Medical biology and genetics MINISTRY OF HIGHER EDUCATION, SCIENCE AND INNOVATIONS OF THE REPUBLIC OF UZBEKISTAN MINISTRY OF HEALTH OF THE REPUBLIC OF UZBEKISTAN SAMARKAND STATE MEDICAL UNIVERSITY DEPARTMENT OF MEDICAL BIOLOGY AND GENETICS Workbook on the subject Field of education: 600000 - “Healthcare” Direction of education: 60910200 - “General Medicine” 60910100 – Dentistry 60910300 – Pediatric case 60910400- Medical prevention I - COURSE SAMARKAND – 2023 1 Department of medIcal bIology and genetIcs MEDICAL BIOLOGISTS I. GENERAL GENETICS Workbook 2 Medical biology and genetics MINISTRY OF HEALTH OF THE REPUBLIC OF UZBEKISTAN SAMARKAND STATE MEDICAL UNIVERSITY DEPARTMENT OF MEDICAL BIOLOGY AND GENETICS "APPROVED" Chairman of the central educational and methodological council, Vice Rector for Academic Affairs Assoc. N.A. Yarmukhammedova " 29 " August 202 3 years Protocol No. 1 Workbook on the subject MEDICAL BIOLOGISTS I. GENERAL GENETICS 60 0000 - “Healthcare” 60910200 – “Medicine” 60910100 - Dentistry 60910300 – Pediatric case 60910400- Medical prevention I - COURSE Credit: Total training hours Including: Lecture Practical lesson Independent Job 4 - 120 hours - 12 hours. - 48 hours. - 60 hours SAMARKAND – 2023 3 Department of medIcal bIology and genetIcs Field of education: Direction of education: Workbook The workbook of the academic discipline was reviewed and approved at the educational and methodological meeting of SamSMU in the direction of morphology from “ ” August 2023. Protocol No. 1 Compiled by: R.N. Abdumuminova - Head of the Department Medical Biology And Genetics Samarkand State Medical University (signature) N.E. Dzhumanova - Lecturer of the Department Medical Biology and Genetics Samarkand State Medical University (signature) Reviewers: Internal review Mukhitdinov Shavkat Mukhamedzhanovich Assoc. Department of Medical Biology and Genetics, Faculty of Medical Prevention, Social Health and Medical Biology SamSMU External review: Oripov Firdavs Suratovich Doctor of Medical Sciences head r Department of Histology, Cytology, Embryology SamSMU Workbook approved by the Academic Council of the Faculty of Medical Prevention , Social Health and Medical Biology of SamSMI from “ ” August 202 3. Protocol No. 1 B.E.Tukhtarov Dean (signature) Head of the department R.N. Abdumuminova (signature) 4 Medical biology and genetics CONTENT No. Days 1. 1. 2. 2. 3. 3. 4. 4. 5. 5. 6. 6. 7. 7. 8. 8. 9. 9. 10. 10. 11. eleve n. 12. 12. I - SEMESTER TOPIC 1. . Microscope. Rules for working with a microscope. Preparation of temporary preparations TOPIC 2. Viruses. Pro- and eukaryotic cells. Their general similarities and differences. Ultrastructural structure of eukaryotic cells. Cell membrane and its structure. Methods of substances entering the cell. TOPIC 3. Molecular basis of life. Nucleic acids and their role in the transmission of hereditary characteristics. The role of DNA in protein biosynthesis. Genetic code. Regulation of protein biosynthesis. TOPIC 4. Life cycle of a cell. Mitotic cell division. Cell proliferation. Meiotic cell division. Pathology of mitosis and meiosis. Biological significance of meiosis. TOPIC 5. . Monohybrid crossing. Interaction of allelic genes. Codominance. TOPIC 6. Di- and polyhybrid crossing. Multiple allelism. Interaction of nonallelic genes. TOPIC 7. Chromosomal theory of heredity. T.G.Morgan. Gene linkage, crossing over. Inheritance of sex-linked traits. Study of sex-linked traits in humans. Periods of sex determination. TOPIC 8. Variability and its types. Hereditary and non-hereditary variability. TOPIC 9. . Methods for studying human genetics: genealogical and cytogenetic and twin methods. TOPIC 10 . Methods for studying human genetics: dermatoglyphic, population-statistical and biochemical methods. Prenatal diagnosis.method. TOPIC 11. Hereditary diseases: chromosomal diseases. Types of marriages. Medical and genetic aspects of marriage. TOPIC 12 Gene diseases. Medical genetic counseling. Genetic engineering Page 9 14 20 24 29 34 36 43 48 55 58 63 and biotechnology. II -SEMESTER 13. 14. 13 . _ TOPIC 1 3 . General patterns proembryonic and embryonic 68 14 . development. (Progenesis, Embryogenesis). Postembryonic development. Juvenile and pubertal periods. Aging. TOPIC 14 . . Onto-phylogeny of organ systems: integumentary, musculoskeletal, nervous, circulatory, endocrine and excretory systems. 74 5 Workbook 15 15 . _ 16 . 16 . 17 17 . TOPIC 15. Phylum: Protozoa - Protozoa. Class: Flagellata – Flagellates Species: Leishmania tropica – the causative agent of cutaneous leishmaniasis Species: Leishmania donovani - – causative agent of visceral leishmaniasis Species: Trypanosoma gambiense is the causative agent of trypanosomiasis. Species: Trichomonas intestinalis is the causative agent of intestinal trichomoniasis. Species: Trichomonas vaginalis is the causative agent of vaginal trichomoniasis. Species: Lamblia intestinalis – lamblia, the causative agent of giardiasis. Class: Sarcodina Species: Entamoeba histolytica – Dysenteric amoeba - the causative agent of amoebiasis Species: Entamoeba coli - Intestinal amoeba. Class: Ciliata – Ciliated. Species: Balantidium coli - intestinal balantidia, the causative agent of balantidiasis. TOPIC 16 . Type: Protoza - Protozoa Class: Sporozoa Species: Plasmodium vivax is a plasmodium, the causative agent of three-day malaria. Species: Plasmodium malariae – plasmodium, the causative agent of 4-day malaria. Species: Plasmodium falsiparum is a plasmodium, the causative agent of tropical malaria. Species: Toxoplasma gondii – toxoplasma, the causative agent of toxoplasmosis. TOPIC 17 . Phylum: Plathelminthes - Flatworms. Class: Trematoda – Flukes. Species: Fasciola hepatica – liver fluke, causative agent of fasciliosis. Species: Opisthorchis felineus – cat fluke, causative agent of opisthorchiasis. Species: Dicroselium lanseatum – lanceolate fluke, causative agent of dicroceliosis. Species: Paragonimus ringer is a pulmonary fluke, the causative agent of paragonimiasis. Species: Schistosoma haematobium – blood flukes, causative agents of schistosomiasis. 