Gastrointestinal Drugs and Food PDF

Summary

This document provides a review of the gastrointestinal system, describing its structure, function, and the processes involved in digestion and absorption of nutrients. It covers both simple and complex stomach structures and the roles of various organs.

Full Transcript

Gastrointestinal Drugs and Food
Review of Gastrointestinal System
The gastrointestinal system starts with the mouth and ends at the anus. It is a long,
tube-shaped organ system whose purpose is to break down food (digestion) and absorb
the nutrients needed for an animal’s survival. The basic layout of the gastrointestinal
system is shown in the images below.

Most species have a simple stomach that consists of one outpouching in the
gastrointestinal tract. This simple stomach is lined by mucosa that contains goblet
cells that secrete mucosa to protect the cells of the stomach. Ruminants and camelids
have a complex stomach that consists of four “chambers” designed to aid in breaking
down complex carbohydrates through bacteria fermentation. The three orad
chambers are the rumen, reticulum, and omasum. Once bacterial carbohydrate
fermentation is sufficient, the ingesta passes into the abomasum, which serves the
same function as the simple stomach in other animals. The equine stomach is unique
because the orad portion is covered in non-glandular squamous mucosa, while the
aboral 2/3 of the stomach is covered in secretory glandular mucosa.
Digestion occurs in two major ways: mechanical and chemical. Mechanical digestion
initially occurs in the oral cavity through mastication. This is when food is ground into
smaller pieces using the molars. The tongue mixes the food with saliva. Animals that
are herbivores and omnivores secrete amylase in their saliva, starting the chemical
digestion of carbohydrates. True carnivores eat primarily meat and do not chew their
food very much. Carnivores do not secrete any amylase in their saliva. Once the food
has been prepared in the oral cavity, it is moved to the back of the mouth and
swallowed. It then travels through the esophagus via peristalsis and gravity.

Upon arrival in the stomach, chemical digestion occurs in all species. In animals with
a simple stomach, hydrochloric acid is secreted by parietal cells in the glandular
mucosa. This binds with protein in the diet, starting the chemical breakdown into
smaller proteins and amino acids for later absorption. In ruminants, the complex
carbohydrates such as cellulose are circulated through the rumen and reticulum so
the bacterial colony in the forestomachs can start digesting them through
fermentation. This ingesta is regurgitated and chewed again to complete more
mechanical digestion and facilitate fermentation. Once fermentation and
carbohydrate breakdown is well along, the ingesta moves through the omasum to the
abomasum, where hydrochloric acid starts digesting the protein. After chemical and
some mechanical digestion in the stomach, the food passes through the pyloric
sphincter into the duodenum. This is now called chyme.
The presence of food in the duodenum triggers the release of pancreatic enzymes
called amylase and lipase. These travel through the pancreatic ducts to either the
common bile duct or to the lesser duodenal papilla. The presence of fats in the
duodenum causes gall bladder contraction, resulting in bile moving into the bile duct.
The common bile duct releases the bile into the lumen of the duodenum at the major
duodenal papilla. The bile breaks down larger pieces of fat into smaller lipid droplets.
The amylase starts carbohydrate digestion in carnivore and continues it in other
animals. The lipase breaks down the smaller fat droplets into their constituent fatty
acids for absorption. By the time the chyme reaches the jejunum, all three main food
components are mechanically and chemically digested.

Once the chyme moves into the jejunum, the process of absorption occurs. The
jejunal mucosa is folded into villi and the mucosal cells’ membranes are folded into
microvilli. This adaptation significantly increases the surface area and allows for
increased absorptive capacity. Once nutrients are absorbed in the jejunum, the
chyme passes into the ileum, which serves to connect the small intestine to the large
intestine. At the junction of the small intestine and large intestine there is an
outpouching of the intestinal tract called the cecum. In most animals, the cecum is
simply an additional location for water absorption. However, in equids the cecum is
used for carbohydrate fermentation, a process that continues into the large colon.
In most animals, the large intestine consists of an ascending colon, transverse colon, a
descending colon, and the rectum. The function of the large intestine is primarily
water absorption and storage of fecal matter. It also functions to secrete
bicarbonate, participating in regulating acid base balance. Once feces is
accumulated, defecation is triggered and the feces passes through the anal sphincter
to exit the body.
