Skip Discover Education Main Navigation
Skip Discover Education Main Navigation

9-12 > Contemporary Studies
Grade level: 9-12 Subject: Contemporary Studies Duration: Two class periods
sections
Objectives | Materials | Procedures | Adaptations | Discussion Questions | Evaluation | Extensions | Suggested Readings | Vocabulary | Academic Standards | Credit
print this lesson plan

Objectives
 



lesson plan support

Find a video description, video clip, and discussion questions.
 
Test Tube Babies




Students will:
1. understand that in vitro fertilization is the union of an egg and sperm in a laboratory followed by implantation of the zygote, or fertilized egg, into the uterus; and
2. learn that in vitro fertilization is an option for some infertile couples but that it raises many physiological, ethical, and legal questions.
Materials

The class will need the following:
Science textbooks, encyclopedias, and other resources on the menstrual cycle, reproduction, infertility, and fertility treatments
Computer with Internet access (optional but very helpful)
Copies of Classroom Activity Sheet: In Vitro Fertilization: Background
Copies of Take-Home Activity Sheet: Case Study: In Vitro Fertilization
Procedures

1. Begin the lesson with a review of the menstrual cycle and fertilization (a brief summary follows). Key vocabulary words are initalics.You may share this summary with your students.

An adult woman’s body releases certain levels ofhormonesat specific times throughout the month. As a result of these hormones, an egg in one of the woman’sovariesmatures each month. The egg is contained within afollicle,or a group of cells that surrounds and protects it. Whenovulationoccurs, the follicle ruptures, causing the release of the egg and the secretion of hormones that make the lining of the uterus thicken and develop more blood vessels. The changes in the uterus take place as part of the body’s preparation for pregnancy. Ovulation usually occurs in the middle of themenstrual cycle.After ovulation, the released egg is swept into thefallopian tube,where it begins to travel toward theuterus. Fertilization,or the union of egg and sperm, usually takes place in the fallopian tube. If no sperm are present in the woman’s reproductive tract, the egg and the uterine lining are released as part of the menstrual cycle. But if fertilization does take place, thezygote,or fertilized egg, continues to move toward the uterus. There it mayimplantand develop into a fetus. In this case, menstruation does not occur. Instead, the uterine lining continues to thicken to provide nutrients for the developing zygote.

The process of fertilization relies on numerous hormones. Constant monitoring of hormone levels by the body provides chemical signals that ensure the proper production of eggs and the preparation of the uterus.

2. After reviewing the process of fertilization, explain that not all couples are able to have a baby. A couple that has been trying to have a baby for a year unsuccessfully is considered infertile. Doctors perform many tests to discover the cause of a couple’s infertility, including monitoring ovulation, hormone production, and hormone levels of the egg and the sperm donors (the woman and the man). Doctors usually look for physical reasons for the infertility by performing a physical examination and a sonogram. They also determine sperm count, or the number of sperm secreted by a male, as well as sperm motility, or the way the sperm move. Infertility may be caused by inadequate hormone function of the man, the woman, or both; blocked fallopian tubes; low sperm count; scars in the uterus caused by a condition called endometriosis; or age. Sometimes doctors cannot determine the cause of the infertility.
3. Discuss the options an infertile couple has. Explain that over the last 25 years, physicians have developedin vitro fertilization,or IVF, a procedure to help fertilization. IVF involves stimulating the growth of multiple eggs through daily injections of fertility drugs. Once the ovaries have been stimulated, the eggs are removed by laparoscopic surgery, which involves making a small incision in the abdomen. A laparoscope is inserted through the incision and, with the help of ultrasound, guided to the ovary. Eggs are removed and placed in a petri dish with sperm, and they are incubated for about 24 hours. The fertilized eggs are then placed in a growth medium that allows them to divide. If the eggs develop normally, some of them (usually four) will be inserted into the woman’s fallopian tube or implanted into the uterus. Excess embryos may be frozen for later use. It takes around two weeks to determine whether a pregnancy has occurred.
4. Distribute copies of the Classroom Activity Sheet: In Vitro Fertilization: Background. In this activity, students may work individually or in pairs to answer the questions. For further research, they may wish to use the following Web sites:Strong Infertility & In Vitro Fertilization Center,Cooper Center for IVF,WebMD - What Are Fertility Treatments?
5. When students have completed the assignment, give them the Take-Home Activity Sheet: Case Study: In Vitro Fertilization. They will read a case study in which a doctor tells an infertile couple about in vitro fertilization. Students will use the information gathered in class to write a script for a possible dialogue between the couple and the doctor.
Back to Top
Adaptations

Review with middle school students the menstrual cycle and fertilization. Then discuss the issues facing infertile couples. Ask students whether they know what options infertile couples have. Are they familiar with any forms of assisted reproduction? Do not move forward with this discussion if students appear uncomfortable. You may use this session as an opportunity to review the physiology of reproduction.
Back to Top
Discussion Questions

