Department of Chemistry

Dr. Natalie Mikita, Chairperson
nmikita@missouriwestern.edu
(816) 271-4392
missouriwestern.edu/Chemistry

The Department of Chemistry programs of study prepares students for careers in the natural sciences. All students have a core of knowledge essential to the scientific experimentation that influences our daily lives. From atomic theories to basic chemical structures, the prospective chemist studies the material necessary for work in engineering, pharmacy, medicine, medical technology, dentistry, and research in chemistry. Students in all programs are encouraged to get involved in research with faculty, and often have the opportunity to present their findings at regional, national, and international conferences.

Chemistry

Chemistry students can choose between a general chemistry degree, or an American Chemical Society (ACS) approved degree. Both programs’ curriculum provides excellent preparation in organic chemistry, quantitative chemistry, biochemistry, and physical chemistry core courses taken by all students. The general chemistry degree provides great flexibility with electives for students who desire to enter a chemical related field including chemical business, chemical forensics, chemical education, chemical biology, health sciences, and others. The ACS approved program is the most comprehensive program available. This program is especially helpful to those working towards and advanced degree in chemistry, or planning a career in research, laboratory, and industrial careers.

Biochemistry and Molecular Biology

Biochemistry and molecular biology (BMB) is a joint program with the Department of Biology and includes a core curriculum comprised of both chemistry and biology courses. Students can opt for a general BMB degree, or an ACS approved degree. Like the chemistry degree, the general degree offers more flexibility with electives to tailor the degree, while the ACS degree is great for those wanting a BMB specific career. Both programs provide an excellent foundation for further study in graduate programs and professional programs such as medicine, dentistry, pharmacy, or veterinary sciences.

Medical Laboratory Science

The Medical Laboratory Science program (MLS), also referred to as Clinical Laboratory Science, prepares students for a career in the medical laboratory performing diagnostic services to detect and treat disease. The first three years of the MLS program provides students with the essential background knowledge in chemistry and biology required for students to be successful in the clinical coursework. The fourth year is spent in an affiliated hospital which proved the structured educational program in a clinical laboratory. The clinical training programs are accredited by the Committee on Allied Health Education and Accreditation of the American Medical Association through the National Accrediting Agency for Clinical Laboratory Sciences (NAACLS). Upon completion of the clinical program, students are eligible to take a national credentialing examination to become a certified Medical Laboratory Scientist.

Chemistry (CHE)

CHE 101  Introductory Chemistry     Credits: 4

Typically Offered: Fall, Spring.

Course Description: Chemistry for liberal arts and sciences students; meets the minimum physical science requirement. Three hours lecture, two hours lab.

CORE 42: MOTR CHEM 100L; Essentials in Chemistry with Lab (attributes MO33, MLAB)

CHE 111  General Chemistry I     Credits: 5

Typically Offered: Fall, Spring.

Course Description: Basic concepts of chemistry: atomic theory and periodic system, chemical calculations, oxidation-reduction, states of matter, theory of chemical bonding, atomic structures. Four hours lecture, three hours lab. Prerequisite(s): ACT Math subscore of at least 22 or a grade of C or higher in MAT 110E or score of 70 or higher on the MWSU Math Placement Exam, or the equivalent.

CORE 42: MOTR CHEM 150L; Chemistry with Lab (attributes MO33, MLAB)

CHE 112  Problem Solving for General Chemistry I     Credits: 1

Typically Offered: Fall, Spring.

Course Description: Elective course to accompany CHE 111 General Chemistry I. Focused instruction on problem solving strategies and tools associated with course content of General Chemistry I. Topics include symbolic chemical language, mathematics of General Chemistry, unit conversions and unit analysis, essential graphing, word problem strategies, employing technology to solve problems, and critical analysis of results. This course must be taken concurrently with CHE 111. Graded on a pass/fail basis.

CHE 120  General Chemistry II with Qualitative Analysis     Credits: 5

Typically Offered: Fall, Spring.

Course Description: Continuation of CHE 111. Thermochemistry, equilibrium, electrochemistry, radiochemistry, coordination chemistry, and a survey of the main group elements and their compounds. Laboratory includes the topics above along with the separation and identification of some of the more common anions and cations by qualitative analysis. Four hours lecture, three hours laboratory. Prerequisite(s): A grade of C or higher in CHE 111 and a grade of C or higher in MAT 116, or a Math score ACT of 25 or higher, or the equivalent.