In equids, the large intestine is specialized to work with the cecum and accomplish
complex carbohydrate digestion. The first part of the large intestine is called the
large colon. This consists of the right ventral colon, sternal flexure, left ventral colon,
pelvic flexure, left dorsal colon, diaphragmatic flexure, and finally the right dorsal
colon. Once the carbohydrates are appropriately broken down through bacterial
fermentation, the resulting volatile fatty acids are absorbed in the cecum and colon.
These VFAs provide energy for the horse. The small colon is primarily responsible for
water absorption from the fecal matter, while the rectum stores feces for later
defecation. The colon is also important in regulating bicarbonate levels.

Two types of contraction occur in the gastrointestinal system: peristalsis and
segmentation. Peristalsis consists of rhythmic waves of longitudinal muscle
contraction that move the ingesta and chyme through the digestive tract.
Segmentation is contraction of the circular muscles in the intestinal tract designed to
break the chyme into smaller portions, allowing for better nutrient absorption.

The functions of the gastrointestinal tract are regulated by the autonomic nervous
system as well as both endocrine and paracrine hormones. The nervous system
triggers increased hormone and secretions when an animal begins to masticate food.
The hormones increase gastrointestinal tract activity by stimulating digestive
functions. Gastrin from the stomach increases hydrochloric acid secretion when
ingesta arrives in the stomach. Cholecystokinin from duodenum triggers gall bladder
contraction and pancreatic enzyme release. The vagus nerve is the sensory branch of
the parasympathetic system in the gastrointestinal tract. It detects stretch of the
gastric wall and triggers peristaltic movement, pushing the now liquefied food into
the duodenum. More information about regulation of the gastrointestinal tract is
found on these websites:
https://vetericyn.com/blog/the-dog-digestive-system/
https://gpb.pbslearningmedia.org/resource/nat08.living.str.living.digest/nature-
holy-cow-a-cows-digestive-system/
https://www.youtube.com/watch?v=8lqk7igz9L4
http://users.atw.hu/blp6/BLP6/HTML/C0269780323045827.htm
When discussing gastrointestinal symptoms with owners, it is vital to differentiate
between vomiting and regurgitation. Regurgitation is a passive process that occurs
when food stuck in the esophagus is moved orally through a change in thoracic
pressure. It typically occurs when an animal moves, and the regurgitated material
tends to remain in a tubular shape. Vomiting, on the other hand, is a process
controlled by the chemoreceptor trigger zone in the medulla, vomiting center in the
medulla, vestibular system in the inner ear, or through direct gastrointestinal
stimulation. Once one of these mechanisms is triggered, the neurologic signal for
vomiting occurs. Vomiting involves active reverse contraction of the stomach and
esophagus in as well as engagement of the abdominal muscles.

Emetics
Emetics are drugs used to induce vomiting (emesis). They are either centrally acting
in the chemoreceptor trigger zone or peripherally acting by direct mucosal irritation.
Syrup of Ipecac is NOT standard of care due to side effects and is no longer
recommended in veterinary medicine. The commonly used emetics are ropinirole,
apomorphine, xylazine, dexmedetomidine, and hydrogen peroxide. These are
discussed in the emergency medication lecture notes.
Anitemetics
Antiemetics are drugs used to control or prevent vomiting. They are typically given
parenterally and act either on the chemoreceptor trigger zone (CRTZ), the vomiting
center (VC), directly on the gastrointestinal tract (GI), or more than one location.
Oral antiemetics are used for long term management of gastrointestinal conditions.
They come in five main classes: phenothiazine derivatives, dopamine blockers,
antihistamines, serotonin receptor antagonists, and NK-1 receptor antagonists.

Metoclopramide (Reglan)
A procainamide derivative, it blocks dopamine receptors in the CRTZ and
stimulates peristaltic contractions in the gastrointestinal tract, primarily the
upper portion. It comes in injectable and tablet form. It is used as a constant
rate infusion (CRI) to control vomiting in gastrointestinal diseases such as
parvovirus, and orally to treat bilious vomiting syndrome and gastric motility
disorders. The adverse effects included behavioral changes such as
hyperactivity, constipation, and restlessness.
Dimenhydrinate, Diphenhydramine, and Meclizine
These drugs are called antihistamines because they block H1 receptors. They
act in CRTZ and are used to treat nausea and vomiting from motion sickness
and vestibular diseases. Meclizine is particularly good for old dog vestibular
syndrome. They come as injectable and tablet form. The most common adverse
effect is sedation, although some animals experience excitation instead.
