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Basic Sciences
Genetics
Activities (63)
Objectives (121)
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Activities
Interpretation of Molecular Genetic Test Results (Using CF as a model) (Archived)
Large Group Session
Part 2 / Medical Foundation 2
Bruno Silva MF2 Endocrinology and Metabolism (Archived)
Tutorial
Part 2 / Medical Foundation 2
Autosomal Dominant Disorders (Archived)
Large Group Session
Part 2 / Medical Foundation 2
Gut Embryology (Archived)
Large Group Session
Part 2 / Medical Foundation 2
Introduction to Genetics (Archived)
Active Large Group Session
Part 2 / Medical Foundation 2
Martin Barratt MF2 Renal
Tutorial
Part 2 / Medical Foundation 2 / Renal / Week 3
Mutation Patterns and Genetic Counselling (Archived)
Large Group Session
Part 1 / Medical Foundation 1 / Hematology
Charles Porter MF4 Neoplasia (Archived)
Tutorial
Part 2 / Medical Foundation 2 / Hematology
Alexandria Vardalos MF2 Hematology
Tutorial
Part 2 / Medical Foundation 2 / Hematology / Week 1
Shane Mosley MF2 Hematology
Tutorial
Part 2 / Medical Foundation 2 / Hematology / Week 2
Sana Gupta MF2 Hematology
Tutorial
Part 2 / Medical Foundation 2 / Hematology / Week 2
Mr. JM MF2 Hematology
Tutorial
Part 2 / Medical Foundation 2 / Hematology / Week 2
Eva Foster MF2 Hematology
Tutorial
Part 2 / Medical Foundation 2 / Hematology / Week 3
Baby Jane MF2 Hematology (Archived)
Tutorial
Part 2 / Medical Foundation 2 / Hematology / Week 3
Inheritance Patterns (Archived)
Large Group Session
Part 1 / Medical Foundation 1 / Hematology / Week 4
Sexual Differentiation (Archived)
Large Group Session
Reproduction and Pregnancy
Clinical Consequences of X and Y Chromosome Abnormalities (Archived)
Large Group Session
Part 3 / Medical Foundation 3 / Reproduction and Pregnancy
Maxwell Timbo MF3 Reproduction (Archived)
Tutorial
Part 3 / Medical Foundation 3 / Reproduction and Pregnancy
Clinical Consequences of Chromosomal Abnormalitites: The Autosomes (Archived)
Large Group Session
Part 3 / Medical Foundation 3 / Reproduction and Pregnancy
Manuel Pereira MF3 Reproduction
Tutorial
Part 3 / Medical Foundation 3 / Reproduction and Pregnancy / Week 1
Prenatal Diagnosis (Archived)
Large Group Session
Part 3 / Medical Foundation 3 / Reproduction and Pregnancy / Week 3
Rosemary and Tony MF3 Reproduction
Tutorial
Part 3 / Medical Foundation 3 / Reproduction and Pregnancy / Week 3
JoAnne Wright MF3 Reproduction
Tutorial
Part 3 / Medical Foundation 3 / Reproduction and Pregnancy / Week 3
Hannah Rosen Part 1 MF3 Gastroenterology and Nutrition
Tutorial
Part 3 / Medical Foundation 3 / Gastroenterology and Nutrition / Week 1
James Cork MF3 Gastroenterology and Nutrition
Tutorial
Part 3 / Medical Foundation 3 / Gastroenterology and Nutrition / Week 2
Amanda Porter MF3 Endocrinology
Tutorial
Part 3 / Medical Foundation 3 / Gastroenterology and Nutrition / Week 4
Pia Meta MF3 Endocrinology
Tutorial
Part 3 / Medical Foundation 3 / Endocrinology / Week 2
Michel Dupois MF3 Endocrinology
Tutorial
Part 3 / Medical Foundation 3 / Endocrinology / Week 3
Riley Walker MF3 Endocrinology
Tutorial
Part 3 / Medical Foundation 3 / Endocrinology / Week 3
Awat Khali MF3 Endocrinology
Tutorial
Part 3 / Medical Foundation 3 / Endocrinology / Week 3
Chantal Landry MF3 Reproduction
Tutorial
Part 3 / Medical Foundation 3 / Endocrinology / Week 4
Kate Smith MF3 Reproduction
Tutorial
Part 3 / Medical Foundation 3 / Endocrinology / Week 4
