Experiencing a NANSLO Remote Web-based Meiosis and Mitosis Lab Activity December 6, 2013 Dan Branan Lab Director Colorado Community College System NANSLO.

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Presentation transcript:

Experiencing a NANSLO Remote Web-based Meiosis and Mitosis Lab Activity December 6, 2013 Dan Branan Lab Director Colorado Community College System NANSLO Denver Node Suzanne Buie, DPT, STC Department Chair of Health Sciences Kodiak College PRESENTERS

Suzanne Buie Bio Suzanne Buie, DPT, STC is the department chair of Health Sciences at Kodiak College. She has been teaching since 2005 using face-to-face, hybrid, and distance delivery methods. Currently, Buie instructs in a distance delivery format. She has developed and instructed several courses to include: Anatomy and Physiology I and II, Medical Terminology, Core Concepts in Health Science, and most recently, Human Biology, in collaboration with NANSLO and WICHE. Buie is responsible for supervising the Certified Nursing Certificate Program and is the Curriculum Developer for an Occupational Endorsement in Medical Coding which is also a collaborative effort with NANSLO and WICHE. Buie has been a clinician for the past 15 years with a specialty in sports and orthopedic therapy. She is the owner of Arctic Physical Therapy in Kodiak, Alaska. She has been published in the American Physical Therapy Association’s Journal of Sports Therapy for her work with catastrophically injured high school football players

Dan Branan Bio Dan Branan is the North American Network of Science Labs Online (NANSLO) lab director at the Colorado Community College System. He provides leadership and coordination for the many subject-area teams working on projects. Previously, he served at the U.S. Air Force Academy as an assistant professor of chemistry, co-director of the Center for Research on Learning and Teaching, and research director for the Institute for Information Technology Applications. Branan received his B.S. in chemistry from the University of South Alabama, his M.S. in inorganic chemistry from the Ohio State University, and his Ph.D. in analytical chemistry from the University of Denver.

Webinar Funded by the U.S. Department of Labor This product was funded by a grant awarded by the U.S. Department of Labor’s Employment and Training Administration. The product was created by the grantee and does not necessarily reflect the official position of the U.S. Department of Labor. The Department of Labor makes no guarantees, warranties, or assurances of any kind, express or implied, with respect to such information, including any information on linked sites and including, but not limited to, accuracy of the information or its completeness, timeliness, usefulness, adequacy, continued availability or ownership.

The Value of Remote Web-Based Labs (RWSL): Human Biology A100 “New technology is common, new thinking is rare.” - Sir Peter BlakeSir Peter Blake Dr. Suzanne Buie, DPT, STC Department Chair, Health Sciences Kodiak College 5

Distance Labs aligning with Quality Matters 1.Learning Objectives 2. Instructional Strategies = Content Presentation + Lab Activities 3. Assessment 6 LO Assessment Content/Activities

Laboratory _RWSL: Mitosis vs. Meiosis Purpose: Compare and contrast meiosis and mitosis using the RWSL laboratory. Use the RWSL lab to be able to manipulate a microscope using your home/school computer. The microscope is located in the NANSLO lab in British Columbia. Collect data by “capturing an image” and saving to an individuals’ computer. This data collection will be used to analyze and interpret information. Laboratory Report. 7 Anatomy and Physiology UAS Slide by Dr. Suzanne Buie Content/Activities Assessment

Multi-Modalities The lab portion of this experiment uses multiple modalities: tactile, visual, auditory, clinical applications, and critical thinking. Emphasis is place on inquiry-based learning. 8

Learning Objectives 1.Describe the cell cycle 2.Identify the stages of mitosis from prepared slides, this includes: interphase, prophase, metaphase, anaphase, telophase/cytokinesis. 3.Describe the stages of meiosis. Be able to define the differences between haploid and diploid. 4.Display the ability to use a microscope, calculate simple equations, and capture images. 9

Learning Objectives 5.Complete a lab report using the information from objectives #1-#4. Be able to gather and interpret information to form a concise and objective laboratory report. 6.Label the process of mitosis and meiosis with the captured images and attach them as an Appendix A and Appendix B to the required lab report. 10

Instructor Preparation Testing the RWSL lab, capturing images, and following the instructions for the modified, remote lab. Meeting with the Lab Director Requesting and accessing materials to assist students. Posting preparation material into the Blackboard course. Creating a live, synchronous lecture 1 week before lab and a follow-up to discuss questions and expectations for a lab report. Scheduling student sessions. Preparing a photo gallery. Creating a grading rubric. 11

Video Introduction 12 1.Short tutorial covering the basics (7 minutes): ORhttp://denverlabinfo.nanslo.org/video/microscope.html 2.In-depth tutorial with descriptions of all of the functions of the control panel (21 minutes) -

