the course director. BMSC Biophysical Approaches to Research. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Molecular and Cellular Biosciences Cluster. Students will learn to appreciate how biophysical principles can be used to understand and measure properties of biomolecules and cells. The areas covered in the course emphasize how to generate, analyze and interpret quantitative information about biological molecules or systems. Course syllabus is provided by the course director. BMSC Structure and Dynamics of Biomolecules and Assemblies. 2 Credit Hours. This is an advanced topics course offered for students in the second year of study in the Biomedical Sciences Graduate Program. The course will focus on understanding structure and behavior of biomolecules and assemblies, including the chemical basis for molecular interactions and techniques for studying macromolecular structure.
8 8 Temple University Bulletin BMSC Special Topics in Molecular and Cellular Biosciences. 2 Credit Hours. This course is based on the breaking research findings in the area of Molecular and Cellular Biosciences and the interests of the faculty and students within this cluster. Topics will vary year to year. The course director will provide students with detailed course/grading policies, schedules and reading lists. BMSC Neuroscience Student Seminar and Journal Club. 1 Credit Hour. This course will require that the student participate in two separate activities: (i) attend and participate in the student seminar series of the Neuroscience cluster and present a literature based seminar on a topic within this field of study, and (ii) attend and participate in a specialized journal club in an area of interest. The course director will provide students with detailed course/grading policies, schedules and a list of journal clubs. BMSC Essentials of Neuroscience. 1 to 2 Credit Hour. This is a REQUIRED Cluster-based Advanced Course offered by the Neuroscience Cluster of the Biomedical Sciences Graduate Program. This course is open to all graduate students in all disciplines with an interest in learning basic neuroscience. This course focuses on the basic neurophysiological and neuroanatomical aspects of the organization of the nervous system. Neuroanatomical structures and their function will be covered using a system based approach. Sensory, motor and special sensory systems will be included. Course syllabus is provided by the course director. BMSC Molecular and Cellular Neuroscience. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Neuroscience Cluster. The overall goal of this course is to provide an integrated approach to the understanding of the structure and function of neurons and glia. Topics include the cellular structure of neurons and glia, molecular mechanisms for neural transmission and plasticity, new concepts on neurogenesis and cell fate decisions, signaling pathways for neuronal polarization and neuritogenesis, molecular biology and function of glia, neuron-glia interactions, glial cell pathophysiology, neuroinflammation and the role of glia in the development and progression of various neurological disorders and diseases. Course syllabus is provided by the course director. BMSC Neuropharmacology. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Neuroscience Cluster. The overall goal of this course is to provide the basic aspects of neuropharmacology by investigating mechanism by which drugs influence and/or modulate different neural system activities and functions. The molecular, cellular and biochemistry characteristics of several classes of drugs with implications for human pathologies will be discussed. Four areas of emphasis will include: structure and function of the nervous system, neurotransmitters and neuromodulators, neuroinflammation and neurodegeneration. Course syllabus is provided by the course director. BMSC Pharmacology of Drugs of Abuse. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Neuroscience Cluster. The focus of this course is on the pharmacology of drugs of abuse. Topics include historical perspectives of drug abuse, cellular responses to acute and chronic exposure to drugs of abuse, effects of drugs of abuse on the immune system, and medical treatment of drug dependence. Specific drug classes that are covered include opioids, cocaine, amphetamines, spice and bath salts, club drugs, LSD and PCP, alcohol, caffeine, nicotine, benzodiazepines and sedatives, and cannabinoids. Course syllabus is provided by the course director.
9 Biomedical Sciences, M.S. 9 BMSC Translational Science of Nervous System Diseases. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Neuroscience Cluster. Students will gain knowledge of translational science regarding the molecular basis of various nervous system diseases, current treatments and rehabilitation, and advances in animal modeling of disease that address prevention and improved treatment modalities. Course syllabus is provided by the course director. BMSC Developmental Neurobiology. 2 Credit Hours. This course will focus on the molecular and cellular mechanisms that govern development of the mammalian central nervous system. Topics include but are not limited to: Development of the Cerebral Cortex, Retinal Development, Glial Development, White Matter Maturation, Neuroprogenitors Cells, Axonogenesis and Dendritogenesis. BMSC Special Topics in Neuroscience. 2 Credit Hours. This course is based on the breaking research findings in the area of Neuroscience and the interests of the faculty and students within this cluster. Topics will vary year to year. The course director will provide students with detailed course/grading policies, schedules and reading lists. BMSC Organ Systems and Translational Medicine Student Seminar and Journal Club. 1 Credit Hour. This course will require that the student participate in two separate activities: (i) attend and participate in the student seminar series of the Organ Systems and Translational Medicine cluster and present a literature based seminar on a topic within this field of study, and (ii) attend and participate in a specialized journal club in an area of interest. The course director will provide students with detailed course/grading policies, schedules and a list of journal clubs. BMSC Mechanisms of Cardiovascular Pathophysiology. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Organ Systems and Translational Medicine Cluster. The overall goal of this teamtaught course is to introduce graduate students to the cellular and molecular mechanisms of multiple cardiovascular diseases, with a focus on experimental approaches. The approach will combine didactic presentation with relevant important scientific literature. Course syllabus is provided by the course director. BMSC Hemostasis and Thrombosis. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Organ Systems and Translational Medicine Cluster. Selected areas of Hemostasis and Thrombosis will be addressed from a historical perspective to state of the art technology and knowledge. This course will study molecular mechanisms and signal transduction events that regulate hemostasis through coagulation cascades and platelet function. The implications of treatments of bleeding disorders, thrombosis, and the therapeutics will be discussed. Students are expected to read seminal papers and participate in class by contributing to discussion. Each topic will have discrete study objectives. Course syllabus is provided by the course director.
