Esophageal motility

Esophageal motility

MSNV 699: Pharmacology

MSNV 699: Pharmacology

Class I antiarrhythmics: Sodium channel blockers
Class II antiarrhythmics: Beta blockers
Class III antiarrhythmics: Potassium channel blockers
Class IV antiarrhythmics: Calcium channel blockers and others
ACE inhibitors, ARBs and direct renin inhibitors
Miscellaneous lipid-lowering medications
Lipid-lowering medications: Fibrates
Lipid-lowering medications: Statins
Positive inotropic medications
Sympatholytics: Alpha-2 agonists
Adrenergic antagonists: Alpha blockers
Adrenergic antagonists: Beta blockers
Adrenergic antagonists: Presynaptic
cGMP mediated smooth muscle vasodilators
Calcium channel blockers
Insulins
Miscellaneous hypoglycemics
Hypoglycemics: Insulin secretagogues
Mineralocorticoids and mineralocorticoid antagonists
Adrenal hormone synthesis inhibitors
Hyperthyroidism medications
Hypothyroidism medications
Gastrointestinal system anatomy and physiology
Anatomy and physiology of the teeth
Enteric nervous system
Gastrointestinal hormones
Hunger and satiety
Chewing and swallowing
Esophageal motility
Gastric motility
Pancreatic secretion
Bile secretion and enterohepatic circulation
Liver anatomy and physiology
Carbohydrates and sugars
Hydration
Proteins
Fats and lipids
Vitamins and minerals
Intestinal fluid balance
Prebiotics and probiotics
Acid reducing medications
Antidiarrheals
Laxatives and cathartics
Antiplatelet medications
Anticoagulants: Heparin
Anticoagulants: Direct factor inhibitors
Thrombolytics
Anticoagulants: Warfarin
Acetaminophen (Paracetamol)
Antigout medications
Non-steroidal anti-inflammatory drugs
Osteoporosis medications
Anticonvulsants and anxiolytics: Barbiturates
Anticonvulsants and anxiolytics: Benzodiazepines
General anesthetics
Local anesthetics
Migraine medications
Nonbenzodiazepine anticonvulsants
Neuromuscular blockers
Anti-parkinson medications
Medications for neurodegenerative diseases
Cholinomimetics: Direct agonists
Cholinomimetics: Indirect agonists (anticholinesterases)
Muscarinic antagonists
Opioid agonists, mixed agonist-antagonists and partial agonists
Opioid antagonists
Sympathomimetics: Direct agonists
Serotonin and norepinephrine reuptake inhibitors
Selective serotonin reuptake inhibitors
Monoamine oxidase inhibitors
Tricyclic antidepressants
Atypical antidepressants
Typical antipsychotics
Atypical antipsychotics
Lithium
Psychomotor stimulants
Loop diuretics
Carbonic anhydrase inhibitors
Osmotic diuretics
Potassium sparing diuretics
Thiazide and thiazide-like diuretics
Androgens and antiandrogens
Estrogens and antiestrogens
Progestins and antiprogestins
Uterine stimulants and relaxants
Aromatase inhibitors
PDE5 inhibitors
Antihistamines for allergies
Pulmonary corticosteroids and mast cell inhibitors
Bronchodilators: Leukotriene antagonists and methylxanthines
Bronchodilators: Beta 2-agonists and muscarinic antagonists

Flashcards

Esophageal motility

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Transcript

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When we eat, food enters the mouth where it is chewed up by the teeth into a smaller, soft mass called the food bolus.

The bolus is then pushed by the tongue into the pharynx and continuous to travel down through the esophagus, squeezed by an involuntary movement called peristalsis, until it reaches the stomach.

So, the esophagus is a muscular tube that runs vertically downwards and carries food from the pharynx to the stomach. In an adult it’s about 25 cm long and can be divided into three regions.

First is the cervical region, where it connects with the pharynx behind the trachea.

Separating the pharynx and the cervical region of the esophagus is the upper esophageal sphincter, which is a muscular ring that contracts and relaxes to control the entrance of food into the esophagus.

Below the cervical region is the thoracic region, that begins at the level of the suprasternal notch and ends when the esophagus goes through the diaphragm via an opening called the esophageal hiatus.

And finally there's the abdominal region, which starts at the esophageal hiatus and ends where the esophagus connects to the stomach.

Separating the abdominal region and the stomach is the lower esophageal sphincter, also known as the gastroesophageal sphincter, which relaxes to let food into the stomach.

Now, because most of the esophagus is located inside the thorax, the intraesophageal pressure is equal to the intrathoracic pressure, and both of these pressures are lower than abdominal pressure. This means that food in the esophagus gets pulled towards the area with lower pressure - a bit like how dirt gets pulled into a vacuum.

So, the upper and lower esophageal sphincters have to stay contracted to prevent air from entering the digestive tract and altering this pressure gradient.

In addition, the lower esophageal sphincter also prevents stomach acids from entering the esophagus.

The esophagus receives most of its nerve supply from two sources - there’s extrinsic innervation by the vagus nerve, or cranial nerve 10, and there’s also an intrinsic plexus of neurons located inside the walls of the esophagus, called the enteric nervous system.

Now, if we take a closer look at a cross-section, we can see that like other parts of the gastrointestinal tract, the esophagus has 4 layers.

The outermost layer is the adventitia, a thick fibrous connective tissue that differs from the serosa, which is the slippery serous membrane that surrounds the walls of the stomach and intestines.

Next, is the muscularis externa, composed of an outer longitudinal layer and an inner circular muscle layer that’s thicker in the upper and lower parts of the esophagus to form the esophageal sphincters.

Now, between the two muscle layers, there’s a plexus, or network of nerves, called the myenteric or Auerbach’s plexus, which help coordinate muscle contraction and relaxation.

Following the muscular layer is the submucosa, a dense layer of connective tissue that contains blood vessels, lymphatics and mucus glands that secrete mucus which travels to the lumen through ducts, and along with saliva swallowed with food, lubricate the surface to ease the passage of food downwards.

Now, buried in the submucosa, there’s also a second nerve plexus, the submucosal plexus, also called the Meissner's plexus, which helps control the size of blood vessels and secretion of mucus and together with the myenteric plexus form the enteric nervous system.

And finally, there’s the inner lining of the esophagus called the mucosa, which itself consists of three cell layers.

The outermost layer is the muscularis mucosa or muscularis interna, and it’s a layer of longitudinal smooth muscle.

The middle layer is the lamina propria, which is mainly composed of connective tissue.

Key Takeaways

The esophagus is a muscular tube that extends from the pharynx to the stomach. Thanks to its motility, food and liquids move down after swallowing from the pharynx to the stomach. The muscle in the wall of the esophagus moves food and liquid forward by squeezing and pushing them along, the process called peristalsis. Factors that affect esophageal motility include age, smoking, caffeine, alcohol, and spicy foods. Disorders of esophageal motility can lead to problems such as difficulty swallowing (dysphagia), chest pain, or heartburn (gastroesophageal reflux disease).

Sources

  1. "Medical Physiology" Elsevier (2016)
  2. "Physiology" Elsevier (2017)
  3. "Human Anatomy & Physiology" Pearson (2018)
  4. "Principles of Anatomy and Physiology" Wiley (2014)
  5. "Esophagus - anatomy and development" GI Motility online (2006)
  6. "Physiology of oral, pharyngeal, and esophageal motility" GI Motility online (2006)