Authors:  Lynne E. Houtz, Ph.D., Mindy Oxenford, Erinn Hoagland, Lisa Eaton, Andrea Zardetto-Smith, Ph.D.

Developers:  David Crotts, Lisa Eaton, Marcie Frazier, Erinn Hoagland, Mindy Oxenford

Guiding Documents

National Science Education Standards

Life Science Content Standard C:  As a result of their activities in grades 5-8, all students should develop understanding of structure and function in living systems.  Principles that underlie this standard include structure and functions of cells, tissues, organs, systems for movement, control, and coordination.  A behavioral response requires coordination and communication at many levels, including cells, organ systems, and whole organisms. (pp. 155-157)

AAAS Benchmarks

By the end of 5th grade, students should know that the brain gets signals from all parts of the body telling what is going on there.  The brain also sends signals to parts of the body to influence what they do. (p. 136)

Human Identity Grades 6-8:  By the end of the 8th grade, students should know that human beings have body systems for providing coordination of body systems. (p. 129)  “Students can now develop more sophisticated understandings of how organs and organ systems work together.” This includes the carrying of messages by nerves to help the organism respond to its environment. “Asking ‘What if?’ questions such as ‘What might happen if some other parts weren’t there or weren’t working?’ can stimulate students to reflect on connections among organs.” (p. 137)  By the end of the 8th grade, students should know that interactions among the senses, nerves, and brain make possible the learning that enables human beings to cope with changes in their environment.

National Science Teachers Association Scope Sequence and Coordination

“At the 6-8 grade level, the curriculum should emphasize the human organism.” (p. 48)  Students should explore the different systems.

Nebraska Science Standards

“Grades 5-8 At the middle school level, students expand their scientific inquiry skills through knowledge, observations, ideas, and questions.  Middle school students will begin to recognize the relationships between explanation and evidence.  They understand that background knowledge and theories guide the design of investigations, the types of observations made, and the interpretation of data.  Student investigations will shape and modify students’ background knowledge. (p. 24)

“8.1 Unifying Concepts and Processes

“8.1.1  By the end of eighth grade, students will develop an understanding of systems, order, and organization.

Student demonstrations:

·        Recognize and describe integral parts and functions of any system.

·        Analyze and predict the interactions within a system and between systems.

·        Create and use classification schemes.

·        Interpret cause and effect relationships within and between systems.”

p. 25

“8.4 Life Science

8.4.1 By the end of eighth grade, students will develop an understanding of the structure and function in living systems.

Student demonstrations:

·        Investigate and describe the levels of organizations: cells, tissues, organs, organ systems, whole organisms, and ecosystems.

·        Investigate and describe the specialized function performed by specialized cells, such as muscular and skeletal, in multicellular organisms.

·        Investigate and describe the internal human body systems.

·        Investigate and explain how disease affects the structure and/or function of an organism.”

Safety

Direct students to walk through the maze carefully and in a spread out fashion, such as starting one student every 15 seconds.  No running.

Students are not obligated to eat the M & M’s.  In the event that a student can not eat chocolate or sugar, alternate candy can be provided.

Objectives

Students will

·        Simulate nerve pathway choices and consequences while moving through a maze

·        Complete a puzzle which concretely demonstrates the nerve development process

·        Participate in a learning module to reiterate the key points and apply what they have just learned

Science Content

·        Nerve pathways develop through a process of trial and error

·        Components of the nervous system must work together

Science Process Skills

·        Making Connections

·        Communicating

·        Modeling

·        Predicting

·        Reasoning

Materials

·        250 ft. of PVC pipe (1 inch diameter is adequate)

·        10 elbows

·        22 T-shaped connectors

·        2 tri-pronged connectors

·        16 L-shaped connectors

·        Duct tape

·        Flat sheets

·        Glue sticks

·        Puzzle pieces

·        Plain background paper

·        Packages of M & Ms (or other candy)

·        Safety pins

Key Vocabulary

Nerve growth factor

Axon

Target tissue (“muscle”)

Median nerve

Ulnar nerve

Teacher Advanced Preparation

To construct the M-n-M maze, lay down 23  2.5 ft pieces of PVC pipe in the same shapes as in the diagram.  This is the bottom layer.  Connect the PVC pipe using joint connector pieces: L-shaped for the corners, elbow connectors for the ends of the sections, T-shaped for the straight lines and tri-pronged for the T-shaped joints.  Starting at the end of one section, attach the 5 ft long vertical struts to the bottom layer at the connecting joints.  Because some of the connecting joints do not have an opening for the vertical strut, those struts need to be attached to the bottom layer with duct tape.  As you attach the vertical struts, begin constructing the top layer in the same way the bottom layer was constructed.  For stability attach the top layer to the vertical struts.  Again, you will need to use duct tape to attach the top to some struts. 

