ALAT Chapter 20 Hamsters PDF

Summary

This document provides an overview of hamster biology. It details different aspects of hamster anatomy physiology, behavior, including reproduction, diet, and research use practical aspects like handling and husbandry are also included.

Full Transcript

ALAT Chapter 20
Hamsters

General
USDA
regulated?

Gestation

Weaning

Sex
determination

Maturity

Uterus
details

Dental
formula

Housing
needs

Unique
physio

Common
clinical
concerns

General
Clinical
Concerns

Pathogens

Rx Options

Zoonotic concerns

Sample collection
sites

Medication
admins
sites

Meds to avoid

1.

2.
3.
4.
5.
6.

7.
8.

Can you list one
condition hamsters
have that would
make them a good
research model?

Size
Short gestation
Short life span
Relative cost
Adapt well to surroundings
Free of many rodent-related spontaneous diseases
Useful for unique conditions; diabeties, cancer research,
genetic studies, metabolism, heart disease, dental research
Cheek pouch is a useful research tool

Infectious disease
Behavioral
Genetic models of human
disease
 Cancer
 Atrial thrombosis
 Caries (aka cavities) and
periodontal disease
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Muscular dystrophy
Teratology
Renal physiology
Hibernation
Reproduction

Relatively few spontaneous diseases
compared to other lab rodents, but
susceptible to many experimentally
induced diseases and infections

Most
commonly
used

Syrian (golden) hamster

Chinese hamster

European hamster

Armenian hamster
Djungarian hamster

Biological Data

Cheek pouches
Stomach = two compartments
Scent Gland
Delicate GI tract
Nocturnal
Hibernation

The word ‘hamster’ originates from a
German word ‘hamstern,’ which
translates into ‘to hoard’



Temporary storage of food and
bedding (and pups!)

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No glands/lymphoid tissue



Rich in mast cells



Highly vascular
 Supplied by external carotid artery

(branches)



Used for micro-vascular studies:

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Inflammation
Tumor growth
Vascular smooth muscle function
Carcinogenic agents



“Immunologically privileged”
 Lack intact lymphatic drainage

pathway
 Decreased Langerhans cells
 Will support tissue transplant
without rejection

Not a tumor

Unlike other rodents, the hamster has a stomach that is divided
into two compartments.
 The non-glandular fore-stomach is joined with the glandular

stomach by a narrow passageway.
 The tissue of the forestomach is similar to that of a ruminant (such as
sheep and cattle).
 Some researchers have speculated that the forestomach acts as a
fermentation chamber to aid in digestion.
 The actual role that the compartmentalized stomach plays in
hamster digestion has yet to be determined.

The scent gland, or flank organ, is another interesting anatomical
feature of the hamster.
 These glands are located on both the right and left dorsolateral
flanks.
 In mature males, these areas are identified by darkly pigmented
skin with obvious black, bristly hairs; in females, the hairs are
softer and less noticeable.
 These glands secrete a musk-like fluid, and are probably related to
sexual attraction and territorial marking. Hamsters tend to spend
much time grooming the fur around these glands.

The intestinal tract of hamsters has a delicate balance of
microorganisms. This balance can easily be disrupted by stressors,
such as handling by humans or changing feed.
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A disruption in the composition of this intestinal flora can cause
overgrowth of some microbes that may result in inflammation of the
intestinal tract (enteritis).
This intestinal sensitivity has research applications, such as
creating vaccines for intestinal illnesses.
Some antibiotics, such as penicillin, should never be used in
hamsters because the disruption of their intestinal flora can be
lethal.

Hamsters are nocturnal animals, with
very distinct biological (circadian)
rhythms.
 Their hormone levels and the level of
other physiological molecules
fluctuate predictably throughout the
day, and throughout the year.
 Careful manipulations of room light
cycles and management of the
necessary husbandry and research
procedures can change their biological
rhythms.
 Bite when startled – wake carefully

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Permissive hibernators
 Option to hibernate depending on conditions
▪ Temperature: <41oF
▪ Food supply
▪ Short days, low light intensity



Characteristics:
 Narcosis

 Sharp reduction in body temp

 Reduction in metabolic activity
 Depressed vital signs

BE SURE THE
HAMSTER IS
AWAKE BEFORE
DISTURBING!!!!

 2-3 days of inactivity interspersed with short periods of

normal activity

Because of their ability to hibernate, hamsters are important models for studies of hibernation and cold adaptation. Hamsters are also used in
research on viral diseases, investigating specific metabolic pathways, and for studies of degenerative disease such as cardiomyopathy.

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1003
ICPM
1 00 3
Hysodontic incisors
Pups are born with
erupted incisors!!

Hamsters have a unique kind of enamel, normally yellowish-orange to brown. The
older they are, the darker their teeth get. So it’s even possible to tell how old a
hamster is by the darkness of its teeth.