10 10 Temple University Bulletin BMSC Translational Pulmonary Physiology - Experimental Basis. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Organ Systems and Translational Medicine Cluster. Selected areas of pulmonary physiology will be addressed from application, experimental, and historical perspectives. This course will study mechanisms that underlie major pulmonary diseases such as acute respiratory distress syndrome, chronic obstructive pulmonary disease, asthma, and ventilator induced lung injury. How these diseases modify the function of the pulmonary system, the mechanical, circulatory and inflammatory profiles of the lung, and interventions to attenuate dysfunction will be discussed. Students are expected to read seminal papers and participate in class by contributing to discussion. Each topic will have discrete study objectives. Course syllabus is provided by the course director. BMSC Advanced Pharmacology and Translational Medicine. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Organ Systems and Translational Medicine Cluster. Pharmacology is the study of biochemical and physiological processes mediated through exogenous or endogenous substances that interact with living systems. Translational medicine aims to use pharmacological discoveries to develop novel therapies in treatment of human disease. The overall goal of this course is to introduce students to the subject of advanced pharmacology and then to focus on recent advances in methodologies used to develop new therapeutics with an emphasis on experimental approaches. The approach will combine didactic presentation with a combination of informal discussion of important scientific literature. Course materials will be handouts/lecture slides provided by each instructor, and selected research papers from the literature. Each lecture will provide a solid foundation for students to understand the methods and techniques used in experimental pharmacology and translational medicine in addition to the concepts. Student participation in the form of questions and discussion is encouraged. Course syllabus is provided by the course director. BMSC Development, Function and Diseases of the Musculoskeletal System. 2 Credit Hours. This is a Cluster-based Advanced Elective Course offered by the Organ Systems and Translational Medicine Cluster. Lecture topics will include: musculoskeletal histology, development of limbs, muscle, bone and joints, diagnostic imaging of musculoskeletal system and cartilage repair/fracture, cell biology of osteoblasts and osteoclasts, biomechanics of musculoskeletal system, skeletal pathologies and central nervous system/bone interactions. Course syllabus is provided by the course director. BMSC Organ Metabolism - Molecular Pathology and Experimental Models. 2 Credit Hours. This is an advanced topics course offered to students in the second year of study in the Biomedical Science Graduate Program. The overall goal of this course is to introduce students to the subject of systemic metabolism and organ metabolism and relate this to various key organ pathologies and diseases. Emphasis will be placed on recent advances in molecular pathways along with the experimental models and methodologies used to develop new therapeutics. BMSC Special Topics in Organ Systems and Translational Medicine. 2 Credit Hours. This course is based on the breaking research findings in the area of Organ Systems and Translational Medicine and the interests of the faculty and students within this cluster. Topics will vary year to year. The course director will provide students with detailed course/grading policies, schedules and reading lists. BMSC Biomedical Science Research. 1 to 6 Credit Hour. Students will perform supervised laboratory research.
11 Biomedical Sciences, M.S. 11 BMSC Preliminary Exam Preparation. 1 to 6 Credit Hour. Biomedical Science students will enroll in this course when they are preparing for the PhD Preliminary Examination. BMSC Master's Project. 1 to 6 Credit Hour. BMSC Master's Thesis. 1 to 6 Credit Hour. BMSC Postcandidacy Research. 1 to 6 Credit Hour. BMSC Dissertation Writing. 1 to 6 Credit Hour.
Biomedical Sciences (Medical) (BMSC)
Biomedical Sciences (Medical) (BMSC) 1 Biomedical Sciences (Medical) (BMSC) Courses BMSC 8001. Introduction to Biochemistry and Molecular Biology. 3 Credit Hours. Graduate level course that describes fundamentals
More informationBiomedical Sciences, Ph.D.
Biomedical Sciences, Ph.D. 1 Biomedical Sciences, Ph.D. LEWIS KATZ SCHOOL OF MEDICINE (http://www.temple.edu/medicine) About the Program The Ph.D. program is aimed at broad interdisciplinary and translational
More informationBiomedical Sciences, Ph.D.