6 85 94 98 Medical biology and genetics 18 . 18 . TOPIC 18. Type: - Plathelminthes - Flatworms 101 Class: - Cestoda – Tapeworms Species: - Taeniarhynchus saginatus – bovine tapeworm, causative agent of taeniarynchosis Species: -Taenia solium – pork tapeworm, causative agent of taeniasis and cysticercosis Species: - Hymenolepis nana - dwarf tapeworm - the causative agent of hymenolipedosis. 19. 19. TOPIC 19 . Type: - Plathelminthes – Flatworms 104 Class: - Cestoda – Tapeworms Species: - Diphyllobothrium latum – wide tapeworm, causative agent of diphyllobothriasis Species: - Echinococcus granulosus – Echinococcus, causative agent of echinococcosis. Species: - Alveococcus multilocularis - Alveococcus, causative agent of alveococcosis. 20. 20 . _ TOPIC 2 0 . . Type: - Nemathelmintes – roundworms 107 Class: - Nematoda – actually roundworms Species: - Ascaris Lumbricoides – human roundworm, causative agent of ascariasis. Species: - Enterobius vermicularis - Pinworm, the causative agent of enterobiasis Species: - Trichocephalus trichiurus – whipworm, causative agent of trichacephalus Species: - Ankylostoma duodenale – crooked head, causative agent of hookworm disease. 21. 21. TOPIC 21. Type: Nemathelmintes – roundworms Class: - Nematoda - actual roundworms Species: Trichinella spiralis - Trichinella, the causative agent of trichinosis Species: Dracunculus medinensis - Guinea worm, the causative agent of dracunculiasis Species: Wuchereria bancrofti - Wuchereria, the causative agent of wuchereriosis (filariasis). Ovohelminthoscopy. 7 111 Workbook 22 22. TOPIC 22. Phylum:- Arthropoda - arthropods 116 Subtype: - Chelicerata - Cheliceraceae Class: - Arachnoidea – Arachnids Order: - Acarina - Ticks Kinds: 1-Ixodes persulcatus – taiga tick, carrier of taiga encephalitis. 2-Ornithodorus pappillipes is a village tick, a carrier of the causative agent of tick-borne relapsing fever. 3- Sarcoptes scabiei - scabies, the causative agent of scabies. 23. 24 . 23. 24 . TOPIC 23. Phylum: - Arthropoda - Arthropods. Subtype: - Tracheata - Trachean-breathing. Class: - Insecta - Insects. Species: 1-Blatta germanica - red cockroach, mechanical carrier of parasitic diseases. Species: 2-Cimex lectularius – Bed bug. Order: - Anoplura – Lice. Type: 1- Pediculus capitis – head louse. Species: 2-Pediculus vestimenti – body louse. Species: 3- Phthirus pubis – pubic louse. Order: Aphaniptera - Fleas. Species: -Pulex irritans - human flea. Order: -Diptera - Diptera Species: 1-Anopheles maculipennis – malaria mosquito. Species:2-Culex pipiens – Species: 3-Phlebotomus pappatasii – mosquitoes. Order: - Diptera - Diptera. Species: 1.Musca domestica - housefly Species: 2.Wohlfahrtia magnifica – Wohlfahrt fly. Species: 3.Stomoxys calcitrans – autumn flier Species: 4. Glossina palpalis – ts e -tse fly. TOPIC 24 . . Poisonous animals. Study of first aid in case of infection with poisonous animals. Total: 48 hours 8 122 133 Medical biology and genetics Topic No. 13: General patterns of proembryonic and embryonic development. (Progenesis, Embryogenesis). Postembryonic development. Juvenile and pubertal periods. Aging . Task No. 1. Answer the questions. 1 . Pay attention to ontogeny. Who introduced this concept into science? 2. What do you know about the theories of preformationism and epigenesis? 3. The essence of the Haeckel-Müller biogenetic law. 4. What stages of individual development do you know? 5. What is progenesis? 6. List the main stages of embryogenesis. 7 . Mechanisms of regulation of embryonic development of the organism. 8 . Types of ontogeny? What advantage does larval ontogenesis have? 9 Workbook Task No. 2 . Let us recall the main periods of gamete genesis. Compare oogenesis and spermatogenesis. Study the illustrations below. Compare the structure of the egg and sperm. Comment on the picture: 10 Medical biology and genetics Task No. 3. Make a diagram of embryogenesis: Task No. 4. How to understand that the crushing process is different by following the image diagram? Determine : 11 Workbook - Task No. 5. How does the crushing process end? What processes occur after crushing? Task No. 6. Fill out the table that shows the differentiation of fragile sheets: Study the diagram reflecting primary organogenesis. Define: - 12 Medical biology and genetics Situational questions. 1. During the lesson, students will discuss the importance of extramembryonic organs in human embryonic development and, in particular, the yolk sac. It is known that in evolution the yolk sac performed a trophic function. In humans, it contains very little yolk. Why? 2. During the inflammatory process, the blastocyst was in the fallopian tube on the 7th day of embryogenesis. After answering the following questions, discuss the outcome of the pregnancy. 3. During the lesson, students will discuss the stage of embryonic development when certain genes are activated and cells begin to differentiate and specialize . The following questions arose. answer them too . _ 4. At what stage of embryogenesis and how are embryos multilayered? Discuss this as you answer the following questions : _ 5. While discussing the topic of “germ cells,” questions arose about the classification of eggs. Oh answer them too . 13 Workbook Task No. 7. Answer the questions. 1. What types of postembryonic development do you know? 2. What is metamorphosis? Can you explain its biological significance? 3. Explain the changes that occur in a person during adolescence. 4. What factors influencing the growth process do you know? 5. What is acceleration and what hypotheses do you know that explain it? 6. What changes occur during the aging process? 