Weight @
maturity: 250-500
grams Syrian = 110140gms
Djungarian = 1850gms

Life span
1.5 -2 years

Body
temperature
98.6 –
100.4F

Heart rate:
250-500bpm

Respiratory
rate:
35-135
breaths per
min

Water
Consumption

8-10mls/100gms

Food Consumption
10-12 grams
Broad muzzle =
challenges

Urine output
7mls
Milky white d/t
calcium
carbonate

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Male (boar)
 Pointed posterior
▪ Inguinal canal fat pads
▪ Fat pads usually cause testes to
remain in abdomen
 Longer anogenital distance

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Female (sow)
 Rounded posterior
 Nipples
 Shorter anogenital distance

Short AG
distance

Longer
AG
distance

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Sexual maturity: 4-6 weeks
Estrus: 4-5 day cycle
 Lasts 8-26 hours

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Gestation: 15-18 days (shortest of any
other lab animal)

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Seasonal polyestrous
Day 10: Female looks pregnant
Will hide pups in cheek pouches when
disturbed
DND till ~Day 7

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Aggressive animals
Can’t mate as we do with mice
To avoid fighting:
 Pair-bond at weaning
 Or introduced when the female has reached estrus. Post-ovulatory

discharge is indicative of the animal having reached estrus the day
before and is predictive of the next estrus 3 days after its
appearance.


Female hamsters can be successfully mated in the evening of
the 3rd day following the post-ovulatory discharge.

Four different mating systems are used for hamsters: hand,
harem, intermittent, and monogamous pair mating.
• Hand breeding: A female is introduced in the cage of a male at the
beginning of the dark cycle. If no copulation occurs within 5 minutes, or
if the female becomes aggressive, she is removed from the cage. If
copulation occurs, she can be left in the cage until the following light
cycle begins. A vaginal plug should be visible for a few hours following
copulation.
• Harem mating: A male and two or three females are housed
together. The pregnant females are removed from the cage at least 2
days before parturition and housed separately until their litter is
weaned. Fighting may occur when females are returned to the group
cage.
• Intermittent mating: Females are sequentially placed one after
another into the cage of a male for a week. They are then moved to a
separate cage to give birth or until it is determined that they are not
pregnant.
• Monogamous pair mating: One male and one female are housed
together immediately after weaning, before they become aggressive.
When successful, monogamous mating can produce a litter every 35 to
40 days, beginning about 30 days after the pairing.

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Burrowing/tunneling
Nest building
Gnawing, chewing
Solitary except when mating or
when weaned together
 Fighting common in social groups
 Females dominate males

 Larger hamsters dominate smaller ones
 Monitor new groups carefully

Wake up carefully!
1. Can pick up by grasping the loose
skin across its shoulders
2. Use your hands as a scoop to
transfer it from one cage to
another
3. Place a small container in the cage.
A hamster will usually crawl into
the container and can then be
transferred from one cage to
another.

A hamster can be restrained by gently grasping the loose skin across
the back.
1. Place the hamster on a flat surface, such as a cage top.
2. Then press the palm of one hand gently against its back with
your fingers straight.
3. Your fingers and thumb can then curl around opposite sides of
the hamster, gathering in as much loose skin as possible.
 Bunching the loose skin tightly in your hand will pull the skin taut against

the hamster’s abdomen and thorax.
 The animal should not be held so tightly that it is unable to breathe, nor
should it be held so loosely that it can turn its head and bite the handler.

Hamsters are a USDA-regulated species; therefore,
housing, husbandry, and recordkeeping are governed by
the Animal Welfare Act and Regulations.
 Hamsters are usually housed in microisolation caging
or static cages that are at least 6 inches high.


Since they like to burrow and create sleeping areas,
contact bedding should be provided in the cage.



Hamsters are adept at escaping from cages, so the
cage top should be secured firmly to the cage. There
should be no cracks or holes in the cages; hamsters will
gnaw their way out if given the opportunity.



House at temperatures and humidity levels that are
similar to those for rats and mice.

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Standard rodent diet, ad libitum
May struggle to eat from overhead
hoppers due to broad muzzle
Weanlings may not be able to reach
hopper
PRN - Feed on floor of cage with
IACUC approval
Coprophagic
Will chew plastic H2O bottles

Hamsters use any items that
they can climb through, into,
and on, such as boxes,
tubes, and shelters.
Likes: exercise wheels, wire
bars, and cage lids for
climbing.

What type of
enrichment
would they
find
meaningful?

In the wild, hamsters burrow
extensively. Varying sizes
and types of bedding
substrates will facilitate their
burrowing
and nest-building behaviors
and should be provided
when possible to allow
expression of natural
behaviors.

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Hunched posture
Eye squinting
Tightened whiskers
Ear position changes
Ruffled hair coat
Weight loss
Poor body condition
Lethargy
Dyspnea
Soft stool/diarrhea
Death of young animals

Facial grimace scales are
being developed as we speak

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Euthanasia methods for hamsters include cervical dislocation and
exposure to high levels of inhalant gases, such as carbon dioxide
or isoflurane.
An overdose of barbiturates administered intraperitoneally is also
a commonly used method.
In all cases, those performing euthanasia must be trained and
proficient in the correct techniques.
As with other species, death must be verified; your institution’s
SOPs may require an additional procedure to be performed.
Carcass disposal should be according to the facility’s guidelines.