Maropitant Citrate (Cerenia)
A neurokinin-1 receptor (NK-1) antagonist, maropitant blocks binding of
substance P to NK-1 receptors in the CRTZ as well as peripheral receptors in
the gastrointestinal tract. It effectively treats more causes of vomiting than
other antiemetics. It is often used to stop apomorphine induced vomiting, treat
 acute gastroenteritis, pancreatitis, and to treat or prevent vomiting from other
causes. Available as an injectable or tablet form, it has a wide margin of
safety. Common adverse effects are diarrhea, bloody stool, and anorexia.
Ondansetron (Zofran)
A serotonin receptor (5-HT3) antagonist, ondansetron binds to 5-HT3 receptors
in the CRTZ and peripherally on the vagal nerve, blocking serotonin binding. Its
primary effect is from its action on vagal nerve. Zofran is used to treat nausea,
particularly if it was caused by chemotherapy. It comes in injectable and tablet
form. Reported adverse effects include constipation, diarrhea, and headache.
Chlorpromazine
A phenothiazine, chlorpromazine blocks dopamine (D2) receptors in the CRTZ.
There is some indication it might directly inhibit vomiting center neurons as
well. It is used to treat severe vomiting. It is less commonly used than other
antiemetics due to the risk of adverse events. It comes in injectable, tablet,
and oral solution forms. Reported adverse effects include hypotension,
sedation, and ataxia.
Butorphanol (as a CRI)
A k-agonist--antagonist opioid, its antiemetic action comes from antagonism
of the -opioid receptors in the chemoreceptor trigger zone. It is excellent as
an antiemetic in parvoviral puppies when the injectable form is used as a
constant rate infusion. Adverse effects include sedation, anorexia, diarrhea,
and decreased intestinal motility.
Antiulcer Medications
Ulcerations in the gastric mucosa occur for many reasons- trauma, decreased blood
flow, stress, metabolic disease, toxins, and ingestion of sharp or caustic materials, to
name a few. Once the mucus is compromised and the mucosa damaged, gastric
hydrochloric acid continues to damage the submucosa and retards healing. This causes
pain, hematemesis, melena, and anorexia. If severe, ulcers can cause gastric
perforation and death. There are five classes of antiulcer medications. They are the
H2 receptor antagonists, proton pump inhibitors, antacids, gastromucosal protectants,
and prostaglandin analogs. The ACVIM consensus statement: Support for rational
administration of gastrointestinal protectants to dogs and cats is found here:
https://onlinelibrary.wiley.com/doi/10.1111/jvim.15337.
Cimetidine, Ranitidine, and Famotidine
These medications are all H2 receptor antagonists. They block H2 receptors on
the serosal side of parietal cells, which decreases production of hydrochloric
acid. They are used to reduce acid content (increase pH) in the stomach, which
allows the mucosa to heal. They also help prevent esophagitis caused by acid
reflux. These medications come in injectable and tablet forms. They take a
few days to reach full effect and can cause rebound hyperacidity when
discontinued. Adverse effects are rare, although they alter metabolism of other
medications that require more acidity for absorption. Injectable famotidine
given either intravenously or subcutaneously causes a decreased packed cell
 volume in cats, so ranitidine is preferred. Give intravenous infusions over at
least five minutes to prevent adverse effects.
Omeprazole and Pantoprazole
As proton pump inhibitors, omeprazole and pantoprazole selectively and
irreversibly inhibit the Na+/K+-ATPase pump on the luminal secretory surface
of gastric parietal cells, preventing them from pumping hydrochloric acid into
the stomach. They are good for long term gastric acid suppression long term.
Pantoprazole is available as an injection, while both have oral preparations.
Adverse effects include constipation, sedation, ileus, pancreatitis, and central
nervous system effects. They are better absorbed in an acidic environment, so
should be taken on an empty stomach. They can decrease vitamin B12
absorption, so supplementation might be required with long term use.
Aluminum or Magnesium Hydroxide
From a group termed antacids, these medications are alkaline preparations
that reduce stomach acid by actively binding free hydrogen ions. They are used
to decrease acidity (increase pH) of stomach contents without altering parietal
cell function. As they are locally acting, they only come as oral preparations.
Adverse effects are rare and include constipation or diarrhea.
