anatomy of large intestine, its section, ceacum, ascending colon, transverse colon, descending colon, sigmoid colon, functions of large intestine , relations of each components of large intestine, carddinal siggns of large intestine, iliocecal junstion, difference between large and small intestine. abdominal angina, superior mesenteric and inferior mesenteric artery, lymphatic drainage, colonoscophy,
anatomy of large intestine, its section, ceacum, ascending colon, transverse colon, descending colon, sigmoid colon, functions of large intestine , relations of each components of large intestine, carddinal siggns of large intestine, iliocecal junstion, difference between large and small intestine. abdominal angina, superior mesenteric and inferior mesenteric artery, lymphatic drainage, colonoscophy,
This is an oblique intermuscular passage in the lower part of the anterior abdominal wall ,
Situated just above the medial half of the inguinal ligament
anatomy of large intestine all info. is from snell clinical anatomy
this lecture composed of :- cecum , appendix , colon , rectum and anal canal
with all relation (location , blood supply , lymphatic drainage and nerve supply)
This is an oblique intermuscular passage in the lower part of the anterior abdominal wall ,
Situated just above the medial half of the inguinal ligament
anatomy of large intestine all info. is from snell clinical anatomy
this lecture composed of :- cecum , appendix , colon , rectum and anal canal
with all relation (location , blood supply , lymphatic drainage and nerve supply)
6. ANATOMY OF THE KIDNEY, URETER & POSTERIOR.pdfmarkmuiruri581
Anatomy of Urinary System
Urinary System Organs
Kidneys (2)
Ureters (2)
Urinary bladder
Urethra
Kidney Functions
Control blood volume and composition.
Filter blood plasma, eliminate wastes.
Regulate blood volume, pressure, and fluid osmolarity.
Secrete renin and erythropoietin (EPO).
Regulate PCO2, acid-base balance.
Synthesize calcitriol (Vitamin D).
Detoxify free radicals and drugs.
Perform gluconeogenesis.
Kidney Anatomy
Renal Fascia: Attaches to the abdominal wall.
Adipose Capsule: Provides fat cushioning for the kidney.
Renal Capsule: Fibrous sac that protects from trauma and infection.
Renal Sinus: Contains blood vessels, lymphatics, nerves, and urine-collecting structures.
Renal Parenchyma:
Outer Cortex
Inner Medulla
Renal Pyramids: Extensions of cortex dividing medulla.
Renal Columns: Connect cortex and medulla.
Renal Pelvis: Collects urine from pyramids.
Ureter: Carries urine to the bladder.
Remember, the kidneys play a crucial role in maintaining homeostasis by regulating fluid balance, electrolytes, and waste elimination. Ureter Anatomy
Overview
The ureters are bilateral, muscular, tubular structures responsible for transporting urine from the kidneys to the urinary bladder for storage and eventual excretion.
After blood filtration in the kidneys, the filtrate undergoes reabsorption and exudation along the convoluted tubules.
The urine then passes through the collecting tubules and enters the collecting ducts.
From the collecting ducts, it flows through the calyces into the renal pelvis, marking the beginning of the ureters.
Histology of Ureter
The lumen of each ureter is lined by a mucosal layer of urothelium (transitional epithelium).
The ureteral wall contains two muscular layers:
Longitudinal layer
Circular layer
In the lower segment of the ureters, an additional longitudinal layer is found proximal to the bladder.
Urine is propelled along the ureters by peristaltic motions initiated by pacemaker cells in the proximal renal pelvis.
Relations
Both ureters pass inferiorly over the abdominal surface of the psoas major muscle.
The right ureter travels posterior to the duodenum and is crossed by branches of the superior mesenteric vessels.
The left ureter is also posterior to the psoas major and is crossed by branches of the inferior mesenteric vessels.
Posterior Abdominal Wall
Construction
Bony: Extends from the 12th rib above to the pelvic brim below.
Muscular part: Composed of muscles and fasciae.
Fasciae: Provides stability and support for retroperitoneal organs, vessels, and nerves.