Biomedical Sciences, Ph.D. 1 Biomedical Sciences, Ph.D. LEWIS KATZ SCHOOL OF MEDICINE (http://www.temple.edu/medicine) About the Program The Ph.D. program is aimed at broad interdisciplinary and translational
More informationMicrobiology, Molecular Biology and Biochemistry
Microbiology, Molecular Biology and Biochemistry Bruce L. Miller, Interim Dept. Head, Dept. of Microbiology, Molecular Biology and Biochemistry (142 Life Sc. Bldg. 83844-3052; phone 208/885-7966; mmbb@uidaho.edu;
More informationBGEN Laboratory Methods in Human and Medical Genetics
BMG COURSES BGEN 7000 - Research Seminar MSc Consists of presentations of the student's current research. For Master s students only. 1.0 credit hours. BGEN 7020 Proteins (Formerly 137.702) Three hours
More informationBiology (BIO) Biology (BIO) Courses. Biology (BIO)
Biology (BIO) Biology (BIO) Courses BIO 5001. Ethical Conduct in Research. (1-0) 1 Credit Hour. Prerequisite: Graduate standing. This course provides a basic overview of the requirements for ethical conduct
More informationBiological Sciences (BA, BS and Minor)
Biological Sciences (BA, BS and Minor) The Department of Natural Sciences and Mathematics offers a balanced curriculum designed to prepare students for a wide range of graduate programs, teacher credential
More informationBIOMEDICAL SCIENCES (BIOM)
Biomedical Sciences (BIOM) 1 BIOMEDICAL SCIENCES (BIOM) BIOM 5000 Research & Thesis Prerequisites: Consent of major adviser Description: Research in biomedical sciences for MS degree. Offered for variable
More informationGUIDANCE ON THE EVALUATION OF NON ACCREDITED QUALIFICATIONS
GUIDANCE ON THE EVALUATION OF NON ACCREDITED QUALIFICATIONS 1. Introduction 1.1 This document provides guidance notes for the assessment of academic qualifications that have not been formally accredited
More informationCOURSES IN BIOLOGICAL SCIENCE. Undergraduate Courses Postgraduate Courses
COURSES IN BIOLOGICAL SCIENCE Undergraduate Courses Postgraduate Courses Undergraduate Courses: BISC 001 Appreciation of Biological Sciences [3-0-0:3] Diversity of life forms; origin of life; chemical
More informationList of Upper Division Science Electives * = this course has prereqs purple highlight = special type of course
ANT4462 Introduction to Medical Anthropology 3 This course is an investigation of different medical systems and their practitioners, the ecology of health, illness, human adaptation, nutrition, and the
More informationDOCTOR OF PHILOSOPHY PROGRAM IN ORAL BIOLOGY
Doctor of Philosophy Program in Oral Biology FACULTY OF DENTISTRY Naresuan University 183 Doctor of Philosophy Program in Oral Biology Oral biology at Naresuan University covers the study of the structure
More informationCENTER FOR BIOTECHNOLOGY
CENTER FOR BIOTECHNOLOGY Keith A. McGee, Ph.D., Program Director Math and Science Building, 3 rd Floor 1000 ASU Drive #870 Phone: 601-877-6198 FAX: 601-877-2328 Degree Offered Required Admission Test M.
More informationMicrobiology and Molecular Genetics
University of California, Irvine 2017-2018 1 Microbiology and Molecular Genetics Rozanne M. Sandri-Goldin, Department Chair Klemens J. Hertel, Department Vice Chair Klemens J. Hertel, Departmental Graduate
More informationPh.D. Program in Genetics, Genomics, and Cancer Biology
Ph.D. Program in Genetics, Genomics, and Cancer Biology Program Requirements Required Courses Credits GE 501, 511, 521, 531 Experimental Methods Pre-entry, I, II, III (3 research rotations are usually
More informationMICROBIO, IMMUN, PATHOLOGY-MIP (MIP)
Microbio, Immun, Pathology-MIP (MIP) 1 MICROBIO, IMMUN, PATHOLOGY-MIP (MIP) Courses MIP 101 Introduction to Human Disease (GT-SC2) Credits: 3 (3-0-0) Survey of human systems and diseases. Additional Information:
More informationBSc BIOMEDICAL SCIENCE
Overview College of Science Biomedical Science Core March 2017 (1) BSc BIOMEDICAL SCIENCE Biomedical Science Degree 2015 1 College of Science, NUI Galway Fullscreen Next page Overview [60 credits] [60
More informationBSc Biomedical Science Degree
BSc Biomedical Science Degree Overview...2 BSc Biomedical Science...3 BSc Biomedical Science Pathway...4 BSc Biomedical Science Biochemistry Pathway...5 BSc Biomedical Science Pathway...6 BSc Biomedical
More informationIntroducing the Department of Life Sciences
Introducing the Department of Life Sciences Life Sciences is a discipline that aims at a fundamental understanding of life phenomena by exploring complex and mysterious structures and funct ions of living
More informationATIP Avenir Program 2018 Young group leader
