Equine Notes .pdf

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Lecture 1 + 2 - Equine ophthalmology

Learning outcomes
be able to diagnose and manage ulcerative keratitis (corneal ulcer) in the horse
Be able to diagnose and manage uveitis in the horse

Common equine ocular diseases
ocular/periocular trauma
Keratitis (ulcerative, non-ulcerative) - inflammation of the cornea
Uveitis (primary, secondary, chronic/recurrent) - inflammation of the uveal tract
Ocular/periocular neoplasia
Corneal stromal abscessation
Cataracts
Glaucoma — intraocular increase in pressure

Equine ophthalmic examination
Sedation
- in order to be able to open the eye with less resistance
- a2 agonist
- Opioid agonist or agonist/antagonist e.g. butorphanol

Diagnostic nerve blocks
- auriculopalpebral or palpebral (motor)
- Frontal (sensory)

diagnostic mydriasis
- mydriasis = dilated pupil
- to be able to look in caudal parts of eye i.e fundus
- tropicamide (hours)
- atropine for therapeutic mydiasis NOT diagnostic (sensitive — will dilate for days - weeks)

transillumination and retro illumination
- trans: bright light directly into eye, reflects back from opacity in lens
- retro: bright light, dark surrounding, shine light at angle, sees light reflected from back of eye

direct or indirect ophthalmoscopy (to look at fundus) normal

tapetal
Fundus
>

/queen -

large optic
disc unique
>
-
non-
to horse.
tapetal
Fundus
 Examination for FBs
Fluorescein staining
Culture and/or cytology of corneal swabs or scraping (+/- tropical local analgesia)
schirmer tear test (assess lacrimation)
Tonometry (measure intraocular pressure)
Slit lamp biomicroscopy
Ultrasonography
- concerned about pathology in deeper parts of eye (fundus) and you can’t see all the way through
- transpalpebrally (from on top of eyelid)

Ulcerative keratitis
= corneal ulcer associated with inflammation of the cornea

Aetiology
mechanical trauma
Primary infectious (bacterial, fungal, viral) e.g. pseudomonas, herpes virus
Decreased tear production (KCS, VII paresis)
Irritants
Corticosteroid-associated

Diagnosis
bleopharospasm (closed painful eye) and epiphora (excessive tearing)
Focal corneal opacity +/- adjacent corneal oedema (w/ epithelium gone water from tear film gets into
stroma) +/- keratomalacia
Fluorescein (positive unless descmetocoele - ulcer eroded all the way through Stroma only one layer
of endothelium left)
+/- corneal neovascularisation
+/- concurrent anterior uveitis ulcer

↓
cornea
Jedema

Ketaomalacia
↑ -

meltinge
-

strom

Ancillary diagnostics
examination for causes of mechanical trauma e.g. FB
Corneal swab/scraping for cytology and bacterial/fungal culture
Fundic examination
+/- schirmer tear test, slit lamp exam and/or tonometry
 nations
common
Management ↓ more
Topical antimicrobial (antibacterial +/- antifungal or antiviral) drugs
ointments or solutions
Direct application -
Lavage system (subpalpebral or nasolacrimal) - different methods
Sub-conjunctival - of application

Topical atropine
mydriasis and cycloplegia (getting rid of spasm of ciliary body) for analgesia
Prevention of synechiae (adhesions between bits of eye)
Similar routes of administration to antimicrobials
Solution or ointment

System NSAIDs
analgesia and anti-inflammatory actions
Flunixin meglumine (best), phenylbutazone, ketoprofen
PO or IV (not topical as can be irritant)

Face mask with solid eye cup
protect eye from self trauma
avoid photophobia (atropine)

Topical anti-collagenase therapy to treat or prevent keratomalacia
plasma/serum
EDTA/heparin -
MOST COMMON

tetracyclines
Acetylcysteine
Hyaluronic acid
Topical application or via lavage system

Surgical intervention
tarsorrhaphy —> suture eyelids together
Nictitans/third eyelid flap —> third eyelid pulled over ulcer
Conjunctival flap —> resected conjunctiva put over ulcer and sutured to cornea (specialist)
Enucleation

Additional therapies
systemic antimicrobial drugs
ocular lubricants
Therapeutic contact lens

Indolent superficial ulcers
non healing
Debridement
Grid keratectomy
Chemical cauterisation/irritation
therapeutic contact lens
Surgery
Prognosis
healing of corneal ulceration
- if superficial —> re-epithelialisation
- if deep —> neovascularisation,granulation tissue, fibrosis (will have scar)

corneal scar formation or pigmentation - permanent visual deficits
- melanocytes come with neovascularisation and stay after

prognosis poor for fungal infections, ulcers with significant keratomalacia and descmetocoeles
Concurrent uveitis may cause permanent visual deficits or become recurrent
Duration of therapy — days to weeks + $$$$
Enucleation - consequences for racehorses

Equine Uveitis
= inflammation of the uveal tract (iris, ciliary body, choroid)
very common in horses
May be acute and completely resolve or become chronic or recurrent

Aetiology
trauma
Immune-mediated — e.g. rhodococcus equi, strangles
Secondary to corneal disease
Primary infectious (bacteria, fungal, viral, parasitic) — leptospira, onchoceriasis

Diagnosis
peri ocular swelling, blepharospasm and epiphora (same as ulcer)
Scleral and conjunctival injection/hyperaemia +/- chemosis (bulging oedematous conjunctiva)
Miosis (constricted pupil)

Aqueous flare (protein) , hypopyon (pus/ fibrin) or hyphaema (blood) — abnormality in anterior chamber
- with aqueous flare can see beam of light going through anterior chamber
- these signs are pathognomonic for anterior uveitis

+/- diffuse corneal oedema (fluorescein negative unless concurrent corneal ulceration) and corneal
neovascularisation
- diffuse corneal oedema give eye blue appearance

Ancillary diagnostics
examination of signs of external trauma
Fundic examination
Investigation of systemic disease or ocular infections
+/- slit lamp examination +/- tonometry
+/- anterior chamber paracentesis (culture, cytology)

Posterior uveitis
on fundic exam can see small scars on choroid
Indicates previous posterior uveitis
&
>
Management of acute uveitis
Anti-inflammatory therapy - corticosteroids
topical and/or systemic CAN use these
DO NOT use if corneal ulceration present in
concurrently
horses
Anti-inflammatory therapy- NSAIDs
systemic and/or topical

Topical atropine
mydriasis and cycloplegia for analgesia
Prevention of synechiae

Face masks with solid cup
protect eye from self trauma
avoid photophobia

+/- antimicrobial/antifungal drugs (topical or systemic)

+/- cyclosporine (topical)

+/- treatment of primary ocular or systemic disease

Management of Chronic uveitis
Corticosteroids and/or NSAIDs
Cyclosporine (topical or intra-vitreal implants
Chemical ablation of ciliary body
Surgical vitrectomy
Enucleation

Sequelae to acute uveitis
chronic or recurrent uveitis
Glaucoma, synechiae, cataracts, choroidal and/or retinal degeneration, chronic corneal disease
Chronic ocular pain
Blindness - > most common
Phthisis bulbi — end stage eye, small shrunken and a-visual

-
Prognosis
poor if acute uveitis is not adequately controlled
Poor in cases of chronic or recurrent uveitis
Enucleation may be necessary in cases accompanied by chronic pain

Prevention
vaccination for leptospira interrogans serovar pomona in USA
- 2 doses 3-4 wks apart then annual booster
- lepto EQ innovator
parasite control for onchocerca
Lecture 3+4 - Clinical parasitology

Major parasites in equine
large and small stongyles
Roundworms (ascarids)
Tapeworms
Pinworms
> less significant
Bots

Strongyles
strongyle adults occur in the large intestine
Treatment: ivermectin, moxidectin, pyrantel

large stronglyes
highly pathogenic (migrate through body)
Uncommon

the most important nematodes of domestic equines throughout the world
Teeth and cutting plates are used to chew on
migrate through the body and end up in the wall of the arteries that feed the gut
PPP 6-10 months

