DOCSLIB.ORG

2. Portfolio Histology.Pdf

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text

Load more

PORTFOLIO HISTOLOGY VETERINER Lecturer(s) : Dr. Eka Pramyrtha Hestianah drh., MKes Chairul Anwar drh., MS Lita Rakhma Yustinasari, drh., M.Vet Suryo Kuncorojakti, drh., M.Vet DEPARTMENT OF VETERINARY ANATOMY FACULTY OF VETERINARY MEDICINE UNIVERSITAS AIRLANGGA 1 LIST OF CONTENTS MODULE HANDBOOK : A. Course Identity ........................................................................................................ 3 B. Maping LO to CO ................................................................................................... 6 C. Course topic ............................................................................................................ 6 D. Assessment Rubric .................................................................................................. 7 E. Assessment system .................................................................................................. 9 COURSE ASSESSMENT TA 2017/2018 : A. Course Outcome Evaluation ................................................................................... 10 B. Course Development Plan ....................................................................................... 12 C. Summary of Lecturer Evaluation by Students ....................................................... 35 D. Appendix 1. Examination : Question Sheets 2. Student Answer Sample (Maximum, Average, Minimum) 3. Student Questionnaire Summary 4. Schedule 2 MODULE HANDBOOK Course: Veterinary Histology Academic Year: 2017/2018 A. Course Identity Modul name Histology Veteriner Modul Level Bachelor Abbreviation, if BIA 102/104 applicable Courses included in - the module of applicable Semester/Term 2/first year Person in Charge Dr. Eka Pramyrtha Hestianah drh., MKes Lecturer(s) Dr. Eka Pramyrtha Hestianah drh., MKes Chairul Anwar drh., MS Lita Rakhma Yustinasari, drh., M.Vet Suryo Kuncorojakti, drh., M.Vet Languange Indonesia/English Classifications Compulsary course within the curriculum Teaching format 2 hours lecture/week and 4 hours practice (hours per week during the semester) Workload 2 hours lecture x 16 weeks = 32 hours 2hours laboratory practice x 13 weeks = 26 hours 1 hours exams x 2 = 2 hours 1 hours FGD x 10 weeks = 10 hours 1 hours quiz x 4 = 4 hours 2 hours self study x 16 = 32 hours Credit points 4 (2-2) Requirements Histology, biochemistry, physiology and embryology Learning CO1. Knowing the histo-technique to make microslide and knowing goals/compentencies about the structure of organ histologically; histological structure of organ systems in the body i.e. Introduction and the Cell, ECM, Epithelial and Muscle, Blood Periphere, Nerve, Blood Vessels and Cardiovascular, Cartilage and Bone, Skin and the Integument, Lymphatic System, Gastrointestinal, Liver and Gallbalader, Gland, Male Reproduction, Female Reproduction, Endocrine System, The Eye, and The Ear. CO2. Being able to comprehend the structure of organ histologically; histological structure of organ systems in the 3 body i.e. Introduction and the Cell, ECM, Epithelial and Muscle, Blood Periphere, Nerve, Blood Vessels and Cardiovascular, Cartilage and Bone, Skin and the Integument, Lymphatic System, Gastrointestinal, Liver and Gallbalader, Gland, Male Reproduction, Female Reproduction, Endocrine System, The Eye, and The Ear. CO3. Being able to identify the structure of organ histologically; histological structure of organ systems in the body i.e. Introduction and the Cell, ECM, Epithelial and Muscle, Blood Periphere, Nerve, Blood Vessels and Cardiovascular, Cartilage and Bone, Skin and the Integument, Lymphatic System, Gastrointestinal, Liver and Gallbalader, Gland, Male Reproduction, Female Reproduction, Endocrine System, The Eye, and The Ear. CO4. Being able to explain the structure of organ histologically; histological structure of organ systems in the body i.e. Introduction and the Cell, ECM, Epithelial and Muscle, Blood Periphere, Nerve, Blood Vessels and Cardiovascular, Cartilage and Bone, Skin and the Integument, Lymphatic System, Gastrointestinal, Liver and Gallbalader, Gland, Male Reproduction, Female Reproduction, Endocrine System, The Eye, and The Ear. Content 1. Introduction and the Cell 2. Extra Cellular Matrix and Connective Tissue 3. Epithelial and Muscle Tissue 4. Peripheral Blood, Blood Vessels, and Cardiovascular System 5. Cartilage and Bone Tissue 6. Nerve System 7. Skin and the Integument 8. Gastrointestinal tract, Pancreas, and Salivary Glands 9. Liver, Gall Blader, Urinary System 10. Male Reproduction 11. Female Reproduction 12. Endocrine Gland and Respiratory System 13. The Eye 14. The Ear Study/ exam Assessment Assessment Point Course achievement aspect element outcome (CO) Cognitive Mid Exam 22.22 % CO1, CO2, Final Exam 33.33 % CO3 Psychomotor