Pit Parapan MF3 Endocrinology
Tutorial
Part 3 / Medical Foundation 3 / Endocrinology / Week 4
Ryan Smith MF4 MSK
Tutorial
Part 4 / Medical Foundation 4 / Musculoskeletal Medicine / Week 1
Gayle Parker MF4 MSK
Tutorial
Part 4 / Medical Foundation 4 / Musculoskeletal Medicine / Week 1
Joseph Collins MF4 MSK
Tutorial
Part 4 / Medical Foundation 4 / Musculoskeletal Medicine / Week 3
Joan Spaulding MF4 MSK
Tutorial
Part 4 / Medical Foundation 4 / Musculoskeletal Medicine / Week 3
Fred Newman MF4 MSK
Tutorial
Part 4 / Medical Foundation 4 / Musculoskeletal Medicine / Week 4
Neil Wartson (Part 1) MF4 Neuro
Tutorial
Part 4 / Medical Foundation 4 / Neuroscience / Week 1
Neil Wartson (Part 2) MF4 Neuro
Tutorial
Part 4 / Medical Foundation 4 / Neuroscience / Week 1
David Beatty MF4 Neurology
Tutorial
Part 4 / Medical Foundation 4 / Neuroscience / Week 2
Andrea Holmes MF4 Neurology
Tutorial
Part 4 / Medical Foundation 4 / Neuroscience / Week 2
Shelley Clerke MF4 Neurology
Tutorial
Part 4 / Medical Foundation 4 / Neuroscience / Week 3
Petter Khant MF4 Neurology
Tutorial
Part 4 / Medical Foundation 4 / Neuroscience / Week 3
Melissa Wang IF Host Defence and Neoplasia
Tutorial
Part 5 / Integration Foundation / Host Defense and Neoplasia / Week 1
Godlewski Family IF Host Defence and Neoplasia
Tutorial
Part 5 / Integration Foundation / Host Defense and Neoplasia / Week 3
Philippe LaCologne IF Host Defence and Neoplasia
Tutorial
Part 5 / Integration Foundation / Host Defense and Neoplasia / Week 3
Claire McFadden Part 1 IF Maternal and Child Health Risks
Tutorial
Part 5 / Integration Foundation / Maternal Health Risks/Aging-Related Care / Week 1
Ali Khan IF Chronicity and Complexity
Tutorial
Part 5 / Integration Foundation / Complexity and Chronicity / Week 2
Practical Genetics
Active Large Group Session
Part 5 / Integration Foundation / Complexity and Chronicity / Week 3
Prenatal Diagnosis and Screening
Large Group Session
Clerkship / Obstetrics and Gynecology Rotation
Amenorrhea
Large Group Session
Clerkship / Obstetrics and Gynecology Rotation
Pediatric Nephrology
Concept Integration and Review
Post-clerkship / Concept Integration and Review
Concepts in Cancer Genetics (Archived)
Large Group Session
Genetic Issues in Breast and Ovarian Cancer (Archived)
Large Group Session
Farrell Brothers MF4 Neoplasia (Archived)
Tutorial
Philippe LaCologne Part 1 MF4 Neoplasia (Archived)
Tutorial
Colon Cancer (Archived)
Clinical Pathology Conferences (CPC)
Objectives
Genetics and mucosal immunity play important and prominent roles in determining what organisms colonize the gastrointestinal tract.
General Objectives
Part 2 / Medical Foundation 2
Upon completion of this case, students will be able to explain calcium homeostasis. They will also review the basics of autosomal dominant inheritance and the use of molecular genetic testing for the diagnosis of MEN2A.
Global Objectives
Part 2 / Medical Foundation 2
Understand the principle types of gene mutations.
Activity Objectives
Part 2 / Medical Foundation 2
Understand the nomenclature used to describe gene mutations.
Activity Objectives
Part 2 / Medical Foundation 2
Understand the importance of test sensitivity for interpreting results.
Activity Objectives
Part 2 / Medical Foundation 2
Understand the problem of variants of unknown clinical significance.
Activity Objectives
Part 2 / Medical Foundation 2
Describe social, ethical and legal aspects of genetics.