CHE 121  Problem Solving for General Chemistry II     Credits: 1

Typically Offered: Fall, Spring.

Course Description: Elective course to accompany CHE 120 General Chemistry II. Focused instruction on problem solving strategies and tools associated with course content of General Chemistry II. Topics include mathematics of General Chemistry II including applications of algebra for solving problems in kinetics, thermodynamics and chemical equilibria, and solving complex word problems. This course must be taken concurrently with CHE 120. Graded on a pass/fail basis.

CHE 150  Basic Laboratory Skills     Credits: 2

Typically Offered: Summer.

Course Description: An immersive laboratory experience in which students learn basic chemical laboratory skills that will prepare them for a laboratory apprenticeship experience. Skills include laboratory safety, chemical and waste management, use of a balance, use of calibrated glassware and equipment, preparation of solutions, use of basic laboratory instrumentation, and titration. Prerequisite(s): A grade of C or higher in BIO 101, BIO 105, or BIO 106, a grade of C or higher in CHE 111, and a grade of C or higher in MAT 116.

CHE 283  Introduction to Research Methods in Chemistry     Credits: 1-3

Typically Offered: Departmental Discretion.

Course Description: Introduction to basic research in chemistry. Individual and team projects involving methods for solving chemistry-related research problems. May be repeated for credit. Prerequisite(s): High school chemistry, freshman or sophomore standing, and departmental approval.

CHE 290  Chemical Laboratory Apprenticeship I     Credits: 1

Typically Offered: Fall, Spring, Summer.

Course Description: Immersive on the job laboratory training experience with a Chemical Laboratory Technician Apprenticeship partner organization. This course may be repeated until a total of 2000 hours of on the job training have been completed. Prerequisite(s): Successful completion of the Laboratory Technician Pre-Apprenticeship Microcredential and departmental approval.

CHE 295  Colloquium in Chemistry     Credits: 1

Typically Offered: Departmental Discretion.

Course Description: An introduction to careers in chemistry and chemistry related fields. Breadth of career paths and educational requirements for those paths will be emphasized. Prerequisite(s): Freshman or sophomore standing, or departmental approval.

CHE 308  History and Philosophy of the Natural Sciences     Credits: 3

Typically Offered: Spring.

Course Description: A study of the history of the natural sciences with an emphasis on the philosophical analysis of these events. Same as BIO 308 and PHL 308. Prerequisite(s): Completion of General Studies Mathematics and Natural Sciences requirements.

CHE 310  Organic Chemistry I     Credits: 3

Typically Offered: Fall, Spring.

Course Description: Methods of synthesis of organic compounds, reaction paths, chemical bonding, and geometry of organic molecules; aliphatic and aromatic compounds. Topics include substitution, elimination, and electrophilic addition reactions and mechanisms along with an overview of functional groups. Three hours lecture. Prerequisite(s): A grade of C or higher in CHE 120.

CHE 311  Organic Chemistry Laboratory I     Credits: 2

Typically Offered: Fall, Spring.

Course Description: Laboratory course to accompany CHE 310 Organic Chemistry I lecture. Six hours lab. Prerequisite(s): Credit or concurrent enrollment in CHE 310.

CHE 312  Organic Chemistry II     Credits: 3

Typically Offered: Fall, Spring.

Course Description: Reactions, mechanisms and methods of synthesis of organic compounds. Topics include oxidation & reduction, conjugated & aromatic systems, aromatic substitution, amines, carboxylic acids and derivatives, carbonyl compounds, polymerization and carbohydrates. Three hours lecture. Prerequisite(s): A grade of C or higher in CHE 310 and CHE 311.

CHE 313  Organic Chemistry Laboratory II     Credits: 2

Typically Offered: Fall, Spring.

Course Description: Laboratory course to accompany CHE 312. Six hours lab. Prerequisite(s): Credit or concurrent enrollment in CHE 312.

CHE 321  Quantitative Analysis     Credits: 4

Typically Offered: Fall.

Course Description: Analytical chemistry; gravimetric, volumetric, colorimetric, and electroanalytical determinations. Two hours lecture, six hours lab. Prerequisite(s): A grade of C or higher in CHE 120.

CHE 326  Instrumental Analysis     Credits: 4

Typically Offered: Spring.

