Axis Scientific Human Digestive System (1/2 Size)

Total Page：16

File Type：pdf, Size：1020Kb

Axis Scientific Human Digestive System (1/2 Size) A-105865 48. Body of Pancreas 27. Transverse Colon 02. Hard Palate 47. Pancreatic Notch 07. Nasopharynx 05. Tooth 01. Lower Lip F. Large Intestine 06. Tongue 21. Jejunum A. Oral Cavity 09. Pharyngeal Tonsil 03. Soft Palate 08. Opening to Auditory Tube 28. E. Small Intestine 04. Uvula 11. Palatine Tonsil Descending Colon 40. Gallbladder 37. Round Ligament of Liver 22. Ileum 38. Quadrate Lobe 44. Proper Hepatic Artery 42. Common Hepatic Duct 45. Hepatic Portal Vein C. Esophagus 15. Fundus of Stomach 30. Rectum 29. Sigmoid Colon 13. Cardia 26. Ascending Colon 39. Caudate Lobe 24. Ileocecal Valve 35. Left Lobe of 16. Body of 34. Falciform Liver Stomach 41. Cystic Duct Ligament 36. Right Lobe of Liver G. Liver 31. Anal Canal 14. Pylorus D. Stomach 33. External 18. Duodenum Anal Sphincter Muscle 17. Pyloric Antrum 46. Head of Pancreas 23. Cecum 51. Accessory Pancreatic Duct 49. Tail of 50. Pancreatic 25. Vermiform 20. Minor Duodenal Papilla H. Pancreas Duct Pancreas Appendix 19. Major Duodenal Papilla 32. Internal Anal Sphincter Muscle 01. Lower Lip 20. Minor Duodenal Papilla 39. Caudate Lobe 02. Hard Palate 21. Jejunum 40. Gallbladder 03. Soft Palate 22. Ileum 41. Cystic Duct 42. Common Hepatic Duct 04. Uvula 23. Cecum 43. Common Bile Duct 05. Tooth 24. Ileocecal Valve 44. Proper Hepatic Artery 06. Tongue 25. Vermiform Appendix 45. Hepatic Portal Vein 07. Nasopharynx 26. Ascending Colon 46. Head of Pancreas 08. Opening to Auditory Tube 27. Transverse Colon 47. Pancreatic Notch 09. Pharyngeal Tonsil 28. Descending Colon 48. Body of Pancreas 10. Oropharynx 30. Rectum 49. Tail of Pancreas 11. Palatine Tonsil 29. Sigmoid Colon 50. Pancreatic Duct 12. Laryngopharynx 31. Anal Canal 51. Accessory Pancreatic Duct A. Oral Cavity 13. Cardia 32. Internal Anal Sphincter Muscle B. Pharynx 14. Pylorus 33. External Anal Sphincter Muscle C. Esophagus 15. Fundus of Stomach 34. Falciform Ligament D. Stomach 16. Body of Stomach 35. Left Lobe of Liver E. Small Intestine 17. Pyloric Antrum 36. Right Lobe of Liver F. Large Intestine 18. Duodenum 37. Round Ligament of Liver G. Liver 19. Major Duodenal Papilla 38. Quadrate Lobe H. Pancreas © 2018 AXIS SCIENTIFIC.

