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Right Documentation: document the administration of the medication as soon as it has been administered. Using professional clinical software can guarantee consistency. Nurses also need to keep in mind what potential drug interactions can occur. A drug interaction is where two or multiple medicines react with one another causing unexpected side effects in the patient.

There is multiple drug interaction checker software available online if the nurse administering is ever unsure of the after-effects. Nurses should also speak to a doctor or pharmacist if they feel a combination of medicines is incorrect. Improving knowledge of medication Nurses face numerous problems during the medication administration process, such as prescriptions coming across as equivocal, issues with computer technologies, medications being incompatible or unavailable, and multiple generic substitutions available which can cause confusion.

Alongside this, nurses face having to administer medication in a busy environment full of disruptions and distractions, which is evidence that more support and training is required 3. As a health care provider, nurses have a duty to stay updated about medical advancements and pharmaceutical drugs. Improving knowledge about medication requires action from nurses, such as 4 ; Continue with education, with short courses that also provide contact hours and receive a Continuing Education Unit CEU. Study drug information which can be accessed online and outlines precautions, side effects, interactions, dosage instructions, potential diagnoses a nurse can make and teachings for patients and carers.

Access practice resources, such as practice guidelines and legal information, as well as text books which cover drug information, nursing skills in communication, and critical thinking. Increase their CPD hours, study online about drug interactions and administering medication successfully.

Attend seminars aimed at nurses to update them about medicines. Thanks, you've subscribed! Share this free subscription offer with your friends. Email to a Friend. Subscribe for free To subscribe to the HealthTimes magazine complete the form below:. Select Specialty. Principles of radioactive tracer methodology used in health research. Basic radiation physics, radionuclide calculations, interactions of radiation with matter, methods of radiation detection and determination experimental design, radiological safety and application of radionuclides to research.

This course will provide advanced instruction in the pharmacology, medicinal chemistry, and therapeutic applications of drugs used to treat disorders of the endocrine system, rheumatologic and gastrointestinal diseases, and infectious diseases. Prerequisites: By permission of the course coordinator. Developments in pharmacology from a clinical standpoint. Prerequisites: PHSC , , or Permission of course coordinator; College of Pharmacy students, residents, fellows or graduate students only.

This course will provide advanced instruction in the pharmacology, medicinal chemistry, and therapeutic applications of drugs used to treat cancer, hematologic and psychiatric disorders, and diseases of the skin. New concepts in the development of these disorders will also be included. Prerequisites: Permission of the instructor Introduction to psychosocial theories of patient and health provider behavior, evaluation of literature in which these theories are tested, and development of proposals to conduct theory-based research.

Social and behavioral aspects of patient and health provider roles and relationships as they relate to medication use are emphasized. The clinical toxicology of common agents ingested in overdoses. The practical management including stabilization of the patient, drug evacuation, drug elimination and prevention of organ damage. The evaluation of poison information literature and how to answer a poison related question. Prerequisites: BMSC Cellular Systems II Course will discuss the role of drug disposition uptake, distribution, metabolism and elimination on pharmacokinetics and efficacy.

Principles and utility of inverse agonism, biased agonism and paradoxical pharmacology, methods of receptor quantification in vivo and in vitro , effect of chronic drug treatment and immunosuppressant pharmacology also will be addressed. Course will address the biochemical, molecular and physiological mechanisms of drugs affecting the central nervous system, potential new drug targets for each condition, and methods for assessing the effectiveness of potential therapeutic agents. Prerequisites: Permission of course coordinator; College of Pharmacy residents, fellows, or graduate students only.

This course will provide students with the knowledge and skills to develop rational pharmacotherapy for pediatric patients. Instruction will primarily involve case-based learning, with an emphasis on evaluation of pertinent literature. General principles of toxicology and systemic sites of action of toxicants, to include an understanding of the mechanistic and research basis of the science.

Coverage of the mechanism of action of drugs that modulate cardiovascular, renal and endocrine systems, as well as methods and relevant model systems in which these methods can be employed to answer basic science questions and screen for clinical efficacy.

Fundamental principles, mathematical models, and clinical applications of pharmacokinetics. Research procedures in pharmacy administration including definition of the problem, scaling and measurement methods, sample size determination, questionnaire development, and selection of experimental or quasi-experimental designs. Principles of management in providing ambulatory pharmaceutical services with emphasis on the efficient management of a community pharmacy within the dynamics of the health care system.

Principles of cost effectiveness analysis CEA and cost benefit analysis CBA applied to the evaluation of pharmacy services and related health care programs.

Prerequisites: None This course introduces the use of numerical methods for the analysis of data and the development of computational models. Lectures provide both theoretical background and practical examples using Matlab. Three major components are analysis of experimental data, implementation of dynamic models, and identification of model parameters.

Prerequisite: By Permission. Prerequisites: Permission of instructor This course provides laboratory and library work to give qualified students an opportunity to pursue an original investigation or an interest in a special problem. The course may be repeated with a change of subject matter to a maximum of 12 credit hours. Prerequisites: Permission of the instructor This course provides the opportunity for students to learn and experience an in-depth knowledge and appreciation for scientific skills and emphasizes techniques, instrumentation, and experimental design in a specific discipline within a multidisciplinary research environment.

The students will learn basic principles of genetics and pharmacology and how genetic, environmental, lifestyle and nutritional factors affect drug response.

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Prerequisites: PHSC , General Pharmacology or an equivalent course This course provides instruction in drug transport and elimination, drug-receptor interactions, cancer chemotherapy, and immunopharmacology that are not addressed in introductory pharmacology courses. General principles of toxicology and systemic sites of action of toxicants. Prerequisites: Permission of the instructor This course provides advanced instruction in topics that were introduced in existing courses, or it may be used to teach emerging concepts that are not currently included in the curriculum.