Structured 16.67 % CO2, CO3 assignment Affective Assignments : 16.67 % CO4 Focus Group Discussion (FGD), quiz Softsskill : 11.11 % 4 activity; presence;discipli ne; politeness BIA104 Assessment Assessment Point Course aspect element outcome (CO) Cognitive Mid Exam 22.22 % CO1, CO2, Final Exam 33.33 % CO3 Psychomotor Laboratory 16.67 % CO2, CO3 practice Affective Assignments : 16.67 % CO4 Focus Group Discussion (FGD), face to face, quiz Softsskill : activity; 11.11 % presence;discipli ne; politeness Final indexed is defined as follow: A 100 ˃ AS ≥ 75 AB 70 ˃ AS ≥ 74.9 B 69.9 ˃ AS ≥ 65 BC 64.9 ˃ AS ≥ 60 C 59.9 ˃ AS ≥ 55 D 54.9 ˃ AS ≥ 45 E 45 ˃ AS AS = absolute score Forms of Media Power point slide and LCD projectors, whiteboard, microscope, laboratory Literature 1. Ross M. H., Kaye G. L., and Pawline W. 2003. Histology a Teks and Atlas. 4th ed. Lippincott, William & Wilkins. 2. Bancroft, J. D. Gamble M. 2011. Theory and Practice of Histological Techniques. Saunders Elsevier. 3. Bloom and Fawcett D. W. 2002. Buku Ajar Histologi. Edisi 12. Terjemahan. Penerbit Buku Kedokteran EGC. Jakarta. 4. Samuelson, D. A. 2007. Textbook of Veterinary Histology. Saunders Elsevier. 5. Mescher, A. L. 2012. Histologi Dasar JunqueiraTeks & Atlas. Penerbit Buku Kedokteran EGC. 6. Hestianah, E. P., Anwar, C., Kuncorojakti S., Yustinasari, L. R. 2013. Buku Ajar Histologi Veteriner Jilid 1. PT Revka Petra Media. Surabaya. 7. Hestianah, E. P., Anwar, C., Kuncorojakti S., Yustinasari, L. R. 2016. Buku Ajar Histologi Veteriner Jilid 2. PT Revka Petra 5 Media. Surabaya. Notes If the absolute score on the final score below 55, the students are given a second change exam to upgrade their score. B. Mapping LO to CO LO CO1 CO2 CO3 CO4 LO1 Apply basic knowledge and technology of anatomy, histology, physiology, biochemistry and embryology to construct basic clinical ˅ ˅ ˅ improvement LO6 Implement developing entrepreneurship skills in the field of veterinary and husbandry to be ˅ ˅ ˅ independent LO8 Implement veterinary and husbandry science and technology creatively based on ethics, morality, ˅ religion, Pancasila and civics in public C. Course Topic No. Week Topic 1 1 Introduction and the Cell 2 2 Extracellular Matrix and Connective Tissue 3 3 Epithelial and Muscle Tissue 4 4 Peripheral Blood, Blood Vessels, and Cardiovascular System 5 5 Cartilage and Bone Tissue 6 6 Nerve System 7 7 Skin and the Integument 8 8 Gastrointestinal tract, Pancreas, and Salivary Glands 9 9 Liver, Gall Blader, Urinary System 10 10 Male Reproduction 11 11 Female Reproduction 12 12 Endocrine Gland and Respiratory System 13 13 The Eye 14 14 The Ear 6 D. Assessment Rubic CO Not Acceptable Below Acceptable Meet Acceptable Exceed Acceptable 0-45 45.1-64.9 65-75 75.1-100 1 Students don’t Students have Students have more Students have extra know about the minimal knowledge knowledge about ability to know the structure of organ about histological histological structur histological structur histologically; structur of organ of organ systems in of organ systems in histological systems in the body the body i.e. the body i.e. structure of organ i.e. (Introduction (Introduction and (Introduction and system in the body and the Cell, ECM, the Cell, ECM, the Cell, ECM, i.e. (Introduction Epithelial and Epithelial and Epithelial and and the Cell, ECM, Muscle, Blood Muscle, Blood Muscle, Blood Epithelial and Periphere, Nerve, Periphere, Nerve, Periphere, Nerve, Muscle, Blood Blood Vessels and Blood Vessels and Blood Vessels and Periphere, Nerve, Cardiovascular, Cardiovascular, Cardiovascular, Blood Vessels and Cartilage and Bone, Cartilage and Bone, Cartilage and Bone, Cardiovascular, Skin and the Skin and the Skin and the Cartilage and Integument, Integument, Integument, Bone, Skin and the Lymphatic System, Lymphatic System, Lymphatic System, Integument, Gastrointestinal, Gastrointestinal, Gastrointestinal, Lymphatic System, Liver and Liver and Liver and Gastrointestinal, Gallbalader, Gland, Gallbalader, Gland, Gallbalader, Gland, Liver and Male Reproduction, Male Reproduction, Male Reproduction, Gallbalader, Female Female Female Gland, Male Reproduction, Reproduction, Reproduction, Reproduction, Endocrine System, Endocrine System, Endocrine System, Female Eye and Ear) of the Eye and Ear) of the Eye and Ear) of the Reproduction, domestic animals in domestic animals in domestic animals in Endocrine System, the laboratory by the laboratory by the laboratory by Eye and Ear) of the using a microscope. using a microscope. using a microscope. domestic animals in the laboratory by using a microscope. 2 Students don’t Students have Students have Students have extra comprehend about minimal comprehension comprehension to the structure of comprehension about histological know the organ about histological structur
Recommended publications
  • Chapter 28 *Lecture Powepoint

