Gastro17-GITractPt1
... stone is large enough, it can obstruct the duodenum. It also stains the anterior surface of the duodenum postmortem Neck of the pancreas is located inferiorly Hepatoduodenal ligament attached to the duodenal bulb o 2nd part (descending part) Lots of ridges/ circular folds called Plicae Circu ...
... stone is large enough, it can obstruct the duodenum. It also stains the anterior surface of the duodenum postmortem Neck of the pancreas is located inferiorly Hepatoduodenal ligament attached to the duodenal bulb o 2nd part (descending part) Lots of ridges/ circular folds called Plicae Circu ...
Neonatal Nursing Care
... Bilirubin is transported in blood via albumin Bilirubin is transferred into the hepatocytes Attachment of unconjugated bilirubin to glucuronic ...
... Bilirubin is transported in blood via albumin Bilirubin is transferred into the hepatocytes Attachment of unconjugated bilirubin to glucuronic ...
Shier, Butler, and Lewis: Hole`s Human Anatomy and Physiology
... 2. The liver is located in the upper right abdominal quadrant. B. Liver Structure 1. The two large lobes of the liver are the right and left. 2. The falciform ligament is a fold that separates the lobes of the liver and anchors the liver to the posterior abdominal wall. 3. The two small lobes of the ...
... 2. The liver is located in the upper right abdominal quadrant. B. Liver Structure 1. The two large lobes of the liver are the right and left. 2. The falciform ligament is a fold that separates the lobes of the liver and anchors the liver to the posterior abdominal wall. 3. The two small lobes of the ...
Neonatal Nursing Care
... Bilirubin is transported in blood via albumin Bilirubin is transferred into the hepatocytes Attachment of unconjugated bilirubin to glucuronic ...
... Bilirubin is transported in blood via albumin Bilirubin is transferred into the hepatocytes Attachment of unconjugated bilirubin to glucuronic ...
caninegastrointesttract
... umbilical hernia. Ileum joins the ascending colon. The ileum is a part of the large loop of jejunoileum. It can be found in a scrotal or umbilical hernia but, being shorter than the jejunum, is less likely to be involved in a herniation. The ileum is joined to the cecum by the ileocecal fold. If you ...
... umbilical hernia. Ileum joins the ascending colon. The ileum is a part of the large loop of jejunoileum. It can be found in a scrotal or umbilical hernia but, being shorter than the jejunum, is less likely to be involved in a herniation. The ileum is joined to the cecum by the ileocecal fold. If you ...
Tributaries of the hepatic portal vein
... the exception of the lower part of the rectum) and from the spleen, pancreas, and gall-bladder. From these viscera the blood is conveyed to the liver by the portal vein. In the liver this vein ramifies like an artery and ends in capillarylike vessels termed sinusoids, from which the blood is conveye ...
... the exception of the lower part of the rectum) and from the spleen, pancreas, and gall-bladder. From these viscera the blood is conveyed to the liver by the portal vein. In the liver this vein ramifies like an artery and ends in capillarylike vessels termed sinusoids, from which the blood is conveye ...
ABDOMINAL CAVITY AND VISCERA
... extrinsic autonomic plexuses: mesh-like networks that serve the viscera. Parasympathetic fibers run in these plexuses, too. You will see the pulmonary plexus, the esophageal plexus, and several cardiac plexuses. visceral afferent nerves: use the pathways described above for the sympathetics and para ...
... extrinsic autonomic plexuses: mesh-like networks that serve the viscera. Parasympathetic fibers run in these plexuses, too. You will see the pulmonary plexus, the esophageal plexus, and several cardiac plexuses. visceral afferent nerves: use the pathways described above for the sympathetics and para ...
Learning Objectives of Duodenum and Pancrease
... 10cm long starts at the right side of 3LV (inferior duodenal flexure). Ends – Infront of aorta in its 4th part. It is retroperitoneal i.e. only anterior surface is covered with peritoneum except the median plane where it is crossed by superior mesenteric vessels and root of mesentery. Anterior – Roo ...
... 10cm long starts at the right side of 3LV (inferior duodenal flexure). Ends – Infront of aorta in its 4th part. It is retroperitoneal i.e. only anterior surface is covered with peritoneum except the median plane where it is crossed by superior mesenteric vessels and root of mesentery. Anterior – Roo ...
use of quadruped models in thoraco- abdominal
... The use of live subjects, such as anesthetized portines and canines, provides basic physiological response to impact and a method of evaluating critical factors such as hypovolemic shock when tissues are damaged. However, there are significant differences in the thoraco-abdominal anatomy between man ...
... The use of live subjects, such as anesthetized portines and canines, provides basic physiological response to impact and a method of evaluating critical factors such as hypovolemic shock when tissues are damaged. However, there are significant differences in the thoraco-abdominal anatomy between man ...