Copy Link

Recommended publications

The Anatomy of the Rectum and Anal Canal
BASIC SCIENCE identify the rectosigmoid junction with conﬁdence at operation. The anatomy of the rectum The rectosigmoid junction usually lies approximately 6 cm below the level of the sacral promontory. Approached from the distal and anal canal end, however, as when performing a rigid or ﬂexible sigmoid- oscopy, the rectosigmoid junction is seen to be 14e18 cm from Vishy Mahadevan the anal verge, and 18 cm is usually taken as the measurement for audit purposes. The rectum in the adult measures 10e14 cm in length. Abstract Diseases of the rectum and anal canal, both benign and malignant, Relationship of the peritoneum to the rectum account for a very large part of colorectal surgical practice in the UK. Unlike the transverse colon and sigmoid colon, the rectum lacks This article emphasizes the surgically-relevant aspects of the anatomy a mesentery (Figure 1). The posterior aspect of the rectum is thus of the rectum and anal canal. entirely free of a peritoneal covering. In this respect the rectum resembles the ascending and descending segments of the colon, Keywords Anal cushions; inferior hypogastric plexus; internal and and all of these segments may be therefore be spoken of as external anal sphincters; lymphatic drainage of rectum and anal canal; retroperitoneal. The precise relationship of the peritoneum to the mesorectum; perineum; rectal blood supply rectum is as follows: the upper third of the rectum is covered by peritoneum on its anterior and lateral surfaces; the middle third of the rectum is covered by peritoneum only on its anterior 1 The rectum is the direct continuation of the sigmoid colon and surface while the lower third of the rectum is below the level of commences in front of the body of the third sacral vertebra.
[Show full text]
Jemds.Com Case Report
Jemds.com Case Report RIGHT SIDED SIGMOID COLON AND REDUNDANT DESCENDING COLON ON CONVENTIONAL AND CT IMAGING Mandeep Singh1, Madhan Kumar2, Daisy Gupta3 1Junior Resident, Department of Radiodiagnosis, Government Medical College, Amritsar, Punjab, India. 2Junior Resident, Department of Radiodiagnosis, Government Medical College, Amritsar, Punjab, India. 3Assistant Professor, Department of Radiodiagnosis, Government Medical College, Amritsar, Punjab, India. HOW TO CITE THIS ARTICLE: Singh M, Kumar M, Gupta D. Right sided sigmoid colon and redundant descending colon on conventional and CT imaging. J. Evolution Med. Dent. Sci. 2018;7(44):5617-5620, DOI: 10.14260/jemds/2018/1073 CASE PRESENTATION Investigations A 62-year-old male presented with history of severe On Plain X-Ray Abdomen constipation, abdominal distension, haemorrhoids and blood No abnormal air-fluid levels were seen. There were no in stool in surgical OPD of Guru Nanak Dev Hospital, abnormal radio-opaque shadows seen. Bilateral psoas Amritsar. The patient was referred for barium studies of shadows and soft tissue shadows were identified as normal. colon, which showed a loop of colon in pelvic region (at normal location of ileal loops) and redundant and long On Barium Enema descending colon extending across midline to reach hepatic After filling the rectum, the contrast was identified as filling flexure on right and continuing as sigmoid colon on right side. the sigmoid colon, which was present anomalously towards Transverse colon and ascending colon were normal in length the right side. Filling of barium outlined the extension of and position. On CECT abdomen of the patient, a long colon from sigmoid on right side with coiling in right iliac segment of descending colon was identified.
[Show full text]
Fecal Incontinence/Anal Incontinence
Fecal Incontinence/Anal Incontinence What are Fecal incontinence/ Anal Incontinence? Fecal incontinence is inability to control solid or liquid stool. Anal incontinence is the inability to control gas and mucous in addition to the inability to control stool. The symptoms range from mild release of gas to a complete loss of control. It is a common problem affecting 1 out of 13 women under the age of 60 and 1 out of 7 women over the age of 60. Men can also be have this condition. Anal incontinence is a distressing condition that can interfere with the ability to work, do daily activities and enjoy social events. Even though anal incontinence is a common condition, people are uncomfortable discussing this problem with family, friends, or doctors. They often suffer in silence, not knowing that help is available. Normal anatomy The anal sphincters and puborectalis are the primary muscles responsible for continence. There are two sphincters: the internal anal sphincter, and the external anal sphincter. The internal sphincter is responsible for 85% of the resting muscle tone and is involuntary. This means, that you do not have control over this muscle. The external sphincter is responsible for 15% of your muscle tone and is voluntary, meaning you have control over it. Squeezing the puborectalis muscle and external anal sphincter together closes the anal canal. Squeezing these muscles can help prevent leakage. Puborectalis Muscle Internal Sphincter External Sphincter Michigan Bowel Control Program - 1 - Causes There are many causes of anal incontinence. They include: Injury or weakness of the sphincter muscles. Injury or weakening of one of both of the sphincter muscles is the most common cause of anal incontinence.