    Chapter 28 *Lecture Powepoint

    Chapter 28 *Lecture PowePoint The Female Reproductive System *See separate FlexArt PowerPoint slides for all figures and tables preinserted into PowerPoint without notes. Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Introduction • The female reproductive system is more complex than the male system because it serves more purposes – Produces and delivers gametes – Provides nutrition and safe harbor for fetal development – Gives birth – Nourishes infant • Female system is more cyclic, and the hormones are secreted in a more complex sequence than the relatively steady secretion in the male 28-2 Sexual Differentiation • The two sexes indistinguishable for first 8 to 10 weeks of development • Female reproductive tract develops from the paramesonephric ducts – Not because of the positive action of any hormone – Because of the absence of testosterone and müllerian-inhibiting factor (MIF) 28-3 Reproductive Anatomy • Expected Learning Outcomes – Describe the structure of the ovary – Trace the female reproductive tract and describe the gross anatomy and histology of each organ – Identify the ligaments that support the female reproductive organs – Describe the blood supply to the female reproductive tract – Identify the external genitalia of the female – Describe the structure of the nonlactating breast 28-4 Sexual Differentiation • Without testosterone: – Causes mesonephric ducts to degenerate – Genital tubercle becomes the glans clitoris – Urogenital folds become the labia minora – Labioscrotal folds
  • Chapter 24 Primary Sex Organs = Gonads Produce Gametes Secrete Hormones That Control Reproduction Secondary Sex Organs = Accessory Structures

    Chapter 24 Primary Sex Organs = Gonads Produce Gametes Secrete Hormones That Control Reproduction Secondary Sex Organs = Accessory Structures