Small strongyles (cyathostomines)
pathogenic (do not migrate - stay in gut)
Very common (drench resistance)

currently the most important parasitic disease of horses
Affect all grazing horses
Infections are acquired from pasture only (not stalls or dry lots)
Eggs hatch at temperatures 7-29 degrees (>30 larva die, resistant to freezing)
life cycle includes cystic stafe in large intestine mucosa where parasites imbed themselves
something triggers them and they emerge from mucosa (L4) —> severe inflammation
 1-1.5 cm red worms
PPP difficult in horses as can encyst in mucosa for up to 2.5 years

can stay hea
↓
up to 2 5 years.

larvae causes a protein losing disease that leads to muscle wasting and oedema
Disease occurs on emergence of larvae
Are resistant to benzimidazole drugs

Round worm - parascaris equorum
mostly seen in foals carried by circulatory system to liver and lungs —> break through blood vessels and
migrate up trachea —> coughed up and swallowed again
Mature in small intestine, PPP 10-12 weeks
Longevity ~2 years

eggs are very resilient with sticky walls
Heavy burdens persist for 9 months and can block the intestine —> ill thift
Liver and lung migration may lead to clinical signs
Resistance to ivermectin,
Oxfendazole, benzimidazole considered to have good activity

Pinworm - Oxyuris equii
male 1cm long, females 10cm
direct lifecycle, but lay eggs on perineum
Cause horse to rub behinds especially in stabledhorses
Diagnosis with sticky tape
Distribution of egg counts across individual horses
parasites are not equally distributed in a population
Very few horses are producing a lot for the eggs (supershedders) — often no clinical signs
- wont to get rid of these horses or manage separately
most horses are below the threshold
80:20 problem — roughly 80% of consequences come from 20% of causes
saves money and prevents drug resistance
objective: limit the intake of infective larvae so that there is not effect on health of host

worm
pin

Drenching
drenches should be used as infrequently as possible in order to gain maximum effect
instead of using a threshold split the population FEC into 80:20

Drenching for cythosthomines
No drench will remove all the stages
The inhibited larvae (in mucosa) will remain intact, re-supplying new larvae into the lumen
FWEC = 0 does not mean there are no cyathostomines
the lumenal form that is being removed is not what is causing disease

Egg reappearance period (ERP)
time after anthelminthic treatment that it takes for inhibited cyathostomine larvae to be recruited from
mucosa to lumen and begin “significant” egg shedding
- significant means >10% of the average initial pre-treatment FEC
evaluates existence of early conditions for emergence of resistance (NOT resistance)

used for cyathostomines
A shortened ERP is considered a reflection of emerging resistance
In practice knowing the ERP in the field helps you to rotate available anthelminthics to prolong their
activity and slow development of resistance
Do repeat FEC to determine
Faecal egg count reduction test
N=1 is never good, avoid it, don’t use it as evidence of resistance
N = 6+ with equal FWEC, age, nutritional status are used to argue about resistance

Aim to achieve 90% reduction in egg output, and maintain low FWEC
Targeted/selective drenching - drench only some and no need to move

Testing recommendations
1. Determine egg counts in faecal samples collected from 6+ horses prior to deworming
2. Perform quantitive faecal exam and calculate efficacy (FECRT) by formula (pre-count - post count)/
pre-count X 100
3. Collect faecal samples from same horses 2 weeks intervals after deworming
Lecture 5: Equine gastrointestinal anatomy
Gross Exterior features
The stomach
relatively small, J shaped, situated in the dorsal abdomen on the left.
The cardiac sphincter is “tight” and the oesophagus empties into the region of the stomach lined by
squamous mucosa. The latter is separated from the glandular mucosal area below by the margo plicatus.
The stomach empties via the pylorus into the small intestine.
Dorsally bulging blind sac

Small intestine
The small intestine is 20+ metres long in adult large breed horses, and is divided into duodenum,
jejunum and ileum.
The descending duodenum runs caudally on the right and then crosses to the left caudal to the root of
the mesentery.
The ascending duodenum runs cranially on the left dorsally to become the jejunum.
The duodenum is fixed in position by short mesoduodenum

The jejunum is located predominately on the left, dorsally from the caudal surface of the stomach to the
inlet to the pelvic canal.
the jejunum is less fixed due to long mesojejunum

At the end of the jejunum there is a anti-mesenteric fold on the opposite side to the mesojejunum he
beginning of this marks the start of the ileum
The ileum passes from left to right to join the medial surface of the caecal base at the ileocaecal orifice/
valve.

Caecum
The caecum is a large comma-shaped blind-ended sac located on the right of the abdomen.
It is >1 metre in length in adult large breed horses
consists of a base, body and apex.
The base is located in the right paralumbar fossa and extends craniodorsally.
The caecal body curves ventrally and towards the midline, so that the apex lies on the ventral abdominal
midline pointing cranially.
highly sacculated (haustrae) with four taenial bands.
The caecal base empties into the ascending colon (right ventral colon) via the caecocolic orifice.

Colon
Ascending colon
The ascending (large) colon is complex and 3-4 metres in length in adult large breed horses.
consists of 4 segments, separated by three flexures.
The right ventral colon runs cranially on the right from its origin at the caecal base. In the cranioventral
abdomen it crosses from right to left at the sternal flexure (a.k.a. the ventral diaphragmatic flexure) and
becomes the left ventral colon. This runs caudally in the left ventral abdomen, and on reaching the inlet
to the pelvic canal it narrows significantly and turns 180 degrees at the pelvic flexure and beocmes the
left dorsal colon.
The left dorsal colon is attached to the left ventral colon by mesocolon. It runs cranially on the left above
the left ventral colon and on reaching the diaphragm crosses from left to right at the diaphragmatic
flexure (a.k.a. the dorsal diaphragmatic flexure) to become the right dorsal colon. This runs caudally on
the right above the right ventral colon, narrows and crosses from right to left cranial to the root of the
mesentery to become the transverse colon.
The right and left ventral colons are highly sacculated (haustrae) and have four taenial bands similar to
the caecum.
 The left dorsal colon is initially non-sacculated with only one taenial band, but prior to the diaphragmatic
flexure it becomes sacculated (haustrae) and has three taenial bands.
The right dorsal colon is sacculated (haustrae) with three taenial bands. Except at its origin and
termination the ascending colon is free in the abdomen, which predisposes to large colon volvulus and
displacement.

Descending colon
The descending (small) colon is 3+ metres in length in adult large breed horses.
It has two taenial bands (one mesenteric and one anti-mesenteric) and is highly sacculated (haustrae)
The descending colon is located predominately in the left caudodorsal abdomen. It ends at the inlet to
the pelvic canal and continues as the rectum to the anus.

Problems with horse intestines
many segments can move around in abdominal cavity
When operating you must be able to recognise the intestinal elements regardless of position
- features into haustrae, taeniae, fixed position, diameter

dorsal diagragmatic flexure

&
-

Ventral
diaphragmatic

ract -
or

↑
pelviseuve %

Caudal
large coording colon
Gross interior features

Stomach
the lining of the stomach has 2 discrete components
at pyloric end — glandular gastric mucosa
at cardiac/blind end — non-glandular mucosa, consists of stratified squamous epithelium
Junction between mucosa is abrupt

- Norandular mucosa

glandular
-
mucosa

bot flies larvae like to attach to wall of stomach and build up here
The thick cardiac sphincter means any build up of pressure in the stomach makes it difficult for the
horse to relieve that pressure due to limitations vomiting or erupting gas
Commonly see the stomach rupture due to this
Important to worm and insecticide horses

Duodenum
within the walls of the cranial part of the duodenum there are 2 raised mounds (major and minor
duodenum papillae) —> where the pancreatic duct and accessory pancreatic duct open
the common bile duct also open here of the major papillae (hepatopancreatic ampulla)

Caecum
ileum opens into base of caecum on a slight raised mound (ilieal papilla)
adjacent to this is where the colon exits the caecum (caecocolic orifice)
 Lecture 6: Equine Gastrointestinal Examination

this !
know

Visceral projections on RIGHT abdominal wall
R.
paralumbar
fossa
(last rib and tuber coxae)
>
-
Base of caecum &