Course Description: Theories and methods in modern instrumental analysis. Three hours lecture, three hours lab. Prerequisite(s): A grade of C or higher in CHE 310, CHE 311, and CHE 321.

CHE 340  Foundations of Physical Chemistry     Credits: 4

Typically Offered: Fall.

Course Description: A foundational course in Physical Chemistry covering thermodynamics, chemical equilibrium, properties of solutions, electrochemistry, kinetic theory of gases, and chemical kinetics. Prerequisite(s): A grade of C or higher in CHE 310, CHE 311, PHY 110, and MAT 167.

CHE 370  Biochemistry I     Credits: 4

Typically Offered: Fall, Spring.

Course Description: An introduction to biological compounds their roles within cells and biological systems with an emphasis on structure and function, energy and metabolism, and biological storage of information. Three hours lecture, three hours lab. CHE 312 recommended. Prerequisite(s): A grade of C or higher in CHE 310 and CHE 311.

CHE 380  Environmental Chemistry & Chemical Management     Credits: 3

Typically Offered: Spring (odd-numbered years).

Course Description: Study of environmental chemistry as it affects the operation of chemical facilities in a global society and the application of chemical knowledge to important current problems, including safe chemical storage and waste management. This course will provide background for understanding the demands of the chemical industrial workplace or for advanced study of these topics. Prerequisite(s): A grade of C or higher in CHE 310, CHE 311, and CHE 321.

CHE 420  Chemistry Laboratory Assistantship     Credits: 1,2

Typically Offered: Fall, Spring, Summer.

Course Description: A laboratory assistant experience within a teaching laboratory. This experience may not be substituted for other courses required in the student's major area. Course grades are assigned on a pass/fail basis. May be repeated for credit. Prerequisite(s): A grade of C or higher in CHE 111 and department approval.

CHE 426  Instrumental Methods     Credits: 5

Typically Offered: Departmental Discretion.

Course Description: Modern methods of chemical instrumentation; includes both practical application; and fundamental theories of instrumental analyses. Three hours lecture, six hours lab. Prerequisite(s): CHE 321 and CHE 340.

CHE 441  Advanced Inorganic Chemistry     Credits: 3

Typically Offered: Spring (even-numbered years).

Course Description: Modern concepts of inorganic chemistry, encompassing chemical bonding theories, acid-base theories, mechanisms of inorganic chemistry, symmetry in molecules, inorganic thermodynamics, and atomic and molecular structure. Three hours lecture. Prerequisite(s): CHE 310 and CHE 311.

CHE 442  Inorganic Synthesis     Credits: 1

Typically Offered: Departmental Discretion.

Course Description: Selected synthetic techniques involving inert atmosphere, non-aqueous solvents, vacuum manipulation, and electrolytic oxidation, as currently applied to the purification and characterization of a wide variety of inorganic materials. Three hours lab. Prerequisite(s): CHE 310, CHE 311, and credit or concurrent enrollment in CHE 441.

CHE 445  Advanced Topics in Chemistry     Credits: 3

Typically Offered: Departmental Discretion.

Course Description: Advanced material in Organic, Inorganic, Physical, Analytical, or Biochemistry, taught on a rotational basis. Specific topics may include, but are not limited to: Applied Spectroscopy, Chemical Kinetics, Macromolecular Chemistry (Polymers), Physical Inorganic Chemistry, Applied Chromatography, Advanced Organic Chemistry, or Advanced Biochemistry. This course may be repeated for credit for multiple topics. Prerequisite(s): CHE 312 and CHE 340.

CHE 450  Independent Research/Project     Credits: 1-5

Typically Offered: Fall, Spring, Summer.

Course Description: Investigation of a research problem, project, or topic on an individual conference basis. May be repeated for credit. Prerequisite(s): Minimum of 2.5 GPA in major field, and departmental approval.

CHE 465  Chemistry Teaching: Methods and Techniques     Credits: 3

Typically Offered: Departmental Discretion.

Course Description: Modern techniques in teaching high school chemistry: use of multimedia equipment, project approach, lesson planning, accreditation standards at state and national levels, and difficulties in chemistry instruction at the secondary level. Prerequisite(s): CHE 310 or departmental approval.

CHE 470  Biochemistry II     Credits: 3

Typically Offered: Spring (even-numbered years).