Sucralfate (Carafate)
The only direct gastromucosal protectant, sucralfate is a disaccharide sulfate-
aluminum complex that reacts with hydrochloric acid to form a paste that
buffers the hydrogen ions in the stomach. This paste binds to the exposed
proteins on the surface of ulcers to protect the underlying tissues, acting as a
band-aid to allow healing. It must be given on an empty stomach, meaning one
hour before or two hours after any food and other medications. It is used to
coat ulcerated areas to protect them from additional damage and allow healing
of gastric and esophageal ulcers. The liquid can be used for both the esophagus
and stomach. Tablets can be given whole for gastric ulcers, but must be
dissolved in water and given as a slurry when used for the esophagus. The
primary adverse effect is constipation.
Misoprostol (Cytotec)
A prostaglandin E1 analog, misoprostol acts directly on parietal cells to inhibit
gastric acid secretion. It also has cytoprotective effect on gastric mucosa by
improving blood flow and increasing mucous production by goblet cells. It is
used to treat gastric ulceration, particularly that associated with NSAID
administration. Misoprostol is given in tablet form. Adverse effects include
painful uterine contractions, possible abortion, diarrhea, vomiting, flatulence,
and abdominal pain.
Antidiarrheal Medications
Diarrhea is caused by increased fluid content of the stool. It can be caused by poor
water resorption, increased water secretion, parasitism, bacterial infections, and
maldigestion, among other causes. If prolonged or severe, it often leads to electrolyte
imbalances and dehydration. There are three basic types of antidiarrheals: narcotics,
anticholinergics/antispasmodics, and protectants/absorbents. Many veterinarians try
to avoid antidiarrheal medications in favor or treating the underlying cause of the
diarrhea to achieve resolution.
Bismuth Subsalicylate (Pepto-Bismol)
A protectant/absorbent medication, it coats and protects inflamed mucosa, as
well as binding bacteria and toxins. It is an oral tablet or liquid used to control
diarrhea. Adverse effects include constipation. Be aware it shows up white on
radiographs! If you see a round, white object on abdominal radiographs, ask
the owner if they gave Pepto to the dog. Never use in cats as it causes liver
failure, anemia, and gastric ulceration.
Kaopectolin (Kao-Pec)
Kao-Pec has two active ingredients: kaolinite, which is a clay, and pectin,
which is a plant polysaccharide. These ingredients works as a
protectant/absorbent. They coat and protect inflamed mucosa and bind
bacteria and toxins. It is used to control diarrhea and comes as a liquid or
tablet. Adverse effects are minimal and include constipation. Never
recommend in cats as some formulations include bismuth subsalicylate.
Metamucil, Psyllium, and Bran
These drugs are all indigestible plant materials used as bulk-producing agents.
The fiber absorbs water and swells, causing stretch of the intestine and
stimulating peristalsis. They are used to treat diarrhea caused by a lack of
insoluble fiber in the diet, a condition called “fiber responsive diarrhea.” They
come in tablet and powder form for addition to food. Adverse effects are rare.
Diphenoxylate and Loperamide
Pure -agonist opioids, they activate -opioid receptors in the gastrointestinal
tract. This increases segmental contractions, decreases intestinal secretions,
and enhances intestinal water absorption. They are sometimes used to control
acute diarrhea. They come in tablet and oral solution forms. Adverse effects
include constipation, ileus, sedation, and centra lnervous system excitement
(particularly cats).
Aminopentamide
An anticholinergic/antispasmodic agent, it inhibits cholinergic receptors,
decreasing gastrointestinal secretions and reducing colonic contractions. It is
used to treat diarrhea and comes in injectable and tablet form. Adverse effects
include sedation, ataxia, hypotension, dry mucous membranes, urinary
retention, and dilated pupils.
Laxatives and Cathartics
Laxatives are substances that increase the liquid content of feces and encourage
defecation. Cathartics have irritant effects on intestinal mucosa to promote
defecation. They are classified into five categories: saline/hyperosmotic agents, bulk
producing agents, lubricants, stool softeners/surfactants, and irritants.
Lactulose
Lactulose is a naturally occurring sugar molecule that is not absorbed in the
small intestines. It is a hyperosmotic agent that causes osmotic pull from the
interstitium into bowel, increasing fecal water content and stimulating stretch
receptors, leading to increased peristalsis. The feces becomes softer, making it
easier to move it past partial obstructions such as a mass compressing the
colon. It is used to draw water into the intestinal tract, and helps to control
ammonia production in portosystemic shunt and liver failure patients. It comes
as a syrup that is very sweet and sticky. Adverse effects include diarrhea,
abdominal pain, and nausea.