ATIP Avenir Program 2018 Young group leader Important dates - October 17th (4 pm) 2017 : opening of the registrations online - November 23 th 2017: deadline for the online submission, the mailing of the
More informationMolecular and Cell Biology (MCB)
Molecular and Cell Biology (MCB) Head of Department: Professor Michael Lynes Department Office: Room 104, Biology/Physics Building For major requirements, see the College of Liberal Arts and Sciences section
More informationIGPNS Recommended Electives List
IGPNS Recommended Electives List Animal Science 414: Ruminant Nutrition Integrates basic nutrition concepts and ration balancing skills by teaching students to balance and troubleshoot rations for various
More informationCourse Descriptions. BIOL: Biology. MICB: Microbiology. [1]
Course Descriptions BIOL: Biology http://www.calendar.ubc.ca/vancouver/courses.cfm?code=biol [1] BIOL 112 (3) Biology of the Cell The principles of cellular and molecular biology using bacterial and eukaryotic
More informationMICROBIOLOGY (MICR) Microbiology (MICR) 1
Microbiology (MICR) 1 MICROBIOLOGY (MICR) MICR 1513 Inquiry-Based Biology Description: Directed inquiry and hands-on study of biological principles. Restricted to elementary education majors or related
More informationStudies mandatory and common for all students in Genetics and Molecular Biosciences (GMB)
Studies mandatory and common for all students in Genetics and Molecular Biosciences (GMB) Principles in genetics and molecular biosciences, GMB-001, 15 cr GMB project and career planning, GMB-002, 10 cr
More informationBachelor of Science (Hons) / Bachelor of Science Biomedical Science
Bachelor of Science (Hons) / Bachelor of Science Biomedical Science Awarded by In collaboration with This degree course is designed to give you a broad understanding of the scientific investigation of
More informationDepartment of Biochemistry and Molecular Genetics
536 Department of Biochemistry and Molecular Genetics Chairperson: Professors: Associate Professors: Assistant Professors: Associates: Jaffa, Ayad Boustany, Rose-Mary; Darwiche, Nadine; Dbaibo, Ghassan;
More informationBiomedical Sciences Graduate Program
1 of 6 Graduate School 250 University Hall 230 North Oval Mall Columbus, OH 43210-1366 January 11, 2013 Phone (614) 292-6031 Fax (614) 292-3656 Jeff Parvin, Joanna Groden Co-Graduate Studies Chairs Biomedical
More informationDepartment of Biology
Department of Biology FACULTY Professors Foster, Frase, Galsky, McConnaughay; Associate Professors Fan, Gehring, Stabenau (chair), Stephens; Assistant Professors Cady, Johnson, Morris, Stover. The Department
More informationBioengineering (BIOE)
Bioengineering (BIOE) 1 Bioengineering (BIOE) Courses BIOE 5301. Biosignals. 3 Credit Hours. This course offers a deep overview of the signals in the Biomedical fields. Signals are studied in several modalities,
More informationM252 M262 Course Syllabus M252A-B & M262A-B. Molecular Mechanisms of Human Diseases. Course Director: Professor Yibin Wang
M252A-B & M262A-B Molecular Mechanisms of Human Diseases Course Director: Professor Yibin Wang (yibinwang@mednet.ucla.edu) Course Coordinator: Yesenia Rayos yrayos@lifesci.ucla.edu Proposal Coordinator:
More informationBiology Minor. About Academic Minors. Dr. Sarah Gross, Chair Biology Dept School of Arts & Sciences
Biology Minor Dr. Sarah Gross, Chair Biology Dept. Sarah.Gross@farmingdale.edu 631-420-2175 School of Arts & Sciences This minor is intended for students who wish to incorporate a study of biology into
More informationSchool of Allied Medical Sciences. Course Description Guide Associate in Medical Laboratory Sciences. Page 1 of 15
School of Allied Medical Sciences Course Description Guide Associate in Medical Laboratory Sciences Page 1 of 15 Program Name & Definition: Associate in Medical Laboratory Sciences Laboratory sciences
More informationPost-Baccalaureate Program in Pharmaceutical Science. Accelerate your career
Post-Baccalaureate Program in Pharmaceutical Science Accelerate your career pharmsci.uci.edu pharmsci-grad@uci.edu 949.824.1991 Improve your career options The Post-Baccalaureate Program in Pharmaceutical
More informationThe Integrated Biomedical Sciences Graduate Program
The Integrated Biomedical Sciences Graduate Program at the university of notre dame Cutting-edge biomedical research and training that transcends traditional departmental and disciplinary boundaries to
More informationBiology (BIO) Biology (BIO) Courses. Biology (BIO)