Course Description: Continuing study of the biochemical basis of biological systems with a more expansive understanding of biomolecular structure and function, the interaction of biological molecules, energy and intermediary metabolism, biological signaling, and methods used for biochemical study. Three hours lecture. CHE 312 recommended. Prerequisite(s): A grade of C or higher in CHE 370.

CHE 475  Internship in Chemistry     Credits: 1-3

Typically Offered: Fall, Spring, Summer.

Course Description: An extracurricular experience related to a unique approved chemistry career experience or a preprofessional experience. Course grades assigned on a Pass/Fail basis. May be repeated for credit. Prerequisite(s): Junior or Senior standing, a declared major in the Department of Chemistry, and departmental approval.

CHE 480  Advanced Physical Chemistry     Credits: 4

Typically Offered: Spring (odd-numbered years).

Course Description: Second course in physical chemistry covering quantum chemistry, spectroscopy, bonding, and statistical thermodynamics. Prerequisite(s): Grade of C or better in CHE 340, PHY 111, and either MAT 177 or MAT 287.

CHE 485  Chemistry Capstone Experience     Credits: 2

Typically Offered: Fall.

Course Description: A capstone laboratory experience. Covering research methodology, project planning, use of the chemical literature, experimentation, and scientific presentations with a mesoscale, supramolecular, nanoscale (MSN) focus. Prerequisite(s): A grade of C or higher in CHE 310, CHE 311, and CHE 321.

CHE 490  Research in Chemistry     Credits: 1-3

Typically Offered: Fall, Spring Summer.

Course Description: Original research on problems in various fields of chemistry. Hours arranged. May be repeated for credit. Students are expected to work a minimum of 3 hours per week for each credit hour enrolled. A presentation of the work is required at the end of each enrolled term. A summary of the work will be provided to the research advisor (irrespective of credit hours) and written reports of the work must be submitted for research projects involving 2 or more credit hours. Prerequisite(s): CHE 310 and CHE 311 or consent of department chairperson.

Clinical Laboratory Science (CLS)

CLS 407  Clinical Laboratory Operations     Credits: 2

Typically Offered: Summer.

Course Description: This course provides a basic introduction to the theory, practical application, technical performance and evaluation of laboratory skills specific to the practice of clinical laboratory science. Laboratory safety; microscopy; pipetting; general laboratory equipment; quality control; mathematics; phlebotomy; pre-analytic, analytic and post-analytic processes, including specimen collection, processing and transport to maintain test result integrity, will be addressed. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 408  Introduction to Clinical Hematology     Credits: 2

Typically Offered: Summer.

Course Description: This course introduces the theory, practical application, technical performance and evaluation of hematological and hemostasis procedures. Correlation of laboratory data with the diagnosis of erythrocyte, leukocyte and bleeding/clotting disorders will be introduced. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 409  Introduction to Clinical Microbiology     Credits: 2

Typically Offered: Summer.

Course Description: This course introduces the theory, practical application, technical performance and evaluation of procedures for isolation, identification and susceptibility testing of infectious disease organisms in humans. The course primarily focuses on bacteriology, but will include introductory coverage of parasitology, mycology and virology. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 410  Introduction to Clinical Chemistry and Urinalysis     Credits: 1

Typically Offered: Summer.

Course Description: This course introduces the theory, practical application, technical performance and evaluation of basic laboratory skills and methods in clinical chemistry and urinalysis. The course focuses on the correlation of laboratory data with the diagnosis of renal conditions, but will include introductory coverage of carbohydrate, liver and protein conditions, as well as enzymes. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 411  Introduction to Clinical Immunohematology     Credits: 1

Typically Offered: Summer.

Course Description: This course introduces the theory, practical application, technical performance and evaluation of immunohematology procedures required to provide compatible blood components for transfusion. Methods for collection, processing, storage and transfusion of blood and blood components will be presented. Immunohematology procedures that assist in the diagnosis and management of hemolytic conditions will be introduced. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 412  Clinical Lab Science Theory, Application, and Correlation     Credits: 5

Typically Offered: Spring.

Course Description: This course includes the application, evaluation and correlation of laboratory procedures used in the diagnosis and treatment of common disease states. Opportunities for building critical thinking, problem solving, leadership, oral communication, professionalism, and team work skills are provided in small group clinical case discussions. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 413  Clinical Endocrinology and Toxicology     Credits: 1

Typically Offered: Fall.

