Imaging of the Collateral Caudal Vena Cava Circulation Using Fluoroscopy Guided Non-Selective Contrast Angiography in Ferrets

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Israel Journal of Veterinary Medicine  Vol. 70 (4)  December 2015 31 Imaging of Collateral Caudal Vena Cava in Ferrets
Clinical Technique: Imaging of the Collateral Caudal Vena Cava
Circulation Using Fluoroscopy Guided Non-Selective Contrast
Angiography in Ferrets (Mustela putorius furo) with Adrenocortical
Gland Disorder for a Pre-Surgical Evaluation
Summa, N.,
1,2
Eshar, D.,
1,3
* Lee-Chow, B.
1,4
and Nykamp, S.
1
1
Te Ontario Veterinary College Health Sciences Centre, University of Guelph, Guelph, ON N1G 2W1, Canada.
2
Departments of Medicine and Epidemiology, School of Veterinary Medicine, University of California, Davis, Davis,
CA 95616, USA.
3
Te Department of Clinical Sciences, College of Veterinary Medicine, Kansas State University, Manhattan, Kansas 66506,
USA.
4
Barbados Primate Research Center, Farley Hill, St. Peter, Barbados.
*
Corresponding Author: Dr. David Eshar, Te Department of Clinical Sciences, College of Veterinary Medicine, Kansas State University, Manhattan,
Kansas 66506 United States of America. Tel: 785-532-5690, Fax: 785-532-4309. E-mail: deshar@vet.k-state.edu
ABSTRACT
Angiography is a well-recognized diagnostic tool in human and companion animal medicine and it is
beginning to fnd its application in exotic companion mammals as well. In ferrets with the species’
adrenocortical disorder, contrast angiography can be a useful pre-surgical test for right adrenalectomy, by
demonstrating the collateral venous fow. Using this technique, fuoroscopy-guided non-selective angiography
via the saphenous vein may ofer better preoperative evaluation of the patient and allow for a better surgical
plan and outcome.
Keywords: Ferret; Mustela putorius furo; Adrenocortical Disorder; Fluoroscopy; Non-Selective
Angiography
INTRODUCTION
Adrenal Gland Disease (“Ferret Adrenocortical Disorder”),
in which excess androgens are produced by an adrenal gland
pathology (hyperplasia, adenoma and adenocarcinoma), is
one of the most common disorders in neutered ferrets with
prevalence up to 70% in the United States (1). Medical man-
agement may decrease clinical signs but is not curative and
adrenalectomy is considered as the treatment of choice (1-5).
Removal of right adrenal gland masses is more challeng-
ing than left adrenal gland masses because of the intimate
anatomical association between the adrenal gland and the
caudal vena cava and frequent invasion of the mass into the
vena cava wall and lumen (3-8).
Described surgical techniques include partial ligation of
the vena cava and removal of the mass with a portion of the
caval wall, resection and anastomosis of the afected segment
of the vena cava, or en bloc resection of the mass and caudal
vena cava with complete ligation (3-8). In humans and dogs,
caval ligation between the right renal vein and the liver is
associated with a mortality rate of approximately 25% (3, 9).
Although renal failure secondary to acute venous hyperten-
sion has been described in 30% of ferrets (1, 3), successful
caval ligation has also been reported (7). It is hypothesized
that those ferrets surviving the caval ligation had some col-
lateral circulation that gradually developed secondary to the
increase in venous backfow pressure from the partial occlu-
Israel Journal of Veterinary Medicine  Vol. 70 (4)  December 2015 Summa, N. 32
sion of the vena cava by the neoplastic gland, as described in
dogs (10). In one study (10), artifcial complete caval occlu-
sion was performed under fuoroscopy in 8 healthy ferrets.
Te results showed that all ferrets had naturally occurring
collateral circulation. However, 2/8 ferrets had developed a
profound post-ligation increase in caval pressure (10).
Detailed pre-surgical evaluation of the cranial abdominal
collateral venous fow might aid in determining the patients
at risk for post-surgical complications. Identifcation of the
collateral venous circulation is often not possible intra-oper-
atively and pre-operative imaging is recommended. B-mode
abdominal ultrasonography can demonstrate an adrenal mass
and invasion into the caudal vena cava (Figure 1). Te use
of color fow Doppler (Figure 2) can increase the sensitivity
of detection of the collateral blood vessels that are often not
evident on B-mode ultrasonography but the overall sensitiv-
ity is still low (11, 12). Angiography of the caudal vena cava
has been described in dogs with pheochromocytoma to assess
the presence of collateral venous circulation as well as the
presence of non-neoplastic thrombi secondary to abnormal
fow associated with caval wall invasion by the adrenal gland
(13-16).
Angiography can be performed by selective catheteriza-
tion of a vessel or via a non-selective peripheral injection (16,
17). Selective angiography is preferred for arteriograms as
the high concentration of positive contrast medium can be
delivered to the vessels of interest and there is no opacifca-
tion of overlying structures of vessels due to recirculation of
contrast medium. However, this is a more invasive procedure
than non-selective angiography (16). For venography, non-
selective angiography can produce diagnostic images if the
images are acquired quickly, before further opacifcation of
the arteries. Fluoroscopy is preferred when performing an-
giography as the bolus of contrast medium can be observed
in real time and rapid frame images can be obtained in the
process. Digital subtraction can be used to improve image
contrast (18). In this technique, the result is of an image
of the opacifed vessels with only a ghost image of the rest
of the patient (Figure 4 and 5). Tis technique is highly
susceptible to motion artifact so the patient must be suf-
ciently immobilized (18). Although fuoroscopy is preferred,
it is possible to obtain diagnostic angiography images with
radiography but multiple injections and subsequent images
must be required in order to obtain the image at the correct
timing (17, 19).