·

Hear llecacel valve here

7 know these

Visceral projections on LEFT abdominal wall
L. paralumbar fossa
·
mix of jejuum +

descending colon

- know these
 Ventual view Dorsal view
Cr

Car

Nasogastric intubation
Indications
diagnostic
- detect the presence of gastric reflux or gas
Therapeutic
- removal of gastric reflux or gas
- administration of medications, fluids or nutrition

Anatomy
external naris
Ventral nasal meatus (only direct communication)
Nasopharynx
Oropharynx
Oesophagus (must swallow)
Gastric cardia
Stomach

Refluxing
procedure to create siphon
Fill tube with liquid then place tube below pool you are trying to get liquid out of (stomach)
- want to know exact amount of liquid you put in so you can measure amount coming out
- can fill tube with syringe, pump or funnel
Net reflux (amount put in - amount pulled out)
- anything greater than 1L is significant
Position of tube (oesophagus vs trachea)
see tube —> see tube move down left jugular furrow
Palpate tube
Shake trachea —> if tube in trachea you will here it moving aroun
Listen to tube —> in oesophagus: gurgling, in trachea: breath sounds
Blow into tube —> in trachea: no resistance, in oesophagus: resistance (collapsed tube)
suck on tube —> in trachea: suck air, in oesophagus: resistance, can’t suck
Ease of passing tube —> resistance in oesophagus, no resistance in trachea
Coughing?? —> most of the time will cough in trachea but not always

Complications
epistaxis —> most common, going in or coming out, bucket under nose and towel over nose
Aspiration pneumonia —> when tube in wrong place and something placed in tube
Rhinitis, pharyngitis, laryngitis —> commonly in multiple NG tubes placed or indwelling NG tube
Oesophageal or gastric perforation
Breakage of nasogastric tube —> put in warm water before use, in good order

Rectal palpation
Indications
colic or other gastrointestinal disease
Reproductive and pregnancy examinations
Investigation of weight loss

should only be performed when safe for operator and horse
Digital rectal in foals, miniature horses

GI disease that can be felt on rectal palpation
distension (ingesta, gas, fluid) of GIT
Abnormal position of GIT
Taut taenial bands (indications that intestines are distended)
Faecal consistency and volume of ingesta
Assessment of non-GI viscera

Anatomy you can palpate
rectal mucosa
bony pelvis
cervix, uterus, ovaries (filly or mare)
Accessory sex glands (colt or stallion)
Bladder and urethra
Internal inguinal rings (colt, stallion or gelding)
Terminal aorta, internal and external iliac arteries
Left, right and ventral abdominal walls
Small colon (usually containing faecal balls)
Pelvic flexure
Caudal border of spleen
Caudal pole of life kidney
nephrosplenic space
cranial mesenteric artery root
Caecal base
Ventral caecal band (taenia)
** should NOT feel stomach (too far cranial) or intestines (if feel means distended)
Complications
rectal tears —> mucosal (create blood but no issues), full thickness grade 4 (life threatening)

Abdominocentesis
Indications
colic, peritonitis, colitis
Weight loss
FUO (fever of unknown origin)

Technique
site —> most ventral point of abdomen, standing, right hand side slightly off midline or midline
gross examination of colour and consistency —> assess in field, straw transparent colour
Difficult to assess volume
Laboratory assessment - TP, TNC (total nucleated cell count), Cytologic examination
Needle (hypodermic or spinal) vs teat cannula (blunt)
allow fluid to drip out (dont pull out fluid)

Complications
enterocentesis —> needle into intestine (remove needle immediately)
Haemorperitoneum or splenic haematoma
Laceration of abdominal viscus
Peritonitis
Subcutaneous swellings/infections
Contamination of peritoneal fluid sample with blood or GI content

Other diagnostics
PCV/TPP
Haematology and biochemistry
Blood lactate concentration (measure of cardiovascular status)
Faecal analysis
Imaging — U/S, radiography (not useful unless mineralised)
Endoscopy
Intestinal absorption tests
Rectal mucosal biopsy
Lecture 7: Equine endocrine disease

Pituitary Pars intermedia Dysfunction (equine Cushing disease)
Pituitary dependent hyperadrenocortism (purely defined to pituitary gland)

Signalment
Most common in older equines
- mean age ~20
- rare in horses pituitary releases ACTH

the HP axis is critical for evoking biological responses to stressors
Activation of HPA and sympathetic NS —> adrenal secretion of corticosteroids and cateocholamines

dysregulation of the HPA axis include:
- PPID in horses
- sepsis/septic shock
- central diabetes insipidus
- syndrome of inappropriate antidiuretic hormone

Pituitary pars intermedia dysfunction
The ACTH from the pars intermedia is not released into blood stream
- Pars distalis produces ACTH —> stimulates glucocorticoid in adrenal gland
a single cell type here: melanotrope
Produces POMC (melanin production)
Directly innervated by dopaminergic neuron’s of the hypothalamus
POMC —> ACTH —> a-MSH, CLIP, b endorphins (hair colour, hair growth)

dopamine released by the hypothalamus has inhibitory function on pars intermedia melanotropes
- regulates ACTH from the pars intermedia
- stimulated by TRH

Pathophysiology - PPID
Loss of dopaminergic innervation of the pars intermedia —> abnormal increase in ACTH production
- loss of inhibition
- excess production of ACTH and related hormones (e.g. a-MSH - hair related)
 ACTH from pars intermedia usually dont come out of gland and are converted to other hormones
In PPID ACTH can spill out into blood steam due to increased production —> adrenal gland produces
more cortisol

the reason for the lack of dopamine innervation is unknown —- could be primary hypothalamic
disease (not produced) or primary pituitary disease (cant uptake)

horses with PPID have hyperplasia of the pars intermedia
- 1 single large adenoma
- multiple small adenomas

oxidative stress thought to contribute to neuronal damage and cell death in both hypothalamus and
pars intermedia (both hypo and pars I affected)
- reduced dopamine concentration in pars intermedia
- reeduced dopamine nerve terminals in pars intermedia
- 50% reduction in dopaminergic cell bodies in periventricular nucleus of hypothalamus

Clinical signs
Polyuria/polydipsia
30% of PPID horses exhibit PU/PD
Partial central diabetes insipidus (pituitary adenoma expanding into neurohypophysis – reduce ADH?)
Increase thirst due to hypercortisolemia
Osmotic diuresis from glucosuria (from hyperglycemia)
Hyperglycemia
- increased cortisol —> increased gluconeogenesis
- decrease utilisation of glucose by cells

Hirsutism
long curly coat, fails to shed in sumemr
Early in disease: lower jaw, base of neck, palmar/plantar of lower limbs
Overtime: generalised, lighter coat colour

Hyperhidrosis
sweating
thermoregulatory response to long hair coat
Direct elevation of POMOs

Muscle atrophy and pot belly
excess glucocorticoid increase protein catabolism and muscle weakness
Abnormal fat distribution
cresty neck, tail head, sheath/mammary glands, supraorbial space

Insulin resistance and chronic laminitis

Delayed wound healing, increased secondary infection
sub solar abscesses
Sinusitis
Silent bronchopneumonia

Docile/lethargy
increased plasma and CSF concentrations of b-endorphines

Hyperlipaemia
cortisone altering how the body metabolises fat
Rare

Diagnosis
signalment and clinical signs in classical cases
“gold standard” - post mortem examination of pituitary gland
- gross enlargement of pituitary
- histopathology
- +/- adrenal cortical hyperplasia

Dexamethoasone suppression test
Obtain baseline cortisol sample
Administer 40mg/kg dexamethasone IM
Obtain serum cortisol value 17-19hours after dex administration
Normal: serum cortisol @ 19hrs 27.6nmol/L (1mg/dL)

In normal horses, ACTH release from pars distalis is inhibited by dexamethasone, resulting in cortisol
suppression from adrenal