Remember, understanding the anatomy of the ureter and posterior abdominal wall is essential for clinical pracPosterior Abdominal Wall
Construction
Bony: Extends from the 12th rib above to the pelvic brim below.
Muscular part: Composed of muscles and fasciae.
Fasciae: Provides stability and support for retroperitoneal organs, vessels, and nerves.
Muscles of Posterior Abdominal Wall
Psoas Major:
Origin: Continuously attached from T12 (lower border) to L5
Rectum means straight as if ruled. This is a misnorma,for it is curved in conformity with the hollow of the sacrum.
Rectum is continuous with the sigmoid colon and there is no change of structure at the junction. The distinction is a matter of peritoneal attachment; where there is a mesocolon, the gut is called sigmoid colon and where there is no mesentery, it is called rectum . Where the muscle coats are replaced by sphincters it becomes the anal canal.
The rectum begins in the hollow of the sacrum at the level of its 3rd. Piece and it curves forwards over coccyx and ano-coccygeal raphe.
It is 15 cm long.
The 3 tinea of the sigmoid colon come together over the rectum invest it in a complete outer layer of the longitudinal muscle.
The upper and lower ends of the rectum lie in the midline but the ampulla is convex to the left.
Rectal valves of Houston,2 on the left and one on the Right are produced by circular muscles of the gut.
Anatomy and malignant diseases of esophagusDr Sajad Nazir
This presentation is for post graduate surgery residents. Anatomy with pictorial representation and management of carcinoma esophagus is being explained. Barretts esophagus, diagnosis and management is being explained. This presentation is subjected to errors and mistakes. I have consulted 2, 3 books to make this presentation.
he spleen is a fist-sized organ found in the upper left side of your abdomen, next to your stomach and behind your left ribs. It's an important part of your immune system but you can survive without it. This is because the liver can take over many of the spleen's functions
Model Attribute Check Company Auto PropertyCeline George
In Odoo, the multi-company feature allows you to manage multiple companies within a single Odoo database instance. Each company can have its own configurations while still sharing common resources such as products, customers, and suppliers.
2024.06.01 Introducing a competency framework for languag learning materials ...Sandy Millin
http://sandymillin.wordpress.com/iateflwebinar2024
Published classroom materials form the basis of syllabuses, drive teacher professional development, and have a potentially huge influence on learners, teachers and education systems. All teachers also create their own materials, whether a few sentences on a blackboard, a highly-structured fully-realised online course, or anything in between. Despite this, the knowledge and skills needed to create effective language learning materials are rarely part of teacher training, and are mostly learnt by trial and error.
Knowledge and skills frameworks, generally called competency frameworks, for ELT teachers, trainers and managers have existed for a few years now. However, until I created one for my MA dissertation, there wasn’t one drawing together what we need to know and do to be able to effectively produce language learning materials.
This webinar will introduce you to my framework, highlighting the key competencies I identified from my research. It will also show how anybody involved in language teaching (any language, not just English!), teacher training, managing schools or developing language learning materials can benefit from using the framework.
The Art Pastor's Guide to Sabbath | Steve ThomasonSteve Thomason
What is the purpose of the Sabbath Law in the Torah. It is interesting to compare how the context of the law shifts from Exodus to Deuteronomy. Who gets to rest, and why?
Students, digital devices and success - Andreas Schleicher - 27 May 2024..pptxEduSkills OECD
Andreas Schleicher presents at the OECD webinar ‘Digital devices in schools: detrimental distraction or secret to success?’ on 27 May 2024. The presentation was based on findings from PISA 2022 results and the webinar helped launch the PISA in Focus ‘Managing screen time: How to protect and equip students against distraction’ https://www.oecd-ilibrary.org/education/managing-screen-time_7c225af4-en and the OECD Education Policy Perspective ‘Students, digital devices and success’ can be found here - https://oe.cd/il/5yV
Unit 8 - Information and Communication Technology (Paper I).pdfThiyagu K
This slides describes the basic concepts of ICT, basics of Email, Emerging Technology and Digital Initiatives in Education. This presentations aligns with the UGC Paper I syllabus.
