Endoscopy Procedures - PDF

Summary

This document provides a general overview of various endoscopy procedures, including procedures for the digestive system. The document explains the different types, steps, and purposes of these medical procedures.

Full Transcript

 BRONCHOSCOPY is a procedure in which a
hollow, flexible tube called a bronchoscope is
inserted into the airways through the nose or
mouth to provide a view of the
TRACHEOBRONCHIAL tree.
 It can also be used to collect bronchial
and/or lung secretions and to perform tissue
biopsy.
 The instrument used in BRONCHOSCOPY, a
bronchoscope.
 It is a slender, flexible tube less than 0.5 in
(2.5cm) wide and approximately 2ft (0.3cm)
long that uses FIBEROPTIC technology (very fine
filaments that can bend and carry light)
 There are two types of bronchoscope used in
this technique. They are,. RIGID TUBE. FIBREOPTIC TUBE
 During a BRONCHOSCOPY, the physician can
visually examine the lower airways, including
the larynx, trachea, bronchi, and bronchioles.
 It is used to examine the mucosal surface of
the airways for abnormalities that might be
associated with a variety of lung diseases.
 Its uses may be diagnostic are therapeutic.
 BRONCHOSCOPY is usually performed in an
endoscopy room, but may also be performed
at the bedside.
 The patient is placed on his back or sits
upright.
 A pulmonologist, a specialist trained to
perform the procedure, sprays an anesthetic
into the patients mouth or throat.
 Then the bronchoscope is inserted into the
patient’s mouth and passed into the throat.
 The patient should fast for 6 to 12 hours
prior to the procedure and refrain from
drinking any liquids the day of the procedure.
 Smoking should be avoided for 24 hours
prior to the procedure
 Patient should also avoid taking any aspirin
or ibuprofen- type medications.
 The BRONCHOSCOPY itself takes about 45-60
minutes.
 After the BRONCHOSCOPY, the vital signs
(heart rate, blood pressure, and breathing)
are monitored.
 No food or drink should be consumed for
about 2 hours after the procedure or until the
anesthesia wears off.
 Stent therapy
 Laser therapy
 Argon beam coagulation
 BRACHYTHERAPY
 Rigid BRONCOSCOPY
 Used to diagnose the disease of the lung,
such as cancer or tuberculosis.
 Congenital deformity of the lungs
 Suspected tumor, obstruction, secretion,
bleeding or foreign body in the airways.
 Airway abnormalities such as tracheal
STENOSES
 Persistentcough, or HEMOPTYSIS, that includes
blood in the sputum
 Used to remove a foreign body in the lungs
 To remove excessive secretions
 Use of bronchoscope mildly irritates the

lining of the airways.

 It results in some swelling and inflammation,

as well as hoarseness caused from abrading

the vocal cords.

Components of colonoscope

Control section
An instrument channel
A shaft
The tip
The connection section
The connection line
Tip deflection
Two control knobs in the control section of colonoscope
○ The larger outer control knob is used for vertical movement of the tip (Figure ​A and B)
○ The smaller inner knob is used for lateral movement of the tip (Figure C and D).

A: Up deflection; B: Down deflection; C: Left deflection; D: Right deflection; E: Push forward and pull back; F: Air insufflation (simple closure of
hole in the air/water infusion button; pushing button not required); G: Example of air insufflation; H: Air suction (pushing the button above
air/water infusion button); I: Example of water suction (because air is invisible).
Procedure description

Schematogram of large intestine
○ Potential difficult segments during the
procedure:
Red dotted circles
rectosigmoid junction,
sigmoidodescending,
splenic flexure,
hepatic flexure

Green dotted box
sigmoid colon
Pre-intubation
Patient on left lateral decubitus position with
knees bent and pulled up
○ Inspection of the perianal region
Skin tags, scarring, anal fistulae and
fissures, hemorrhoids, and prolapse

○ Digital rectal examination with topical anesthetic
jelly (usually lidocaine jelly)
To prelubricate the anal canal
To relax the sphincters.
Anal canal
Very short segment (~ 2-3 cm) from the anal verge
to the dentate line

@ introduction of the colonoscope, a red-out sign
occurs -> Scope is opposed to the colon mucosa
○ Thus inflate air in the anus using air/water infusion valve
button

Retroflexion is done later once the scope has been
withdrawn to the level of the distal rectum
Rectum

~ 15 cm long from the dentate line to the RSJ

Easy to advance the scope thru cuz
○ The rectum is attached to the retroperitoneal wall and has almost
no mobility