Activity Objectives
Part 2 / Medical Foundation 2
Upon completion of this problem, the student should be able to discuss the assessment and management of the complications of chronic kidney disease and to illustrate the constraints faced by these patients recognizing the need to modify medication regimens in the face of declining renal function. Students should be able to assess the risk to relatives of a person with an autosomal dominant condition.
Global Objectives
Part 2 / Medical Foundation 2 / Renal
Describe the mechanism of action of an oncogene and a tumour suppressor gene.
General Objectives
Part 2 / Medical Foundation 2 / Hematology
Describe the genetics and molecular structure of hemoglobin, its synthesis and how qualitative and quantitative abnormalities cause disease.
General Objectives
Part 2 / Medical Foundation 2 / Hematology
Explain the affinity of various hemoglobins for oxygen and other gases and how it impacts oxygen transport.
General Objectives
Part 2 / Medical Foundation 2 / Hematology
Upon completion of this problem, students should be able to describe how the structure of hemoglobin impacts on its role in oxygen transport. They should also be able to explain the genetics of autosomal recessive conditions.
Global Objectives
Part 2 / Medical Foundation 2 / Hematology
Upon completion of this problem, students should be able to describe the role of coagulation factors in secondary hemostasis. Students should be able to assess the risk to family members of an individual with an X-linked condition.
Global Objectives
Part 2 / Medical Foundation 2 / Hematology
Upon completion of this case, students will be able to describe the role of tumour suppressor genes in the generation of cancers, and be able to identify the elements of pediatric oncology that are different from adult oncology.
Global Objectives
Part 2 / Medical Foundation 2 / Hematology
Understand the basic concepts of genetic counselling: Referral; Non-directive counselling; Informed consent; Ethical issues; Advantages; Disadvantages.
Activity Objectives
Part 1 / Medical Foundation 1 / Hematology
Understand the basic concepts of pedigree analysis. Know the basic pedigree analysis symbols. Be able to construct a pedigree based on provided family history. Calculate basic risk assessments. Advantages of using a pedigree analysis. Disadvantages of using a pedigree analysis
Activity Objectives
Part 1 / Medical Foundation 1 / Hematology
Describe the principles of single-gene, mitochondrial, and multifactorial inheritance.
General Objectives
Part 2 / Medical Foundation 2 / Hematology
Describe how inheritance patterns impact disease transmission and be able to estimate disease risk.
General Objectives
Part 2 / Medical Foundation 2 / Hematology
Demonstrate the ability to collect family history information, construct and analyze a family pedigree.
General Objectives
Part 2 / Medical Foundation 2 / Hematology
Describe the features of autosomal recessive inheritance and differentiate from autosomal dominant inheritance.
General Objectives
Part 2 / Medical Foundation 2 / Hematology
Describe the inheritance patterns of genetic disorders of hemoglobin, with emphasis on sickle cell disease and thalassemia.
General Objectives
Part 2 / Medical Foundation 2 / Hematology
Describe the worldwide epidemiology of sickle cell disease and thalassemia.
General Objectives
Part 2 / Medical Foundation 2 / Hematology
Describe the features of X linked inheritance and compare with the typical features of autosomal recessive and autosomal dominant inheritance patterns.
General Objectives
Part 2 / Medical Foundation 2 / Hematology
Describe the impact of genetic testing on cancer staging and therapy.
General Objectives
Part 2 / Medical Foundation 2 / Hematology
Describe the role of tumour suppressor genes and oncogenes in carcinogenesis.
General Objectives
Part 2 / Medical Foundation 2 / Hematology
Explain basic concepts of genetic counselling/genetic testing and health professionals involved.
Activity Objectives
Part 2 / Medical Foundation 2 / Hematology / Week 1
By the end of tutorial, the student will be able to recognize the significance of neonatal hypoglycemia and illustrate the principles surrounding newborn screening for metabolic disorders.
Global Objectives
Part 3 / Medical Foundation 3 / Reproduction and Pregnancy
Explain the impact of mutations of the androgen receptor on sexual phenotype.
General Objectives
Part 3 / Medical Foundation 3 / Endocrinology / Reproduction and Pregnancy
Upon completion of this problem, students will explain how a genetic defect can disturb normal lipoprotein metabolism and increase risk of cardiovascular disease.