Synthetic Fiber Construction in lab .pptxPavel ( NSTU)
Synthetic fiber production is a fascinating and complex field that blends chemistry, engineering, and environmental science. By understanding these aspects, students can gain a comprehensive view of synthetic fiber production, its impact on society and the environment, and the potential for future innovations. Synthetic fibers play a crucial role in modern society, impacting various aspects of daily life, industry, and the environment. ynthetic fibers are integral to modern life, offering a range of benefits from cost-effectiveness and versatility to innovative applications and performance characteristics. While they pose environmental challenges, ongoing research and development aim to create more sustainable and eco-friendly alternatives. Understanding the importance of synthetic fibers helps in appreciating their role in the economy, industry, and daily life, while also emphasizing the need for sustainable practices and innovation.
This is a presentation by Dada Robert in a Your Skill Boost masterclass organised by the Excellence Foundation for South Sudan (EFSS) on Saturday, the 25th and Sunday, the 26th of May 2024.
He discussed the concept of quality improvement, emphasizing its applicability to various aspects of life, including personal, project, and program improvements. He defined quality as doing the right thing at the right time in the right way to achieve the best possible results and discussed the concept of the "gap" between what we know and what we do, and how this gap represents the areas we need to improve. He explained the scientific approach to quality improvement, which involves systematic performance analysis, testing and learning, and implementing change ideas. He also highlighted the importance of client focus and a team approach to quality improvement.
2. Jejunum and Ileum
• The jejunum and ileum measure
about 6 m long; the upper two
fifths of this length make up the
jejunum.
• Each has distinctive features
• The jejunum begins at the
duodenojejunal flexure, and the
ileum ends at the ileocecal
junction.
• The coils of jejunum and ileum
are freely mobile and attached to
the posterior abdominal wall by a
fan-shaped fold of peritoneum
known as the mesentery of the
small intestine.
3. Difference between jejunum and ileum
• In the living, the jejunum can be distinguished from the
ileum by the following features:
• 1. The jejunum lies coiled in the upper part of the
peritoneal cavity; the ileum is in the lower part of the
cavity and in the pelvis.
• 2. The jejunum is wider, thicker walled, and redder than
the ileum. The jejunal wall feels thicker because the plicae
circularis are larger, more numerous, and closely set
• 3. The jejunal mesenteric vessels form only one or two
arcades, with long and infrequent branches passing to the
intestinal wall. The ileum receives numerous short
terminal vessels that arise from a series of three or four or
even more arcades.
4. Jejunum and Ileum
• 4. At the jejunal end of the mesentery, the fat is
deposited near the root and is scanty near the
intestinal wall. At the ileal end of the mesentery
the fat is deposited throughout so that it extends
from the root to the intestinal wall.
• 5. Aggregations of lymphoid tissue (Peyer's
patches) are present in the mucous membrane of
the lower ileum along the antimesenteric border.
In the living these may be visible through the wall
of the ileum from the outside
7. Blood supply lymphatic drainage and
innervation of jejunum and ileum
• The arterial supply from branches of the superior
mesenteric artery. The lowest part of the ileum is also
supplied by the ileocolic artery.
• The veins correspond to the branches of the superior
mesenteric artery and drain into the superior mesenteric
vein.
• Lymph Drainage:
• The lymph vessels pass through many intermediate
mesenteric nodes and finally reach the superior mesenteric
nodes, which are situated around the origin of the superior
mesenteric artery.
• The nerves are derived from the sympathetic and
parasympathetic (vagus) nerves from the superior
mesenteric plexus.
8. Large intestine
• The large intestine
extends from the
cecum to the anus.
It is divided into:
Cecum, appendix,
ascending colon,
transverse colon,
descending colon,
and sigmoid colon,
rectum and anal
canal
9. Cecum
• The cecum is that part of the
large intestine that lies below
the level of the junction of
the ileum with the large
intestine.