Topics for this course may be chosen from the basic pharmaceutical sciences, clinical sciences, or the social and administrative sciences. Prerequisites: None The objectives of this course are for students to be able to critically analyze and appraise publications, organize and prepare a coherent presentation, and prepare a written critique of a selected article. This will help students interpret the relevance of findings in biological context and understand ethical responsibilities required for the scientific pursuit. Macromolecular separation and characterization techniques with emphasis on immunochemical techniques.

The essential properties of desired radionuclides and the chemical and biological factors involved in the design of new radiopharmaceuticals. The design concepts: empirical, semiempirical and mechanistic. Advanced theoretical applications of physical and chemical principles to pharmaceutical systems. To study the factors which affect the absorption, distribution, and excretion of drugs from the body with emphasis on the optimization of drug effect. Prerequisites: Graduate standing. Overview of research and educational methods for graduate students in the pharmaceutical sciences.

This course will cover hypothesis development, grant writing, the patent process, course development, course assessment and grading. May be repeated with change in subject matter; maximum credit two hours. Discussion and reports on assigned readings relative to different divisions in pharmaceutical sciences. May be repeated with change in subject matter; maximum credit four hours.

A general seminar for all divisions of graduate study in pharmaceutical sciences.


May be repeated to a maximum of 45 semester hours. A maximum of 16 hours per semester is allowed. Course Component Independent Study. Lindsay, Oklahoma City, OK - Fall Summer II Summer I May Intersession Spring December Intersession August Intersession. Summer August Intersession Pharmacy Capstone Seminar. Course Component Lecture. Independent Study. Adult Medicine I Practicum. Course Component Clinical. Community Pharmacy Practicum. History of Pharmacy. Adult Medicine II Practicum.

Hospital Pharmacy Practicum. Ambulatory Care Practicum. Ambulatory Care Practicum II. Critical Care Practicum. Drug Information Practicum. Clinical Nutrition Practicum. Pediatrics Practicum. Pharmacokinetics Practicum. Psychiatry Practicum. Research Practicum. Course Component Practicum. Selective Pharmacy Practicum. Alternative Medicine.

The importance of pharmacology in nursing

Introductory Biochemistry. Pharmaceutical Mathematics. Pharmacy Practice I. Pharmacy Practice II. Principles of Drug Action I. Introduction to Mentoring. Leadership in Pharmacy. Pharmaceutical Biotechnology. Drug Study Design. Pharmaceutical Immunology. Pharmacy Practice III. Pharmacy Practice IV.

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Leadership in Pharmacy II. Pharmaceutical Compounding. Pharmacy Practice V. Summer, Fall P Pharmacy Practice VI. Prerequisites: Good standing as a P-3 student This course provides professional student with direct instruction by experienced pharmacy practitioners in their practice sites in parallel with didactic instruction and simulated applications of knowledge and skills in community and institutional pharmacy practice with a focus on integration of patient care skills into contemporary practice.

Radionuclide Methodology. Nuclear Pharmacy. Current Therapeutic Agents. Principles of Drug Action II. Anti-Infective Therapy. Summer Symposium of Leadership. Leadership in Action I. Leadership in Action II. Pediatric Medication Safety I. Clinical Toxicology. Nonprescription Products and Self-Care Issues.

Pediatric Medication Safety II. Pharmacy Practice and the Geriatric Patient. Advanced Diabetes Care. Life with Diabetes Day Camp. Summer III. Life with Diabetes Overnight Camp. Introduction to Pediatric Pharmacotherapy. Pharmacotherapy Considerations in Pediatrics.

Community Health. Pharmaceutics I. Pharmaceutics II. Basic Pharmacokinetics. Public Health and Health Policy. Drug Information Systems. Pharmacy Practice: Management and Operations. Clinical Communications. Pharmacy Law and Ethics. Introduction to Personal Finance for Health Professionals. Quality Improvement in Pharmacy Practice. Ambulatory Care. Patient Assessment. Counseling Patients with Psychiatric Disorders.

Advanced Drug Literature Evaluation. Pharmaceutical Care I.


Traumatic Brain Injury. Pharmaceutical Care II. Clinical Pharmacokinetics. Pharmaceutical Care III. Psychoactive Substances. Pharmaceutical Care V. Pharmaceutical Care VI. Schizophrenia and Pharmacotherapy Treatment Options. Alcoholism and Other Drug Dependencies. Pharmaceutical Care VII. Psychopharmacology of Substance Use and Dependence. Nonprescription Products. Pharmaceutical Care IX.

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Psychiatric Disorders and Comorbid Conditions. Pharmaceutical Care of Neurologic and Psychiatric Disorders. Seminar in Advanced Pharmacy Practice. Yearlong Course. Course Component Discussion. Interdisciplinary Geriatric Care. Research in Pharmacy Practice. Special Studies in Pharmaceutical Sciences. Current Topics in Pharmaceutical Sciences. Spirituality in Medicine. Clinical Pharmacology. Antimicrobial Chemicotherapy. Pharmaceutical Technology. Biotechnology and Protein Drugs. Drug Metabolism and Transporters. Advanced Pharmacotherapy I.

Advanced Pharmacotherapy II. Pharmacodynamics of Current Therapeutic Agents. Advanced Pharmacotherapy III. General Principles of Pharmacology: The ins and outs of drug action. General Pharmacology. Pharmacother Considerations in Pediatrics. Principles of Toxicology. Cardiovascular, Renal and Endocrine Pharmacology.

Advanced Pharmacokinetics and Pharmacodynamics. Pharmacy Administration Research Methods.