[Show full text]
The Herbivore Digestive System Buffalo Zebra
The Herbivore Digestive System Name__________________________ Buffalo Ruminant: The purpose of the digestion system is to ______________________________ _____________________________. Bacteria help because they can digest __________________, a sugar found in the cell walls of________________. Zebra Non- Ruminant: What is the name for the largest section of Organ Color Key a ruminant’s Mouth stomach? Esophagus __________ Stomach Small Intestine Cecum Large Intestine Background Information for the Teacher Two Strategies of Digestion in Hoofed Mammals Ruminant Non‐ruminant Representative species Buffalo, cows, sheep, goats, antelope, camels, Zebra, pigs, horses, asses, hippopotamus, rhinoceros giraffes, deer Does the animal Yes, regurgitation No regurgitation regurgitate its cud to Grass is better prepared for digestion, as grinding Bacteria can not completely digest cell walls as chew material again? motion forms small particles fit for bacteria. material passes quickly through, so stool is fibrous. Where in the system do At the beginning, in the rumen Near the end, in the cecum you find the bacteria This first chamber of its four‐part stomach is In this sac between the two intestines, bacteria digest that digest cellulose? large, and serves to store food between plant material, the products of which pass to the rumination and as site of digestion by bacteria. bloodstream. How would you Higher Nutrition Lower Nutrition compare the nutrition Reaps benefits of immediately absorbing the The digestive products made by the bacteria are obtained via digestion? products of bacterial digestion, such as sugars produced nearer the end of the line, after the small and vitamins, via the small intestine. intestine, the classic organ of nutrient absorption.
[Show full text]
2. Bilateral Cleft Anatomy 19
BILATERAL CLEFT ANATOMY IS ATTACHED TO THE SINGLE CLEFT THE PREMAXILLA NORMALLY ROTATED OUTWARD MAXILLA ON ONE SIDE AND THIS ENTIRE COMPONENT IS THE CLEFT SIDE MAXILLA IN AN VARYING DEGREES FROM ASYMMETRICAL DIFFERENT DISTORTION DOUBLE CLEFTS PRESENT AN ENTIRELY CONFIGURA TION IN THE COMPLETE BILATERAL CLEFT THE PREMAXILLA IS UNATTACHED THREE WHICH TO EITHER MAXILLA THUS THERE ARE SEPARATE COMPONENTS IN THEIR DISTORTION THE MAXILLAE ARE MORE OR LESS SYMMETRICAL TWO WHILE THE ARE USUALLY EQUAL TO EACH OTHER IN SIZE AND POSITION FORWARD ITS IN CENTRAL PREMAXILLARY ELEMENT PROCEEDS ON OWN WITHIN ITSELF FOR DIFFERENT DEGREES BUT WITH SYMMETRY EXCEPT IJI POSSIBLE DEVIATION FRONTONASAL THE COMPLETE SEPARATION OF THE CENTRAL COMPONENT OF PROLABIUM AND PREMAXILLA FROM THE LATERAL MAXILLARY SEGMENTS THE VASCULAR ABNORMALLY INFLUENCES NOSE PHILTRUM MUSCULATURE AND OF ALL THREE ELEMENTS ITY NERVE SUPPLY GROWTH DEVELOPMENT WHERE THE CLEFT IS INCOMPLETE ON BOTH SIDES THE DEFORMITY IS LESS AND IS STILL SYMMETRICAL IN SUCH CASE THERE IS USUALLY MORE OR LESS INTACT ALVEOLUS AND LITTLE OR NO PROTRUSION OF THE PRE THE MAXILLA THE COLUMELLA IS LIKELY TO BE LONGER THAN IN COMPLETE CLEFT BUT NOT OF NORMAL LENGTH SOMETIMES SOMETIMES THE DEGREE OF CLEFT VARIES ON EACH SIDE SIDE THE INCOMPLETENESS SHOWS AS ONLY THE SLIGHTEST NOTCH ON ONE SIDE OR THERE CLEFT ON THE OPPOSITE AND HALFWAY OR THREEQUARTER ON THE CLEFT ONE SIDE AND AN INCOMPLETE ONE CAN BE COMPLETE ON OF THE EXASPERATING ASPECT OTHER WHICH CONDITION EXAGGERATES THE ROTATION OF THE IN THE AND NOSE
[Show full text]