Biology (BIO) NOTE: All prerequisites for Biology (BIO) courses must be completed with a grade of C- or better. Biology (BIO) Courses BIO 1033. Drugs and Society. (3-0) 3 Credit Hours. (TCCN = PHED 1346)
More informationBIOMOLECULAR SCIENCE PROGRAM
Program Director: Michael Joesten Advances in biology, particularly at the cellular and molecular level, are changing the world that we live in. The basic knowledge of the way nature functions to create
More informationBIOCHEM + MOLE BIOLOGY- BC (BC)
Biochem + Mole Biology-BC (BC) 1 BIOCHEM + MOLE BIOLOGY- BC (BC) Courses BC 192 Biochemistry Freshman Seminar Credits: 2 (1-0-1) Introduction to curriculum and career options for biochemistry majors. Registration
More informationDEPARTMENT OF BIOCHEMISTRY AND MOLECULAR BIOLOGY
Department of Biochemistry and Molecular Biology 1 DEPARTMENT OF BIOCHEMISTRY AND MOLECULAR BIOLOGY Office in Molecular and Radiological Biosciences Building, Room 111 (970) 491-5602 bmb.colostate.edu
More informationHigher National Diploma Biomedical Science
BMS is committed to developing scientists for the betterment of our country Higher National Diploma Biomedical Science leading to final year of BSc (Hons) Biomedical Science Committed to supporting students
More informationA New Cellular and Molecular Engineering Curriculum at Rice University
Session A New Cellular and Molecular Engineering Curriculum at Rice University Ka-Yiu San, Larry V. McIntire, Ann Saterbak Department of Bioengineering, Rice University Houston, Texas 77005 Abstract The
More informationBIOMEDICAL ENGINEERING (BMED)
Biomedical Engineering (BMED) 1 BIOMEDICAL ENGINEERING (BMED) BMED 1000. Introduction to Biomedical Engineering. 1 Credit Hour. An introduction to the field of biomedical engineering, with an emphasis
More informationInternational Foundations of Medicine Basic Science Exam Blueprint
International Foundations of Medicine Basic Science Exam Blueprint General Principles 28% 30% Biochemistry and molecular biology gene expression: DNA structure, replication, and exchange gene expression:
More informationTo be considered for a University Fellowship, applicants should have an essentially complete application on file by January 5.
Biology, Ph.D. 1 Biology, Ph.D. COLLEGE OF SCIENCE AND TECHNOLOGY (http://cst.temple.edu) About the Program The Ph.D. in Biology offers students rigorous advanced study of the Biological Sciences. Broad
More informationMOLECULAR AND CELLULAR BIOLOGY, SCHOOL OF
Molecular and Cellular Biology, School of 1 MOLECULAR AND CELLULAR BIOLOGY, SCHOOL OF Milan Bagchi, Director of School 393 Morrill Hall, 505 South Goodwin Avenue, Urbana PH: (217) 333-3166 http://mcb.illinois.edu
More informationBME Course Descriptions
BME Course Descriptions 2018-19 BIM 1 Introduction to Biomedical Engineering Units: 2 Fall Lecture: 1 hour; Laboratory: 3 hours. No prerequisite. Introduction to the field of biomedical engineering with
More informationADAMAS UNIVERSITY FACULTY OF SCIENCE - DEPARTMENT OF BIOTECHNOLOGY BACHELOR OF SCIENCE (Honours) SEMESTER - I
NEW CHOICE BASED CREDIT SYSTEM (TOTAL CREDIT = 22+22+28+28+26+26 = 152) Type of the Paper Paper Code ADAMAS UNIVERSITY FACULTY OF SCIENCE - DEPARTMENT OF BIOTECHNOLOGY SEMESTER - I / Brief Contents I BT1201
More informationBiotechnology. Curriculum. for the Master s Programme in. Programme classification no Universität für Bodenkultur Wien
Universität für Bodenkultur Wien University of Natural Resources and Life Sciences, Vienna in cooperation with the Medical University of Vienna Curriculum for the Master s Programme in Biotechnology Programme
More informationBSE Chemical Engineering / MSE Biomedical Engineering Biotechnology Concentration. SUGS Program
BSE Chemical Engineering / MSE Biomedical Engineering Biotechnology Concentration Introduction SUGS Program What is Biomedical Engineering (BME)? It s a synthetic heart valve that saves a grandmother s
More informationMEDICAL MICROBIOLOGY AND IMMUNOLOGY (M M & I)
Medical Microbiology and Immunology (M M & I) 1 MEDICAL MICROBIOLOGY AND IMMUNOLOGY (M M & I) M M & I 301 PATHOGENIC BACTERIOLOGY Lectures on medically important bacteria, emphasizing the process of pathogenesis
More informationBIOINFORMATICS AND SYSTEM BIOLOGY (INTERNATIONAL PROGRAM)
BIOINFORMATICS AND SYSTEM BIOLOGY (INTERNATIONAL PROGRAM) PROGRAM TITLE DEGREE TITLE Master of Science Program in Bioinformatics and System Biology (International Program) Master of Science (Bioinformatics
More informationPharmaceutical Sciences/Pharmacodynamics, M.S.