Metamucil, Psyllium, and Bran
These drugs are all indigestible plant materials used as bulk-producing agents.
The fiber absorbs water and swells, causing stretch of the intestine and
stimulating peristalsis. They are used to treat constipation in animals and
address sand colic in horses. They come in tablet and powder form for addition
to food. Adverse effects are rare.
Polyethylene Glycol (PEG) (GoLytely or MiraLax)
Polyethylene glycol is an osmotic agent that draws water into the lumen of the
intestines, softening the stool. Oral formulations of the medication are used for
this purpose. On a side note, PEG is used as a carrier for a few injectable drugs
(diazepam is most common) and precipitates when mixed with other solutions.
Adverse effects include diarrhea, abdominal pain, bloating, and toxicity.
Magnesium Hydroxide (Carmilax)
A naturally occurring electrolyte, magnesium acts as a hyperosmotic agent. It
draws fluid into the gastrointestinal tract, and serves as cofactor for many
enzyme systems in the body. It is used to treat hyperacidity and constipation in
cattle. It is available in boluses or a powder for suspension. Adverse effects
include diarrhea, abdominal pain, nausea, and electrolyte imbalances.
Magnesium Sulfate (Epsom Salts)
A naturally occurring electrolyte, magnesium acts as a hyperosmotic agent. It
draws fluid into the gastrointestinal tract, and serves as cofactor for many
enzyme systems in the body. It is used to treat hyperacidity and constipation in
horses and is rarely used in dogs and cats. It comes as a salt powder for
suspension. Adverse effects include diarrhea, abdominal pain, nausea, and
electrolyte imbalances.
Mineral Oil and Petrolatum
These products are lubricants that coat and soften fecal material to help it
pass through GI tract more easily. They are used to prevent hairballs, treat
constipation, and address colic in horses. They are available in liquid or
gel/ointment forms. Adverse effects are minimal when used properly.
 Docusate Sodium (Ducolax)
A stool softener/surfactant, it reduces surface tension and allows water to
penetrate dehydrated ingesta. It is absorbed, metabolized, and excreted in
bile, then it inhibits fluid absorption in the jejunum. It is used to treat hard,
dry feces in small animals, impactions in horses, and is sometimes used in
cattle. It comes in tablet form, and there are commercially available enema
preparations. Adverse effects are rare.
Prokinetics
Prokinetics are medications that increase the motility of intestinal tract. This
enhances transit of material through GI tract. Prokinetics include several classes of
drugs: dopaminergic antagonists, serotonergic medications, motilin-like drugs,
cholinergics, acetylcholinesterase inhibitors, and some H2 blockers.
Metoclopramide
A dopaminergic antagonist and procainamide derivative, it blocks dopamine
receptors in the CRTZ and stimulates peristaltic contractions in the
gastrointestinal tract, primarily the upper portion. It comes in injectable and
tablet form. It is used as a constant rate infusion (CRI) to control vomiting in
gastrointestinal diseases such as parvovirus, and orally to treat bilious vomiting
syndrome and gastric motility disorders. The adverse effects included
behavioral changes such as hyperactivity, constipation, and restlessness.
Cisapride
A serotonergic prokinetic, it selectively agonizes 5-HT4 receptor in the
gastrointestinal tract. It is used to treat constipation (particularly in megacolon
cats), as well as gastrointestinal reflux and stasis in cats and dogs. Because it is
no longer used in human medicine, it must be obtained through compounding
pharmacies. Adverse effects include diarrhea and abdominal pain.
Digestive Enzymes
Pancrelipase
Naturally occurring pancreatic enzymes obtained from freeze dried pork
pancreas. The enzymes digest carbohydrates and fats. They are used to treat
patients with exocrine pancreatic insufficiency (EPI). They come as a powder
that is mixed with food. This mixture is allowed to sit overnight prior to
feeding, breaking down the nutrients prior to ingestion. Adverse effects are
hypersensitivity reactions, nausea, and diarrhea.
Hepatic Support
Hepatic support medications are used to treat patients with liver disease, as well as
those exposed to known hepatotoxins. Most of these medications act to reduce free
radical damage to the liver, support the glucuronidation pathway, or to support bile
production and movement.