Course Description: This course introduces the theory, practical application, and evaluation of clinical chemistry laboratory procedures. Correlation of clinical laboratory data with the diagnosis and treatment of endocrine disorders, toxicology disturbances and therapeutic drug monitoring is emphasized. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 414  Clinical Chemistry and Urinalysis I     Credits: 2

Typically Offered: Fall.

Course Description: This course expands on the theory, practical application, and evaluation of basic laboratory procedures introduced in CLS 407 Clinical Laboratory Operations and CLS 410 Introduction to Clinical Chemistry and Urinalysis, with an emphasis on common automated methodologies used in clinical chemistry and urinalysis laboratories. This course will focus on the interpretation, evaluation and correlation of clinical laboratory data with the diagnosis and treatment monitoring of carbohydrate, renal, hepatic, protein, cardiac, lipid/lipoprotein, major and minor electrolyte, enzyme, pancreatic-gastrointestinal and acid-base disorders. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 415  Clinical Chemistry and Urinalysis II     Credits: 2

Typically Offered: Spring.

Course Description: This course expands on the theory, practical application, and evaluation of laboratory procedures introduced in CLS 414 Clinical Chemistry and Urinalysis I and CLS 444 Clinical Core Laboratory Practical I. Correlation of clinical laboratory data with the diagnosis and treatment monitoring of carbohydrate, renal, hepatic, cardiac, lipid/lipoprotein, protein, major and minor electrolyte, trace element, enzyme, pancreatic-gastrointestinal and acid-base disorders; tumor markers; and inborn errors of metabolism is emphasized. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 416  Clinical Hematology I     Credits: 2

Typically Offered: Fall.

Course Description: This course expands on the theory, practical application, and evaluation of hematological and hemostasis procedures introduced in CLS 408 Introduction to Clinical Hematology and of basic laboratory skills in CLS 407 Clinical Laboratory Operations. Correlation of clinical laboratory data with the diagnosis and treatment of erythrocyte, leukocyte and bleeding/clotting disorders will be emphasized. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 417  Clinical Hematology II     Credits: 2

Typically Offered: Spring.

Course Description: This course expands on the theory, practical application, and evaluation of hematological and hemostasis procedures introduced in CLS 416 Clinical Hematology I and CLS 444 Clinical Core Laboratory Practicum I, and includes the analysis of cerebrospinal, synovial and serous fluids. Correlation of clinical laboratory data with the diagnosis and treatment of erythrocyte, leukocyte and bleeding/clotting disorders will be emphasized. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 418  Clinical Microbiology I     Credits: 2

Typically Offered: Fall.

Course Description: This course expands on the theory, practical application, and evaluation of procedures for isolation, identification and susceptibility testing of infectious disease organisms in humans introduced in CLS 409 Introduction to Clinical Microbiology and of basic laboratory skills in CLS 407 Clinical Laboratory Operations. The course primarily focuses on bacteriology, but will include coverage of parasitology, mycology and virology. Course content emphasizes the correlation of clinical laboratory data with the patient's diagnosis and treatment. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 419  Clinical Microbiology II     Credits: 2

Typically Offered: Spring.

Course Description: This course builds on the theory, practical application and evaluation of the procedures for isolation, identification and susceptibility testing of infectious disease organisms in humans introduced in CLS 418 Clinical Microbiology I and CLS 448 Clinical Microbiology Laboratory Practicum I. This course includes bacteriology, mycology, parasitology, and virology content, and will emphasize the correlation of clinical laboratory data with the patient's diagnosis and treatment. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 420  Clinical Immunology and Molecular Diagnostics     Credits: 2

Typically Offered: Fall.

Course Description: This course includes the theory, practical application, and evaluation of immunological components and infectious disease serology. The principles and methodologies used in the assessment of immunologically related disorders, including hypersensitivity reactions, autoimmune, immunoproliferative, immunodeficient disorders and infectious disease are included. The course emphasizes the correlation of clinical laboratory data with the patient's diagnosis and treatment. The theory and application of molecular diagnostic tools, such as polymerase chain reaction (PCR), nucleic acid probes, and microarrays are also addressed. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 422  Clinical Immunohematology I     Credits: 2

Typically Offered: Fall.