I. Introduction
... upper left portion of the abdominal cavity. 3. Rugae are thick folds in the lining of the stomach. 4. The functions of the stomach are to mix food with gastric juice, begin protein digestion, to begin a small amount of absorption, and movement of food into the small intestine. B. Parts of the Stomac ...
... upper left portion of the abdominal cavity. 3. Rugae are thick folds in the lining of the stomach. 4. The functions of the stomach are to mix food with gastric juice, begin protein digestion, to begin a small amount of absorption, and movement of food into the small intestine. B. Parts of the Stomac ...
Chapter 17: Digestive System
... 1. The two large lobes of the liver are the right and left. 2. The falciform ligament is a fold that separates the lobes of the liver and anchors the liver to the posterior abdominal wall. 3. The two small lobes of the liver are caudate and quadrate. 4. The porta hepatis is where blood vessels and d ...
... 1. The two large lobes of the liver are the right and left. 2. The falciform ligament is a fold that separates the lobes of the liver and anchors the liver to the posterior abdominal wall. 3. The two small lobes of the liver are caudate and quadrate. 4. The porta hepatis is where blood vessels and d ...
I. Introduction
... 1. The two large lobes of the liver are the right and left. 2. The falciform ligament is a fold that separates the lobes of the liver and anchors the liver to the posterior abdominal wall. 3. The two small lobes of the liver are caudate and quadrate. 4. The porta hepatis is where blood vessels and d ...
... 1. The two large lobes of the liver are the right and left. 2. The falciform ligament is a fold that separates the lobes of the liver and anchors the liver to the posterior abdominal wall. 3. The two small lobes of the liver are caudate and quadrate. 4. The porta hepatis is where blood vessels and d ...
Human Anatomy, First Edition McKinley&O`Loughlin
... concentrates bile produced by the liver and stores this concentrate until it is needed for digestion cystic duct connects the gallbladder to the common bile duct can hold approximately 40 to 60 milliliters of concentrated bile ...
... concentrates bile produced by the liver and stores this concentrate until it is needed for digestion cystic duct connects the gallbladder to the common bile duct can hold approximately 40 to 60 milliliters of concentrated bile ...
Peritoneum and abdominal cavity
... contains the coronary ligament, which is the reflection of the parietal peritoneum over the inferior surface of the diaphragm and onto the superior surface of the liver as the visceral peritoneum. This joint of reflection is the coronary ligament. The falciform ligament forms due to the reflection o ...
... contains the coronary ligament, which is the reflection of the parietal peritoneum over the inferior surface of the diaphragm and onto the superior surface of the liver as the visceral peritoneum. This joint of reflection is the coronary ligament. The falciform ligament forms due to the reflection o ...
Introduction to the Digestive System
... During embryonic development Digestive tract and accessory organs are suspended in peritoneal cavity by: – dorsal mesentery – ventral mesentery » later disappears along most of digestive tract except at the lesser omentum and at the falciform ligament ...
... During embryonic development Digestive tract and accessory organs are suspended in peritoneal cavity by: – dorsal mesentery – ventral mesentery » later disappears along most of digestive tract except at the lesser omentum and at the falciform ligament ...
Medical Terminology
... which blood has had time to be digested and results from bleeding in the upper GI tract Ileus: Failure of peristalsis with resulting obstruction of the intestines; mechanical or paralytic Intussusception: Telescoping of intestines; one segment of bowel collapses into the opening of another segment; ...
... which blood has had time to be digested and results from bleeding in the upper GI tract Ileus: Failure of peristalsis with resulting obstruction of the intestines; mechanical or paralytic Intussusception: Telescoping of intestines; one segment of bowel collapses into the opening of another segment; ...
Chapter 25
... a. parietal peritoneum that lines the wall of the abdominopelvic cavity b. visceral peritoneum that covers some of the abdominal organs and constitutes their serosa - between the two layers is a potential space called the peritoneal cavity that contains serous fluid; accumulation of serous fluid in ...
... a. parietal peritoneum that lines the wall of the abdominopelvic cavity b. visceral peritoneum that covers some of the abdominal organs and constitutes their serosa - between the two layers is a potential space called the peritoneal cavity that contains serous fluid; accumulation of serous fluid in ...
Chapter 24: The Digestive System Biology 141 A& P Brashear
... • Is the largest visceral organ (1.5 kg) • Lies in right hypochondriac and epigastric regions • Extends to left hypochondriac and umbilical regions • Performs essential metabolic and synthetic functions ...
... • Is the largest visceral organ (1.5 kg) • Lies in right hypochondriac and epigastric regions • Extends to left hypochondriac and umbilical regions • Performs essential metabolic and synthetic functions ...