Denamarin
Denamarin is a nutritional supplement containing s-adenosylmethionine (SAMe)
and silybin (milk thistle) in chewable tablet form. SAMe is methionine and an
 ATP molecule. It is used in transmethalation, transsulfuration, and
aminopropylation pathways. It increases glutathione levels, protects hepatic
cells from death, and is an antioxidant that reduces cellular injury. Silybin
improves liver function, is an antioxidant, and directly increases glutathione
levels, particularly in cats. It also supports increased protein production and is
protective in cases of Amanita mushroom toxicity. It is used to treat
hepatotoxicity, chronic liver disease, and support liver function after injury.
Adverse effects have not been reported in dogs and cats.
n-Acetylcysteine
A derivative of the amino acid cysteine, in the body, it is metabolized into L-
cysteine then glutathione, providing additional support to the hepatic
metabolic pathway. n-acetylcysteine is given orally or parenterally to treat
acetaminophen toxicity. It comes in sterile injectable form, as well as a liquid
for nebulization and oral preparations. Giving the injectable medicaiton orally
achieves appropriate serum levels. Sometimes the nebulization preparation is
administered subcutaneously in veterinary patients. When used in this manner,
the injections should be in the cranial pectoral area to allow for easier
drainage if an abscess forms. Adverse effects include vomiting and nausea
when given orally, and abscesses if inhalant preparation given subcutaneously.
Ursodeoxycholic Acid (Ursodiol)
A secondary bile acid produced by intestinal bacteria, ursodiol is used to treat
patients with cholangitis and cholestasis. It is highly hydrophilic and increases
the water content in the bile, decreasing viscosity. This improves bile flow and
reduces the risk of gall bladder mucocele formation in susceptible patients. It
also exerts anti-inflammatory effects to reduce cholangitis. Administered in
tablet form, the main adverse effect is diarrhea.
Miscellaneous
Many other medications are used in gastrointestinal disease. These include
antibiotics, antiinflammatory agents, weight loss products, and appetite stimulants.
Metronidazole
A nitroimidazole antibiotic, metronidazole inhibits nucleic acid synthesis by
disrupting DNA integrity. It also mitigates cell mediated immunity at the
mucosal surface, reducing inflammation. It is used to treat specific
gastrointestinal infections such as Giardia, Salmonella, Clostridium,
Helicobacter, and some amoebas, and in some types of gastroenteritis. It
comes in injectable and oral forms. The injectable preparation is degraded by
light, so the bag and administration set should be covered while the infusion is
administered. Adverse effects include anorexia, hepatotoxicity, neutropenia,
vomiting, and diarrhea.
Sulfasalazine
A sulfonamide antibiotic, it is used as an immunosuppressive and anti-
inflammatory agent. The exact mechanism of action in treating colitis is
unknown, however it is converted into a sulfa compound and aspirin in the
 liver. It is used to treat inflammatory bowel disease in dogs. When no other
treatments are working, it is sometimes used cautiously in cats. It comes in
tablet form. Adverse effects are keratoconjunctivitis sicca (KCS), anorexia,
vomiting, and hepatopathy. Any patient on sulfasalazine who develops
conjunctivitis or other ocular signs should have a Schirmer tear test performed.
Azathioprine
An immunosuppressive and antiinflammatory agent, azathioprine inhibits
purine synthesis, limiting the cell’s ability to produce DNA and RNA. It is used
to treat inflammatory bowel disease. It comes in injectable and tablet forms.
Adverse effects include bone marrow suppression, gastrointestinal upset,
pancreatitis, and hepatopathy.
Probiotics (FortiFlora, Proviable)
Probiotics consist of naturally occurring bacteria and is classified as a
nutritional supplement. They provide large amounts of healthy intestinal
bacteria, improving immune function and restoring intestinal flora balance.
They are used to treat stress related gastrointestinal upset, small intestinal
bacterial overgrowth (SIBO), diarrhea from diet changes, and antibiotic
associated diarrhea. There are different varities that comes as powders for oral
use, tablets, pastes, and capsules. Adverse effects are rare.
Bloat Guard
Bloat guard is an antifoaming agent and surfactant. It changes surface tension
and decreases bubble formation in the top layers of the rumen. It is used to
treat frothy bloat in ruminants and comes as an oral liquid. Adverse effects are
rare if used properly.