Course Description: This course expands on the theory, practical application, and evaluation of immunohematology procedures introduced in CLS 411 Introduction to Clinical Immunohematology and basic laboratory skills in CLS 407 Clinical Laboratory Operations. The primary focus will be on processes required to provide compatible blood components for transfusion. Processes for donor blood collection and blood component processing and storage will be discussed. Immunohematology procedures that assist in the diagnosis and management of hemolytic conditions will be addressed. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 423  Clinical Immunohematology II     Credits: 2

Typically Offered: Spring.

Course Description: This course expands on the theory, practical application, and evaluation of immunohematology procedures presented in CLS 422 Clinical Immunohematology I and CLS 442 Clinical Immunohematology Laboratory Practicum I. There is an emphasis on the application of immunohematology procedures used for the resolution of complex immunohematology problems. Proper selection of immunohematology procedures that assist in the diagnosis and management of hemolytic conditions will be discussed. Concepts in patient blood management and the adverse effects of transfusion will be presented. Quality management as it applies to transfusion medicine will be addressed. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 430  Clinical Laboratory Management I     Credits: 2

Typically Offered: Fall.

Course Description: This course introduces the theory, practical application and evaluation of laboratory management principles in healthcare, including safety, research, educational methodology, quality control, ethics, laboratory operations, point-of-care testing, scope of practice, and the job application process. Opportunities for building critical thinking, problem-solving, research, communication, professionalism, management and leadership skills are provided. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 431  Clinical Laboratory Management II     Credits: 3

Typically Offered: Fall.

Course Description: This course builds on CLS 430 Clinical Laboratory Management I, and includes the theory, practical application and evaluation of laboratory management principles in compliance and regulatory issues, test utilization, human resource management, written and oral communication, method evaluation, educational methodology, professionalism, quality improvement and financial resource management. Opportunities for building critical thinking, problem-solving, team work, communication, professionalism, management and leadership skills are provided. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 442  Clinical Immunohematology Laboratory Practicum I     Credits: 1

Typically Offered: Fall.

Course Description: This course provides practical application in a clinical laboratory setting for the technical performance and evaluation of clinical immunohematology procedures and preparation of blood components. Course content will include new skills and procedures, in addition to the skills and procedures presented in CLS 407 Clinical Laboratory Operations and CLS 411 Introduction to Clinical Immunohematology. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 443  Clinical Immunohematology Laboratory Practicum II     Credits: 1

Typically Offered: Spring.

Course Description: This course provides practical application in a clinical laboratory setting for the technical performance and evaluation of clinical immunohematology procedures and preparation of blood components. Course content will include new skills procedures, in addition to the skills and procedures presented in CLS 442 Clinical Immunohematology Laboratory Practicum I. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 444  Clinical Core Laboratory Practicum I     Credits: 1

Typically Offered: Fall.

Course Description: This course provides practical application in a clinical laboratory setting for the technical performance and evaluation of clinical hematology/hemostasis, chemistry and urinalysis procedures. Course content will include new skills and procedures and the application of automation and automatic verification techniques, building on the skills and procedures presented in CLS 407 Clinical Laboratory Operations, CLS 408 Introduction to Clinical Hematology and CLS 410 Introduction to Clinical Chemistry and Urinalysis. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 445  Clinical Core Laboratory Practicum II     Credits: 1

Typically Offered: Spring.

Course Description: This course provides practical application in a clinical laboratory setting for the technical performance and evaluation of clinical hematology/hemostasis, chemistry and urinalysis procedures. Technical content will include new skills and procedures, in addition to the skills and procedures presented in CLS 444 Clinical Core Laboratory Practicum I. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 448  Clinical Microbiology Laboratory Practicum I     Credits: 1

Typically Offered: Fall.

Course Description: This course provides practical application in a clinical laboratory setting for the technical performance and evaluation of clinical microbiology procedures. Course content will include new skills and procedures, in addition to the skills and procedures presented in CLS 407 Clinical Laboratory Operations and CLS 409 Introduction to Clinical Microbiology. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

CLS 449  Clinical Microbiology Laboratory Practicum II     Credits: 1

Typically Offered: Spring.

Course Description: This course provides practical application in a clinical laboratory setting for the technical performance and evaluation of clinical microbiology procedures. Course content will include new skills and procedures, in addition to the skills and procedures presented in CLS 448 Clinical Microbiology Laboratory Practicum I. Prerequisite(s): Acceptance in UNMC Clinical Laboratory Training program.

Medical Technology (MTE)

MTE 412  Clinical Lab Science Theory, Applications and Correlation     Credits: 5

Typically Offered: Fall, Spring, Summer.