    Anatomy Lecture Notes Chapter 24 primary sex organs = gonads produce gametes secrete hormones that control reproduction secondary sex organs = accessory structures Development and Differentiation A. gonads develop from mesoderm starting at week 5 gonadal ridges medial to kidneys germ cells migrate to gonadal ridges from yolk sac at week 7, if an XY embryo secretes SRY protein, the gonadal ridges begin developing into testes with seminiferous tubules the testes secrete androgens, which cause the mesonephric ducts to develop the testes secrete a hormone that causes the paramesonephric ducts to regress by week 8, in any fetus (XX or XY), if SRY protein has not been produced, the gondal ridges begin to develop into ovaries with ovarian follicles the lack of androgens causes the paramesonephric ducts to develop and the mesonephric ducts to regress B. accessory organs develop from embryonic duct systems mesonephric ducts / Wolffian ducts eventually become male accessory organs: epididymis, ductus deferens, ejaculatory duct paramesonephric ducts / Mullerian ducts eventually become female accessory organs: oviducts, uterus, superior vagina C. external genitalia are indeterminate until week 8 male female genital tubercle penis (glans, corpora cavernosa, clitoris (glans, corpora corpus spongiosum) cavernosa), vestibular bulb) urethral folds fuse to form penile urethra labia minora labioscrotal swellings fuse to form scrotum labia majora urogenital sinus urinary bladder, urethra, prostate, urinary bladder, urethra, seminal vesicles, bulbourethral inferior vagina, vestibular glands glands Strong/Fall 2008 Anatomy Lecture Notes Chapter 24 Male A. gonads = testes (singular = testis) located in scrotum 1. outer coverings a. tunica vaginalis =double layer of serous membrane that partially surrounds each testis; (figure 24.29) b.
  • FEMALE REPRODUCTIVE SYSTEM Female Reproduc�Ve System

    FEMALE REPRODUCTIVE SYSTEM Female ReproducVe System

    Human Anatomy Unit 3 FEMALE REPRODUCTIVE SYSTEM Female Reproducve System • Gonads = ovaries – almond shaped – flank the uterus on either side – aached to the uterus and body wall by ligaments • Gametes = oocytes – released from the ovary during ovulaon – Develop within ovarian follicles Ligaments • Broad ligament – Aaches to walls and floor of pelvic cavity – Connuous with parietal peritoneum • Round ligament – Perpendicular to broad ligament • Ovarian ligament – Lateral surface of uterus ‐ ‐> medial surface of ovary • Suspensory ligament – Lateral surface of ovary ‐ ‐> pelvic wall Ovarian Follicles • Layers of epithelial cells surrounding ova • Primordial follicle – most immature of follicles • Primary follicle – single layer of follicular (granulosa) cells • Secondary – more than one layer and growing cavies • Graafian – Fluid filled antrum – ovum supported by many layers of follicular cells – Ovum surrounded by corona radiata Ovarian Follicles Corpus Luteum • Ovulaon releases the oocyte with the corona radiata • Leaves behind the rest of the Graafian follicle • Follicle becomes corpus luteum • Connues to secrete hormones to support possible pregnancy unl placenta becomes secretory or no implantaon • Becomes corpus albicans when no longer funconal Corpus Luteum and Corpus Albicans Uterine (Fallopian) Tubes • Ciliated tubes – Passage of the ovum to the uterus and – Passage of sperm toward the ovum • Fimbriae – finger like projecons that cover the ovary and sway, drawing the ovum inside aer ovulaon The Uterus • Muscular, hollow organ – supports
  • Cryopreservation of Intact Human Ovary with Its Vascular Pedicle

