Biomedical Sciences (BMS)
The Biomedical Sciences (BMS) major is designed to offer students a structured route to future entry into professional school. Among the three MS majors, BMS offers the most tailored route for students whose aspirations include medical school.
Throughout the year of study, students will enroll in graduate courses at the DeBusk College of Osteopathic Medicine (DCOM).
Other significant aspects of the program include the following:
- Guaranteed Interview
- To receive a guaranteed interview for the upcoming DO class at LMU-DCOM, students must meet the following criteria:
- Enrolled full time as a Master of Science student at LMU-DCOM taking ANAT-501 (Gross Anatomy), ANAT-714 (Medical Histology), LSCI-610 (Advanced Immunology), LSCI-612 (Medical Microbiology), and two electives in the Fall semester. The student would be taking 19 credits.
- Meet all pre-requisite coursework requirements.
- Fall GPA ≥3.0 with no MCAT minimum requirement.
- Fall GPA is calculated after Fall semester in MS program.
- Complete AACOMAS application by deadline.
- No professionalism concerns or issues.
- Before the actual interview, an interview prep session is provided along with group mock interviews with faculty/staff in the MS program.
- A grade of "C" or lower in a Spring semester course may result in a rescinded interview/acceptance to LMU-DCOM.
- Note: Students in this tier are not guaranteed admission into the DO program. This tier has no minimum MCAT requirement, but the MCAT must be taken in order to apply to the DO program LMU-DCOM.
- To receive a guaranteed interview for the upcoming DO class at LMU-DCOM, students must meet the following criteria:
- Provisional Acceptance
- To receive provisional acceptance into the upcoming DO class at LMU-DCOM, students must meet the following criteria:
- Enrolled full time as a Master of Science Student at LMU-DCOM taking ANAT 501 (Gross Anatomy), ANAT 714 (Medical Histology), LSCI 610 (Advanced Immunology), LSCI 612 (Medical Microbiology), and two electives in the fall semester. Each student would be taking 19 credits.
- Meet all pre-requisite coursework requirements.
- Fall GPA is calculated after fall semester in MS program (no withdrawals and no grade below “B”). MCAT must be completed no later than September of the fall semester in MS program.
- Fall GPA 3.3-3.49 with MCAT ≥497
- Fall GPA 3.5-4.0 with MCAT ≥494
- Completed AACOMAS application by deadline.
- Successful interview by DCOM admissions committee.
- No professionalism concerns or issues.
- Acceptance is contingent upon successful completion of MS degree with no grade below “B” or offer may be rescinded.
- To receive provisional acceptance into the upcoming DO class at LMU-DCOM, students must meet the following criteria:
*Guaranteed Interview and Provisional Acceptance does not apply to the Life Science Research Program.
*Students who have been dismissed from another professional program are ineligible for Provisional Acceptance. LMU-DCOM Admissions reserves the right to rescind a Provisional Acceptance offer. Applications will be reviewed on a case-by-case basis
Degrees and Certificates
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MS/DO Combined Degree Completion Pathway - Master of Biomedical Sciences, Master of Science -
MS in Biomedical Sciences, Master of Science
Courses
ANAT-501: Gross Anatomy
Credits 3Gross Anatomy is the study of the body's structure. This course is organized according to the major body regions: back and upper limb; thorax and abdomen; pelvis and lower limb; and head and neck. Supplemental lectures and tutorials will also be given. The student is expected to learn anatomical terminology and three-dimensional anatomy. Throughout the course students will be challenged to relate anatomy to solving clinical problems. The latter is an integral part of the anatomy curriculum. Students will be evaluated by a series of four written examinations.
ANAT-624: Human Embryology
Credits 3This course focuses on clinically-oriented human development from gametogenesis to birth. The first section of the course emphasizes developmental processes and early development of the embryo and fetus. The second section of the course emphasizes organ system development. Both sections will incorporate developmental genetics and clinical case vignettes to explain normal and abnormal development. Emphasis is placed on anatomical change with discussion of developmental mechanisms and physiology. This in-depth look at embryology will provide a more profound understanding of human anatomy. Pre-requisite: ANAT 501
ANAT-699: Med Gross Anat Dissection
Credits 3ANAT-714: Medical Histology
Credits 3Medical Histology is designed to give students a foundation of the basic structural and functional organization of cells and tissues in the human body. Histology focuses on the histologic study and microscopic anatomy of basic tissue types. The understanding of the normal histology presented in this course is critical for the student's ability to: (1) envision the cellular/tissue structures associated with the biochemical and physiological processes explained in other courses, and (2) identify and comprehend the abnormal histology present in Pathology. Pre-Requisites: Admission to the Master of Science, Biomedical Professions or Anatomical Sciences Program. Offered as an elective when available.