• It is a blind-ended pouch that
is situated in the right iliac
fossa. It is completely covered
with peritoneum.
• It possesses a considerable
amount of mobility. the
longitudinal muscle is
restricted to three flat bands,
the teniae coli.
10. Relations of the cecum
• Anteriorly: Coils of small
intestine, sometimes part of
the greater omentum, and
the anterior abdominal wall in
the right iliac region
• Posteriorly: The right psoas
and the iliacus muscles, the
femoral nerve, and the lateral
cutaneous nerve of the thigh.
The appendix is commonly
found behind the cecum.
• Medially: The appendix arises
from the cecum on its medial
side
11. Ileocecal junction
• The terminal part of the
ileum enters the large
intestine at the junction of
the cecum with the
ascending colon. The
opening is provided with
two folds, or lips, which
form the so-called
ileocecal valve.
• The appendix
communicates with the
cavity of the cecum
through an opening
located below and behind
the ileocecal opening.
12. Blood Supply, lymphatic drainage and innervation of
the cecum
• Arteries: Anterior and posterior cecal
arteries from the ileocolic artery, a
branch of the superior mesenteric
artery.
• Veins correspond to the arteries and
drain into the superior mesenteric
vein.
• Lymph Drainage
• The lymph vessels pass through
several mesenteric nodes and finally
reach the superior mesenteric nodes.
• Nerve Supply
• Branches from the sympathetic and
parasympathetic (vagus) nerves form
the superior mesenteric plexus.
13. Appendix
• The appendix is a narrow, muscular
tube containing a large amount of
lymphoid tissue.
• The base is attached to the
posteromedial surface of the cecum.
The remainder of the appendix is free.
• It has a complete peritoneal covering,
which is attached to the mesentery of
the small intestine by the
mesoappendix. Mesoappendix contains
the appendicular vessels and nerves.
• The tip of the appendix may be found
in the following positions: (a) into the
pelvis against the right pelvic wall, (b)
behind the cecum, (c) the lateral side of
the cecum, and (d) in front of or behind
the terminal part of the ileum.
• The first and second positions are the
most common sites.
14. Surface anatomy of the appendix
The appendix lies in the right iliac fossa, its base is
situated one third of the way up the line joining the right
anterior superior iliac spine to the umbilicus (McBurney's
point).
15. Blood Supply of the appendix
• Arteries:
• The appendicular artery is a branch of
the posterior cecal artery.
• Veins:
• The appendicular vein drains into the
posterior cecal vein.
• Lymph Drainage:
• The lymph vessels drain into one or two
nodes lying in the mesoappendix and
then into the superior mesenteric nodes.
• Nerve Supply:
• The appendix is supplied by the
sympathetic and parasympathetic
(vagus) nerves from the superior
mesenteric plexus.
16. Ascending Colon
• The ascending colon extends upward from
the cecum to the inferior surface of the
right lobe of the liver, where it turns to the
left, forming the right colic flexure, and
becomes continuous with the transverse
colon.
• The peritoneum covers the front and the
sides of the ascending colon, binding it to
the posterior abdominal wall.
• Relations
• Anteriorly: Coils of small intestine, the
greater omentum, and the anterior
abdominal wall
• Posteriorly: The iliacus, the iliac crest, the
quadratus lumborum, the origin of the
transversus abdominis muscle, and the
lower pole of the right kidney. The
iliohypogastric and the ilioinguinal nerves
cross behind it
17. Blood Supply
• Arteries:
• The ileocolic and right colic
branches of the superior
mesenteric artery.
• Veins:
• The veins correspond to the
arteries and drain into the
superior mesenteric vein.
• The lymph vessels drain into
lymph nodes lying along the
course of the colic blood vessels
and ultimately reach the superior
mesenteric nodes.
• Nerve Supply:
• Sympathetic and parasympathetic
(vagus) nerves from the superior
mesenteric plexus.
18. Transverse Colon
• The transverse colon extends across the
abdomen, occupying the umbilical
region. It begins at the right colic flexure
below the right lobe of the liver and
hangs downward, suspended by the
transverse mesocolon from the
pancreas.