    Cryopreservation of Intact Human Ovary with Its Vascular Pedicle

    del227.fm Page 1 Tuesday, May 30, 2006 12:23 PM ARTICLE IN PRESS Human Reproduction Page 1 of 12 doi:10.1093/humrep/del227 Cryopreservation of intact human ovary with its vascular pedicle Mohamed A.Bedaiwy1,2, Mahmoud R.Hussein3, Charles Biscotti4 and Tommaso Falcone1,5 1Department of Obstetrics and Gynecology, Minimally Invasive Surgery Center, The Cleveland Clinic Foundation, Cleveland, OH, USA, 5 2Department of Obstetrics and Gynecology, 3Department of Pathology, Assiut University Hospitals and School of Medicine, Assiut, Egypt and 4Anatomic Pathology Department, Minimally Invasive Surgery Center, The Cleveland Clinic Foundation, Cleveland, OH, USA 5To whom correspondence should be addressed at: Department of Obstetrics and Gynecology, A81, The Cleveland Clinic Foundation, 9500 Euclid Avenue, Cleveland, OH 44195, USA. E-mail: [email protected] 10 BACKGROUND: The aim of this study was to assess the immediate post-thawing injury to the human ovary that was cryopreserved either as a whole with its vascular pedicle or as ovarian cortical strips. MATERIALS AND METHODS: Bilateral oophorectomy was performed in two women (46 and 44 years old) undergoing vaginal hysterectomy and laparoscopic hysterectomy, respectively. Both women agreed to donate their ovaries for experimental research. In both patients, one of the harvested ovaries was sectioned and cryopreserved (by slow freezing) as ovarian cortical 15 strips of 1.0 ´ 1.0 ´ 5.0 mm3 each. The other ovary was cryopreserved intact with its vascular pedicle. After thawing 7 days later, follicular viability, histology, terminal deoxynucleotidyl transferase (TdT)-mediated dUTP-digoxigenin nick-end labelling (TUNEL) assay (to detect apoptosis) and immunoperoxidase staining (to define Bcl-2 and p53 pro- tein expression profiles) of the ovarian tissue were performed.
  • GROSS and HISTOMORPHOLOGY of the OVARY of BLACK BENGAL GOAT (Capra Hircus)

    GROSS and HISTOMORPHOLOGY of the OVARY of BLACK BENGAL GOAT (Capra Hircus)

    VOLUME 7 NO. 1 JANUARY 2016 • pages 37-42 MALAYSIAN JOURNAL OF VETERINARY RESEARCH RE# MJVR – 0006-2015 GROSS AND HISTOMORPHOLOGY OF THE OVARY OF BLACK BENGAL GOAT (Capra hircus) HAQUE Z.1*, HAQUE A.2, PARVEZ M.N.H.3 AND QUASEM M.A.1 1 Department of Anatomy and Histology, Faculty of Veterinary Science, Bangladesh Agricultural University, Mymensingh-2202, Bangladesh 2 Chittagong Veterinary and Animal Sciences University, Khulshi, Chittagong 3 Department of Anatomy and Histology, Faculty of Veterinary and Animal Science, Hajee Mohammad Danesh Science and Technology University, Basherhat, Dinajpur * Corresponding author: [email protected] ABSTRACT. Ovary plays a vital 130.07 ± 12.53 µm and the oocyte diameter role in the reproductive biology and was 109.8 ± 5.75 µm. These results will be biotechnology of female animals. In this helpful to manipulate ovarian functions in study, both the right and left ovaries of small ruminants. the Black Bengal goat were collected from Keywords: Morphometry, ovarian the slaughter houses of different Thanas follicles, cortex, medulla, oocyte. in the Mymensingh district. For each of the specimens, gross parameters such as INTRODUCTION weight, length and width were recorded. Then they were processed and stained with Black Bengal goat is the national pride of H&E for histomorphometry. This study Bangladesh. The most promising prospect revealed that the right ovary (0.53 ± 0.02 of Black Bengal goat in Bangladesh is g) was heavier than the left (0.52 ± 0.02 g). that this dwarf breed is a prolific breed, The length of the right ovary (1.26 ± 0.04 requiring only a small area to breed and cm) was lower than the left (1.28 ± 0.02 with the advantage of their selective cm) but the width of the right (0.94 ± 0.02 feeding habit with a broader feed range.
  • Ovarian Cancer Stroma: Pathophysiology and the Roles in Cancer Development