ANAT 604: Introduction to Radiographic Anatomy and Clinical Imaging
Credits 3This unit provides an understanding of the basic anatomy of the head and neck, thorax, abdomen and pelvis, as well as the limbs. Radiographic images, cross-sectional imaging software, and diagrams are used to support the learning process.
DOSYS-701 : Medical Gross Anatomy I
Credits 3This course can only be taken by students enrolled as an Osteopathic Medicine Student (OMS).
Medical Gross Anatomy is the study of the body's structure. The course is organized according to the major body regions: back and upper limb; thorax and abdomen; pelvis and lower limb; and head and neck. Laboratory dissections will be utilized throughout the entire course. Supplemental lectures and tutorials will also be given. The student is expected to learn anatomical terminology, three-dimensional and radiological anatomy. Throughout the course students will be challenged to relate the anatomy to solving clinical problems. The latter is an integral part of the anatomy curriculum. Students will be evaluated by a series of five written examinations and four laboratory practical exams.
DOSYS-714: Medical Histology
Credits 2.5This course can only be taken by students enrolled as an Osteopathic Medicine Student (OMS).
Medical Histology is designed to give students a foundation in the basic structural and functional organization of cells and tissues in the human body. The course focuses on histologic study of basic tissue types and the microscopic anatomy of major organs and organ systems. The understanding of the normal histology presented in this course is critical for the student's ability to: (1) envision the cellular/tissue structures associated with the biochemical and physiological processes explained in other courses, and (2) identify and comprehend the histopathology presented in the second-year systems courses
DOSYS-715: Medical Neuroanatomy
Credits 1This course can only be taken by students enrolled as an Osteopathic Medicine Student (OMS).
This course provides an introduction to the human nervous system. The basic structure and common disorders of the PNS and CNS will be emphasized throughout this course; however, an understanding of the peripheral distribution of the cranial and spinal nerves covered in the concurrent Medical Gross Anatomy (DOSYS-701) will be considered prerequisite knowledge. This course is the first of a two-part series, and will cover the following topics: fundamentals of neuroanatomy and synaptic transmission; superficial, cross-sectional, and connectional anatomy of the brain and spinal cord; the function and spinal distribution of the corticospinal, spinothalamic, and dorsal column-medial lemniscus pathways; and the functional anatomy of reflexes and the autonomic nervous system in the thorax and abdomen.
LSCI-503: Advanced Molecular Genetics & Cell Biology
Credits 3This course is an in-depth coverage of Eukaryotic and Prokaryotic molecular cell biology. Topics include structure and utilization of the organismal genome; nuclear and cytoplasmic division; membrane structure, transport, and compartment dynamics; cell communication; cell-cycle regulation; cytoskeletal structure and dynamics; cellular aspects of multicellular development and apoptosis. Assigned readings in current primary literature will be used to extend learning of topics in this course. This course has a required critical analysis paper.
LSCI-506: Microscopic Imaging Theory and Technique
Credits 3This course will address light, electron, atomic force, and confocal microscopy as complimentary study methods. The history of microscopy will allow comparison and contrasts of light and electron optics. The focus of the course will be on advanced imaging techniques, especially electron microscopy. Electron paths will be followed from filament generation of primary electrons, focusing electrons through the column, to specimen interactions generating secondary and backscattered electrons, and X-rays. Techniques will include sample fixation, dehydration, mounting, coating and storage for high and low vacuum systems. A discussion of X-ray microanalysis will show the quantitative side of advanced imaging. Students will gain hands-on experience with scanning electron microscopy. This course has complimentary lecture and lab assignments. Pre-Requisities: Admission to the Master of Science program.
LSCI-510: Principles of Physiology
Credits 3This course is an in-depth coverage of vertebrate physiology. Study will include the specific function of all major vertebrate organ systems along with focus on neurological and endocrine regulatory integration. Assigned readings in current primary literature will be used to extend learning of topics in this course. This course has a required critical analysis paper.
LSCI-604: Research Design & Analysis
Credits 3This course covers the principles and applications of research design in the life sciences. This includes framing and articulating a research question, creating testable hypotheses, collecting valid data, approaches to data analyses, and presentation of results. Examples from the primary literature will be discussed and evaluated.