• It then ascends to the left colic flexure
below the spleen. The left colic flexure is
higher than the right colic flexure and is
suspended from the diaphragm by the
phrenicocolic ligament.
• The transverse mesocolon suspends the
transverse colon from the anterior
border of the pancreas. It is attached to
the superior border of the transverse
colon, and the posterior layers of the
greater omentum are attached to the
inferior border.
19. Relations of transverse colon
• Anteriorly: The
greater omentum and
the anterior
abdominal wall
(umbilical and
hypogastric regions)
• Posteriorly: The
second part of the
duodenum, the head
of the pancreas, and
the coils of the
jejunum and the ileum
20. Blood Supply
• Arteries:
• The proximal two thirds are supplied by the
middle colic artery, a branch of the superior
mesenteric artery. The distal third is supplied
by the left colic artery, a branch of the inferior
mesenteric artery.
• Veins:
• The veins correspond to the arteries and drain
into the superior and inferior mesenteric veins.
• Lymph Drainage:
• The proximal two thirds drain into the colic
nodes and then into the superior mesenteric
nodes; the distal third drains into the colic
nodes and then into the inferior mesenteric
nodes.
• Nerve Supply:
• The proximal two thirds are innervated by
sympathetic and vagal nerves through the
superior mesenteric plexus; the distal third is
innervated by sympathetic and
parasympathetic pelvic splanchnic nerves
through the inferior mesenteric plexus.
21.
22. Descending Colon
• The descending colon is about 10 in. (25 cm) long
• It extends downward from the left colic flexure, to the
pelvic brim, where it becomes continuous with the sigmoid
colon.
• The peritoneum covers the front and the sides and binds it
to the posterior abdominal wall.
• Relations
• Anteriorly: Coils of small intestine, the greater omentum,
and the anterior abdominal wall
• Posteriorly: The lateral border of the left kidney, the origin
of the transversus abdominis muscle, the quadratus
lumborum, the iliac crest, the iliacus, and the left psoas.
The iliohypogastric and the ilioinguinal nerves, the lateral
cutaneous nerve of the thigh, and the femoral nerve
23. Posterior relation of the
descending colon: The
lateral border of the left
kidney, the origin of the
transversus abdominis
muscle, the quadratus
lumborum, the iliac crest,
the iliacus, and the left
psoas. The iliohypogastric
and the ilioinguinal nerves,
the lateral cutaneous nerve
of the thigh, and the
femoral nerve
24. Blood Supply
• Arteries:
• The left colic and the sigmoid branches
of the inferior mesenteric artery.
• Veins:
• The veins correspond to the arteries
and drain into the inferior mesenteric
vein.
• Lymph Drainage:
• Lymph drains into the colic lymph
nodes and the inferior mesenteric
nodes around the origin of the inferior
mesenteric artery.
• Nerve Supply:
• The nerve supply is the sympathetic
and parasympathetic pelvic splanchnic
nerves through the inferior mesenteric
plexus.
25. The sigmoid colon
• The sigmoid colon is 10 to 15 in. (25 to 38 cm)
long and begins as a continuation of the
descending colon in front of the pelvic brim.
Below, it becomes continuous with the rectum
in front of the 3rd sacral vertebra. The sigmoid
colon is mobile and hangs down into the pelvic
cavity in the form of a loop.
• The sigmoid colon is attached to the posterior
pelvic wall by the fan-shaped sigmoid
mesocolon.
• Relations
• Anteriorly: In the male, the urinary bladder; in
the female, the posterior surface of the uterus
and the upper part of the vagina
• Posteriorly: The rectum and the sacrum. The
sigmoid colon is also related to the lower coils
of the terminal part of the ileum.
26.
27. • Blood Supply
• Arteries
• Sigmoid branches of the inferior
mesenteric artery.
• Veins
• The veins drain into the inferior
mesenteric vein, which joins the
portal venous system.