7 . Give an idea of gerontology and geriatrics. 8 . What hypotheses of aging do you know? 9 . Explain the concepts of clinical and biological death, their differences, the concept of resuscitation. 14 Medical biology and genetics Task No. 8. Name the stages of postembryonic development. Task No. 9. Name the stages of postembryonic development. Topic No. 14. Onto-phylogeny of organ systems: integumentary, musculoskeletal, nervous , circulatory, endocrine and excretory systems . Task No. 1. Answer the questions. 1. Explain the evolution of an overlapping organ system 2. Explain the importance of knowing the condition of connective tissue in medicine. 3. What is the direction of skeletal phylogeny? 15 Workbook 4. Can you give an example of skeletal abnormalities? 5. What is the direction of phylogeny of the limb skeleton? 6. Give examples of skeletal anomalies of the limbs. 7. What is the direction of the phylogeny of the visceral skeleton? 8. What parts of the brain? 9. What is meant by ichthyopsid, sauropsid and brain types of mammals? Task No. 2 . Describe each of the following organ systems 16 Medical biology and genetics Task No. 3. Study the structure of the human oral cavity and draw a diagram: 17 Workbook Task No. 4 . Examine and mark the structure of the skin in the drawing and diagram. Task No. 5 . Examine and identify the structure of the face and oral cavity in micrographs and diagrams. _ _ 18 Medical biology and genetics Task No. 6. Add a character to the diagram. In phylogeny, using colored pencils, obtain homologous and newly formed structures of the jaw apparatus of vertebrates. -------------------------------------------------- -------------------------------------------------- ------------------------------------------------- -------------------------------------------------- ------------------------------------------------- -------------------------------------------------- ------------------------------------------------- -------------------------------------------------- ------------------------------------------------- -------------------------------------------------- --------------------------------------------------------------------- -------------------------------------------------- ---Situational questions. 1. The midbrain and cerebellum are well developed in the skull of the animal being studied. In the cerebral hemispheres, ventricles are not formed, the number of nerve cells is small. What animal does this brain belong to? Explain the level of development of 19 brain regions. 20 Workbook 2. Addison's disease is characterized by hyperpigmentation of the skin and mucous membranes, weight loss, and impaired water-salt metabolism. Explain what endocrine gland disease causes this disease. 3. How can we explain the observed ichthyosis in skin development? 4. A baby is born in the maternity ward with a body covered in fur and a tail. Explain this anomaly. 5. The child has birthmarks on his neck. Explain the mechanism of development of this anomaly. 6. Dry skin of frogs leads to their death. Explain the reason for this. 21 Medical biology and genetics Task No. 8 . Answer the questions. 1. Explain the structure of the heart and blood vessels of fish. 2. Explain the structure of the heart and blood vessels of a frog. _ 3. Explain the structure of the heart and blood vessels of a turtle. 4. Explain the structure of the heart and blood vessels of a pigeon. 5. Explain the structure of the heart and blood vessels of quince. 6. Give examples of cardiovascular abnormalities? 22 Workbook Task No. 9. Comment on the photos. Fill out the table (comparative classification). Cameras hearts Blood in the heart Blood vessels in the heart Circulation Fish Amphibians Reptiles Mammal A B A C B D IN Class Heart Artery Vienna Arterial blood Deoxygenated blood 23 G Medical biology and genetics Task No. 10. Study the structure of the vertebrate urinary system and renal nephrons. Explain the diagrams. Urinary tract of vertebrates. Evolutionary system of vertebrate nephrons Explain the picture: Task No. 11. Fill out the table: Comparative classification of the urinary system. Sign Structure of the functioning kidney Nephron structure Wolf's anal K Muller's anal Class Fish _ Amphibian Reptile Mammals Task No. 12. Schematic study of the phylogeny of the respiratory system of terrestrial vertebrates: 24 Workbook Answer the questions: 1. Importance of breathing? 2. Stages of development of the respiratory organs in different animals? 25 Medical biology and genetics 3. Origin of the respiratory organs in animals? 4. Comparative classification of the respiratory organs of vertebrates? 5. Anomalies of the human respiratory system? Situational questions. 1. The arterial cone from the ventricle of the heart forms three vessels: one from which arterial blood flows, another from which mixed blood flows, and a third from which venous blood flows. What class of vertebrates does this heart belong to? How does his heart work? 2. The formation of a four-chambered heart in birds and mammals is a major aromorphosis. How did these aromorphoses affect the development of other organs and systems of birds, especially mammals? 3. The child is 2 years old, his skin is bluish, he is breathing frequently, his body temperature is below normal. At the clinic he was diagnosed with heart disease. However, heart valves were found to have a normal structure. What disorders of the 26 Workbook heart or blood vessels lead to the above changes? 