Houston’s valves (left-right-left alignment)
○ Progress thru using PF with left and right turns
RSJ
The 1st challenging area in the colonoscope intubation

In most cases, the lumen open to the left axis (Figure G)
○ RSJ appears as an acute bend in the lumen
Advancing with only the pushing action may cause a loop to form
Only one way to remove a loop: PULL BACK the shaft

Apply a left torque (anticlockwise rotation) with mild pushing

(A) Alpha loop: withdrawal with clockwise rotation
(B) “N” loop: withdrawal without clockwise rotation

(A) (B)
SC and SDJ

Most common sites of iatrogenic perforation

Highly variable length ( ~ 20 to 90 cm )

SC has many redundant folds obliterating the
lumen
○ Apply adequate air insufflation to visualize the lumen
SC and SDJ
Use jiggling, shaking
and RTS + continuous
right torque

○ Use left and right turns
+ half-suction to avoid
adhesion to the lumen

○ Manual abdominal
compression by the
assistant
SC and SDJ

If progress has been made up to these segments with
minimal loop formation during intubation, the inserted
length of the colonoscope should be ~ 40 cm

The endoscopist should avoid excessive aeration of SC,
which occurs in cases of acute angulation of the SDJ,
making it difficult to advance the scope.
DC
DC is a long tube ringed with concentric haustra
○ It usually has a horizontal fluid level, located to the right of the DC
lumen

DC is normally traversed in a few seconds with a short
“straight” advance and PF usually suffices to pass thru
this area

DC is attached to the retroperitoneal wall, has low mobility
as does the AC
SF

The SF recognized by the splenic spot seen thru the colonic lumen

The SF is the highest section of the colon, located just below the
diaphragm
○ It is recommended to advance the colonoscope thru this segment with the up/down
control knob set to a neutral state to avoid the walking-stick phenomenon

○ The examiner may change the examinee’s position and/or have an assistant provide
abdominal compression

The breath-holding technique in the non-sedated examinee may help
cuz
○ It widens the angle of the SF by lowering the diaphragm
TC
Usually more triangular lumen than that of the DC
○ Much mobility, similar to the SC

○ Air suction is helpful in this area since the colonoscope
advances relative to the air suction
○ If progression is difficult, the assistant should be instructed
to perform abdominal compression on the umbilical area
This will prevent loop formation by inhibiting the
descent of the TC to the pelvis.
HF

The hepatic spot can be seen through the mucosa
○ The lumen of the AC of the next section is usually
located on the right side.
Applying a right turn in the anticipated direction of
the lumen together and air suction

If progression becomes difficult, shifting the
examinee to a supine position may be helpful.
AC

More triangular in shape and thicker folds

Attached to the retroperitoneal wall -> Low Mobility

Advance by simple straight pushing
CC

From the ileocecal valve (ICV) to the cecal base
Important to check the ICV and the appendix orifice to
confirm the scope’s location in the lumen
If progression difficult
○ Air suction
○ Alter the patient’s position
○ Assistant perform abd compression
Terminal Ileum

ICV seen on the left part of the scope
○ Usually closed, To pass thru u hv to deflect its tip
○ To open the entrance
Repeated approach the ICV while using air suction
Progression will give a red-out sign followed by the
visualization of the TI

TI has characteristic villi
○ Water-filling (T)
○ Indigocarmine-dye (U)
○ Narrow-band imaging mode
COLONOSCOPY

1. What is it?
2. Indications
3. Contraindications
4. Preparation
5. Diagnostic Procedures
6. Theraputic Procedures
 COLONOSCOPY- Introduction
1. Inserting flexible long colonoscope to different 5.Proper training and experience are
parts of large bowel up-to cecum through anal necessary for correct diagnosis.
orifice. While withdrawing this scope out, you have
to look for any pathology. 6. The diagnostic spectrum of colonoscopy
encompasses not only macroscopic assessment
2. Experienced examiner can now successfully reach of the condition of the mucosa, but also the
the cecum in 98% of patients. possibility of collecting a targeted biopsy
sample and, more recently, the use of dye
3.Difficulties can be posed by a mobile and spraying technique and magnification.
elongated sigmoid colon or transverse colon as well
as by postoperative intestinal fixations and other 7. Colonoscopy is a technically demanding
adhesions. examination procedure with a high clinical
yield combined with the capability of
4.Examination generally takes around 30 minutes. therapeutic intervention.
Because of painful nature of this procedure you
should try to finish the procedure as early as
possible.
 COLONOSCOPY- Indications
 Constipation
 Diarrhea
 Abdominal pain
 Bleeding per rectum,
unexplained anemia, weight
loss
 Postpolypectomy surveillance
 Prevention/aftercare colorectal
carcinoma
 Pathological thickening of the
colon wall detected by other A Universal cord and plug
imaging procedures B Instrument control head,
C Insertion tube
 Primary tumor search with
metastasizing malignancy.
Simbionix computer simulator
 COLONOSCOPY- Contra Indications
Contra Indications Complications and Risks