Pharmaceutical Sciences/Pharmacodynamics, M.S. 1 Pharmaceutical Sciences/Pharmacodynamics, M.S. SCHOOL OF PHARMACY (http://www.temple.edu/pharmacy) About the Program The School of Pharmacy offers a graduate
More informationThe School of Science and Engineering
The School of Science and Engineering Office: 2000 Percival Stern Hall Phone: (504) 865-5546 Fax: (504) 865-6785 Website: http://cell.tulane.edu Professors Joan W. Bennett, Ph.D., Chicago YiPing Chen,
More informationBIOMEDICAL ENGINEERING SOPHOMORE DESIGN AND RESEARCH I BIOMEDICAL ENGINEERING SOPHOMORE DESIGN AND RESEARCH II
Course Descriptions by Department/Program Biomedical Engineering BIOMEDICAL ENGINEERING SOPHOMORE DESIGN AND RESEARCH I BME 0003 BIOMEDICAL ENGINEERING SOPHOMORE DESIGN AND RESEARCH II BME 0004 BIOMEDICAL
More informationGeneral Education Learning Outcomes
BOROUGH OF MANHATTAN COMMUNITY COLLEGE City University of New York Department of Science Title of Course: Cell Biology Class hours 3 BIO Section: 260 Lab hours 3 Semester Spring 2018 Credits 4 Schedule:
More informationand first half of the nervous
ANT4462 Introduction to Medical Anthropology 3 This course is an investigation of different medical systems and their practitioners, the ecology of health, illness, human adaptation, nutrition, and the
More informationDepartment of Genetics
Department of Genetics Program Specific Outcomes (PSO) Program- MSc. Genetics (404) The course prepares students for pursuing further research and teaching. Key features: Students have high success rate
More informationBiomedical Engineering
Biomedical Engineering 1 Biomedical Engineering Degree Offered Bachelor of Science in Biomedical Engineering (B.S.Bm.E.) Nature of Program The biomedical engineering discipline is among the fastest growing
More informationBIOLOGICAL BASIS OF PUBLIC HEALTH BMS505, Fall 2012 Syllabus
Course Director: BIOLOGICAL BASIS OF PUBLIC HEALTH BMS505, Fall 2012 Syllabus Location and meeting times Mo/We 10:30am 11:50am, George Auditorium Martin Tenniswood, PhD Department of Biomedical Sciences
More informationContents. Page 1 of 36
Programme-specific Section of the Curriculum for the MSc Programme in Biochemistry at the Faculty of Science, University of Copenhagen 2009 (Rev. 2018) Contents 1 Title, affiliation and language... 2 1.1
More informationBIOL 205. Fall Term (2017)
1 BIOL 205 Fall Term (2017) CALENDAR DESCRIPTION An introduction to Mendelian and Molecular Genetics covering the basic mechanisms of genetic transmission, gene structure and function, as well as the application
More informationLife SCIENCE GR ADUATE SCHOOL OF
GR ADUATE SCHOOL OF Life SCIENCE Transdisciplinary Life Science Course Biosystems Science Course Biomedical and Pharmaceutical Science Course Division of Clinical Pharmacy Message from the Dean Masakane
More informationPharmaceutical Sciences/Pharmaceutics, M.S.
Pharmaceutical Sciences/Pharmaceutics, M.S. 1 Pharmaceutical Sciences/Pharmaceutics, M.S. SCHOOL OF PHARMACY (http://www.temple.edu/pharmacy) About the Program The School of Pharmacy offers a graduate
More informationThe University of Texas MD Anderson Cancer Center UTHealth Graduate School of Biomedical Sciences Catalog Addendum
The University of Texas MD Anderson Cancer Center UTHealth 2016-2018 Catalog Addendum GSBS 2016-18 Catalog Addendum Table of Contents School Name Change... 1 Areas of Research Concentration Changes...
More informationBiotechnology, P.S.M.
Biotechnology, P.S.M. 1 Biotechnology, P.S.M. COLLEGE OF SCIENCE AND TECHNOLOGY (https://cst.temple.edu) Learn more about the Professional Science Master's in Biotechnology (https://www.temple.edu/academics/degree-programs/biotechnology-psm-st-biotpsm).
More informationBASIC MEDICAL SCIENCES MODULE 2016/17
BASIC MEDICAL SCIENCES MODULE 2016/17 STUDENT INFORMATION MODULE CO-ORDINATOR: Email: edged@tcd.ie DEPARTMENT OF PHYSIOLOGY, BIOMEDICAL SCIENCES INSTITUTE, TRINITY COLLEGE, PEARSE STREET, DUBLIN 2. 1 LEVEL:
More informationPharmaceutical Sciences/Medicinal Chemistry, M.S.
