Fish Medicine PDF

Summary

This document provides an overview of fish medicine, covering common fish diseases, conditions, and treatments. It discusses learning objectives, fish taxonomy, common issues, causes of disease, consequences, management of water quality and longer-term solutions. This is a great resource for anyone working with or interested in learning about fish diseases.

Full Transcript

Fish medicine
Marie Kubiak BVSc CertAVP(ZM) CertAqV DZooMed MRCVS
RCVS Recognised Specialist in Zoo and Wildlife Medicine
WAVMA Certified Aquatic Veterinarian

Learning objectives
Recognise common conditions affecting
pet aquatic animals.
 Describe appropriate diagnostics
methods to achieve a diagnosis.
 Describe appropriate interventions.
 Describe appropriate control measures
for prevention and to treat conditions.


Fish taxonomy (simplified!)


Teleosts
› Bony fish
› Classic tank and pond fish



Elasmobranchs
› Cartilaginous fish
› Sharks, rays, guitarfish
› Rare as pets



Even less common pets!

“Pet” fish:
Temperate freshwater


Goldfish (Carassius auratus)
› Small carp species
› Require basic conditions
 30l of water per fish
 1 square foot of air surface per fish
 Can be reduced with aeration

 Ideally maintain at 18-20C but can survive a wider
range of temperatures
 Ponds preferable to tanks if deep enough to avoid
freezing
 Feed on crustaceans and plants or pelleted food



Koi carp (Cyprinus carpio)
› Ornamental fish
› Two hundred years of selective breeding
› Up to 3ft in length

› More sophisticated environments needed





Large ponds of 1.5m depth
Filter with biological and physical filtration
Aeration
Commercial diets
 Vitamin C required
 Carotenoids to maintain coloration

Common issues


Water quality failings
› Increases in ammonia, nitrates or nitrites

NH3 ↔ NH4+

Ammonia ↔ Ammonium
Ions

O2
Oxidisation by Nitrosomonas spp Bacteria

NO2Nitrite

O2
Oxidisation by Nitrobacter spp Bacteria

NO32Nitrate

Used by aquatic
plants

N2
Denitrification to Nitrogen Gas

Removed by water
changes

Causes of spikes
Failure to prepare and mature a tank
and filter
 Overstocking


› Can be gradual as fish grow/breed

Failure of a filter
 Overload of organic material


› Overfeeding
› Algal or plant bloom

› Dead fish

Consequences


Ammonia increase
› Irritation of skin
 Discomfort
 Ulceration
 Increased risk of skin infection
› Gill epithelial hyperplasia
 Secondary effects on oxygenation causing
respiratory signs
 Reduced osmosis and ammonia excretion
› General debilitation due to chronic stress



Nitrite increase
› Increased nitrite absorption
› Haemoglobin oxidised to methaemoglobin
› Hypoxia due to reduction in oxygen

transport
› Pale tan mucosa and gills



Nitrate increase
› Rarely clinical in itself
› May affect eggs and fry
› Facilitates algal and plant bloom
 Secondary drop in oxygenation

Management of water quality


Water changes
› 30-50% of tank of pond volume

Add zeolite to bind ammonia
 Reduce organic load


› Remove algae and plants
› Reduce feeding


Improve oxygenation
› Aerate water

› Cool or shade water if hot weather

Longer term


Identify and manage cause
› Allow filter maturation
› Increase filter capacity
› Reduce stocking of plants or fish

Low oxygen saturation


High biomatter load
› Algae, fish, decomposing vegetation
› Plants overnight when CO2 production

continues and no O2 is produced



High temperatures
› Oxygen saturation decreases with

temperature

Clinical signs


Die off
› Typically early morning when O2 is lowest

Fish gathering at points of aeration
 Signs of chronic stress


› Ulcerative skin disease
› Mortality of already

compromised fish

Diagnosis


Measure oxygen saturation at sunrise

Management
Remove biomass
 Increase aeration
 Decrease stocking density
 Provide shade/cool water
 Monitor nitrogen processing


› Ammonia and nitrites also increase due to

common factors

Ulcerative skin disease


Parasitic
› Protozoa e.g. Ichtyopthirius multifiliis (Ich)
 Small white spots and irritation of fish
› Gyrodactylus skin flukes
› Dactylogyrus gill flukes
› Argulus lice

› Lernea anchor worm



Bacterial
› Aeromonas spp most common
› Range of environmental bacteria can be

opportunistic invaders



Primary bacterial infection rare
› Commonly secondary
 Trauma
 Damage to skin barrier e.g. high ammonia



Viral
› Cyprinid herpes
 Can be ulcerative but typically presents with
raised plaques



Fungal
› Typically secondary
› May be ulcerative
› Can also present as “fluffy” growths

