oral, pharyngeal and oesophageal physiolgoy and dysphagia

Question 1

what 3 phases are there in a normal swallow?

Answer 1

oral, pharyngeal, oesophageal

Question 2

oral phase of swallowing : muscle, neural control and voluntary control

Answer 2

• striated muscle
• neural control = cortex/medulla
• full voluntary control

Question 3

pharyngeal phase of swallowing : muscle, neural control and voluntary control

Answer 3

• striated muscle
• neural control = medulla
• some voluntary control

Question 4

oesophageal phase of swallowing : muscle, neural control and voluntary control

Answer 4

• striated/smooth muscle
• neural control = medulla/ENS (mainly vagal nerve and ENS)
• no voluntary control

Question 5

what are the 3 components of preparation of bolus and initiation of swallowing in the oral phase?

Answer 5

chewing, salivation, movement of bolus

Question 6

what is the function of chewing? effectors?

Answer 6

• prepare solid food for transfer through pharynx
• effectors = teeth, jaws masseter muscles

Question 7

what is the function of salivation? effectors?

Answer 7

• lubricate bolus and begin digestion
• mucus, amylase, lipase, water, HCO3-

Question 8

what is the function of bolus movement? effectors?

Answer 8

deliver prepared bolus to oropharynx — tongue

Question 9

Answer 9

Question 10

describe the upper oesophageal sphincter (UOS)

Answer 10

• pressure = 100mmHg (atm = 0)
• relatively high pressure zone
• protects are ability to avoid laryngopharyngeal reflux (reflux from oesophagus into airway)
• opens as pharyngeal phase starts

Question 11

describe intraoesophageal pressure

Answer 11

-5mmHg
- -ve pressure — as longs and pleura pull against oesophagus
- bolus pulled into oesophagus

Question 12

describe the lower oesophageal sphincter (LES)

Answer 12

• pressure = 20mmHg
• pressure higher than intragastric pressure
• opens to allow food to enter stomach
• barrier to avoid intragastric contents entering into oesophagus = reflux

Question 13

what do sphincters do?

Answer 13

prevent influx of air and reflux of gastric contents into the oesophagus

Question 14

what has the role of organising in the neuroanatomy of swallowing?

Answer 14

brain stem central programme generator (CPG)

Question 15

what cranial nerves are involved in swallowing?

Answer 15

V, VII, IX, X, XII — have input from sensory receptors in oropharynx, larynx and oesophagus

Question 16

what is a main afferent relay centre?

Answer 16

nucleus solitarius (X)

Question 17

what efferent nucleus is very critical in swallowing, and damage to it can cause severe dysphagia?

Answer 17

nucleus ambiguous (IX, X)

Question 18

mid to low oesophagus is mainly under what neural input?

Answer 18

enteric nervous system — vagal and spinal pathways

Question 19

what 2 nuclei in the brain are important efferent centres for the oesophagus?

Answer 19

dorsal motor nucleus and nucleus ambiguous

Question 20

peristalsis is the result of what?

Answer 20

excitation and inhibition in parallel

Question 21

how are swallowing regions in the brain organised?

Answer 21

topographically

Question 22

what does function MRI (FMRI) look at?

Answer 22

areas associated with increased changes in BOLD (blood oxygen level dependency)

Question 23

there is integration between what systems?

Answer 23

taste, flavour and swallowing

increased flavour = increased activity in FMRI

Question 24

describe oropharyngeal dysphagia

Answer 24

• abnormal bolus transfer to the oesophagus
• difficulty initiating a swallow
• only one manifestation of the primary disease (eg. a stroke)

Question 25

describe oesophageal dysphagia

Answer 25

• abnormal bolus transport through the oesophagus
• food stops after initiation of swallow
• oesophagus is location of the primary disease (eg. achalasia)

Question 26

how common is dysphagia after stroke?

Answer 26

common — around 50% of all stroke victims

Question 27

what type of dysphagia is most common after stroke?

Answer 27

oropharyngeal

Question 28

dysphagia after stroke increases mortality risk by what %?

Answer 28

30%

Question 29

what is the most important complication of dysphagia after stroke?

Answer 29

aspiration

Question 30

why do dysphagic stroke patients recover swallowing function?

Answer 30

stroke on opposite side to activation of swallowing system in recovery — compensation in non-dominant side — plasticity

Question 31

describe conventional manometry

Answer 31

> senses the pressure and constriction of muscles in the esophagus as you swallow

• pressure recordings in the oesophagus using channles following catheterisation
• has simple pressure transducers

Question 32

how do the majority of dysphagia after stroke sufferers recover?

Answer 32

natural swallowing recovery

Question 33

describe high resolution manometry

Answer 33

• more precise measurement of upper GI motility
• catheters with multiple sensory <2cm apart (24+ arrays)
• spatiotemporal or topographic plot of pressure data (Clouse Plots)
• evolutionary technology

high resolution manometry uses more pressure sensors therefore more accurate

Question 34

describe Spatiotemporal (Clouse) Plot

Answer 34

• for high resolution manometry
• gives locational, temporal and pressure info — gives us a visual plot

red = higher pressure

Question 35

what is the definition of achalasia?

Answer 35

the failure of a ring of muscle fibres, such as a sphincter of the oesophagus, to relax

Question 36

what is achalasia associated with (genetic component)?

Answer 36

HLA-DQw1

Question 37

what suggest that achalasia may be an autoimmune disorder?

Answer 37

circulating antibodies to enteric neurones

Question 38

unconfirmed, but what may achalasia result from?