Pharmaceutical Sciences/Medicinal Chemistry, M.S. 1 Pharmaceutical Sciences/Medicinal Chemistry, M.S. SCHOOL OF PHARMACY (http://www.temple.edu/pharmacy) About the Program The School of Pharmacy offers
More informationUNDERGRADUATE AND PROFESSIONAL MAJOR CHANGE BULLETIN NO. 9 Spring Faculty Senate Approved April 11, COURSES---
UNDERGRADUATE AND PROFESSIONAL MAJOR CHANGE BULLETIN NO. 9 Spring 2013 Faculty Senate Approved April 11, 2013 ---COURSES--- The courses listed below reflect the undergraduate major curricular changes approved
More informationCURRICULUM VITAE. Educational Qualification: DEGREE INSTITUTION YEAR PROGRESS. Bharathidasan University Tamil Nadu
CURRICULUM VITAE M.BHARATH VIJAYARAGAVAN Masters in Biomedical sciences Nationality: Indian E-mail: bharathragavan@gmail.com Mobile: 91-9911738539 Sex: Male; Age: 23 Objective: Cell Signaling is an important
More informationList of Upper Division Science Electives
* = this course has prereqs List of Upper Division Science Electives purple highlight = special course Revised on 5//208 Course # Name Credits Description Prerequisites Department ANT 25 Introduction to
More informationBiology (BIOL) Biology BIOL 1620
(BIOL) BIOL 1010 General Biology, Summer Introduces major themes and concepts of biology including cell and molecular biology, genetics, diversity, evolution, and ecology. Provides students with necessary
More informationMicrobiology and Immunology
University Graduate School 2007-2008 Academic Bulletin Microbiology and Immunology School of Medicine Indianapolis Graduate Office Union Building 518 Indiana University Purdue University Indianapolis Indianapolis,
More informationENV'L+RADIOLGL HEALTH SCI-ERHS (ERHS)
Env'l+Radiolgl Health Sci-ERHS (ERHS) 1 ENV'L+RADIOLGL HEALTH SCI-ERHS (ERHS) Courses ERHS 174 Freshman Scholar Credit: 1 (1-0-0) Scholarship-supported exploration of biomedical research theory and practice.
More informationIncludes 'study abroad' Description This lecture module will introduce the following topics: Assessment Assessment Type Exam 1 (100%) Convenor
Biomedical Sciences This edition of the University of Nottingham Catalogue of Modules went to press on 7th September 2011. It was derived from information held on the database. The Catalogue is also published
More informationBASIC MEDICAL SCIENCES MODULE 2018/19
BASIC MEDICAL SCIENCES MODULE 2018/19 STUDENT INFORMATION ME7B04 MODULE CO-ORDINATOR: Email: tsanovm@tcd.ie DEPARTMENT OF PHYSIOLOGY, TRINITY BIOMEDICAL SCIENCES INSTITUTE, TRINITY COLLEGE, PEARSE STREET,
More informationBiomedical Engineering Graduate Program
505 Biomedical Engineering Graduate Program Coordinator: Co-coordinator: Coordinating Committee Members: Dawy, Zaher (Electrical & Computer Engineering, SFEA) Jaffa, Ayad (Biochemistry & Molecular Genetics,
More informationThe Swedish Foundation for Strategic Research (SSF) announces a. call for proposals in the areas of
1(8) 2008-09-16 Announcement The Swedish Foundation for Strategic Research (SSF) announces a call for proposals in the areas of Design, development and validation of new predictive models and new biomarkers
More informationBIOENGINEERING. Overview of Curricular Requirements. For the Degree of Bachelor of Science in Bioengineering. Orientation and Professional Development
Bioengineering BIOENGINEERING Michael Insana, Interim Department Head and Donald Biggar Willett Professor of Engineering 02 Everitt Lab 40 W. Green St. Urbana, IL 80 PH: (27) 333-87 https://bioengineering.illinois.edu/
More informationBIOLOGICAL SCIENCES (BIO SCI)
Biological Sciences (BIO SCI) 1 BIOLOGICAL SCIENCES (BIO SCI) BIO SCI 1001 Special Topics (LEC 0.0-6.0) BIO SCI 1103 Microbes And Man -- Introductory Microbiology (LEC 3.0) An introduction to the study
More informationRegenerative and Immune Engineering Focus Area - Upper-Level Engineering Courses updated June, 2018 For BME Class of 2021 and beyond
Regenerative and Immune Engineering Focus Area - Upper-Level Engineering Courses updated June, 2018 For BME Class of 2021 and beyond EN.510.311 Structure of Materials 3 EN.510.312 Thermodynamics/Materials
More informationRegenerative and Immune Engineering Focus Area Upper-Level Engineering Courses updated October, 2018 For BME Class of 2021 and beyond
Regenerative and Immune Engineering Focus Area Upper-Level Engineering Courses updated October, 2018 For BME Class of 2021 and beyond EN.510.311 Structure of Materials 3 EN.510.312 Thermodynamics/Materials
More informationBiology. Degree Requirements Master of Arts in Biology. Credit Transfer. Optional Concentrations for the AM in Biology
Biology The Master of Arts in Biology program helps students update and deepen their knowledge of the biomedical sciences, prepare for employment in related fields, and advance their professional standing
More informationDUAL DEGREE PROGRAM: BIOMEDICAL ENGINEERING COMBINED WITH MECHANICAL ENGINEERING
Dual Degree Program: Biomedical Engineering combined with Mechanical Engineering DUAL DEGREE PROGRAM: BIOMEDICAL ENGINEERING COMBINED WITH MECHANICAL ENGINEERING Requirements Effective Fall 208 Freshman
More informationMicrobiology and Immunology
University Graduate School 2006-2007 Academic Bulletin Microbiology and Immunology School of Medicine Graduate Office Union Building 518 Indiana University Purdue University, IN 46202 (317) 278-2490 Contact:
More informationGraduate Certificate: Biotechnology
Graduate Certificate: Biotechnology 1 Graduate Certificate: Biotechnology COLLEGE OF SCIENCE AND TECHNOLOGY (https://cst.temple.edu) Learn more about the graduate certificate in Biotechnology (https://www.temple.edu/academics/degree-programs/biotechnology-certificate-graduate-stbiot-grad).