4. In some of the most common human blood diseases, peripheral blood may contain elements of the lower vertebrae, more characteristic of lower vertebrates, and hematopoietic centers may be observed in organs not involved in hematopoiesis. Explain why? Topic No. 15. Phylum: Protozoa - Protozoa. Class: Flagellata – Flagellates Species: Leishmania tropica – the causative agent of cutaneous leishmaniasis Species: Leishmania donovani - – causative agent of visceral leishmaniasis Species: Trypanosoma gambiense is the causative agent of trypanosomiasis. Species: Trichomonas intestinalis is the causative agent of intestinal trichomoniasis. Species: Trichomonas vaginalis is the causative agent of vaginal trichomoniasis. Species: Lamblia intestinalis – lamblia, the causative agent of giardiasis. Class: Sarcodina Species: Entamoeba histolytica – Dysenteric amoeba - the causative agent of amoebiasis Species: Entamoeba coli - Intestinal amoeba. Class: Ciliata – Ciliated. Species: Balantidium coli - intestinal balantidia, the causative agent of balantidiasis. Task No. 1. Answer the questions. 1. Origin of parasitism. 2. Criteria for parasitism. 27 Medical biology and genetics 3. Ways of occurrence of parasitism. 4. The “parasite-host” system. 5. Classification of parasites. 6 . Host classification. 7 . Ways of human infection by parasites. 8 . Biological adaptations of parasites. 9. Morphophysiological adaptations of parasites. 28 Workbook 10. Forms of manifestation of specificity. 11. Pathogenic effect of parasites. 12. Host responses to the introduction of the parasite. 13. Biological basis for the prevention of parasitic diseases. Task No. 2. Give a full explanation of the cysts listed below. 29 Medical biology and genetics Task No. 3. After studying the picture, identify the main and intermediate hosts of the broad tapeworm. Task No. 4. Describe the parasites in the picture and fill out the table. A B A B Type of parasite Class Invasive stage for humans Location in the human body Stages of the development cycle 30 Workbook Task No. 5. Situational questions. 1. The factor at which living systems perform their functions with the highest intensity and the highest regeneration rates. What factor are we talking about? 2. Indicate the method of cohabitation of representatives of different species, which requires mutual morphological and functional adaptations that were produced during the process of human evolution. 3. What is the name of the form of cohabitation between organisms of different species, when one partner uses the other’s body as housing and a source of nutrition, but does not harm the owner? 4. Determine the type of relationship between organisms of different species, when an organism of one species uses an organism of another species exclusively as housing. 5. An extreme manifestation of biotic factors, the result of which is the destruction of an organism (population, species). 6. In what form of symbiosis, in which one of the organisms uses the other as a source of food, residence, and at the same time harms the latter without causing its death? 31 Medical biology and genetics Task No. 6. Answer questions. 1. Characteristic features of the flagellate class. 2. Structure and development cycle of Leishmania. 3. The concept of the main and intermediate host. 4. Transmission routes of leishmaniasis, laboratory diagnosis, prevention. 5. Concepts of vector-borne and natural focal diseases. 6. Trypanosome infection, development cycle, transmission routes. 32 Workbook Task No. 7. Fill the table: A B Explain in detail what parasites are shown in this picture. A B Type of parasite Class Invasive stage for humans Location in the human body Stages of the development cycle A B A B Type of parasite Class Invasive stage for humans Location in the human body Stages of the development cycle 33 Medical biology and genetics Task No. 8. Explain in detail the parasites in this picture. B A A B Type of parasite Class Invasive stage for humans Location in the human body Stages of the development cycle 34 Workbook Task No. 9. Fill out the table: Human parasites. Name of the disease and pathogenicity Location in the human body Methods of infection Invasive stage for humans Amebiasis, Entameba histolytics Human colon Nutritiona Cyst l: ingestion of cysts Diagnostic s Prevention Detection of cysts in feces (cystotrans port); Erythropha ge identificati on of a large vegetative form of the disease Observe the rules of personal hygiene; consumption of boiled water; compliance with sanitary standards in public places Giardiasis Genital trichomoniasis Intestinal trichomoniasis Cutaneous leishmaniasis Visceral leishmaniasis African trypanosomiasi s African trypanosomiasi s (Chagas disease) Balantidiasis Toxoplasmosis Malaria Task No. 10. Situational questions. 1. Workers at the Kyzylkum gas fields were found to have skin ulcers that did not heal for a long time. What disease is suspected in the workers? 35 Medical biology and genetics 2. An employee who returned from a business trip to equatorial Africa exhibited symptoms: drowsiness, headaches. What do you know about the suspected disease? Is it possible to infect other people with this disease? 3. The patient has diarrhea mixed with mucus and blood. Laboratory analysis of feces revealed erythrophages. Is it possible for the patient to have cysts? Justify your answer. 4. During a scatological examination, eight-core cysts were found in food department workers. Can these individuals be diagnosed with amoebiasis? 5. In ancient times, residents of some countries voluntarily suffered mosquito bites in areas of the body covered by clothing. How to explain the essence of this ritual? 6. During parasitological studies, intestinal lamblia is detected in the majority of children examined, but in many of them clinical signs are not identified. How can such situations be explained? 7. A woman who returned from a business trip developed pain in the bladder area. What parasitic disease can be suspected in this woman? 36 Workbook 8. A person who had not passed bacteriological and parasitological tests got a job at a pig farm. 2 months after this, cases of diseases with intestinal disorders became more frequent among pig farm workers . What parasitic disease can be suspected in pig farm workers? 