Answer 38

chronic infections with herpes zoster or measles viruses

Question 39

what is pseudo achalasia?

Answer 39

an achalasia-pattern dilatation of the oesophagus due to the narrowing of the distal oesophagus from causes other than primary denervation. One of the most common causes is malignancy

Question 40

what else can cause achalasia?

Answer 40

malignancy, Chagas’ disease, Infiltration Disorders eg. Sarcoid, Amyloid

Question 41

describe the prevalence of achalasia

Answer 41

• annual incidence of approx 1:100 000
• men = women
• onset before adolescence unusual
• usually diagnosed between the ages of 25 and 60 years

Question 42

describe the frequency of symptoms in achalasia

Answer 42

Question 43

how is achalasia diagnosed?

Answer 43

• clinical history
  > endoscopy
  > radiology
  > manometry

> = MAIN METHODS

Question 44

in one series of 87 connected patients with newly diagnosed achalasia, what was the mean duration of symptoms?

Answer 44

4.7 years

Question 45

what may endoscopy reveal in achalasia?

Answer 45

• may reveal dilated oesophagus containing residual material
• may appear normal
• oesophageal stasis predisposes to candida infection that may be apparent

Question 46

describe how radiology is used in achalasia

Answer 46

• barium swallow diagnostic accuracy = 95%
• dilated oesophagus with beak-like narrowing — beak like - shows lower oesophageal sphincter is closed
• dilation may be so profound that the oesophagus assumes a sigmoid shape
• fluoroscopy reveals the absence of peristalsis
• purposeless, spastic contractions can be observed - some radiologists call this “vigorous” achalasia

Question 47

what is usually required for confirmation of achalasia?

Answer 47

manometry = gold standard for diagnosis

Question 48

what are the 3 primary findings in manometry for achalasia?

Answer 48

• elevated resting LES pressure — above 45 mmHg
• incomplete LES relaxation
• aperistalsis in the smooth muscle portion of the body of the oesophagus. for most patients, low amplitude; in some cases however, the simultaneous oesophageal contractions have higher amplitudes (eg. >60mmhg). such patients are said to have “vigorous” achalasia

Question 49

what manometry finding distinguishes achalasia from other disorders associated with aperistalsis?

Answer 49

incomplete LES relaxation

Question 50

describe the 3 subtypes of achalasia

Answer 50

1. type I = ‘classic’ achalasia. aperistalsis — oesophagus muscles barely contract so food moves down by gravity alone
2. type II = asynchronous contraction. the lower oesophageal sphincter is always non-relaxed and simultaneous contractions occur throughout the body of the oesophagus while a person swallows. This type is the one that responds best to endoscopic therapy.
3. type III = vigorous achalasia. spastic contractions. can have severe chest pain (mimics heart attack)

Question 51

what are the long term risks of achalasia?

Answer 51

• 15 year mortality of 13%
• the time interval between the first treatment and death roughly = 9.9 +/- 1.4 years
• 19% deaths attributable to oesophageal cancer (Risk similar for squamous and adenocarcinomas)

Question 52

describe botulinum toxin (type A) endoscopic injection into the lower oesophageal sphincter

Answer 52

• botulinum toxin inhibits the calcium-dependent release of ACh from nerve terminals, thereby counteracting the effect of the selective loss of inhibitory neurotransmitters
  = muscle relaxant
• it is initially effective in relieving symptoms in about 85% of patients within 6 months, possibly because of regeneration of the affected receptors

better for older attends who wouldn’t tolerate other treatment of in short term/temporary measure

Question 53

describe pneumatic dilation

Answer 53

• the most effective non-surgical treatment option for patients with achalasia
• involves placing a balloon across the lower oesophageal sphincter, which is then inflated to a pressure adequate to tear the muscle fibres of the sphincter
• 50-93% of patients obtain good to excellent relief of symptoms
• relatively safe and well tolerated
• risk of perforation
• sometimes need a 2nd dilation

Question 54

describe Hellers Myotomy

Answer 54

• surgical myotomy for achalasia involves carrying out an anterior myotomy across the lower oesophageal sphincter (Heller’s myotomy)
• however, whether myotomy should be combined with an anti reflux procedure (loose Nissen fundoplication, incomplete Toupet, or Dor fundoplication) is a cause for debate
• myotomy ed are usualy done laparoscopically through the abdomen with a 1-2cm distal myotomy onto the stomach
• good to excellent results are reported in 80-100% of patients
• major complication = uncontrolled gastro-oesophageal reflux in about 10% of patients
• wrap procedure reduces risk of reflux

LES IS CUT. BETTER IN YOUNG PATIENTS.

Question 55

what is POEMS?

Answer 55

• Per Oral Endoscopic Myotomy

Peroral endoscopic myotomy is a procedure to treat swallowing disorders caused by muscle problems such as spasms in the esophagus. POEM uses an endoscope — a narrow flexible tube with a camera — that is inserted through the mouth (peroral) to cut muscles in the esophagus (a myotomy). Cutting the muscles loosens them and prevents them from tightening and interfering with swallowing.

POEM is not considered a surgery, since no incision is made through the skin. It is a less invasive alternative to Heller myotomy — a similar procedure that uses small incisions to reach the esophagus instead of access through the mouth. Endoscopic procedures often mean less pain and a faster recovery than open surgical procedures.

Question 56

swallowing motor cortex is _____ organised, but crucially displays inter-hemispheric ______

Answer 56

• bilaterally
• asymmetry