LSCI-605: Scholarly Writing in Life Science
Credits 2This course focuses on formal scientific writing. It emphasizes concise communication of the research process. It includes both written and oral presentations of previous relevant background studies, statement of the research question, detailing of materials and methods, linkage of claims, warrants, and evidence, and concluding discussions. A written research proposal draft is required for completion of this course. Pre-Requisites: LSCI 604 is a pre-requisite for the LSR degree. LSCI 604 is not a pre-requisite for the AS and BMS degrees.
LSCI-606: Appl Ethics Biomed Sci
Credits 3Applied Ethics is the inquiry from the standpoint of moral philosophy into practical decision making. The focus of the course will concern ethical issues in relation to research and practice in the biomedical sciences. The course's instructional format will include a combination of lecture, video, small group discussion, and seminar. It will also include independent study of a focused topic selected by the student in consultation with their supervisor. The course will be primarily "Case Based" covering a range of topics with the emphasis on ethical decision-making. Ethical theory will be discussed in relation to making the most reasoned and informed argument for practical courses of action. Special attention will be given to the ethical dimensions of research involving human and non-human subjects. Pre-Requisites: Admission into the Master of Science Program and at least one prior undergraduate course in ethics.
LSCI-610: Advanced Immunology
Credits 3This course is designed for students who have background knowledge in immunology. This course will investigate the immune response and its involvement in health and disease through the use of case studies, webinars, and literature reviews. Topic areas covered include, but are not limited to, innate and adaptive immunity, regulation of the immune system, induction and role of cell types and subsets, transplant immunology, immuno-pathologies, tumor immunology, and immunotherapies. Pre-Requisites: Admission to the Master of Science program.
LSCI-611: Princ of Pharmacology
Credits 3This introductory course covers key pharmacologic concepts related to the physiologic, cellular, and biochemical actions of major drug classes used in human medicine. Students will learn basic scientific concepts including the theoretical basis of pharmacodynamics and pharmacokinetics as well as the molecular and physiologic actions of drugs that influence function of the autonomic nervous system, the somatic nervous system, the central nervous system, the cardiopulmonary/renal systems, the endocrine system, the immune system, and actions of drugs that target microbial infection. In addition, students will apply pharmacologic principles to understand impact of drugs of abuse, important drug interactions, and actions of dietary/botanical supplements. Prerequisites: Admission to the Master of Science program
LSCI-612: Medical Microbiology
Credits 4This course will introduce basic principles and then apply those principles to clinical relevance. All aspects of microbiology will be explored. This course will cover taxonomy, metabolism, pathogenesis, modes of transmission, epidemiology, methods of isolation and control for pathogenic bacteria, viruses, fungi and parasites. This course will include etiological agents responsible for many infectious diseases that future practitioners would encounter.
LSCI-613: Case Studies in Life Sciences
Credits 1Selected case studies and case reports from the primary literature and other resources are critically presented and discussed. Students are expected to apply pre-requisite knowledge and skills to be able to discuss and evaluate case information. Attendance required. Pre-requisites: Admission to the Master of Science program
LSCI-614: Prin Infectious Disease/Epidemiology
Credits 3This course will cover the basic methods for infectious diseases epidemiology. Emphasis will be on definitions, outbreak investigations, disease surveillance, dynamic of transmission, effectiveness of vaccines, and diagnostics across species. The case studies will focus on diarrheal diseases, hepatitis, HIV, sexually transmitted diseases, parasitic diseases, and other vector-borne diseases. The course will also cover One Health and the connectivity of human, animal and environment.
LSCI-615: Communications in Healthcare
Credits 3Explores effective communication in health care. Various techniques will be considered in finding better ways to have discussions with colleagues and consultations with patients. This will include written and verbal communication in the various ways these now occur. The course will focus on special considerations in communication among the diverse populations of people with whom medical professionals can expect to interact. An important facet of this exploration is that the range of cultural norms in communities requires an understanding that the rich diversity is to be appreciated and respected.
LSCI-616: Curriculum and Assessment
Credits 3This course provides an analysis of curriculum development and methods for aligning course content to goals and evaluation procedures. The philosophical, historical, and psychological foundations of curriculum will be explored to help students better understand how curriculum models might be utilized in an ever changing and emerging educational environment. Topics explored will include course organization, teaching strategies/methods in the biological science classroom, preparing educational units, developing the laboratory content, teaching methods, learning styles, etc.
LSCI-653: Special Topics in Life Science
Credits 3Various specific life sciences topics are covered which include in-depth presentation, analysis and discussion of the related primary literature. May be repeated with a different topic. Pre-Requisites: Admission to the Master of Science program and permission of instructor.
LSCI-683: Graduate Research Project
Credits 1The graduate student conducts life science research under the supervision of a graduate research mentor. A written research report is required to complete the course. May be repeated for credit.