9. After a gynecological examination, the woman developed itching and pain in the genitourinary tract. What parasitic disease can be suspected in this woman? Topic No. 16. Phylum: Protoza - Protozoa Class: Sporozoa - Sporozoa. Species: Plasmodium vivax is a plasmodium, the causative agent of three-day malaria. Species: Plasmodium malariae – plasmodium, the causative agent of 4-day malaria. Species: Plasmodium falsiparum is a plasmodium, the causative agent of tropical malaria. Species: Toxoplasma gondii – toxoplasma, the causative agent of toxoplasmosis. Task No. 1. Answer questions. 1. Characteristics of the Sporozoan class. 2. Life cycle of malarial plasmodium. Concepts of schizogony, gametogony, sporogony. 3. Routes of transmission of malaria to humans. 37 Medical biology and genetics 4. Explain the frequency of attacks of malaria. 5. Laboratory diagnosis of malaria. 6. Malaria prevention measures. 7. Structure, reproduction and significance of toxoplasmosis in medicine. 8. The concept of congenital and acquired toxoplasmosis. 9. Laboratory diagnosis of toxoplasmosis. 38 Workbook 10. Measures to prevent toxoplasmosis. Task No. 2. Study the development cycle of these parasites and fill out the table: A B A B Type of parasite Class View Infection Diagnostics 39 Medical biology and genetics Task No. 3. Write the taxonomy of this parasite. Type Class View Task No. 4. Determine which parasite's life cycle is shown in the picture? 40 Workbook Task No. 5. Situational questions. 1. A woman who has not undergone parasitological studies during pregnancy gives birth to a child with developmental anomalies. What kind of disease could this be? 2. It has been established that toxoplasmosis is more common in women. What cooking habits of women could be one of the reasons for this? Prove your answer. 3. Malaria is known to be transmitted. Can it be transmitted in other ways? 4. A man who returned to Moscow from a trip to Africa in January was diagnosed with malaria. Can the disease spread through the population? 5. Family members of a person who returned to Tashkent from Afghanistan were diagnosed with malaria. Can a person who has no symptoms cause malaria? Topic No. 17. Phylum: Plathelminthes - Flatworms. Class: Trematoda – Flukes. Species: Fasciola hepatica – liver fluke, causative agent of fasciliosis. Species: Opisthorchis felineus – cat fluke, causative agent of opisthorchiasis. Species: Dicroselium lanseatum – lanceolate fluke, causative agent of dicroceliosis. Species: Paragonimus ringer is a pulmonary fluke, the causative agent of paragonimiasis. Species: Schistosoma haematobium – blood flukes, causative agents of schistosomiasis. Task No. 1. Answer the questions. 1. Indicate the general characteristics of the Plathelmintes type. 2. List the characteristics of the class Trematoda? 41 Medical biology and genetics 3. What are the signs of adaptation of representatives of the class Trematoda to parasitism? 4. How can one prove the origin of trematodes from ciliated flatworms? 5. What types of larvae are found in representatives of the class Trematoda? Task No. 2 . Fill in the table: Trematodes – parasites of humans and animals : Name of the disease and pathogenicity Location in the human body Methods of infection Liver fluke Blood fluke Lanceolate fluke Cat fluke Pulmonary fluke 42 Invasive stage for humans Diagno stics Preventio n Workbook Task No. 3. Study the development cycle of this parasite and complete the assigned tasks. A B A B Type of parasite Name of the disease Infective stage of the parasite to humans Identify the stages of the development cycle Task No. 4. Complete the table based on the parasites listed below. A B C 43 Medical biology and genetics A B IN Type of parasite Name of the disease Infective stage of the parasite to humans Final owner Task No. 5. Situational questions. 1. Symptoms of damage to the liver and other internal organs in a person returning from a business trip to Siberia. Ovohelminthoscopy revealed worm eggs. What kind of disease could this be? 2. Schistosomiasis is more common in tropical and subtropical areas where Muslims live. What traditions can be associated with this event? 3. During an ovohelmintoscopic examination of a person who consumed liver kebab, liver-sucking eggs were detected in the feces. How can a doctor make a diagnosis? Topic No. 18. Type: - Plathelminthes – Flatworms Class: - Cestoda – Tapeworms Species: - Taeniarhynchus saginatus – bovine tapeworm, causative agent of taeniarynchosis Species: -Taenia solium – pork tapeworm, causative agent of taeniasis and cysticercosis Species: - Hymenolepis nana - dwarf tapeworm - the causative agent of hymenolipedosis. Task No. 1. Answer the questions. 1. List the characteristics of the Cestode class. 44 Workbook 2. How can one explain the fact that the class is more resistant to parasitism than trematodes? 3. How can we prove that tapeworms evolved from ciliated flatworms? 4. What types of larvae are found in representatives of the class Tapeworms? 5. Development cycle of tapeworms, laboratory diagnostics, prevention. 6. What dietary features of different ethnic groups contribute to the spread of diphyllobothriasis? 7. Why do children get hymenolepiasis more often? 8. What are autoinvasion, autoreinvasion and superinvasion? 45 Medical biology and genetics 9. How does the diagnosis of echinococcosis differ from the diagnosis of other helminthiases? 