    Ovarian Cancer Stroma: Pathophysiology and the Roles in Cancer Development

    Cancers 2012, 4, 701-724; doi:10.3390/cancers4030701 OPEN ACCESS cancers ISSN 2072-6694 www.mdpi.com/journal/cancers Review Ovarian Cancer Stroma: Pathophysiology and the Roles in Cancer Development Mitsuko Furuya Department of Pathology, Yokohama City University Graduate School of Medicine, Yokohama 236-0004, Japan; E-Mail: [email protected]; Tel.: +81-45-787-2587; Fax: +81-45-786-0191 Received: 17 May 2012; in revised form: 29 June 2012 / Accepted: 12 July 2012 / Published: 18 July 2012 Abstract: Ovarian cancer represents one of the cancers with the worst prognostic in adult women. More than half of the patients who present with clinical signs such as abdominal bloating and a feeling of fullness already show advanced stages. The majority of ovarian cancers grow as cystic masses, and cancer cells easily spread into the pelvic cavity once the cysts rupture or leak. When the ovarian cancer cells disseminate into the peritoneal cavity, metastatic nests may grow in the cul-de-sac, and in more advanced stages, the peritoneal surfaces of the upper abdomen become the next largest soil for cancer progression. Ascites is also produced frequently in ovarian cancers, which facilitates distant metastasis. Clinicopathologic, epidemiologic and molecular studies on ovarian cancers have improved our understanding and therapeutic approaches, but still further efforts are required to reduce the risks in the patients who are predisposed to this lethal disease and the mortality of the patients in advanced stages. Among various molecules involved in ovarian carcinogenesis, special genes such as TP53, BRCA1 and BRCA2 have been well investigated. These genes are widely accepted as the predisposing factors that trigger malignant transformation of the epithelial cells of the ovary.
  • Biology of the Corpus Luteum

    Biology of the Corpus Luteum

    PERIODICUM BIOLOGORUM UDC 57:61 VOL. 113, No 1, 43–49, 2011 CODEN PDBIAD ISSN 0031-5362 Review Biology of the Corpus luteum Abstract JELENA TOMAC \UR\ICA CEKINOVI] Corpus luteum (CL) is a small, transient endocrine gland formed fol- JURICA ARAPOVI] lowing ovulation from the secretory cells of the ovarian follicles. The main function of CL is the production of progesterone, a hormone which regu- Department of Histology and Embryology lates various reproductive functions. Progesterone plays a key role in the reg- Medical Faculty, University of Rijeka B. Branchetta 20, Rijeka, Croatia ulation of the length of estrous cycle and in the implantation of the blastocysts. Preovulatory surge of luteinizing hormone (LH) is crucial for Correspondence: the luteinization of follicular cells and CL maintenance, but there are also Jelena Tomac other factors which support the CL development and its functioning. In the Department of Histology and Embryology Medical Faculty, University of Rijeka absence of pregnancy, CL will cease to produce progesterone and induce it- B. Branchetta 20, Rijeka, Croatia self degradation known as luteolysis. This review is designed to provide a E-mail: [email protected] short overview of the events during the life span of corpus luteum (CL) and to make an insight in the synthesis and secretion of its main product – pro- Key words: Ovary, Corpus Luteum, gesterone. The major biologic mechanisms involved in CL development, Progesterone, Luteinization, Luteolysis function, and regression will also be discussed. INTRODUCTION orpus luteum (CL) is a transient endocrine gland, established by Cresidual follicular wall cells (granulosa and theca cells) following ovulation.
  • Vocabulario De Morfoloxía, Anatomía E Citoloxía Veterinaria