• Lymph Drainage
• The lymph drains into nodes along
the course of the sigmoid arteries;
from these nodes, the lymph travels
to the inferior mesenteric nodes.
• Nerve Supply
• The sympathetic and
parasympathetic nerves from the
inferior hypogastric plexuses.
28. Rectum
• The rectum is about 5 in. (13 cm) long
• it begins in front of the third sacral vertebra as a
continuation of the sigmoid colon. It passes downward,
following the curve of the sacrum and coccyx,
• it ends in front of the tip of the coccyx by piercing the pelvic
diaphragm and becoming continuous with the anal canal.
• The lower part of the rectum is dilated to form the rectal
ampulla.
• The puborectalis portion of the levator ani muscles forms a
sling at the junction of the rectum with the anal canal and
pulls this part of the bowel forward, producing the anorectal
angle.
• The peritoneum covers the anterior and lateral surfaces of
the first third of the rectum and only the anterior surface of
the middle third, leaving the lower third devoid of
peritoneum
29.
30. Relations of the rectum
• Posteriorly: The rectum is in contact with the sacrum and coccyx;
the piriformis, coccygeus, and levatores ani muscles; the sacral
plexus; and the sympathetic trunks
• Anteriorly:
• In the male, the upper two thirds of the rectum is related to the
sigmoid colon and coils of ileum that occupy the rectovesical
pouch.
• The lower third of the rectum is related to the posterior surface
of the bladder, to the termination of the vas deferens and the
seminal vesicles on each side, and to the prostate.
• In the female,
• the upper two thirds of the rectum is related to the sigmoid
colon and coils of ileum that occupy the rectouterine pouch
(pouch of Douglas).
• The lower third of the rectum is related to the posterior surface
of the vagina
31.
32. Blood Supply
• Arteries
• The superior, middle, and inferior rectal arteries
• The superior rectal artery is a direct continuation of the inferior
mesenteric artery and is the chief artery supplying the mucous
membrane.
• The middle rectal artery is a small branch of the internal iliac
artery and is distributed mainly to the muscular coat.
• The inferior rectal artery is a branch of the internal pudendal
artery in the perineum
• Veins
• The veins of the rectum correspond to the arteries. The superior
rectal vein is a tributary of the portal circulation and drains into
the inferior mesenteric vein.
• The middle and inferior rectal veins drain into the internal iliac
and internal pudendal veins, respectively. The union between
the rectal veins forms an important portal–systemic
anastomosis
33.
34. • Lymph Drainage
• The lymph vessels of the rectum drain first into
the pararectal nodes and then into inferior
mesenteric nodes.
• Lymph vessels from the lower part of the rectum
follow the middle rectal artery to the internal iliac
nodes.
• Nerve Supply
• The nerve supply is from the sympathetic and
parasympathetic nerves from the inferior
hypogastric plexuses. The rectum is sensitive only
to stretch.
35. Differences Between the Small and
Large Intestine
External Differences:
• 1. The small intestine (with the exception of the
duodenum) is mobile, whereas the ascending and
descending parts of the colon are fixed.
• 2. The caliber of the full small intestine is smaller
than that of the filled large intestine.
• 3. The small intestine (with the exception of the
duodenum) has a mesentery that passes
downward across the midline into the right iliac
fossa.
36. • 4. The longitudinal muscle of the
small intestine forms a
continuous layer around the gut.
In the large intestine (with the
exception of the appendix) the
longitudinal muscle is collected
into three bands, the teniae coli.
• 5. The small intestine has no
fatty tags attached to its wall.
The large intestine has fatty tags,
called the appendices
epiploicae.
• 6. The wall of the small intestine
is smooth, whereas that of the
large intestine is sacculated.
37. Internal Differences:
• The mucous membrane of the small intestine has
permanent folds, called plicae circulares, which
are absent in the large intestine.
• The mucous membrane of the small intestine has
villi, which are absent in the large intestine.
• Aggregations of lymphoid tissue called Peyer's
patches are found in the mucous membrane of
the small intestine; these are absent in the large
intestine.