10. What does the natural source of alveococcosis depend on and what other natural sources of cestodes do you know? Task No. 2. Fill out the table: Tapeworms are human parasites: Name of the disease and pathogenici ty Locatio Routes of n infection in the human body Bull tapeworm Small intestin e___ Nutritional: consumption of non-thermally processed beef meat Invasiv Diagnosti e stage cs for human s Prevention Detection of mature proglottid s in stool and uterus number of branches (17-35) Thorough heat treatment of beef, using separate meat boards Finna Pig tapeworm Dwarf tapeworm Wide tapeworm Echinococc us Alveococcu s 46 Workbook Task No. 3. Study the development cycle of these parasites, put the appropriate symbols: A B A B Type of parasite Class And an invasive stage for humans Location in the human body Stages of the development cycle TOPIC 19. Type: - Plathelminthes - Flatworms Class: - Cestoda – Tapeworms: Diphyllobothrium latum – wide tapeworm, Echinococcus granulosus – Echinococcus, Alveococcus multilocularis - Alveococcus, Task No. 1. Study the development cycle of these parasites and fill out the table: A B 47 Medical biology and genetics A B Type of parasite Class And an invasive stage for humans Location in the human body Stages of the development cycle Task No. 2. Study the morphological structure of each representative, determine what species it belongs to, indicate the disease caused by this parasite, and fill out the table. А B V A B Class And an invasive stage for humans Location in the human body Stages of the development cycle 48 V Workbook Task No. 3 . Indicate the difference between pork and bovine tapeworm : Symbol Pig tapeworm Bull tapeworm Body size The structure of the scolex Structure of hermaphrodite proglottids Structure of mature proglottids Intermediate host Final owner Structure of the Finns Probability of autoinvasion and complications Task No. 4. Situational questions. 1. During surgical removal of an echinococcal bladder, cystic fluid accidentally entered the abdominal cavity. What could be the result of this? 2. Can echinococcus be transmitted to humans by eating undercooked kebabs or liver kebabs? Try to prove your answer. 3. What preventative measures can be recommended for those who are going on a business trip to Siberia? Topic No. 20. - Nemathelmintes – roundworms . Class: - Nematoda – actually roundworms : human roundworm, pinworm, whipworm, crooked head . Task No. 1. Answer the questions. 1. Characteristic features of roundworms. 49 Medical biology and genetics 2. Explain the concepts of biohelminths and geohelminths. 3. The structure of the roundworm. 4. Distinctive features of pinworms. 5. What is autoreinvasion? 6. Explain why autoreinvasion occurs with enterobiasis, but not with ascariasis. 7 . Which of the studied nematodes is more common in children? 50 Workbook 8 . Life cycle of filaria. Features of diagnostics. 9. Why is wuchereriosis more common in cities nowadays? 1 0. Prevention of filariasis. 11. Characteristic features in the life cycle of Trichinella. 12 . _ What methods are used to determine trichinosis? 13. What preventive measures are taken for trichinosis? 51 Medical biology and genetics Task No. 2. Fill out the table: Nematodes - geohelm and nts: Name of the disease and pathogenicit y Location in the human body Routes of infection Ascaris and human itch , ascariasis _ Beginning of Ingestion of the small nutritional, intestine invasive eggs with contaminated soil products Children's page Whipworm Hookworm a 52 Invasiv Diagnosti e stage cs for human s Prevention Mature eggs Wash fruits and melons thoroughly before eating. Detection of eggs in feces Workbook Task No. 3. After studying the picture, fill out the table . Type of parasite Class And an invasive stage for humans Location in the human body Stages of the development cycle Task No. 4. After studying the picture, fill out the table. Type of parasite Class And an invasive stage for humans Location in the human body Stages of the development cycle 53 Medical biology and genetics Task No. 5. Situational questions. 1. In nurseries, toys can become a source of infection of children with roundworm eggs. Will ascariasis develop in children in this case? 2. Small, mobile, whitish-colored helminths were found in the child’s feces. What parasitic disease can be suspected in a child? 3. Residents of a small farm came to the clinic within 1-2 days with complaints of facial swelling, fever, and severe muscle pain. What pathology might a doctor suspect? By what methods can he confirm his suspicion? 4. A few days after hunters distributed wild boar meat to their fellow villagers, cases of people going to the clinic with various complaints became more frequent. What parasitic disease can be suspected? Topic No. 21. Type: Nemathelmintes - roundworms . Class: - Nematoda - actual roundworms : crooked head , guinea worm, Wuhereria, whipworm _ Methods of helminthoscopy and ovohelminthoscopy . Task No. 1. Answer the questions. 1. Which disease is professional? 2 . What is active and passive invasion? 3. What do you know about the biological method of fighting hookworm? 54 Workbook 4 . Development cycle and medical significance of guinea worm? 5 . Elimination of dracunculiasis in Uzbekistan. 6 . Prevention of dracunculiasis. 7. What parasite settles in the cecum, the upper part of the large intestine? 8 . Geohelminth, the disease caused is classified as an anthroponosis. 9. Basic methods of ovohelminthoscopy. 55 Medical biology and genetics 10. Advantages and disadvantages of ovohelminthoscopy. Task No. 2. Fill out the table: nematodes - biohelminths: Name of the disease and pathogenicity Location in the human body Routes of infection Invasive stage for humans Diagnost Prevention ics Guinea worm, Guinea worm Trixinella , trichinosis _ Onchocercus volvulus, O nchocercus oz Wu xereria . _ wuchereriosis Task No. 3. After studying the picture, fill out the table. 56 Workbook Type of parasite Class And an invasive stage for humans Location in the human body Stages of the development cycle Task No. 4. After studying the picture, fill out the table. Type of parasite Class And an invasive stage for humans Location in the human body Stages of the development cycle Task No. 5 . Study the structure of helminth eggs using pictures and photos: A B V 57 Medical biology and genetics Д G J Е Z I A B V G D E J Z I Task No. 6. Situational questions. 