    Vocabulario De Morfoloxía, Anatomía E Citoloxía Veterinaria

    Vocabulario de Morfoloxía, anatomía e citoloxía veterinaria (galego-español-inglés) Servizo de Normalización Lingüística Universidade de Santiago de Compostela COLECCIÓN VOCABULARIOS TEMÁTICOS N.º 4 SERVIZO DE NORMALIZACIÓN LINGÜÍSTICA Vocabulario de Morfoloxía, anatomía e citoloxía veterinaria (galego-español-inglés) 2008 UNIVERSIDADE DE SANTIAGO DE COMPOSTELA VOCABULARIO de morfoloxía, anatomía e citoloxía veterinaria : (galego-español- inglés) / coordinador Xusto A. Rodríguez Río, Servizo de Normalización Lingüística ; autores Matilde Lombardero Fernández ... [et al.]. – Santiago de Compostela : Universidade de Santiago de Compostela, Servizo de Publicacións e Intercambio Científico, 2008. – 369 p. ; 21 cm. – (Vocabularios temáticos ; 4). - D.L. C 2458-2008. – ISBN 978-84-9887-018-3 1.Medicina �������������������������������������������������������������������������veterinaria-Diccionarios�������������������������������������������������. 2.Galego (Lingua)-Glosarios, vocabularios, etc. políglotas. I.Lombardero Fernández, Matilde. II.Rodríguez Rio, Xusto A. coord. III. Universidade de Santiago de Compostela. Servizo de Normalización Lingüística, coord. IV.Universidade de Santiago de Compostela. Servizo de Publicacións e Intercambio Científico, ed. V.Serie. 591.4(038)=699=60=20 Coordinador Xusto A. Rodríguez Río (Área de Terminoloxía. Servizo de Normalización Lingüística. Universidade de Santiago de Compostela) Autoras/res Matilde Lombardero Fernández (doutora en Veterinaria e profesora do Departamento de Anatomía e Produción Animal.
  • The Reproductive System

    The Reproductive System

    27 The Reproductive System PowerPoint® Lecture Presentations prepared by Steven Bassett Southeast Community College Lincoln, Nebraska © 2012 Pearson Education, Inc. Introduction • The reproductive system is designed to perpetuate the species • The male produces gametes called sperm cells • The female produces gametes called ova • The joining of a sperm cell and an ovum is fertilization • Fertilization results in the formation of a zygote © 2012 Pearson Education, Inc. Anatomy of the Male Reproductive System • Overview of the Male Reproductive System • Testis • Epididymis • Ductus deferens • Ejaculatory duct • Spongy urethra (penile urethra) • Seminal gland • Prostate gland • Bulbo-urethral gland © 2012 Pearson Education, Inc. Figure 27.1 The Male Reproductive System, Part I Pubic symphysis Ureter Urinary bladder Prostatic urethra Seminal gland Membranous urethra Rectum Corpus cavernosum Prostate gland Corpus spongiosum Spongy urethra Ejaculatory duct Ductus deferens Penis Bulbo-urethral gland Epididymis Anus Testis External urethral orifice Scrotum Sigmoid colon (cut) Rectum Internal urethral orifice Rectus abdominis Prostatic urethra Urinary bladder Prostate gland Pubic symphysis Bristle within ejaculatory duct Membranous urethra Penis Spongy urethra Spongy urethra within corpus spongiosum Bulbospongiosus muscle Corpus cavernosum Ductus deferens Epididymis Scrotum Testis © 2012 Pearson Education, Inc. Anatomy of the Male Reproductive System • The Testes • Testes hang inside a pouch called the scrotum, which is on the outside of the body
  • Ans 214 SI Multiple Choice Set 4 Weeks 10/14 - 10/23

    Ans 214 SI Multiple Choice Set 4 Weeks 10/14 - 10/23

    AnS 214 SI Multiple Choice Set 4 Weeks 10/14 - 10/23 The following multiple choice questions pertain to material covered in the last two weeks' lecture sets. Answering the following questions will aid your exam preparation. These questions are meant as a gauge of your content knowledge - use them to pinpoint areas where you need more preparation. 1. A heifer begins ovarian activity at A. 6-8 months B. 8-10 months C.10-12 months D. 12-14 months E. 24 months 2. The gestation length of a cow is A. 82 days C. 166 days D. 283 days E. 311 days 3. All of the following produce hormones vital to ovarian cyclicity EXCEPT A. hypothalamus B. ovary C. posterior pituitary D. uterus E. all of the above are correct 4. Which of the following structures is INCORRECTLY matched to the hormones it produces? A. uterus: PGF2a B. ovary: testosterone, activin, estrogen, oxytocin C. placenta: progesterone, testosterone, estrogen D. anterior pituitary: ACTH, FSH, LH E. hypothalamus: GnRH, CRH 5. In the female reproductive system of all species A. the ovaries are supported by the mesometrium B. urine can only exit via the urethra via the suburethral diverticulum C. the uterus produces progesterone D. the oviduct is supported by the mesosalpinx E. the ovary is directly connected to the oviduct 6. Which of the following is FALSE about the mare? A. Ovulates from the medulla because of an inverted ovarian structure B. Ovulates a 2n oocyte C. Does not have a suburethral diverticulum D. Ovulates at only one site on the ovary, called the ovulation fossa E.
  • And Theca Interna Cells from Developing Preovulatory Follicles of Pigs B