In PPID horses, dexamethasone administered does not inhibit the excess ACTH released from pars
intermedia (melanotropes appear to be insensitive to glucocorticoids)

dexamethasone suppression test was considered antemortem “gold standard”, with claims that test
approaches 100% sensitivity and specificity
- true superiority of dexamethasone suppression test against other tests unproven

Avoid dexamethasone suppression test in horses with history or ongoing laminitis

Endogenous ACTH
Collect resting
Normal reference range depend on laboratory (improve overall health status, pharmacotherapy

General care
Clip body for hirsutism during hot months
Routine dental care and correction of dental abnormalities
Dietary management (geriatric feeds/feeds specific for geriatric horses with dental abnormalities)
Regular hoof care and management of chronic laminitis
Parasite control (regular FEC and use of anthelmintics as appropriate)
Management of recurrent infections (esp foot abscesses and sinusitis)

Pharmacotherapy
all drug therapies are life long
No drug therapy likely to completely halt progression of disease
Need to treat for 2-3 months before assessing efficacy/ change drug dose
Monitor improvement in clinical signs
Repeat DST/Endogenous ACTH to qualitatively monitor improvement

Pergolide mesylate (used most commonly)
Dopamine agonist
Tablets, liquid
Decreases ACTH concs and improves clinical signs by providing dopaminergic inhibition to pars
intermedia
0.001-0.002mg/kg PO SID
- Increment of 0.001mg/kg to max of 0.01mg/kg if initially appear unresponsive
Adverse side effects: Anorexia, depression, diarrhoea, colic

Cyproheptadine
Serotonin antagonist (serotonin stimulates ACTH from pars intermedia)
tables

Trilostane
Competitive inhibitor of adrenal cortisol production
improves signs of PPID except hirsutism
Beneficial on adrenal hyperplasia, no effect on pituitary hormones
$$$ for horses

Prognosis
for life is good to excellent
Many cases are managed successfully for years
Provides an improved QOL in geriatric equine patients
Equine metabolic syndrome (EMS)
Multifactorial endocrine disease
First proposed in 2002 and thought to be similar to Metabolic Syndrome in human medicine
- MS are a group of risk factors that predicts CVD in humans
Syndrome associated with development of laminitis in overweight or obese “middle aged” horses and
ponies

Risk factors
Humans Equine
obesity obesity
Glucose intolerance Glucose intolerance
Insulin resistance Insulin resistance
Dyslipidemia Dyslipidemia
Microalbuminuria —> chronic recurrent laminitis
Hypertension
—> cardiovascular disease

Clinical signs of EMS
regional adipocity (accumulation of fat in certain areas)
Generalised obesity
Insulin resistance (IR)
- Hyperinsulinaemia
- Hyperglycaemia
Dyslipidaemia
Systemic inflammation
Altered blood adipokine concentrations

Obesity in EMS
severely affected horses have 4-5/5 BCS
typically described as easy keepers
- difficult to loose weight by dietary restriction

Cresty neck
enlargement of adipose tissues within neck region
Common manifestation of regional adiposity
Scoring system of 0-5
>3 detected in EMS horses
Pathophysiology of EMS
genetic predisposition to obesity in certain breeds (pony, Morgan, paso fino, arabians, QH)
Said to have a gene mutation - thrifty genes
Require fewer calories to maintain body weight

Laminitis and the EMS horse
endocrinopathic laminitis —> PPID, insulin resistance/EMS, pregnancy
Several theroies of why EMS horses predisposed to laminitis

Theory 1: glucose dysregulation as risk for laminitis
EMS horses maybe hyperglycaemic
Hyperglycemia directly toxic to vascular endothelial cells (glucotoxic endotheliopathy)
Hyperglycemia affects endothelial regulation of vasomotor tone (constrictive)
Promotes prothrombotic endothelial phenotype

Theory 2: hyperinsulinaemia affects vascular endothelium
Insulin important vasomediator via modulation of nitric oxide (NO) and endothelin-1 (ET-1) pathways
NO is a potent vasodilator while ET-1 is vasoconstrictive
Hyperinsulinaemic state promotes activation of (vasoconstrictive) pathways
Lamella hypoxia and endothelial dysfunction

Diagnosis of EMS
History & signalment (younger than PPID)
Physical examination
Laboratory tests for insulin resistance:
- Frequently Sampled IV Glucose Tolerance Test (FSIGT)
- Euglycemia hyperinsulinemic clamp technique
- Plasma insulin concentration
- Combined IV glucose insulin test (CGIT)

Generally difficult to perform in field, requires multiple samplings and can be costly (~700AUD for CGIT)

Prevention and management
Dietary management
weight loss (increases insulin sensitivity)
Provide hay that has lower nonstructural carbohydrate (NSC) content e.g. oaten, grass
Rest lush pasture grazing/access
Exercise to increase insulin sensitivity

Pharmacological manipulation
Levothyroxine sodium – increase metabolism and weight loss
Metformin hydrochloride – increase insulin sensitivity
Pioglitazone – increase insulin sensitivity
Lecture 8: Liver disease

Liver reserve and regeneration
large reserve capacity
Remarkable regeneration capacity 80%

Liver disease in horses
PA toxicosis (most common)
Cholangiohepatitis (common)
Hepatic lipidosis
Theiler’s disease

Manifestations of disease
Icterus
- generally in acute disease only
- failure of uptake/conjugation or excretion of bilirubin
weight loss (chronic slow decline)
Neurological signs (HE)
Diarrhoea
- portal hypertension —> increased hydrostatic pressure in intestines?
Haemorrhage
- failure of clotting factor synthesis (1,2,5,6,9,10)
deermatologic signs
- Dermatitis due to hepatic photosensitization.
- Accumulation of dermal phylloerythrin —> exposed to sunlight = skin lesions
- Pruritus due to dermal bile acid accumulation (rare)
Inspiratory stertor & dyspnoea
Ascites
- Portal hypertension due to venous blockage =.↑ hydrostatic pressure (Starling’s Law) = ascitis
Change in faecal colour

Hepatic encephalopathy
subtle —> mild behavioural alterations, inappetence, yawning, respiratory stertor
Severe —> depression, head pressing, aimless wandering, blindness, hepatic coma

Pathogenesis (not examined)
1. Accumulation of GIT dericed neurotoxin ammonia
- Insufficient liver metabolism of ammonia = increase plasma ammonia, x BBB to CNS
- Astrocytes detoxify ammonia into glutamine. Glutamine accumulation = cerebral oedema

2. Depletion of true neurotransmitter NE & dopamine
increase glucagon = increase muscle catabolism and AA (aromatic & branched chain). AAA
metabolised by liver, BCAA by muscles
Relative increase in AAA vs BCAA. AAA efflux into CNS
Some AAA compete with tyrosine = decrease synthesis of NE & dopamine
Some AAA also converted into false neurotransmitters serotonin = neuronal inhibition

3. Augmented activity of inhibitory neurotransmitter GABA-benzodiazepine system
GABA reduces neuronal excitability
Ammonia is synergistic with benzodiazepines.
Benzodiazepine binds with GABA receptors to produce neuronal inhibition
Diagnosis
history
Clinical signs
Laboratory tests
Ultrasound
Liver biopsy

Clinical pathology
↑ GGT (hepatocellular stasis)
GLDH (hepatocellular injury)
~ Total bile acids, or ↓albumin, glucose, PTT (function) => Y InTBA = liver Failure

Ultrasonography
size
Situation
Parenchyma architecture (Echogenicity, mass, abscess)

can see most of the liver on right side, not as much on left (spleen here)
around 7th-14th intercostal space
Compare echogenicity to spleen (liver should be less echogenic - darker)
U/S guided biopsy

Acute toxicosis
pyrrolizidine alkaloids (PA)
Mycotoxins
Sporodesmin

PA toxicosis
many plants contain toxic alkaloids
Toxicity varies with type, geography and parts of plants
Toxic dose of dried plants is 5% bwt
Cumulative effect (mnths - yrs)
Species sensitivities differ