Mouth Esophagus Stomach Rectum and Anus Large Intestine Small
1 Liver The liver produces bile, which aids in digestion of fats through a dissolving process known as emulsification. In this process, bile secreted into the small intestine 4 combines with large drops of liquid fat to form Healthy tiny molecular-sized spheres. Within these spheres (micelles), pancreatic enzymes can break down fat (triglycerides) into free fatty acids. Pancreas Digestion The pancreas not only regulates blood glucose 2 levels through production of insulin, but it also manufactures enzymes necessary to break complex The digestive system consists of a long tube (alimen- 5 carbohydrates down into simple sugars (sucrases), tary canal) that varies in shape and purpose as it winds proteins into individual amino acids (proteases), and its way through the body from the mouth to the anus fats into free fatty acids (lipase). These enzymes are (see diagram). The size and shape of the digestive tract secreted into the small intestine. varies in each individual (e.g., age, size, gender, and disease state). The upper part of the GI tract includes the mouth, throat (pharynx), esophagus, and stomach. The lower Gallbladder part includes the small intestine, large intestine, The gallbladder stores bile produced in the liver appendix, and rectum. While not part of the alimentary 6 and releases it into the duodenum in varying canal, the liver, pancreas, and gallbladder are all organs concentrations. that are vital to healthy digestion. 3 Small Intestine Mouth Within the small intestine, millions of tiny finger-like When food enters the mouth, chewing breaks it 4 protrusions called villi, which are covered in hair-like down and mixes it with saliva, thus beginning the first 5 protrusions called microvilli, aid in absorption of of many steps in the digestive process.
[Show full text]
Tongue -Tie (Ankyloglossia) and Lip -Tie (Lip Adhesion)
Tongue -Tie (Ankyloglossia) and Lip -Tie (Lip Adhesion) What is Tongue-Tie? Most of us think of tongue -tie as a situation we find ourselves in when we are too excited to speak. Actually, tongue- tie is the non medical term for a relatively common physical condition that limits the use of the tongue, ankyloglossia. Lip -tie is a condition where the upper lip cannot be curled or moved normally. Before we are born, a strong cord of tissue that guides development of mouth structures is positioned in the center of the mouth. It is called a frenulum. As we develop, this frenulum recedes and thins. The lingual (tongue) or labial (lip) frenulum is visible and easily felt if you look in the mirror under your tongue and lip. In some children, the frenulum is especially tight or fails to recede and may cause tongue/lip mobility problems. The tongue and lip are a very complex group of muscles and are important for all oral function. For this reason having tongue tie can lead to nursing, eating, dental, or speech problems, which may be serious in some individuals. When Is Tongue and Lip- Tie a Problem That Needs Treatment? Infants A new baby with a too tight tongue and/or lip frenulum can have trouble sucking and may have poor weight gain. If they cannot make a good seal on the nipple, they may swallow air causing gas and stomach problems. Such feeding problems should be discussed with Dr. Sierra. Nursing mothers who experience significant pain while nursing or whose baby has trouble latching on should have their child evaluated for tongue and lip tie.