    And Theca Interna Cells from Developing Preovulatory Follicles of Pigs B

    Differential production of steroids by dispersed granulosa and theca interna cells from developing preovulatory follicles of pigs B. K. Tsang, L. Ainsworth, B. R. Downey and G. J. Marcus * Reproductive Biology Unit, Department of Obstetrics and Gynecology and Department of Physiology, University of Ottawa, Ottawa Civic Hospital, Ottawa, Ontario, Canada Kl Y 4E9 ; tAnimal Research Centre, Agriculture Canada, Ottawa, Ontario, Canada K1A 0C6; and \Department of Animal Science, Macdonald College of McGill University, Ste Anne de Bellevue, Quebec, Canada H9X ICO Summary. Dispersed granulosa and theca interna cells were recovered from follicles of prepubertal gilts at 36, 72 and 108 h after treatment with 750 i.u. PMSG, followed 72 h later with 500 i.u. hCG to stimulate follicular growth and ovulation. In the absence of aromatizable substrate, theca interna cells produced substantially more oestrogen than did granulosa cells. Oestrogen production was increased markedly in the presence of androstenedione and testosterone in granulosa cells but only to a limited extent in theca interna cells. The ability of both cellular compartments to produce oestrogen increased up to 72 h with androstenedione being the preferred substrate. Oestrogen production by the two cell types incubated together was greater than the sum produced when incubated alone. Theca interna cells were the principal source of androgen, predominantly androstenedione. Thecal androgen production increased with follicular development and was enhanced by addition of pregnenolone or by LH 36 and 72 h after PMSG treatment. The ability of granulosa and thecal cells to produce progesterone increased with follicular development and addition of pregnenolone. After exposure of developing follicles to hCG in vivo, both cell types lost their ability to produce oestrogen.
  • A Contribution to the Morphology of the Human Urino-Genital Tract

    A Contribution to the Morphology of the Human Urino-Genital Tract

    APPENDIX. A CONTRIBUTION TO THE MORPHOLOGY OF THE HUMAN URINOGENITAL TRACT. By D. Berry Hart, M.D., F.R.C.P. Edin., etc., Lecturer on Midwifery and Diseases of Women, School of the Royal Colleges, Edinburgh, etc. Ilead before the Society on various occasions. In two previous communications I discussed the questions of the origin of the hymen and vagina. I there attempted to show that the lower ends of the Wolffian ducts enter into the formation of the former, and that the latter was Miillerian in origin only in its upper two-thirds, the lower third being formed by blended urinogenital sinus and Wolffian ducts. In following this line of inquiry more deeply, it resolved itself into a much wider question?viz., the morphology of the human urinogenital tract, and this has occupied much of my spare time for the last five years. It soon became evident that what one required to investigate was really the early history and ultimate fate of the Wolffian body and its duct, as well as that of the Miillerian duct, and this led one back to the fundamental facts of de- velopment in relation to bladder and bowel. The result of this investigation will therefore be considered under the following heads:? I. The Development of the Urinogenital Organs, Eectum, and External Genitals in the Human Fcetus up to the end of the First Month. The Development of the Permanent Kidney is not CONSIDERED. 260 MORPHOLOGY OF THE HUMAN URINOGENITAL TRACT, II. The Condition of these Organs at the 6th to 7th Week. III.