Pathophysiology
Toxic alkaloids absorbed after ingestion
Transported to liver via portal circulation
Metabolized by microsomal enzymes of liver
by-product = toxic pyrroles
Pyrroles cross-links with hepatocyte DNA (dose dependent)
- more it cross links the more the hepatocytes dysfunction
Hepatocyte cannot divide —> forms megalocyte, cytoplasm expands without nuclear division
(ANTIMITOTIC effect)
Hepatocytes eventually die, replaced by connective tissue (fibrosis) —> when you see liver failure

Common examples
fire weeds (senecio madagascariensis)
pattersons curse (echium plantagineum)
Heliotrope (heliotropium amplexicaule)
Darling peas (swainsona)
Diagnosis
history and signalment
Reported presence of PA plants
CBC/MBA (most of the time haematology normal, liver enzyme increases)
Liver U/S
Liver biopsy and histology —> definitive
NO FEVER - not inflammatory or infectious

Histology of PA toxicosis
megalocytes
Centrilobular necrosis
Necrosis of portal areas
Fibrosis +/- bridging fibrosis (poor prognosis)

Prognosis
mild live injury (good prognosis)
- appetent, no weight loss, no neurological signs, no more exposure, improving liver profile
Liver failure (bad prognosis)
- acute onset, inappetence, signs of HE, TBA > 50umol/L, cirrhosis and fibrosis (histopath)

Cholangiohepatitis
ascending infection from small intestines
FEVER! (Changes in haematology)
+/- weight loss
Depression
Dermatitis
Increased GGT, ALP, GLDH

Diagnosis
U/S (liver tends to be brighter, rounded borders, increase in sludge in bil ducts)
biopsy —> C&S

Hyperlipaemia
miniature horse, shetland ponies, miniature donkeys
due too negative energy balance
Get increase in triglyceride metabolism —> TG accumulation in hepatocytes

Clinical signs
depression
Anorexia/inappetence
Neurological signs
Diarrhoea
Hepatic insufficiency
spin down blood and have lipemic serum

Biochemistry
increases in TG (triglycerides)
Increases in GGT, GLP, GLDH, TBA
Decrease pH
Azotaemia
Treatment of liver disease
remove inciting cause
- PA toxicosis: remove from offending pasture
- hepatic lipidosis: address negative energy balance
- remove drugs toxic to liver

antimicrobials in cholangiohepatitis (based on C&S of blood culture/ liver biopsy)

control abnormal behaviour
- sedation: xylazine, detomidine

nutritional support
- branched chain amino acids
- enteral parenteral
- vitamin B complex (increase appetite)
Lecture 8: Urinary tract disease in horses
acute and chronic renal failure
Renal failure common clinical signs Urolithiasis
PU/PD Cystitis/pyelonephritis
Oliguria/anuria (end stage) Urinary incontinence
Hematuria/pigmenturia Hematuria/pigmenturia
Weight loss Bladder rupture
Renal tubular acidosis
Distal urinary tract disease (bladder —>) Neoplasia
pollakiuria
Incontinence
Discomfort/colic
Hematuria
Pyuria
Proteinura

Diagnostic tests for kidney disease
Hematology/Biochemistry
Urinalysis
Fractional excretion of electrolytes (Na, K, Cl)
Urinary Protein: Urinary Creatinine ratio
BUN:Creatinine ratio
Cystoscopy
Rectal examination
Renal ultrasound (transabdominal & transrectal)
Renal biopsy

Cystoscopy of bladder with bladder stone
damage and haemorrhage to
mucosal wall from rough stone

Laboratory diagnosis
Haematology/biochemistry
azotaemia (increase in BUN or serum creatinine)
Electrolyte imbalances (low NA or Cl, high K)

Urinalysis
isosthenuria (1.008 - 1.012)
Proteinuria, protein cast, pyuria

Fractional excretion of electrolytes (NA, K, Cl)
assess tubular function
Normal FE = decreased renal blood flow

Toxic renal nephropathy
aminoglycosides (gentamiacin)
Filtered by glomerulus
Binds to phospholipase on brush border of proximal tubules & reabsorbed via pinocytosis =
accumulation
Interferes with Na+K+ATPase, lysosomal & mitochondrial function
Proximal tubular necrosis

NSAIDs (flunixin, phenylbutazone)
non-selective inhibition of COX1 and COX2
Inhibition of prostaglandin synthesis regulated by COX 1
Vasoconstriction and increased renal vascular resistance
medullary crest necrosis

Pigment nephropathy (rhabdomyolysis - typing up + severe dehydration)
myoglobin is toxic to kindeys
Chelates NO —> vasoconstriction —> decreased RBF & O2 tension
Tubular obstruction by heme protein cast
myoglobin Direct toxicity via free chelatable iron compound

Vitamin D/K3 toxicity
vit D —> altered Ca homeostasis, calcification of soft tissues
Vit K —> acute tubular necrosis

Obstructive (urolithiasis, neoplasia)
not very common

Treatment of renal disease
Increase GFR & Diuresis
IVFT (80-100ml/kg/day)
- NaCl if hyperkalemia
- Hartmann’s

Mannitol (0.25g – 1g/kg IV over 30 min)
- Osmotic diuresis (.↓ Na resorption @ tubule & collecting ducts)
- ↑ vasodilatory PGs &↓ renal vascular resistance =T RBF & GFR

Furosemide (1-2mg/kg IV/IM BID; 0.12mg/kg loading dose —> 0.12mg/kg/hr)
- Na+K+2Cl symporter inhibitor
- ↓ NaCl resorption from descending tubules =↓ H2O resorption

Dopamine (3-5 µg/kg/min)
Renal afferent vasodilation = increase RBF & GFR

No nephrotoxic drugs!
Glucose, Bicarbonate & Insulin for persistent hyperkalemia
Monitor azotemia, K+ (monitor for development of peripheral/pulmonary oedema)
Urinary tract infection
cystitis
- secondary to neurogenic (EHV-1, sacral injuries, cauda equina syndrome)
- bladder injury (cystic calculi, sabulous urolithiasis)

pyelonephritis

Treatment for UTI
Treatment of primary disease
Maintenance of urine flow
- IVFT, encourage oral drinking via salt licks
- Drainage of bladder via catheterization
Antimicrobials
- Penicillin (22mg/kg IM BID)
- TMS (30mg/kg PO BID)
anti-inflammatories
- NSAIDs eg flunixin 1.1mg/kg IV (caution: renal failure)

Urolithiasis
kidney — nephrolithiasis
Ureters — ureterolithiasis
Bladder — cystic calculi, sabulous urolithiasis (sand)
Urethra — urethral calculi

signalment
males > females
Urine: increased pH, nidus, increased crystalluria, mucoprotein, CaCo3
Diet: increased mineral content
Urine stasis
Decreased water intake
Bacterial infection

Treatment
Treat primary disease
Manual bladder evacuation/catheterisation
Repeated flushing of bladder
- Sterile Hartmann’s (~5-10L daily)
- DMSO
Pharmacological therapy
- Bethanechol
- Phanoxybenzamine
Lecture 9 and 10: equine colic and diarrhoea (general principles)

general principles of colic
Colic = set of behavioural signs suggestive of abdominal pain
depression
Anorexia
Recumbency
Getting up and down
Pawing
Looking at abdomen
Rolling
Frequent urination (males > females)

History
duration and severity of colic signs
Previous episodes of colic
Other recent diseases and medications
Has owner treated horse for current colic (what drugs, when, how much)
Appetite
Normal diet and any dietary changes
Faecal output (quality, frequency and consistency)
Weight loss (chronic)
Deworming regimen (when, what, who gave it)
Dentistry

Physical examination
signs of colic
Vital signs (TPR)
CV status (MM and CRT, skin Turgor, pulse quality, palpate extremities)
GI sounds
abnormal abdominal contour
Pings
Faecal consistency
Evidence of self trauma
Sweating
Signs of non-GI disease

**If the horse has severe colic you may postpone history taking and PE until you have provided
analgesia **
Analgesic should be fast, limited affect on other body systems (GI, DV), last for short period of time
—> Xylazine (effects other body systems but only during duration of action)
if possible obtain HR, CRT, and assess GI sounds before providing analgesia