More informationDEPARTMENT OF ENVIRONMENTAL AND RADIOLOGICAL HEALTH SCIENCES
Department of Environmental and Radiological Health Sciences 1 DEPARTMENT OF ENVIRONMENTAL AND RADIOLOGICAL HEALTH SCIENCES Office in Environmental Health Building, Room 122 (970) 491-7038 cvmbs.colostate.edu/erhs
More informationCOURSE OUTLINE. Biology 112 Microbiology
Degree Applicable Glendale Community College October, 2013 COURSE OUTLINE Biology 112 Microbiology I. Catalog Statement Biology 112 is a study of microorganisms (algae, bacteria, fungi, protozoa, and viruses).
More informationList of Upper Division Science Electives
* = this course has prereqs Course # Name Credits Description Prerequisites Department ANT 25 ANT4462 ANT4468 Introduction to Physical Introduction to Medical Bones, Bodies, & Disease ANT4525 Human Osteology
More informationCore Courses MBG 500 M.S. Thesis (0-1)NC MBG 513 Seminar in Molecular Biology* (0-2)NC MBG 8XX Special Studies (8-0)NC
IZMIR INSTITUTE OF TECHNOLOGY GRADUATE SCHOOL OF ENGINEERING AND SCIENCES DEPARTMENT OF MOLECULAR BIOLOGY AND GENETICS CURRICULUM OF THE GRADUATE PROGRAMS M.S. in Molecular Biology and Genetics Core Courses
More informationISTINYE UNIVERSITY FACULTY OF MEDICINE DEPARTMENT OF MEDICINE (ENGLISH) COURSE DESCRIPTIONS
ISTINYE UNIVERSITY FACULTY OF MEDICINE DEPARTMENT OF MEDICINE (ENGLISH) COURSE DESCRIPTIONS Istinye University, Faculty of Medicine has two separate education programs as Turkish and English Medicine.
More information1/7 09/07/2013 12:24 Life Science LIFS 1010 Appreciation of Biological Sciences [3 Credit(s)] [Previous Course Code(s): BISC 001] This course introduces students to the fundamental concepts and principles
More informationElective Type: Credit Hours: 4 Corequisites: Developmental: (yes/no) Lecture: 3 Clinical: 0 Lab: 3 Studio 0 Other: 0. TOTAL: 6 Other Requirements:
COURSE SYLLABUS Course Title: General Biology I (lecture/lab) Department: Mathematics and Science Curriculum: Biology Date submitted: April 2016 (AAC: 16-20) Course Descriptors: Make certain that the course
More informationTable of Contents The School of Biomedical Engineering, Science and Health Systems: Undergraduate Programs
Table of The School of Biomedical Engineering, Science and Health Systems: Undergraduate Programs About the School...2 Undergraduate Major Biomedical Engineering...4 About the Major Concentrations Biomaterials
More informationJ ove VIDEO JOURNAL CATALOG A CATALYST FOR SCIENTIFIC RESEARCH AND EDUCATION
J ove VIDEO JOURNAL CATALOG A CATALYST FOR SCIENTIFIC RESEARCH AND EDUCATION J ove VIDEO JOURNAL The first scientific video journal dedicated to advancing science by increasing reproducibility and efficient
More informationIntroduction to Human Biology Human Biology
Introduction to Human Biology Human Biology 102 2014-2015 Instructor Dr. Cynthia Edlund Phone 715-478-6187 Office 79 e-mail skinncyn@sdofcrandon.com Office 2:25 3:15 pm (Period 7) Hours 11:34 12:04 pm
More informationWALLACE H. COULTER DEPARTMENT OF BIOMEDICAL ENGINEERING AT GEORGIA TECH AND EMORY UNIVERSITY
Wallace H. Coulter Department of Biomedical Engineering at Georgia Tech and Emory University 1 WALLACE H. COULTER DEPARTMENT OF BIOMEDICAL ENGINEERING AT GEORGIA TECH AND EMORY UNIVERSITY Established in
More informationBIOLOGICAL SCIENCES (BIO SCI)
Biological Sciences (BIO SCI) 1 BIOLOGICAL SCIENCES (BIO SCI) BIO SCI 1001 Special Topics (LEC 0.0-6.0) BIO SCI 1103 Microbes And Man -- Introductory Microbiology (LEC 3.0) An introduction to the study
More informationCHEM 761. Advanced Topics in Biochemistry
CHEM 761 Advanced Topics in Biochemistry Goals: Up until this point, you have learned many of the basic pathways and concepts that are relevant to the cellular metabolism of all species. These include
More information