Global Objectives
Part 3 / Medical Foundation 3 / Endocrinology
Upon completion of this problem, students will identify genetic and environmental risk factors for childhood obesity and discuss prevention and treatment strategies at the individual and population level.
Global Objectives
Part 3 / Medical Foundation 3 / Endocrinology
Upon completion of this problem, students should be able to describe the production of steroid hormones and to interpret the implications of steroidogenic enzyme deficiencies on embryologic development and postnatal health. Students will also have reviewed the inheritance of Congenital Adrenal Hyperplasia, discussed related genetic counselling, and considered a patient-centered approach to caring for intersex patients.
Global Objectives
Part 3 / Medical Foundation 3 / Endocrinology
Upon completion of this problem, students should be able to discuss the actions of testosterone and dihydrotestosterone on embryological development and sexual differentiation.
Global Objectives
Part 3 / Medical Foundation 3 / Endocrinology
Upon completion of this problem, students will be able to outline the hormonal abnormalities involved in Multiple Endocrine Neoplasia Type 1 (MEN 1) and review the genetics of proto-oncogenes and tumour suppressor genes.
Global Objectives
Part 3 / Medical Foundation 3 / Endocrinology
Genetic influences.
General Objectives
Part 4 / Medical Foundation 4 / Brain and Behaviour
Upon completion of this problem, students will be able to describe musculoskeletal embryology and normal limb development, and explain the assessment and management of congenital foot abnormalities in children.
Global Objectives
Part 4 / Medical Foundation 4 / Musculoskeletal Medicine
Review the genetic concept of trinucleotide repeats and anticipation.
General Objectives
Part 4 / Medical Foundation 4 / Neuroscience
Explain how cancer risk is influenced by genetic factors.
General Objectives
Part 5 / Integration Foundation / Host Defense and Neoplasia
Review the principles of single-gene, mitochondrial, and multifactorial inheritance.
Activity Objectives
Part 5 / Integration Foundation / Complexity and Chronicity
Explain genetic imprinting and epigenetics.
Activity Objectives
Part 5 / Integration Foundation / Complexity and Chronicity
Describe indications for genetic testing in general practice.
Activity Objectives
Part 5 / Integration Foundation / Complexity and Chronicity
Explain practical implications of genetic testing.
Activity Objectives
Part 5 / Integration Foundation / Complexity and Chronicity
Interpret results of common genetic tests.
Activity Objectives
Part 5 / Integration Foundation / Complexity and Chronicity
A history of genetic abnormalities
Framework Objectives
Medical Foundation 3 / Obstetrics and Gynecology Rotation
What is a tumour suppressor gene?
General Objectives
What is hereditary versus familial cancer?
General Objectives
Basic mechanisms of cellular transformation and the characteristics of malignant cells.
General Objectives
The evolution of clonal populations of genetically abnormal cells, and the types of genes and mutations which cause malignancy.
General Objectives
Examples of genetic pathways of mutation causing cancers to develop, such as CML, retinoblastoma, hereditary breast & ovarian cancer, colorectal cancer.
General Objectives
How to distinguish sporadic cancers from hereditary cancers, and current practices in genetic counseling and clinical management of people at increased risk for hereditary cancers.
General Objectives
Interactions of environmental risk factors and genetic predisposition in common cancers.
General Objectives
Upon completion of this case, students will be able to contrast sporadic and hereditary patho-genetic mechanisms in colorectal cancer and discuss the role of adjuvant chemotherapy and surveillance after surgery.
Global Objectives
Describe how sporadic and hereditary cancers arise from normal tissues.
General Objectives
Distinguish sporadic and hereditary presentations of cancer.
General Objectives
Identify which members of a family might be at increased risk for hereditary cancer.
General Objectives
Describe current protocols and practices for the management of common hereditary cancers, understanding how the principles of cancer screening apply to these early detection and prevention programs.
General Objectives
Understand how the characterization of molecular changes in cancers and tumours can lead to the development of targeted therapies and improve treatment outcomes.
General Objectives
Explain the risks, benefits and limitation of genetic testing for hereditary cancer.
General Objectives
Be aware of genetics techniques used for cancer diagnosis.
General Objectives
Tag Info
Taxonomy
Basic Sciences
Tag Parent
–
Use Count
184
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