[Show full text]
Crohn's Disease of the Colon
Gut, 1968, 9, 164-176 Gut: first published as 10.1136/gut.9.2.164 on 1 April 1968. Downloaded from Crohn's disease of the colon V. J. McGOVERN AND S. J. M. GOULSTON From the Royal Prince Alfred Hospital, Sydney, Australia The fact that Crohn's disease may involve the colon never affected unless there had been surgical inter- either initially or in association with small bowel ference. There was no overt manifestation of mal- disease is now firmly established due largely to the absorption in any of these patients. evidence presented by Lockhart-Mummery and In 18 cases the colon alone was involved. Five had Morson (1960, 1964) and Marshak, Lindner, and universal involvement, five total involvement with Janowitz (1966). This entity is clearly distinct from sparing of the rectum, two involvement of the ulcerative colitis and other forms of colonic disease. descending colon only, two the transverse colon only, Our own experience with this disorder reveals many and in the other four there was variable involvement similarities with that published from the U.K. and of areas of large bowel (Fig. 2). the U.S.A. Thirty patients with Crohn's disease involving the large bowel were seen at the Royal CLINICAL FEATURES Prince Alfred Hospital during the last decade, the majority during the past five years. The criteria for The age incidence varied from 6 to 69 years when the inclusion were based on histological examination of patient was first seen, the majority being between the operative specimens in 28 and on clinical and radio- ages of 11 and 50.
[Show full text]
Variation of Cystic Duct Insertion in Relation to the Extrahepatic Ducts
AbeshaAmbaye et al. / International Journal of Pharma Sciences and Research (IJPSR) Variation of Cystic Duct Insertion in Relation to the Extrahepatic Ducts and Observed Frequency of Double Lumen Apparent Common Bile Duct AbeshaAmbaye1, MueezAbraha2,Bernard A. Anderson2, Amanuel T. Tsegay1 Anatomy Course and Research Team, Institute of Biomedical Sciences, College of Health Sciences, Mekelle University Dep’t of Anatomy, College of Medicine and Health Sciences, University of Gondar, Ethiopia email [email protected] ABSTRACT Background: Variations in the pattern of the extra hepatic biliary tract are common and usually encountered during radiological investigations or during operations on the biliary tree. Having a good knowledge of the possible connections of the cystic duct with the common hepatic duct to form the common bile duct is very important; because variation in this area is common. Objectives: The main aim of this study is to evaluate the frequency of anatomic variations of the cystic duct insertion in relation to the extrahepatic ducts and Observed Frequency of Double Lumen Apparent Common Bile Duct Methods: Institutional based cross-sectional study design with observational data collection tool was conducted in 25 Ethiopian fixed cadavers and Forensic autopsy specimens obtained from Departments of Human Anatomy at University of Gondar, Mekelle and St. Paul Hospital Millennium Medical College Result: From the total 25 specimens dissected 9 (36%) had the ACBD and the 16 (64%) of them had CBD with one lumen. Conclusion: The billiary system formation is very variable, among the variants; the number of the supradoudenal insertion is greater than the infradoudenal insertion. ACBD is more frequent than expected which is 36% of the total data.
[Show full text]
Multiple Epithelia Are Required to Develop Teeth Deep Inside the Pharynx
Multiple epithelia are required to develop teeth deep inside the pharynx Veronika Oralováa,1, Joana Teixeira Rosaa,2, Daria Larionovaa, P. Eckhard Wittena, and Ann Huysseunea,3 aResearch Group Evolutionary Developmental Biology, Biology Department, Ghent University, B-9000 Ghent, Belgium Edited by Irma Thesleff, Institute of Biotechnology, University of Helsinki, Helsinki, Finland, and approved April 1, 2020 (received for review January 7, 2020) To explain the evolutionary origin of vertebrate teeth from closure of the gill slits (15). Consequently, previous studies have odontodes, it has been proposed that competent epithelium spread stressed the importance of gill slits for pharyngeal tooth formation into the oropharyngeal cavity via the mouth and other possible (12, 13). channels such as the gill slits [Huysseune et al., 2009, J. Anat. 214, Gill slits arise in areas where ectoderm meets endoderm. In 465–476]. Whether tooth formation deep inside the pharynx in ex- vertebrates, the endodermal epithelium of the developing pharynx tant vertebrates continues to require external epithelia has not produces a series of bilateral outpocketings, called pharyngeal been addressed so far. Using zebrafish we have previously demon- pouches, that eventually contact the skin ectoderm at corre- strated that cells derived from the periderm penetrate the oropha- sponding clefts (16). In primary aquatic osteichthyans, most ryngeal cavity via the mouth and via the endodermal pouches and pouch–cleft contacts eventually break through to create openings, connect to periderm-like cells that subsequently cover the entire or gill slits (17–19). In teleost fishes, such as the zebrafish, six endoderm-derived pharyngeal epithelium [Rosa et al., 2019, Sci.