Course Description: This course includes the application, evaluation, and correlation of laboratory procedures used in the diagnosis and treatment of common disease states. Opportunities for building critical thinking, problem solving, leadership, oral communication, professionalism, and teamwork skills are provided in small group clinical case discussions and presentations. Prerequisite(s): Acceptance into Affiliate Clinical Lab Science Training Program.

MTE 413  Applications of Chemistry for Clinical Lab Science     Credits: 1

Typically Offered: Fall, Spring, Summer.

Course Description: This course incorporates advanced theory, practical application, and evaluation of clinical chemistry laboratory procedures. Correlation of clinical laboratory data with the diagnosis and treatment of endocrine disorders, toxicology disturbances and the therapeutic drug monitoring is emphasized. Prerequisite(s): Acceptance into Affiliate Clinical Lab Science Training Program.

MTE 430  Clinical Microbiology     Credits: 4-8

Typically Offered: Fall, Spring, Summer.

Course Description: The theory and laboratory study of pathogenic bacteria, viruses, rickettsiae, fungi, and parasites; includes specimen handling, methods of isolation, cultivation, diagnostic procedures, asepsis, environmental monitoring, medical significance, and quality control. Prerequisite(s): Acceptance into Affiliate Clinical Lab Science Training Program.

MTE 432  Clinical Chemistry     Credits: 6-10

Typically Offered: Fall, Spring, Summer.

Course Description: Identification and quantitation of specific chemical substances in blood and body fluids by various analytical techniques; clinical correlation with diagnosis and treatment of disease; principles of instrumentation; toxicology; and quality control. Prerequisite(s): Acceptance into Affiliate Clinical Lab Science Training Program.

MTE 434  Clinical Hematology     Credits: 3-7

Typically Offered: Fall, Spring, Summer.

Course Description: Theory of blood cell formation; morphology of cellular constituents; disease states; hemostatis; and coagulation testing; includes techniques and instrumentation used to determine major hematological and clotting parameters and quality control procedures. Prerequisite(s): Acceptance into Affiliate Clinical Lab Science Training Program.

MTE 436  Clinical Immunohematology     Credits: 3-7

Typically Offered: Fall, Spring, Summer.

Course Description: Studies the common blood group systems; principles and procedure for antigen-antibody detection; cross-matching; blood collection and preservation; processing; the evaluation of transfusion reaction; and quality control procedures. Prerequisite(s): Acceptance into Affiliate Clinical Lab Science Training Program.

MTE 438  Clinical Immunology     Credits: 1-6

Typically Offered: Fall, Spring, Summer.

Course Description: Characteristics of antigen/antibody function and interaction; principles and procedures of humoral and cellular immune responses; performance of serological procedures; clinical correlation of abnormalities; and quality control. Prerequisite(s): Acceptance into Affiliate Clinical Lab Science Training Program.

MTE 440  Clinical Urinalysis     Credits: 1-3

Typically Offered: Fall, Spring, Summer.

Course Description: Studies renal physiology and function in health and disease states; includes chemical and microscopic examination of urine, other excreta, and body fluids in relation to disease processes, along with quality control procedures. Prerequisite(s): Acceptance into Affiliate Clinical Lab Science Training Program.

MTE 442  Topics in Medical Technology     Credits: 1-4

Typically Offered: Fall, Spring, Summer.

Course Description: Subject matter may include the following: hospital orientation, laboratory management, radioisotope techniques, quality control procedures, laboratory safety, special projects, special techniques, and seminars on various subjects deemed necessary by hospital personnel. Prerequisite(s): Acceptance into Affiliate Clinical Lab Science Training Program.

Shauna Hiley (1997) Professor, Chemistry. Ph.D., University of Wyoming.

Steven Lorimor (1999) Associate Professor, Chemistry. Ph.D., Iowa State University.

Natalie Mikita (2016) Associate Professor, Chemistry. Ph.D., Case Western Reserve University.

Jonathan Rhoad (2006) Professor, Chemistry. Ph.D., The Ohio State University.

Alcinda Ruuskanen (2021) Instructor, Chemistry. M.S., University of Oulu (Finland).

Stanislav Svojanovsky (2013) Associate Professor, Chemistry. Ph.D., University of Kansas.

Jeffrey Woodford (2010) Associate Professor, Chemistry. Ph.D., University of Nebraska-Lincoln.