Organ Combining Form
... Splen/ectomy: Excision of the spleen Splen/o/megaly : Enlargement of the spleen Splen/o/ptosis: Prolapse of the spleen Splen/o/pexy: Surgical fixation of the spleen Splen/o/pathy: Any disease of the spleen Splen/o/rrhaphy: Suture of the spleen Splen/o/rrhagia: hemorrhage from the spleen Splen/algia: ...
... Splen/ectomy: Excision of the spleen Splen/o/megaly : Enlargement of the spleen Splen/o/ptosis: Prolapse of the spleen Splen/o/pexy: Surgical fixation of the spleen Splen/o/pathy: Any disease of the spleen Splen/o/rrhaphy: Suture of the spleen Splen/o/rrhagia: hemorrhage from the spleen Splen/algia: ...
Lecture 1
... Two caeca arise from the ileocolic junction and accompany the ileum in a retrograde fashion The duodenum secretes digestive enzymes an bicarbonate (to counter the acid from the proventriculus) from the pancreas and bile from the liver via the gall bladder. The digestive enzymes produced by the pancr ...
... Two caeca arise from the ileocolic junction and accompany the ileum in a retrograde fashion The duodenum secretes digestive enzymes an bicarbonate (to counter the acid from the proventriculus) from the pancreas and bile from the liver via the gall bladder. The digestive enzymes produced by the pancr ...
28-duodenum & Pancreas
... Posteriorly: The lesser sac (1st inch), gastroduodenal artery, blie duct; portal vein and I.V.C Superiorly: The enterance into the epiploic foramen Inferiorly : The head of pancreas. ...
... Posteriorly: The lesser sac (1st inch), gastroduodenal artery, blie duct; portal vein and I.V.C Superiorly: The enterance into the epiploic foramen Inferiorly : The head of pancreas. ...
Biology 12 Human Biology – The Digestive System Chapter 21
... your feces is bacteria. E. coli is a common bacterium in your colon. Your body actually has more bacterial cells in and on it than it has human cells! What are some benefits of these bacteria to your body? _________Produce vitamin K necessary for blood clotting. _______ _produce folic acid - necessa ...
... your feces is bacteria. E. coli is a common bacterium in your colon. Your body actually has more bacterial cells in and on it than it has human cells! What are some benefits of these bacteria to your body? _________Produce vitamin K necessary for blood clotting. _______ _produce folic acid - necessa ...
Chapter 12 Digestive System
... Oral cavity (or/o) or mouth (stomat/o) and all its structures. It is composed of the lips (cheil/o, labi/o), the cheeks (bucc/o), the palate or roof of the mouth (palat/o), the uvula (uvul/o), the tongue (gloss/o, lingu/o), the teeth (dent/i, dent/o, odont/o) the gums (gingiv/o), and the salivary ...
... Oral cavity (or/o) or mouth (stomat/o) and all its structures. It is composed of the lips (cheil/o, labi/o), the cheeks (bucc/o), the palate or roof of the mouth (palat/o), the uvula (uvul/o), the tongue (gloss/o, lingu/o), the teeth (dent/i, dent/o, odont/o) the gums (gingiv/o), and the salivary ...
24-1
... • Deamination = removes NH2 (amine group) from amino acids so can use what is left as energy source • Converts resulting toxic ammonia (NH3) into urea for excretion by the kidney • Synthesizes plasma proteins utilized in the clotting mechanism and immune system • Convert one amino acid into another ...
... • Deamination = removes NH2 (amine group) from amino acids so can use what is left as energy source • Converts resulting toxic ammonia (NH3) into urea for excretion by the kidney • Synthesizes plasma proteins utilized in the clotting mechanism and immune system • Convert one amino acid into another ...
Liver
The liver is a vital organ of vertebrates and some other animals. In the human it is located in the upper right quadrant of the abdomen, below the diaphragm. The liver has a wide range of functions, including detoxification of various metabolites, protein synthesis, and the production of biochemicals necessary for digestion.The liver is a gland and plays a major role in metabolism with numerous functions in the human body, including regulation of glycogen storage, decomposition of red blood cells, plasma protein synthesis, hormone production, and detoxification. It is an accessory digestive gland and produces bile, an alkaline compound which aids in digestion via the emulsification of lipids. The gallbladder, a small pouch that sits just under the liver, stores bile produced by the liver. The liver's highly specialized tissue consisting of mostly hepatocytes regulates a wide variety of high-volume biochemical reactions, including the synthesis and breakdown of small and complex molecules, many of which are necessary for normal vital functions. Estimates regarding the organ's total number of functions vary, but textbooks generally cite it being around 500.Terminology related to the liver often starts in hepar- or hepat- from the Greek word for liver, hēpar (ἧπαρ, root hepat-, ἡπατ-).There is currently no way to compensate for the absence of liver function in the long term, although liver dialysis techniques can be used in the short term. Liver transplantation is the only option for complete liver failure.