1 . What types of parasitic worms feed on blood? What complications can they cause in humans? 58 Workbook 2 . Which of the studied parasitic diseases can cotton growers and rice growers most often suffer from? Justify your answer. 3 . Dracunculiasis is more common in regions with a Muslim population. How can this phenomenon be explained? Topic No. 22. Phylum: - Arthropoda - arthropods . Arachnids of medical importance: village mites, scabies, dog mites and taiga mites . Task No. 1. Answer the questions. 1. Progressive features of the phylum of arthropods. 2. Morphological and physiological changes in ticks depending on their parasitic lifestyle. 3. Indicate the reasons for the discrepancy between the periods of ontogenesis and their chronological age. 4. Explain the concepts of “one-, two-, three-host ticks”. 59 Medical biology and genetics 5. The importance of transovarial transmission in the spread of natural focal and vector-borne diseases. 6. Why are foci of tick-borne encephalitis not common? only in the taiga zone, but also in deciduous forests and even in forest-steppes? 7. Indicate the main differences between ixodid and argasid ticks. 8. The main morphological differences of the scabies mite and the features of its development. 9. Ways of infection with scabies and measures to combat scabies mites.. Task No. 2. Which of the following mites has medical significance? 60 Workbook - Task No. 3. Describe the morphological structure of the following mites and their importance in medicine. - Task No. 4. Identify the different properties of Ixodid and Argasid ticks. Fill out the table: give a comparative description of the mites: Sign And to the sod mite and A rga with ov mite and _ _ Representatives 61 Medical biology and genetics Body Shape Body size The oral apparatus is located Availability and size of the rear shield Sense organs Nature meeting place Nature and duration of nutrition Master feeding master Where to lay eggs Development Cycles Number of nymph stages Number of eggs Name of infectious Name of diseases Name of infection 62 Workbook Task No. 5. Identify the type of tick and give an explanation. Determine the systematic position of the parasite: - Medical significance of this parasite : - 63 Medical biology and genetics Task No. 6. Situational questions. 1. Students who went to pick cotton were diagnosed with scabies. Explain the reasons for the mass infection of scabies. What measures can be taken to eliminate scabies? 2. Microscopic examination of the mite did not reveal a chitinous scute on the dorsal side. Determine the family of the mite being studied. 3. Often, ticks can transmit pathogens without feeding on the patient’s blood. How can this phenomenon be explained? 4. Ixodid ticks can reach the mature stage through 1-2 years, and in other cases - after 7-8 years, can you explain the reason for this phenomenon? Topic No. 23. Phylum: - Arthropoda - Arthropods. Subtype: - Tracheata - Trachean-breathing. Class: - Insecta – Insects : TOPIC 23. Phylum: - Arthropoda - Arthropods. Subtype: - Tracheata - Trachean-breathing. Class: - Insecta - Insects. Species: 1-Blatta germanica - red cockroach, mechanical carrier of parasitic diseases. Species: 2-Cimex lectularius – Bed bug. Order: - Anoplura – Lice. Type: 1- Pediculus capitis – head louse. Species: 2-Pediculus vestimenti – body louse. Species: 3- Phthirus pubis – pubic louse. Order: Aphaniptera - Fleas. Species: -Pulex irritans - human flea. Order: -Diptera - Diptera Species: 1-Anopheles maculipennis – malaria mosquito. Species:2-Culex pipiens – Species: 3-Phlebotomus pappatasii – mosquitoes. Order: - Diptera - Diptera. Species: 1.Musca domestica - housefly Species: 2.Wohlfahrtia magnifica – Wohlfahrt fly. Species: 3.Stomoxys calcitrans – autumn flier Species: 4. Glossina palpalis – ts e -tse fly. 64 Workbook Task No. 1. Answer the questions. 1. Characteristic features of insects. 2. Medical significance of cockroaches. 3. What measures are taken to exterminate cockroaches? 4. Adaptation of the bedbug to a parasitic lifestyle. 5. Medical significance of bed bugs. 6. Morphological differences between lice belonging to different species. 65 Medical biology and genetics 7. How does a person become infected with Provacek’s rickettsia? 8. How does a person become infected with Obermeer's spirochete? 9. Why are relapsing fever and typhus classified as obligate vector-borne diseases? 10. Basic preventive measures for head lice in children. 11. Methods of infecting a person with plague. 12. Specificity of the flea in relation to humans. 66 Workbook Task No. 2. Study the structure of lice using pictures and photos and fill out the table: Head lice Body lice Pubic in shea Spreading Place of parasitism Size Carrier of what disease? Routes of infection Prevention Task No. 3. Describe the life cycle of fleas and their importance in medicine. 67 Medical biology and genetics Task No. 4. Situational questions. 1. In living quarters where cockroaches are common, children more often suffer from allergies of unknown nature. What are these allergic disorders associated with? 2. During the Civil War, epidemics of typhus and relapsing fever were observed among the troops. How can this phenomenon be explained? 3. To establish the mechanisms of transmission of pathogens by lice, scientists conducted experiments on themselves. What do you know about the consequences of these experiments? Task No. 5. Answer the questions. 1. Morphophysiological characteristics of mosquitoes, uniting them into a single family. 2. Development of mosquitoes and the gonotrophic cycle. 3. Indicate the differences in the structure of the larvae and pupae of the common and malaria mosquitoes. 