Ancillary diagnostics
nasogastric intubation
should be performed in every case of colic
Perform first after PE
Leave NG tube in place (or frequent decompression) if obtain significant amounts of gastric reflex
DO NOT administer anything orally or via NG tube if obtain significant amounts of reflux
- tells you horse has SI or gastric outflow obstruction
Rectal examination (look at previous notes)
Abdominocentesis (Look at previous notes)
Other tests
PCV/TPP, haematology, biochemistry, blood lactate conc. FEC, U/S, endoscopy

Diagnostic questions
definitive diagnosis (often don’t know this)
Involvement of stomach, small intestine, large intestine, non-GI organs
Strangulating vs non-strangulating lesions

Strangulating GI lesions
blood supply to segment of intestine is compromised, leading to ischaemia and subsequent necrosis
Diapedesis (movement) of RBCs through serosa of a strangulated intestine results in serosanguinous
peritoneal fluid (abdominocentesis)
may be associated with signs of CV compromise or endotoxaemia
ALL strangulating lesions are surgical

Non-strangulating GI lesions
blood supply to intestine is not compromised
Peritoneal fluid is not serosanguinous
Usually not associated with signs of CV compromise or endotoxaemia
May be medical or surgical

Decision for referral
referral to a hospital will enable increased level of monitoring
Access to advanced diagnostics
Access to advanced medical and surgical treatment
Enable ambulatory clinician to continue with scheduled work

Findings suggestive of referral for intensive care and/or surgery
severe pain
Poor response to analgesia
Need for repeated analgesia
CV compromise
Significant gastric reflux
Rectal findings suggestive of a lesion that requires intensive care or surgery
Abnormal peritoneal fluid
Abdominal distension (with other signs)
Decreased or absent GI sounds (with other signs)

** refer early **
especially if the condition is not improving or is deteriorating
Greater probability to successful outcome

Transport for referral
appropriate analgesia
Remove any partitions in horse float (likely to lie down)
Do not tie horse up in float
Do not take the horse’s “friend”
Do not stop
No people in float with horse
Analgesics
DOs
α2-AGONISTS – xylazine, detomidine, romifidine
OPIOID AGONISTS/AGONISTS-ANTAGONISTS – butorphanol, morphine, pethidine
NSAIDS – flunixin, ketoprofen (longer time of onset)
BUSCOPAN COMPOSITUM SOLUTION® (spasmotic colic)

DON’Ts
PHENYLBUTAZONE (not good visceral analgesic, long time to produce effect)
ACEPROMAZINE (not an analgesic drug, causes profound, prolonged hypotension)
Repeated administration of drugs that decrease GI motility in horses with decreased/ absent GI sounds
Repeated administration of potent analgesics such as flunixin (masking pain)

Laxatives
—> used for feed impactions
Paraffin oil (mineral oil) – therapeutic and diagnostic (can see in come out if GIT patent)
Magnesium sulphate (epson salts) - osmotic
Dioctyl sodium sulfosuccinate (DSS, Coloxyl®)
Psyllium hydrophilic mucilloid
Enemas (little value in adult horse, used in foals for meconium impaction)

Other therapies
oral or IV fluids
GI rest (no food till colic resolves)
Anthelmintics(if you think related to internal parasitism)
Other pharmacotherapies (e.g. prokinetics)
Surgery

**Most horses with acute colic will respond to medical therapy alone (i.e. analgesics +/- laxatives)**

General principles of diarrhoea
Diarrhoea
Adult = diarrhoea most commonly a result of large intestinal disease (colitis or typhlocolitis - caecum)
- if issue with SI, the LI will still absorb water and faecal balls will form

Foal = Diarrhoea may be the result of small intestinal disease (enteritis)
- large intestine undeveloped with limited ability to absorb excess water

acute vs chronic ( hypoproteinaemia —> decreased oncotic pressure)
Acute diarrhoea — Diagnosis
History:
Duration and severity of diarrhoea signs
Previous episodes of diarrhoea
Other recent diseases and medications
Recent stresses
Appetite
Normal diet and any dietary changes
Evidence of colic
Other horses with diarrhoea (environmental, nutritional, infectious)
Weight loss
Deworming regimen

Physical examination
Faecal consistency and frequency of diarrhoea
Vital signs (TPR)
Abnormal abdominal contour
Pings
CV status (MMs and CRT, skin turgor, pulse quality, palpate extremities)
Colic/tenesmus?
Urination?
Dependent oedema
GI sounds

Diagnostics
NG intubation if signs of colic
Rectal examination if signs of colic
Abdominocentesis
Routine haematology and biochemistry
Urinalysis

Faecal analysis
Parasite examination
Bacteriologic cultures/toxin assays/PCR
Examination for sand
Examination for blood
Examination for leukocytes
Virological tests

Chronic diarrhoea — diagnosis
History
Physical examination
Rectal examination
Abdominocentesis
Routine haematology and biochemistry
Transabdominal/transrectal ultrasonography
Intestinal absorption tests
Rectal mucosal biopsy
Faecal analysis
same as acute diarrhoea +
Examination for protozoa (should have lots of motile protozoa — if none = dysbiosis)

Laboratory abnormalities
Haemoconcentration
Dysproteinaemias (abnormalities of TPP)
Leukopaenia/leukocytosis
Hyperfibrinogenaemia/elevated SAA
Electrolyte/acid-base abnormalities (to determine appropriate fluid therapy)
Elevated blood lactate (CV status — higher = poor circulatory system)
Azotaemia
Coagulopathies (if developed endotoxaemia)

Complications
endotoxic shock
Laminitis
Thrombophlebitis
Disseminated intravascular coagulation
Acute renal failure (ischaemic nephropathy— renal disease from insufficient blood supply)
chronic malabsorption (fibrosis in GIT)
Scouring

Principles of therapy
correct dehydration
correct electrolyte and acid-base abnormalities (must take bloods to determine)
Plasma or other colloids
NSAIDS e.g. flunixin meglumine

Fluid therapy primer:
type: water, isotonic crystalloid, hypotonic or hypertonic crystalloid, colloid, additive e.g. glucose, lytes
Total volume: maintenance (50ml/kg/day - adult) + deficit + ongoing losses +/- diuresis volume

↓ Possible nan by
route: NG tube (intermittent) or IV (CRI), never SC or IM
Rate: NGT - L/intubation, IV - L/hr or L/bolus

Controversial therapies
antimicrobials (refine to a few aetiologies e.g. costridosis, lawsonia)
Antidiarrhoeal agents — firms up faeces (e.g. bismuth subsalicylte, smectite)
Probiotics/transfaunation
anti-endotoxin therapies (Polymixin B, hyperimmune plasma/serum, DMSO, pentoxifylline)
Antithrombotic therapies (Aspirin, heparin)
Corticosteroids (more potent anti-inflammatory)

Biosecurity
should assume all horses with acute D+ have infectious cause until proven otherwise
Physical isolation of horses with D+ from other horses
Barrier nursing
Decreasing environmental pathogen load i.e cleaning and disinfection
Outbreak investigation
routine surveillance
Lecture 11, 12 - common causes of colic and diarrhoea
Colic
most horses with colic will respond to medical therapy (i.e analgesics +/- laxatives)

Common “medical causes of colic”
many medical colics are idiopathic and will resolve without a definitive diagnosis

Spasmodic colic
Colic due to GI spasm
Changes in diet, environment, transport, “stressful” situations, parasitism, deworming
Mild to moderate colic + increased GI sounds
Minimal CV compromise, no net gastric reflux, normal rectal findings, normal peritoneal fluid
Rx - analgesics + correct primary problem

Flatulent/Gas Colic
Colic due to gas accumulation in GIT
Primary (something produces gas) or secondary (GI obstruction)
Moderate to severe colic + variable GI sounds
Distended abdomen + pings +/- flatulence (good - helps with diagnosis and gas able to get out)
May develop CV compromise (intestines can get large and compress major vessels), +/- gastric reflux
of gas, gas distended GI per rectum, normal peritoneal fluid (not a strangulating lesion)
Rx - analgesics, gastric decompression, +/- caecal trocharization (base), +/- surgery