Approach to ulcerative skin
cases



Assess pond/tank side where possible
Test water parameters
› Ammonia, nitrites, oxygen






Assess individual fish for gross lesions and macroscopic
parasites
Collect swab samples for culture
Collect scrapes for cytology/parasitology
› Examine immediately if possible

Treatment


Medication for specific cause
› In main tank/pond or in isolation tank



Consider adding low dose salt to reduce
osmotic stress
› 1-2g per litre

Manage water quality carefully
 Reduce stressors


Medication administration


Orally
› Compound into pelleted

or gel food

Injections
 In water


› Dissolve/dilute
› Bypass filtration system

Short term dips of higher concentration
 Temperature affects dosing requirements
and frequency


Swim bladder disorders
Altered buoyancy
 Secondary concerns


› Inability to feed

› Abrasions

Who is affected?
 Elasmobranchs,

some bottom
dwelling teleosts (e.g. flounders) and
some pelagic teleosts (e.g. tuna) lack
a swim bladder
› No swim bladder issues possible!



Physoclistous species
› Marine teleosts
› Cichlids
› Bass and sunfish



Gases diffuse into the swim bladder from
rete mirabile (“gas glands”)



Physostomous species
› Koi and goldfish
› Catfish
› Salmon and trout

› Tetras

A pneumatic duct connects the
oesophagous and swim bladder
 Bacteria, foreign bodies or food can enter
the swim bladder
 Koi have a rete mirabile as well as a duct


Infection or anatomical disruption alters
swim bladder filling
 Altered buoyancy suggestive


› Can also be due to GI disease, neoplasia,

granulomas or ascites



Radiographs highlight swim bladder
alterations in position, size or shape

Diagnosis


Cause of changes needs identification
› Radiographs or ultrasound to check for mass

or fluid displacing the swim bladder
› Aspirate for culture and cytology



Treat based on findings
› Systemic antimicrobials
› Instill directly into swim bladder

Feed larger food items to trigger opening
of pneumatic duct
 Remove hazards from enclosure
 Guarded prognosis


Notifiable Disease


Spring viraemia of carp
› Petechial haemorrhages of skin, gills

and eyes
› Exophthalmos
› Pallor
› High mortality


Koi herpes virus
› Anorexia, lethargy

› Gill necrosis
› Skin pale patches
› Erratic swimming
› High mortality



If suspicious contact APHA for advice and testing

“Pet” Fish:
Tropical freshwater
Common in homes and businesses
 Require similar consideration to goldfish
tanks
 Beware mixing aggressive species
 Provide plenty of cover for all fish


Common conditions
Water quality issues
 Fin rot (similar pathology to ulcerative skin disease)
 Conspecific and intraspecific trauma
 Mycobacterium marinum
 Lymphocystis
 White spot (Ich)
 Fungal skin disease
 Velvet (Piscinoodinium)
 Hole in the head (Hexamita)


White spot (Ich)
Protozoa: Ichthyophthirius multifilliis
 Protozoa are less than 1mm in size and appears as
fine white dots over the skin


› Cause secondary dermatitis
› Increased mucus, ulceration
› Gill damage also possible



Treatment:
› Over the counter copper based water treatment
› Ultraviolet filtration of water
› Raise temperatures to 30C over 48-72hrs
› 1g/l salt added into water

Mycobacterium marinum


Seen across all fish species
› Can cause ulcerative skin disease
› Visceral granulomatous form
 Lethargy, anorexia, loss of condition
 Coelomic distension

Identified on biopsy of skin lesions or histopathology
of granulomas at post-mortem
 Impossible to eradicate from a shoal
 Depopulate, disinfect, dry out tank
 Quarantine new fish for 2 months


Hole in the head
Affects cichlidae (cichlids, discus and Oscars)
 Presents as shallow ulcers on the head and sides
 Due to Spironucleus flagellated protozoa
 Mortality low but may be part of chronic stress or
co-morbidity with higher mortality
 Metronidazole can be given in food or in water but
recurrence is occasionally seen




In catfish Edwardsiella ictaluri causes head ulcers

“Pet fish”:
Marine tropical
More challenging to maintain
 Salinity requires regular monitoring and
maintenance
 Run with sump and surplus water
 Species often more fragile
 Often more visually
striking displays


Common diseases
Water quality issues
 Cryptocaryon (similar to Ich)
 Marine velvet (Amyloodinium)
 Lymphocystis


Lymphocystis (Iridovirus)
Affects marine angelfish, butterfly
fish and clownfish
 Also affects cichlids (brackish/freshwater)
 Viral infection causes fibroblasts to balloon in size
 Hypertrophied cells of 1mm diameter are visible as
white dots
 Disfiguring but mortality is low
 Lesions recur spontaneously but relapse is possible
at times of stress
 Accept endemic lymphocystis or cull affected
animals