Written Instructions 13

Lab Worksheet 14

Picture Gallery 15

Student Preparation Review Written Laboratory Report Instructions. Attend the live, synchronous, lecture. Review the video and written lab procedures. Review necessary instructional and reference material. Process vs. Perfection. 16

Clinically Relevant Assessments Students are required to use critical thinking skills during assessment. Assessments are in alignment with course instruction, objectives, and materials. The ability to collect data, interpret that data, and create an objective lab report that requires the students to analyze data and compose conclusions using the scientific method. – Ability to decipher a medical record – Ability to read and interpret medical journals – Ability to read/write using an objective format 17

Student Outcomes The majority of students were able to produce a clear and concise laboratory report with the expected requirements. Feedback to students. 18

Student Survey As this was a small class size (10 students), here is a general summary of their feedback using a 13 question survey. The majority of students would agree or strongly agree that: – The remote lab was rigorous and challenging; it made me really think – The remote lab gave me the opportunity to work with other students – I feel like I had help from the instructor when I needed it – I feel like I had help from the technical assistants when I needed it – The remote lab was convenient and easy to schedule 19

Student Survey The rest of the questions were fairly divided. Improvements could be used in the following areas: – The remote lab had clear and easy to follow instructions – The remote lab was easy to use 20

Solutions New video recording for students. (completed) Pre-laboratory quiz. Continue the live lecture with more specifics on how to use the lab, review screen shots. Review in detail meiosis vs. mitosis. Review photo gallery and other microscopic slides prior to the lab. Continue with a live lecture follow-up after the data collection has been completed. Continue with a photo gallery. Provide feedback on lab reports (especially for non- science majors). 21

Conclusion While some students felt they had difficulty with the lab, the majority of students reported that help was readily available. The majority of students were able to analyze, compare, contrast, and integrate information in a successful manner. Student and instructor preparedness is key to a successful and positive lab experience. 22

RWSL = Remote & Web-based Science Labs 23 RWSL Kodiak College will be beginning a four year grant program in 2013 with the Consortium for Health Care Education Online. This involves these remote web- based science labs with emphasis on robotics and microscopy. It allows for curriculum development with a technology based structure, one-on-one student advising, funding, support, needs assesment, and placement. We will be providing an Occupation Endorsement for Billing and Coding. A collaborative approach will be used to share information and resources with UAA, UAS, and UAF.

Mitosis Figure 18.6 An overview of mitosis. Overview of mitosis Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. 2n = 4 DURING INTERPHASEDNA REPLICATION chromosome centriole centrosome centromere duplicated chromosome consisting of two sister chromatids 2n = 4 MITOSIS 2n = 4

Mitosis Figure 18.8 The phases of mitosis. 1. Mitosis: Prophase Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. nuclear envelope fragments chromatin condenses nucleolus disappears aster 20 µm duplicated chromosomes 20 µm centromere spindle fibers forming Early Prophase Centrosomes have duplicated. Chromatin is condensing into chromosomes, and the nuclear envelope is fragmenting. Prophase Nucleolus has disappeared, and duplicated chromosomes are visible. Centrosomes begin moving apart, and spindle is in process of forming. (early prophase, prophase): © Ed Reschke

26 2. Mitosis: Metaphase Chromosomes line up at the middle of the cell (equator). Spindle becomes fully- formed Mitosis Early Metaphase Each chromatid is attached to a spindle fiber. Some spindle fibers stretch from each spindle pole and overlap. spindle fiber 9 μmspindle centromere pole Metaphase Centromeres of duplicated chromosomes area lined at the equator (center of fully formed spindle). Spindle fibers attached to the sister chromatids come from opposite spindle poles. chromosomes at equator 20 μm Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. (metaphase): © Ed Reschke; (early metaphase): © Michael Abbey/Photo Researchers, Inc. Figure 18.8 The phases of mitosis.

27 3. Mitosis: Anaphase Sister chromatids separate at the centromeres and move towards the poles Mitosis Anaphase Sister chromatids part and become daughter chromosomes that move toward the spindle poles. In this way, each pole receives the same number and kinds of chromosomes as the parental cell. spindle fiber daughter chromosome 20 μm (anaphase): © Ed Reschke; Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Figure 18.8 The phases of mitosis.

28 Telophase Daughter cells are forming as nuclear envelopes and nucleoli reappear. Chromosomes will become indistinct chromatin. 16 μm cleavage furrow nucleolus 4. Mitosis: Telophase and cytokinesis Chromosomes arrive at the poles. Chromosomes become indistinct chromatin again. Nucleoli reappear. Spindle disappears. Nuclear envelope reassembles. 2 daughter cells are formed by a ring of actin filaments (cleavage furrow) Mitosis (telophase): © Ed Reschke; Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Figure 18.8 The phases of mitosis.