 Perforated intestine  Risk of perforation
 Acute diverticulitis  Injury to blood vessels causing
 Deep ulcerations bleeding
 Severe ischemic necroses  Infection
 Fulminant colitis  Comparing diagnostic and therapeutic
 Cardiopulmonary colonoscopy, more complications arise
decompensation from therapeutic measures, such as
polypectomies
 COLONOSCOPY- Preparation
 Emptying the contents of the  The day of the colonoscopy procedure — As
colon is a key requirement for a on the previous day, clear liquid foods only
successful colonoscopy. If the  Don't eat or drink anything two hours
bowel prep isn't up to par, before the procedure
polyps and lesions can be  Now you can give either PEG- Poly
missed Ethylene Glycol or Sodium Picosulphate-
 A few days before the Fleet enema
colonoscopy procedure- Start  Dissolve one pocket of anyone of this in two
eating a low-fiber diet Litres of fluid and ask patient to consume
 The day before the colonoscopy  Patient will purge several times within few
procedure - Don't eat solid hours so that the bowel will get cleaned.
foods and have clear liquids.  Can be done under IV sedation of
midazolam/fentanyl or propofol
COLONOSCOPY- Preparation
COLONOSCOPY- Preparation
 COLONOSCOPY
Five basic rules of colonoscopy

 1. Do not advance the endoscope without a clear view
of the lumen.
 2. Do not advance the endoscope if there is any
resistance.
 3. When in doubt, pull back.
 4. Use as little air as possible and as much air as
necessary.
 5. Pay attention to patient’s pain reaction.
 COLONOSCOPY
 Splenic flexure with
luminal impression,
 Triangular configuration shimmering of spleen.
and evenly spaced
haustration.
 Relatively straight
path, oval lumen, and
 Ascending colon toward
evenly spaced
the 7-o’clock position.
haustrations.
 The ileocecal valve, seen as
a yellowish,thickened  Lumen cannot be seen at
fold, is on the lower edge of about the 7-o’clock
the lumen position but can
presumed, in part due to
 Base of the cecum shadowing
 Appendix orifice in the
center
 Roomy lumen
 Terminal ileum: velvety  Valves of Houston
mucosal surface and lacking  Typical submucosal
haustrations vascular pattern
 COLONOSCOPY

Diagnostic Procedures
DIVERTICULOSIS
DIVERTICULITIS
POLYPS
POLYPOSIS
CARCINOMA-
COLON/RECTUM
IBD- Crohn’s & Ulcerative
Colitis
Angiodysplasia & Radiation
Colitis
Pseudomembranous & Ischemic
Colitis
 COLONOSCOPY

Therapeutic Procedures
SNARE POLYPECTOMY
Endoscopic Mucosectomy
Steps in mucosal resection of broad-based polyps
using piecemeal resection technique
 SEMS- For Malignant
Stricture
Placement of metal stents combined with balloon dilation or bougienage
Hemostasis in Colorectal
Pathologies
Injection Gold Probe
Hemostasis in Colorectal
Pathologies
Coagulation of an angiodysplasia using APC (ERBE)
Hemostasis in Colorectal
Pathologies
Endoscopic hemoclip application
Removing Foreign Bodies
 Removing Foreign Bodies
Colonoscopic removal of Drug pouches- from a bodypacker
 INTRODUCTION

Endoscopic retrograde cholangiopancreatography (ERCP) is a
technique that combines the use of endoscopy and fluoroscopy to
diagnose and treat certain problems of :
the duodenum (the first portion of the small intestine),
the papilla of Vater (a small structure with openings leading to the bile
ducts and the pancreatic duct),
the bile ducts, and
the gallbladder and the pancreatic duct.
 USES
Diagnostic
Used when it is suspected a person’s bile or pancreatic ducts may be
narrowed or blocked due to:
tumors
gallstones that form in the gallbladder and become stuck in the ducts
inflammation due to trauma or illness, such as pancreatitis
infection
Dysfunction of valves in the ducts, called sphincters,
scarring of the ducts (sclerosis),
Pseudo-cysts—accumulations of fluid and tissue debris
Therapeutic
Sphincterotomy
Stone Removal
Stent Placement
Balloon Dilation
Tissue Sampling
 PREPARATION OF PATIENT BEFORE ERCP