1. According to national statistics, one of every six couples will experience difficulty achieving pregnancy. What are some reasons such couples might choose in vitro fertilization? What are some reasons that they might not?
2. Embryos created by in vitro fertilization can be frozen for later implantation. What should be done with embryos if the donor mother decides she cannot use them or prefers not to use them? Do you think it is ethical to sell them? Why or why not? Who has the right to decide what to do with the frozen embryos?
3. When embryos are created in a laboratory, who owns them? What if the donor parents divorce? Do the embryos become the property of the laboratory? How could such a dilemma be resolved?
4. In vitro fertilization often produces multiple embryos that are implanted in the uterus. If more than one embryo “takes,” is selective abortion acceptable for the purpose of reducing the number of embryos so that the remaining embryos have an increased chance of survival?
5. Louise, the first “test-tube baby,” was born in 1978. How do you think it would feel to be the first baby conceived by IVF? Do you think it has had an effect on her life?
6. Do you think a child should be told that he or she was conceived through IVF? What are the reasons to reveal this information? What are the reasons to withhold it?
Back to Top
Evaluation

Use the following three-point rubric to evaluate students’ work:
  • Three points:full understanding of in vitro fertilization; complete, accurate, and well-written script that includes much of the background information, several specialized terms, and key details and that reflects the perspectives of both sides participating in the conversation
  • Two points:good understanding of in vitro fertilization; mostly accurate script that includes most of the background information, a few specialized terms, and some key details and that reflects some of the perspectives of both sides participating in the conversation
  • One point:some understanding of in vitro fertilization; somewhat accurate script that includes little background information, one or two specialized terms, and one or two key details and that reflects the perspective of at least one of the sides participating in the conversation
Back to Top
Extensions

Success Rates
IVF is one of many types of assisted reproductive technology. Have students research others. Students can make a graph to compare the success rates of different technologies in a given year (e.g., 1999), or they can graph the success rate of one technology over a period of time.

In Vitro in the Lab
Using sea urchins, students can perform in vitro fertilization at school. Purchase the Sea Urchin Embryology Kit, available through Carolina Biological Supply Company (#CE-16-2505); it includes all the materials necessary to induce ovulation and perform fertilization in a petri dish. Refer to the online catalog at www.carolina.com. (Note:If you order online, use #WW-16-2505.)

Back to Top
Suggested Readings

Cloning (Lucent Overview series)
Jeanne DuPrau.Lucent, 2000.
Once the subject of science fiction, cloning is the next reproductive frontier, already in use in agriculture. While cloning sheep makes the news now, will it be human cloning in the future? This informative introduction to the topic explains today’s technology and possible future applications as well as the ethical issues that surround cloning. Occasional illustrations and photographs are included.

Conquering Infertility: Medical Challenges and Moral Dilemmas
Elizabeth L. Marshall. Franklin Watts, 1997.
Beginning with a brief history of the causes and diagnoses of infertility, the author describes current treatments and reproductive choices potential parents must make. The need for laws regulating these new methods is discussed as well. An extensive glossary and list of resources follow the text.

Back to Top
Vocabulary

egg
Definition:The female reproductive cell produced in the ovary.
Context:Girls are born with all theeggsthey will ever have during their lives.

fertility drug
Definition:A medication that helps increase the likelihood of conception by increasing the number of eggs that mature each month.
Context: Fertility drugshave helped thousands of women become pregnant.

fertilization
Definition:The fusion of a sperm and egg, which usually takes place in the fallopian tube.
Context:Afterfertilizationtakes place, the fertilized egg moves toward the uterus.

hormone
Definition:A chemical secreted by the body that has a specific effect on activities occurring in other parts of the body.
Context: Hormonesare responsible for the successful functioning of the reproductive system.

implantation
Definition:The process by which a fertilized egg attaches to the lining of the uterus.
Context:Afterimplantationoccurs, the fertilized egg begins to develop into a fetus.

menstrual cycle
Definition:The monthly cycle, usually about 28 days, during which the egg matures in the ovary (at about the 14th day), followed by the discharge of tissue and blood from the uterus at the 28th day if no pregnancy has occurred.
Context:Girls usually begin theirmenstrual cyclesbetween the ages of 10 and 16.

ovary
Definition:The female reproductive organ in which eggs are formed.
Context:Every month an egg in one of theovariesmatures in preparation for fertilization.

ovulation
Definition:The process of releasing an egg from the ovary.
Context: Ovulationusually takes place about 14 days before a woman begins menstruation.

sperm
Definition:The male reproductive cell.
Context:It takes just onespermto fertilize an egg.

zygote
Definition:A fertilized egg.
Context:After the egg and the sperm have fused, thezygotemay begin to develop in the uterus.

Back to Top
Standards

This lesson plan may be used to address the academic standards listed below. These standards are drawn from Content Knowledge: A Compendium of Standards and Benchmarks for K-12 Education: 2nd Edition and have been provided courtesy of theMid-continent Research for Education and Learningin Aurora, Colorado.
 
Grade level:9-12
Subject area:Life Science
Standard:
Understands the structure and function of cells and organisms.
Benchmarks:
Knows how cell functions are regulated through changes in activity of the functions performed by proteins and through selective expression of genes and how this regulation allows cells to respond to their environment and to control and coordinate cell growth and division.

Back to Top
Credit

Donna Clem, biology teacher, Aberdeen High School, Aberdeen, Maryland.
Back to Top