Large Intestinal Feed Impaction
most common sites: Pelvic flexure and large colon, caecum, small colon
Poor dentition, fibrous diets, parasitism, dehydration, decreased access to water, decreased exercise,
foreign bodies
Mild to moderate pain, decreased GI sounds, minimal CV compromise, no gastric reflux, +/- palpate
impaction per rectum, normal peritoneal fluid
Rx - analgesics, laxatives, rehydration, GI rest, +/- surgery for caecal and small colon impactions

Meconium impaction in foals

Gastric Dilation/Impaction
May be primary due to dietary indiscretion or secondary to ileus or SI obstruction
May rupture stomach resulting in death
Mild to severe colic with variable GI sounds
+/- spontaneous gastric reflux (food out nostrils - passNG tube immediately), normal rectal findings,
normal peritoneal fluid (unless ruptured)
Rx - analgesics, gastric decompression, gastric lavage for impactions

Gastroduodenal Ulceration
Associated with “stress”, other diseases, NSAID drug Rx, high concentrate diets, infrequent feeding,
restricted access to pasture, exercise
Mild to moderate colic, with variable GI sounds
Many have no clinical signs
No gastric reflux, normal rectal findings, normal peritoneal fluid, +/- colic after eating, gastroscopy
Rx - removal of stress, dietary change, anti- secretory drugs (omeprazole, ranitidine), analgesics
(don’t want to give NSAIDs if think this is the cause)
most commonly seen in squamous mucosa and junction (margo plicatus)
Complications in adults uncommon except colic, more common in foals
Colitis, Typhlocolitis, Enteritis

Peritonitis
inflammation of the peritoneal cavity
Primary (e.g. Actinobacillus through haematogenous spread)
secondary to GI perforation, abscessation, penetrating wounds, uterine rupture, infection of non-GI
viscera
Mild to moderate colic, variable GI sounds, +/- CV compromise, fever, gastric reflux if have ileus,
abnormal rectal findings, abnormal peritoneal fluid, abnormal haematology, ultrasonography
Rx - analgesics, Rx primary disease, antimicrobial Rx, fluid Rx, anti-endotoxin Rx, peritoneal lavage, +/-
surgery

Sand Colic
Sand is ingested and accumulates in the large colon
Can either irritates mucosa casues inflammation or cause physical obstruction/displacement
Mild to severe pain, +/- diarrhoea/endotoxaemia, CV compromise, no gastric reflux, usually not
palpable per rectum, abnormal peritoneal fluid
Diagnosis - history (living environemnt), auscultation of ventral abdomen, faecal examination,
radiography (mineralised)
Rx - analgesics, fluid support, laxatives, psyllium hydrophilic mucilloid, husbandry changes (not feeding
on ground), +/- surgery
Sand test —> put sand in rectal sleeve, fill rest on hand with water, twist the top and leave — sand will
fall into fingers before poo does.
Accumulates in right dorsal colon

Gastrointestinal Rupture
Stomach most likely to rupture secondary to extreme dilation with gas, fluid or ingesta (usually ruptures
along the greater curvature)
Often decreased pain immediately post-rupture followed by marked depression, severe CV compromise
and ileus due to septic peritonitis
Abnormal peritoneal fluid (GI contents), +/- “gritty” peritoneal surfaces and/or free gas per rectum, +/-
ultrasonography
Rx-euthanasia only option

Non-GI Causes of “Colic”
Hepatic disease
Intra-abdominal haemorrhage
Urogenital disease
Pleuropneumonia
Laminitis
Oesophageal obstruction
Parturition

Common surgical causes of colic
Small Intestinal Strangulation
Volvulus (twisting on itself)
Strangulating lipomas (most common in older, usually fat, horses and ponies)
Mesenteric rents (hole)
Epiploic foramen entrapment
Hernias
+/- Intussusception (most common in foals)
+/-Adhesions
 results acute severe colic, +/- decreased GI sounds, large volume gastric reflux, CV compromise, SI
distension per rectum, serosanguinous peritoneal fluid
Rx - surgery and intensive medical therapy
Prognosis
- poor to guarded depending on length of SI that is strangulated
- frequent post-operative complications (adhesions, ileus, stricture at anastomosis site)

Large Intestinal Strangulation
Volvulus of ascending colon most common (lack of attachment to root of mesentery, only 1)
May be secondary to changes in colonic motility and more common in broodmares just before/after
parturition
Degree of volvulus important
- 270 degrees strangulating

Acute colic (mild to moderate if non- strangulating but severe if strangulating)
abdominal distension, +/- decreased GI sounds,
no gastric reflux (unless LI distension occludes SI),
CV compromise (if strangulating),
LI distension with taught taeniae per rectum,
serosanguinous peritoneal fluid (if strangulating)

Rx - surgery and intensive medical therapy
Prognosis - poor to guarded depending on degree of strangulation

Large Intestinal Displacement
Displacement of ascending colon most common (lack of attachment to root of mesentery)
May be secondary to gas distension and displacement results in further non-strangulating distension

Most common large colon displacements
- Left dorsal (LLD) - ascending colon becomes displaced dorsally in the nephrosplenic space
- Right dorsal (RDD) - pelvic flexure moves cranially and then to right of caecum (normally on left)

Acute to chronic colic (mild to severe depending on distension)
abdominal distension, +/- decreased GI sounds
no gastric reflux
minimal CV compromise
LI distension (+/- abnormal location of LI) per rectum
normal peritoneal fluid
+/- ultrasonography for LDD (wont be able to see the kidney and spleen next to each other)

treatment
- LLD phenylephrine + lunging (contracts spleen, intestine slips off), GA + rolling, +/- surgery
- RDD general medical Rx, +/- surgery

Prognosis - good
Intestinal Intussusception
Can be jejuno-jejunal, jejuno-ileal, ileocaecal, caecocaecal or caecocolic
Consequence of abnormal GI motility, +/- parasitism (tapeworms or small strongyles)
May or may not be strangulating (depending on on how much the intestine goes in)
Clinical signs dependent on site and severity, +/- able to identify on ultrasonography
Rx-surgery

Intra-Abdominal Adhesions
Usually secondary to previous abdominal surgery (especially in foals), peritonitis (especially if
fibrinous), intra-abdominal abscessation etc.
May or may not be strangulating
Clinical signs dependent on site and severity
Rx - medical therapy if only mild colic, surgery if colic more severe or unmanageable medically

Diarrhoea
Common causes of acute diarrhoea in the adult horse

Dietary indiscretion
Grain overload
Rapid dietary change (esp. low to high concentrate)
Sand enteropathy
Specific irritants/toxins (e.g. linseed and castor oils, heavy metals, toxic plants)

Gastrointestinal parasitism
Ascarids, large and small strongyles
Larval cyathostomiasis
foals: Strongyloides westeri and cryptosporidia

Antimicrobial-associated
Any antimicrobial can cause diarrhoea in adults horses!
Due to dysbiosis
Variable onset of diarrhoea in relation to treatment with antimicrobial drug
May be transient or life-threatening!