The upper GI tract must be empty. Generally, no eating or drinking is
allowed 8 hours before ERCP.
Smoking and chewing gum are also prohibited during this time.
Current medications may need to be adjusted or avoided. Most
medications can be continued as usual.
Removal of any dentures, jewelry, or contact lenses before having an
ERCP.
 Before ERCP, all of the patient’s previous abdominal imaging findings
(from CT scans, magnetic resonance imaging [MRI], ultrasonography,
and cholangiography or pancreatography) should be reviewed.
Deep sedation is desirable during ERCP because a stable endoscopic
position in the duodenum is important for proper cannulation,
therapeutic intervention, and avoidance of complications.
 PROCEDURE
Patients receive a local anesthetic that is gargled or sprayed on the
back of the throat & IV sedatives.
patients lie on their back or side on an x-ray table
Then a flexible camera (endoscope) is inserted through the mouth,
down the esophagus, into the stomach, through the pylorus into the
duodenum where the ampulla of Vater (the opening of the common
bile duct and pancreatic duct) exists. The sphincter of Oddi is a
muscular valve that controls the opening of the ampulla. The region can
be directly visualized with the endoscopic camera while various
procedures are performed.
 A plastic catheter or cannula is inserted through the ampulla, and
radiocontrast is injected into the bile ducts and/or pancreatic duct.
Fluoroscopy is used to look for blockages, or other lesions such as
stones.
When needed, the opening of the ampulla can be enlarged
(sphincterotomy) with an electrified wire (sphincterotome) and access
into the bile duct obtained so that gallstones may be removed or other
therapy performed.
FLUOROSCOPIC IMAGE SHOWING DILATATION OF THE PANCREATIC DUCT DURING
ERCP INVESTIGATION. ENDOSCOPE IS VISIBLE.
FLUOROSCOPIC IMAGE OF COMMON BILE DUCT STONE SEEN AT THE TIME OF
ERCP. THE STONE IS IMPACTED IN THE DISTAL COMMON BILE DUCT. A
NASOBILIARY TUBE HAS BEEN INSERTED.
 Other procedures associated with ERCP include the trawling of the
common bile duct with a basket or balloon to remove gallstones and
the insertion of a plastic stent to assist the drainage of bile. Also, the
pancreatic duct can be cannulated and stents be inserted. The
pancreatic duct requires visualisation in cases of pancreatitis.
In specific cases, a second camera can be inserted through the channel
of the first endoscope. This is termed duodenoscope-assisted
cholangiopancreatoscopy (DACP) or mother-daughter ERCP. The
daughter scope can be used to administer direct electrohydraulic
lithotripsy to break up stones, or to help in diagnosis by directly
visualizing the duct.
 AFTER THE PROCEDURE

Patients are monitored in the endoscopy area for 1-2 hours until the
effects of the sedatives have worn off & observed for complications.
Eating or drinking is allowed if the throat is no longer numb and are
able to swallow without choking.
If a gallstone was removed or placed a stent during the test, the patient
is made to stay in the hospital overnight.
 AN EXAMPLE (BILE DUCT CANCER
(CHOLANGIOCARCINOMA)
Cholangiocarcinoma is a cancer that arises from the cells within the bile
ducts; both inside and outside the liver. tumors arise along the bile ducts that
enter the liver, the tumors are smaller than those which arise from within.
COMPARISON OF RADIOGRAPHIC IMAGES SHOWING CHOLANGIOCARCINOMA; A,
COMPUTED TOMOGRAPHY (CT) IMAGE; B, CHOLANGIOGRAM (ERCP) IMAGE.
ARROWS DESIGNATE THE TUMOR
A, B, POSITION OF THE ENDOSCOPE IN THE DUODENUM DURING ERCP
A, TECHNIQUE OF TRANSHEPATIC PERCUTANEOUS CHOLANGIOGRAPHY; B,
CORRESPONDING PERCUTANEOUS
 COMPLICATIONS

ERCP is a highly specialized procedure which requires a lot of
experience and skill.
The procedure is quite safe and is associated with a very low risk when
it is performed by experienced physicians.
The success rate in performing this procedure varies from 70% to 95%
depending on the experience of the physician.
Complications can occur in approximately one to five percent
depending on the skill of the physician and the underlying disorder.
Significant risks associated with ERCP include
infection
pancreatitis
allergic reaction to sedatives
excessive bleeding, called hemorrhage
puncture of the GI tract or ducts
tissue damage from radiation exposure
death, in rare circumstances
 CONTRAINDICATIONS