At this point, your maze should consist of two free-standing sections.  To increase the structural integrity of the maze, attach the two sections together using four 2.5 ft pieces of PVC pipe on the top layer.  These pieces will need to be attached with duct tape and are for stability only.  Once the stabilizing struts are attached, persons over 5 feet tall need to be careful when going through the maze so they do not hit their heads on the struts.

Once the maze structure is up and stable, roll a couple inches of the sheets over the top layer and secure with safety pins.  The sheets should hang to the floor.  Connect the sheets together with safety pins to prevent gapping.  Once the sheets are hung and secured, attach envelopes containing puzzle pieces (photocopies) at regular intervals throughout the maze.  The envelopes should not be in direct sight of each other in the maze and the pieces should be in sequential order.  Attach the envelopes to the sheets with safety pins.  Put an envelope with “wrong turn” pieces at the end of the dead end.  These pieces should instruct the student to turn around and look for another way out.

Procedures

Initial discussion can ask the students questions about the nervous system.  These include “What are nerves” and “What do nerves do?”  The students are then instructed that in the following activity, they need to pretend that they are a nerve inside a baby’s spinal cord.  Their task?  To correctly maneuver through the maze and “hook-up” with their muscle by looking for clues and landmarks (the puzzle pieces) along the way.

Students are directed to proceed through the maze, picking up puzzle pieces along the way.  The starting point signifies the spinal cord.  The end, the fingers.  The pieces illustrate the anatomical regions the nerve passes through on its way.

If the student moves down a wrong pathway, he or she will have to backtrack.  When the student successfully emerges from the maze, a brief education module is begun.  The purpose of the Mind-n-Muscle maze education module is to define and exemplify the project’s outcome objectives to the student participants.  Reiterating the main educational objectives to the students after participation in the maze will serve to make these objectives not only more apparent, but also more memorable and applicable.

The procedure involved in the education module will begin with students gathering their collected puzzle pieces, and gluing them in the correct order onto a background piece of paper.  Instructors will guide students in this process, while explaining the importance of gluing each piece in its proper place.  After students have correctly connected the puzzle pieces, they will be instructed to pick up a bag of candy, and return to their seats. 

Next, the instructor will explain (in an amount of detail appropriate to each age group) the process of nerve formation in the brain and spinal cord during fetal development.  It is explained that each nerve has a specific destination, and must travel through the “maze of the body” to reach this destination.  Nerves often use clues along the way (chemicals, electrical signals, etc.) to help direct them along the proper path.  Children are asked to identify some of the clues they used in traveling through the maze.  Instructors then explain what might happen if a nerve were to reach the wrong destination, or terminate growth before fully developing.  Results of these circumstances may include paralysis, or uncoordinated movement.  

Instructors then demonstrate two nerves that control hand musculature (median nerve and ulnar nerve) by drawing their paths in magic marker on their arms (or referring to a picture).  While pointing to the median nerve, the instructor explains that this nerve connects with muscles surrounding the thumb, and helps the thumb to move.  Similarly, the ulnar nerve connects to muscles around the pinky finger, and helps control its movement.  Children are then instructed to observe and demonstrate how these nerves work in their own bodies by using their thumb and pinky fingers to pick up either their bag of candy or individual pieces of candy, and place them in their mouth.  Finally, children are asked to explain what might happen if one, or both, of these nerves did not work, or were improperly connected.

This education module serves to increase the amount of new knowledge retained by the participants in many ways.  First, explaining the learning objectives both before and after the maze activity will help children to both prepare for this new information, and remember the information after the activity.  Second, demonstrating actual nerve pathways within the human body will allow children to more concretely visualize the process of nerve development, and utilization.  Finally, allowing the children to demonstrate the actions of nerves within their own bodies provides for an increased understanding of the practical utility of this information, allowing children to understand its importance in their own lives.

Assessment

The student should be able to describe the nerve message pathway from the brain or spinal cord to the fingers.  This includes being able to explain what might happen if that pathway is interrupted.