Mirtazapine
Mirtazapine is an atypical antidepressant and acts as an appetite stimulant. It
antagonizes alpha-2 adrenergic and serotonin receptors, acts as an
antihistamine. These actions directly increase appetite. It is used to improve
appetite in anorectic cats and dogs. It comes in tablet form. Adverse effects
are sedation, vocalization, and hypotension.
Benzodiazepines
Benzodiazepines enhance the effect of GABA, causing hypothalamic depression.
They also act directly on the brain in manner that mimics hunger. They are
used to stimulate appetite. Benzodiazepines come in injectable, tablet, oral
solution, and rectal gel formulations. Adverse effects include lethargy,
hypoventilation, and incoordination. Oral diazepam should never be used in a
cat because it can cause fatal hepatic necrosis.
Dental Care Products
Dental care products are used to promote and maintain oral health. There are many,
many products available in the stores. They come as solutions, gels, toothpastes, and
premoistened sponges. When selecting chewable dental treats, it is important to
select only those that are Veterinary Oral Health Council (VOHC) certified. The VOHC
has researched the treats extensively and only award their seal to treats that will not
damage the pet’s enamel. It is important to educate owners that human dental health
products can be fatal for animals due to levels of toxic substances such as xylitol and
fluoride. Brushing teeth should be performed daily and is most effective if started
prior to development of tartar or after an anesthetized dental prophylactic cleaning.
Food as Medicine
Many diseases benefit from adding or limiting specific nutrients to their food. Some
specialty foods are available without prescription, such as novel protein diets. Other
diets require a prescription because they have the potential to cause harm if not used
properly. These are typically calorie limited, the minerals not balanced for growing
bones, or other nutrients are restricted. Homemade, boutique, raw, and exotic
ingredient diets are not recommended because they do not meet the nutritional
needs of pets. They are often associated with preventable diseases, and some may
cause a health risk to the owners. Read this article about therapeutic diets:
https://vetnutrition.tufts.edu/2017/01/therapeutic_diets/.
Therapeutic Diets
Multiple companies produce therapeutic diets that require a prescription. Hill’s
Science Diet trademarked the term “Prescription Diet,” so technically all other
diets are called therapeutic. Purina and Royal Canin also have therapeutic
lines. Each diet is formulated to meet the unique nutritional needs of animals
suffering from a specific disease process. They may not be nutritionally
complete for puppies or animals who don’t have the particular disease, which
is why they are restricted to use only with a veterinarian’s prescription.
This list gives examples of common therapeutic diets:
Aging care diets (Hill’s g/d, RC Maturity)
Brain care diets (Hill’s b/d, Purina NC)
Cardiac (Hill’s h/d, RC Early Cardiac)
Dental care diets (Hill’s t/d, RC Dental, Purina DH)
Dermatologic problems (Hill’s Derm Complete, RC Skin Support, Purina DRM)
Diabetes mellitus (Hill’s w/d, RC Glycobalance)
Gastrointestinal (Hill’s i/d, RC GI low fat, Purina EN)
Hepatic (Hill’s l/d, RC Hepatic)
Hyperthyroidism (Hill’s y/d)
Hypoallergenic (Hill’s z/d, RC Hydrolyzed or Selected Protein, Purina HA)
Joint support diets (Hill’s j/d, RC Mobility Support JS, Purina JM)
Recovery (calorie dense) diets (Hill’s a/d, RC Recovery, Purina CN)
Renal (Hill’s r/d, RC Renal Support, Purina NF Kidney Function)
Urinary health (Hill’s s/d, RC Urinary SO, Purina UR Ox/St)
Weight loss (Hill’s Metabolic/r/d, RC Weight Control/Satiety, Purina OM)
Here are some additional veterinary nutrition resources for review:
http://vetnutrition.tufts.edu/
https://vet.osu.edu/vmc/companion/our-services/nutrition-support-service
http://veterinarycalendar.dvm360.com/therapeutic-diets-food-you-can-use-
proceedings
Websites for home made diet recipes:
https://secure.balanceit.com/index.php - Requires vet approval to see recipes
https://vetgirlontherun.com/veterinary-continuing-education-homemade-
veterinary-diets-catherine-lenox-vetgirl-blog/
http://vetnutrition.tufts.edu/2016/07/should-you-make-your-own-pet-food-at-
home/
https://vcahospitals.com/know-your-pet/nutrition-home-made-diets