ANATOMICAL FEATURES
Knowledge of the ferret’s abdominal vascular anatomy is
imperative for proper image evaluation. Variations in blood
supply of the right adrenal gland has been reported in ferrets
(20). In some ferrets, it was found to be supplied by 3 to 5
blood vessels including branches arising from the right renal
artery, the right phrenicoabdominal artery or directly from
the aorta (20). Te phrenicoabdominal veins drain the adrenal
gland into the caudal vena cava (20). Te left phrenicoab-
dominal vein courses ventral and from medial to lateral to
its ipsilateral adrenal gland (3, 4, 6). Te right adrenolumbar
vein courses ventral to the cranial pole of the right adrenal
gland (3). Direct vascular connection from the right adrenal
gland to the caudal vena cava may be present (5).
Figure 1 and 2: Ventrolateral sagittal sonogram of the right adrenal
gland in a male ferret without (Figure 1) and with color Doppler
(Figure 2). Te right adrenal gland is increased in size (white arrows)
with multi hyperechoic foci and invades the vena cava (Figure 2).
Research Articles
Israel Journal of Veterinary Medicine  Vol. 70 (4)  December 2015 33 Imaging of Collateral Caudal Vena Cava in Ferrets
Vessels draining into the caudal vena cava from caudal
to cranial include the common iliac veins, lumbar veins,
deep circumfex iliac veins, right testicular or right ovarian
vein, renal veins, phrenicoabdominal veins, hepatic veins and
phrenic veins (10, 20). Naturally occurring collateral veins in
ferrets have been described branching from the caudal cava
vena before the right adrenal gland through the vertebral
venous sinus to the azygous vein and back to the cranial vena
cava (10). In dogs, after 3 weeks of occlusion of the caudal
vena cava, multiple and tortuous collateral veins were found
arising from the renal capsules, vena cava and iliac veins to
the lumbar veins, vertebral veins and azygous vein (9).
Tis report describes in detail the technique to illustrate
collateral venous fow using fuoroscopy-guided non-selective
angiography using a saphenous vein as a pre-surgical imaging
test for right adrenalectomy in ferrets with adrenocortical
disorder.
STEP-BY-STEP GUIDE TO PERFORM
CONTRAST ANGIOGRAPHY USING
FLUOROSCOPY IN A FERRET
1. Immobilize the patient using standard sedation or anes-
thesia techniques. For example, midazolam (0.25mg/kg
SQ, IM or IV) and butorphanol (0.25 mg/kg SQ, IM)
can be used for proper and safe sedation.
2. Clip the hair over the lateral saphenous vein and prepare
the site aseptically. Place an intravenous catheter in the
lateral saphenous vein. Use the largest gauge catheter that
can be placed to facilitate rapid bolus injection. Ensure
that the catheter is patent by administering a small vol-
ume of heparinized saline. Attach a PRN adapter to the
catheter.
3. Calculate the maximum volume of iodinated contrast
medium that can be administered (1200 mg iodine/kg).
4. Prepare a syringe of iodinated contrast medium with
150 mg iodine in a total volume of 1-2 ml (this will
facilitate repeating the injection several times without
exceeding the maximum recommended dose of iodine).
Te iodinated contrast medium can be diluted with
normal saline.
5. Place the patient in lateral recumbency (Figure 3). Inject a
1-2 ml bolus of diluted iodinated contrast medium via the
preplaced catheter and obtain images at 3-4 frames per
second (fuoroscopy, Figure 4) or while being injected the
last ½ ml of the contrast medium. Repeat this procedure
with the patient in dorsal recumbency (Figure 5).
6. Allow the ferret to recover while providing intravenous
fuid support.
USEFUL TIPS
Placing an intravenous catheter can be challenging, as ferrets’
skin can be relatively thick. A helpful practice is to puncture
the skin with a 20- or 22-gauge needle, avoiding the vein and
then introducing the catheter using the preformed opening
in the skin.
For the injection of the diluted contrast solution, a
23-gauge butterfy catheter or a T-port extension set can be
useful to prevent any displacement of the ferret’s body.
SUMMARY
Contrast angiography in ferrets may provide useful details
of the vasculature of the right adrenal gland and the caudal
vena cava in ferrets with right adrenal gland pathology and
Figure 3: Injection of a bolus of diluted iodinated contrast medium via
an intravenous catheter in the lateral saphenous vein in a male ferret
in lateral recumbency prior to fuoroscopy.
Research Articles
Israel Journal of Veterinary Medicine  Vol. 70 (4)  December 2015 Summa, N. 34
caval involvement. Regarding the potential risks associated
with right adrenalectomy, this imaging technique allows for
a better preoperative evaluation and a better adaptive surgi-
cal plan, thus increasing the likelihood of obtaining a more
favorable outcome for this procedure.
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Israel Journal of Veterinary Medicine  Vol. 70 (4)  December 2015 35 Imaging of Collateral Caudal Vena Cava in Ferrets
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Research Articles

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