[Show full text]
Sporadic (Nonhereditary) Colorectal Cancer: Introduction
Sporadic (Nonhereditary) Colorectal Cancer: Introduction Colorectal cancer affects about 5% of the population, with up to 150,000 new cases per year in the United States alone. Cancer of the large intestine accounts for 21% of all cancers in the US, ranking second only to lung cancer in mortality in both males and females. It is, however, one of the most potentially curable of gastrointestinal cancers. Colorectal cancer is detected through screening procedures or when the patient presents with symptoms. Screening is vital to prevention and should be a part of routine care for adults over the age of 50 who are at average risk. High-risk individuals (those with previous colon cancer , family history of colon cancer , inflammatory bowel disease, or history of colorectal polyps) require careful follow-up. There is great variability in the worldwide incidence and mortality rates. Industrialized nations appear to have the greatest risk while most developing nations have lower rates. Unfortunately, this incidence is on the increase. North America, Western Europe, Australia and New Zealand have high rates for colorectal neoplasms (Figure 2). Figure 1. Location of the colon in the body. Figure 2. Geographic distribution of sporadic colon cancer . Symptoms Colorectal cancer does not usually produce symptoms early in the disease process. Symptoms are dependent upon the site of the primary tumor. Cancers of the proximal colon tend to grow larger than those of the left colon and rectum before they produce symptoms. Abnormal vasculature and trauma from the fecal stream may result in bleeding as the tumor expands in the intestinal lumen.
[Show full text]
Immune Functions of the Vermiform Appendix
The Proceedings of the International Conference on Creationism Volume 3 Print Reference: Pages 335-342 Article 30 1994 Immune Functions of the Vermiform Appendix Frank Maas Follow this and additional works at: https://digitalcommons.cedarville.edu/icc_proceedings DigitalCommons@Cedarville provides a publication platform for fully open access journals, which means that all articles are available on the Internet to all users immediately upon publication. However, the opinions and sentiments expressed by the authors of articles published in our journals do not necessarily indicate the endorsement or reflect the views of DigitalCommons@Cedarville, the Centennial Library, or Cedarville University and its employees. The authors are solely responsible for the content of their work. Please address questions to [email protected]. Browse the contents of this volume of The Proceedings of the International Conference on Creationism. Recommended Citation Maas, Frank (1994) "Immune Functions of the Vermiform Appendix," The Proceedings of the International Conference on Creationism: Vol. 3 , Article 30. Available at: https://digitalcommons.cedarville.edu/icc_proceedings/vol3/iss1/30 IMMUNE FUNCTIONS OF THE VERMIFORM APPENDIX FRANK MAAS, M.S. 320 7TH STREET GERVAIS, OR 97026 KEYWORDS Mucosal immunology, gut-associated lymphoid tissues. immunocompetence, appendix (human and rabbit), appendectomy, neoplasm, vestigial organs. ABSTRACT The vermiform appendix Is purported to be the classic example of a vestigial organ, yet for nearly a century it has been known to be a specialized organ highly infiltrated with lymphoid tissue. This lymphoid tissue may help protect against local gut infections. As the vertebrate taxonomic scale increases, the lymphoid tissue of the large bowel tends to be concentrated In a specific region of the gut: the cecal apex or vermiform appendix.
[Show full text]