68 Workbook 4. Chemical and biological control measures for mosquito eradication. 5. Differences between the mosquito and other mosquitoes in terms of morphological features and development cycle. 6. Medical significance of the mosquito. 7. The development cycle of a housefly. 8. Medical significance of housefly. 9. What stage occurs during the metamorphosis of the Wohlfarth fly? 69 Medical biology and genetics 10. Medical significance of the Wohlfart fly. 11 . Main features of the distribution and development cycle of the tsetse fly. 12. How does the mouthparts of the live fly differ from the mouthparts of the housefly and the Wohlfarth fly? 13. What carrier of pathogens is the live fly? 14. Medical significance of the tsetse fly. 15. Methods of controlling flies. 70 Workbook Task No. 6. The biology of the various species of mosquitoes Anopheles, Culex and Aedes have distinctive features at all stages of development. Differences in egg laying and their shape. Differences between larval forms of mosquitoes. Differences in the mosquito pupal stage. 71 Medical biology and genetics Winged forms. Mosquito control measures. Task No. 7. Consider the development cycles of mosquitoes and write them down step by step. _ _ _ _ 72 Workbook Task No. 8. Study the structure of a mosquito's head in the picture and fill out the table. Signs A B Eye structure The structure of the oral apparatus Antennae structure Nutrition 73 Medical biology and genetics Task No. 9. Study the structure of flies using pictures and photographs and describe their significance in medicine. 74 Workbook Task No. 10. Situational tasks . 1. What parasitic disease can be suspected in a person who came from the desert regions of Central Asia and has long-term non-healing ulcers on the face? How can a suspected diagnosis be confirmed? 2. A massive outbreak of the disease among rodents has been identified in the steppe. A few days later, large animals began to get sick. What disease can be suspected in rodents and other animals? Justify your answer. 3. Is it possible for malaria to spread in the Far North if the diagnosis of malaria was established in several people who came here from the southern regions. 4. Currently, in cities there is mosquito activity in residential areas even in winter. What family do these mosquitoes belong to? Justify your answer . Topic No. 24. Poisonous animals. Study of first aid in case of infection with poisonous animals. Task No. 1. Answer the questions. 1. General concepts about poisonous animals and toxicity. 2. Classification of toxicity and the cause of its occurrence. 3. The effect of scorpion venom on the human body and first aid for a scorpion bite. 4. Clinical signs of a karakurt bite and first aid. 75 Medical biology and genetics 5. Concepts about poisonous fish and amphibians. 6. Concepts about the effect of snake venom on the human body. 7. First aid measures for snake bites. 8. The importance of poisonous animals and their protection. 9. Prevalence of toxicity among representatives of the animal world. Task No. 2. Components of snake venoms and their effects. Fill the table. 76 Workbook Neurotoxins (cobra venoms) cause Neurotoxin A Neurotoxin B Hemotoxins (viper venoms) cause Hemolysins Coagulants Anticoagulants Agglutinins Hemorrhages Task No. 3. Write down the main symptoms and first aid measures for bites from venomous animals. When stung by a scorpion Symptoms 1. Local First aid measures 1. Are common 2. 2. 3. 1. 2. 3. 3. 4. 76 Medical biology and genetics Task No. 4. Write down the main symptoms and first aid measures for a karakurt bite. Symptoms First aid measures Task No. 5. Write down the main symptoms and first aid measures for snake bites. When bitten by a cobra When bitten by vipers Symptoms First aid measures Contraindications!!! 77 Workbook Task No. 6. Situational tasks 1. The bite of which poisonous animal can be suspected if the victim has the following signs of poisoning: muscle weakness, fear, increased sweating, tremors? 2. A person bitten by a snake experiences: bleeding from the wound, severe pain, and decreased blood pressure. What kind of snake bite can you suspect? 3. A person bitten by a snake experiences difficulty breathing, movement disorders, and numbness of the entire body. What kind of snake bite can you suspect? 78 Medical biology and genetics Basic and additional literature and sources information Main literature: 1. Ed . V. N. Yarygina. Biology. Volume 1.2: textbook / ed. V. N. Yarygina. - Moscow: GEOTAR-Media, 2020. - 736 pages: ill. - 1500 circulation. 2020 2. Yarygina V. N. Biology. Volume 1: textbook / edited. - Moscow: GEOTARMEDIA, 2018. - 728 pages: 3. Yarygina V. N. Biology. Volume 2: textbook / edited. - Moscow: GEOTARMEDIA, 2018. - 560 pages: 4. Nishanbaev K.N. Alimkhodzhaeva P.R., Khamidov D.H. Medical biology and genetics/, T.: 2008.-290 p. Additional literature: 5. Atlas of zooparasitology / N.V. Chebyshev (et al.), 3rd ed., revised - M., 2004-173 p. 6. Guide to laboratory classes in biology. Ed. N.V. Chebysheva-M.: Geotar-Media, 2008 - 130 p. 7. Alimkhodzhaeva P.R., Zhuravleva R.A. “Guide to medical parasitology” “Abu Ali ibn Sino”, Tashkent, 2004. - 223 p. 8. Chebyshev N.V. - “Biology” textbook M., GEOTAR-Media, 2008. 392 p. 9. Bochkov N.P. “Clinical Genetics”, Moscow, 2006. Textbook for universities. 592 pages 10. Baryshnikov E.N. “Medical parasitology”, publishing house “Vlados”, Moscow , 2005. 144 pages Internet sites: 1. http://www.medline.ru . 2. http://www.freebooks4doktors.com/fl/spec4.htm ; 3. http://www.ncbi.nlm.nih.gov/entrez/ 4.http://www.histology.narod.ru/ 5. http://rsmu.ru/8894.html 6.http://www.dapamojnik.info/gist/ 7. www.morphology.dp.ua/hist.php 8.http://histologyatlas.wisc.edu/ 9. http://www.histology-world.com/ 10.http://www.visualhistolog 79 Workbook 80