Unstable cardiopulmonary, neurologic, or cardiovascular status; and
existing bowel perforation.
Structural abnormalities of the esophagus, stomach, or small intestine
may be relative contraindications for ERCP.
An altered surgical anatomy.
ERCP with sphincterotomy or ampullectomy is relatively
contraindicated in coagulopathic patients.
 Endoscopy is a nonsurgical procedure used to examine a
person's Gastrointestinal tract using an endoscope, a flexible
tube with a light and camera attached to it
 1958 Development of fibreoptic gastroscope
 1968 Endoscopic retrograde pancreatography
 1969 Colonoscopic polypectomy
 1970 Endoscopic retrograde cholangiography
 1974 Endoscopic sphincterotomy (with bile duct stone extraction)
 1979 Percutaneous endoscopic gastrostomy
 1980 Endoscopic injection sclerotherapy
 1980 Endoscopic ultrasonography
 1983 Electronic (charge coupled device) endoscope
 1985 Endoscopic control of upper gastrointestinal bleeding
 1990 Endoscopic variceal ligation
 1996 Introduction of self-expanding metal stents
 2008 Endomicroscopy delivers histological mucosal definition
 UPPER GI ENDOSCOPY
 ENTEROSCOPY
 COLONOSCOPY
ENDOSNCOPY PRINCIPLE
 Endoscopy minimally invasive
diagnostic medical procedure used
to evaluate interior surface of an
organ.

 Endoscope may have rigid or
flexible tube inserted into body. It
has ability to looking inside the
body using a variety of very small
cameras attached to flexible or
rigid tube. It facilitates direct
viewing the interior of an organ is
often very helpful in determining
the cause of a problem.
ENDOSCOPY
PRINCIPLE(CONTD…)

 An endoscope is a flexible tube
equipped with lenses and a light source.
Illumination is done by the help of a
number of optical fibers.

 Video endoscopy performed by
attaching in microchip camera at the
insertion tube, setup image is viewed on
a video monitor.
Distal Tip of Insertion
Tube
 ENDOSCOPY PIC
FIBERSCOPES VIDEO
ENDOSCOPE
 Superior to Radiology
 Except for motility disorders

 Take Biopsies
 Explain cause of pain
 Reflux Oesophagitis
 Ulcer disease
 Oesophagus to jejunum
 Malignancy

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 Haemorrahage
 Injection
 Clips

 Removal of foreign bodies
 Dilation of strictures
 Stenting
 Feeding – PEG
 Percutaneous Endoscopic Gastrostomy

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 In the pyloric region
 1st part of the duodenum
 The gastric ulcer

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 Small bowel pathologies
 Angiodysplasia
 Meckel’s diverticula
 NSAID related enteropathy
 Benign or malignant tumour
 Push enteroscopy
 Double balloon enteroscopy (DBE)
 Single balloon enteroscopy (SBE)
 Spiral enteroscopy

 Capsule endoscopy
 Indications:
 GI bleeding of obscure origin
 Chronic diarrhoea
 Malabsorptive syndrome
 Chronic abdominal pain

 Therapeutic application:
 Foreign body removal
 Mucosal resection
 Insertion of SEMS
 Dilatation of stricture in Crohn’s disease
 ERCP after Billroth II or Roux-en-Y reconstruction or after
bariatric surgery
 Described by Tada in 1977
 Sonde enteroscopy
 Working length of 250-400cm
 Propelled by small bowel peristalsis
 Lack of working channel and prolonged examination time
 Performed with a dedicated enteroscope with an overtube
 Method:
 Overtube loaded onto the enteroscope
 Enteroscope enter the proximal jejunum
 Overtube pushed into the 3rd part of duodenum and held by
assistant
 Enteroscope proceed to advance into the jejunum

 Depth of insertion: 40 to 100cm past ligament of Treitz
 In contrast to DBE, balloon is not
attached to the tip of the
enteroscope
 Stable positioning in the small
bowel is achieved during
withdrawal of the scope by angling
the tip of the endoscope
 Described by Dr Akerman
 First performed in 2006
 Applies the mechanical advantage of a screw to convert
rotational force into linear one
 Currently more than 2000 cases have been performed
worldwide
 Device:
 Discovery SB overtube
 Spirus Corporation
 Overall length 118cm
 Outer diameter 14.5mm
 Accomodates endoscope