Acute salmonellosis
Often associated with stress and antimicrobial therapy
Highly contagious + zoonosis
Diagnosis: faecal cultures and/or PCR
- may need up to 6 consecutive cultures (intermittently shed in faeces)
Antimicrobial therapy usually not indicated unless persistently severely neutropaenic
- no evidence this speeds up recovery

Clostridiosis
Clostridium difficile/perfringens
+/- Haemorrhagic diarrhoea
Highly contagious
Diagnosis by PCR for detection of clostridial toxins in faeces
Treat with oral metronidazole
Lawsonia intracellularis
Proliferative protein-losing enteropathy of young horses (5-7 months ONLY)
Diagnosis by severe hypoproteinaemia, thickened SI on ultrasonography, faecal PCR, serology,
histopathology (sliver stain)
Antimicrobial therapy (macrolide & rifampin or tetracyclines)

Other
Right dorsal colitis (NSAID toxicity)
Peritonitis
Stress
Neorickettsia (Ehrlichia) risticii (Potomac Horse Fever) - exotic
Grass sickness - exotic (europe, neurologic disease)

Acute Diarrhoea (Foals)
“Foal heat” diarrhea
Dietary indiscretion (over-feeding)
Peripartum asphyxia syndrome
Antimicrobial-induced
Lactose intolerance(?)
Parasitic enteritis
Viral enteritis
Bacterial enteritis

Chronic diarrhoea
Chronic parasitism
Chronic salmonellosis
Lawsonia intracellularis infection
Giardiasis(?)
Peritonitis
Sand enteropathy
Inflammatory bowel disease
Neoplasia
Dietary sensitivity (abnormal VFA production))

** Many cases of acute and chronic diarrhoea are idiopathic and will resolve (or not resolve) without a
definitive diagnosis**
should warn owners about this
Lecture 13: dysphagia and weight loss
Approach to a horse with dysphagia
History
Duration of dysphagia
Previous episodes of dysphagia
Other recent diseases and medications
Normal diet and any dietary changes
Appetite
Nasal discharge
Quidding (dropping food out mouth)
Weight loss
Dentistry

Physical examination
Signs of dysphagia (food coming out nostrils)
Nasal discharge
Quidding
Vital signs (TPR)
CV status (MMs and CRT, skin turgor, pulse quality, palpate extremities)
Signs of aspiration pneumonia
Oral disease
Neurologic deficits (specifically surround CN deficits — swallowing related)

Ancillary diagnostics
NG intubation (must do if considering oesophageal obstruction)
watch horse eat
Oral examination
Neurological examination
URT endoscopy/oesopahgoscopy
URT/oesophageal radiology (+/- contrast)
Work up for aspiration pneumonia

Oesophageal obstruction (“choke”) * EXAM QUESTION *
main cause of dysphagia in horses
Most commonly associated with the rapid ingestion of feed
- usually at top and bottom of peaking order in group
Nasal reflux of saliva and feed
distress, retching, sweating, extended neck
+/- palpable mass in neck

Diagnosis
passage of NGT
- if you cannot pass tube could be obstruction
+/- endoscopy and/or radiography
As
strated
Treatment ↓ muscle prevent aspiration
Sedation (relieve distress, relax oesophagus and lower head) ~
Pass NGT and lavage obstruction with water (keeping head lowered). NEVER OIL!!!!!
+/- Systemic muscle relaxants, topical local anaesthetic
General anaesthesia (+/- surgery) may be needed (cuffed tube in and repeat NG tube lavage)
Supportive therapy (IV fluids)
**Impaction must be relieved within 24 hours to avoid oesophageal ulceration and stricture**

Prevention
Feed small amounts frequently
Avoid competition at feed time
Rocks in feed tub to limit “bolting” feed
Avoid offending feeds (individual dependent)

Other Causes of Dysphagia
Anatomic abnormalities
cleft palate, subepiglottic cysts, retropharyngeal lymphadenopathy (e.g. Strangles), other URT
masses, other oesophageal diseases

Functional abnormalities
primary neurologic disease (CN IX, X, XI, XII disease, botulism, tetanus)

Approach to a horse with weight loss

Pathophysiologic Mechanisms
1. Anorexia (usually disease-related)
2. Increased nutrient demands —> physiologic, pathologic
3. Protein-calorie malnutrition

Severe weight loss is usually suggestive of chronic anorexia, increased nutrient demands or
malnutrition/starvation
Exception is in cases of severe disease processes such as acute colitis, acute pleuropneumonia,
neoplasia — horses loss weight in short time period

History
Duration and severity of weight loss Does horse eat normally
Owners estimate of amount of weight lost More than one horse affected
Weight loss vs failure to gain weight Housing
Appetite-↑,↓,normal “Occupation”
Current diet Faecal consistency
Dietary changes Deworming regimen
Competition for feed Dentistry
Other recent disease
Physical Examination
Estimation of body weight (BW) and BCS
- Visual appraisal (inaccurate)
- Weight tape
- scales
Thorough physical examination
Appetite, prehension, mastication and deglutition
Evidence of systemic disease
Faecal examination (consistency, feed, sand, parasites)

Estimation of Body Weight
Visual appraisal (a.k.a. “guessing”)
Inherently inaccurate!
Weight tapes
tape around horses girth
Correlation between circumferance of girth and BW
Less accurate in foals, ponies and horses with very high or low BCS

Body condition score
A scoring system to describe the “body condition” of an animal (NOT weight)
Correlated with body fat content
Australian (0-5) and American (1-9) equine body condition scoring systems

Feed and pasture examination
Quality and quantity of feed provided
Competition with other animals
Terrain and soil type (sand)
Toxic plants (usually don’t eat unless nothing else to eat)

Oral examination
Dental abnormalities
Other oral cavity diseases (e.g. masses, foreign bodies, inflammation)

Routine Laboratory Diagnostics
PCV/TPP - anaemia, dysproteinaemia
CBC/fibrinogen/SAA - inflammatory processes
Biochemistry - albumin/globulins, hepatic & renal parameters
Urinalysis
FEC

Other Diagnostics
Feed analysis or nutritional consultation (in large operations)
Rectal examination, abdominocentesis
Ultrasonography - abdomen and thorax
Gastroscopy, malabsorption tests, coeliotomy
Specialised laboratory diagnostics (usually following abnormalities on regular tests)

MOST Common Causes of Weight Loss
1. Inadequate feed quantity or quality
2. Dental disease
3. Parasitism

Inadequate Feed Quality and/or Quantity
Increase quantity and/or quality of primary feed source (GRADUAL!)
Supplement with calorie-rich feeds (GRADUAL!)
Remove (if possible) any reasons for increased nutritional demands e.g. wean older foals
Nutritional education
Reassess body condition/weight in 1-2 months

Dental Disease
Correct dental abnormalities
- sharp points, hooks, ramps, wave mouth, missing molar teeth (“step mouth”)
- may take several attempts to correct severe abnormalities and require advanced dental equipment
Institute prophylactic dental care
Reassess body condition/weight in 1-2 months
Parasitism
Most commonly a result of high internal parasite load (e.g. cyathostomes)
Severe ectoparasitism
Value of FEC (0 FEC does NOT rule out parasitism)
Widespread BZ resistance by cyathostomes
Some resistance to ivermectin by ascarids

Treatment
“Larvicidal” deworming on 1-2 occasions (moxidectin, extralabel fenbendazole)
Treatment for tapeworms (praziquantel)
Monitor faeces for gross parasites
Monitor FEC
Institute appropriate parasite control regimen
Reassess body condition/weight in 1-2 months

Less Common Causes of Weight Loss
1. Inflammatory bowel disease - granulomatous or eosinophilic entero-typhlo-colitis
2. Neoplasia
3. Pituitary pars intermedia dysfunction

Inflammatory Bowel Disease
Chronic, idiopathic inflammatory disease
Often seen in young horses
Variable appetite, +/- diarrhoea, protein losing enteropathy and oedema
Dx - lab results, rectal examination, abnormal glucose/xylose absorption (SI), biopsies, necropsy
Rx - +/- corticosteroids
Prognosis - poor

Neoplasia
Lymphosarcoma
Squamous cell carcinoma
Malignant melanoma
Other carcinomas
Haemangiosarcoma

Lymphosarcoma
Most common non-cutaneous neoplasm of equids
Four anatomic syndromes based on location of primary mass (can overlap)
- Alimentary (lymph nodes and/or intestinal tract)
- Mediastinal (lymph nodes and/or thymus)
- Cutaneous
- Multicentric

NO age predilection - common in young horses
Variable clinical signs depending on site of lesion
Dx - laboratory results (leukaemia very rare), fluid cytology, rectal examination, ultrasonography,
biopsy, coeliotomy, necropsy
Rx - +/- transient response to corticosteroids, some reports of other chemotherapy limited
Prognosis grave, except for cutaneous (if only masses in skin - long term survival)

Pituitary Pars Intermedia Dysfunction
Other Causes of Weight Loss
Any chronic disease - liver, GI, CRF, CHF, LRT, peritonitis
Abscessation - thoracic or abdominal
Chronic dysphagia
Grass sickness/EMND (exotic)