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The Canine Transmissible Venereal Tumor: Etiology, Pathology, Diagnosis and
Treatment
Article · January 2005
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and Linde-Forsberg C. (Eds.). International Veterinary Information Service, Ithaca NY
(www.ivis.org), 25-Apr-2005; A1233.0405
The Canine Transmissible Venereal Tumor: Etiology, Pathology, Diagnosis and
Treatment
M. I. Mello Martins 1 , F. Ferreira de Souza 2 and C. Gobello 3
1,2 Laboratory of Small and Exotic Animal Reproduction, Department of Animal Reproduction and Veterinary Radiology,
Faculty of Veterinary Medicine and Animal Science, UNESP Botucatu, Botucatu, Brazil. 1 Department of Veterinary
Clinics, University of Londrina State (UEL), Londrina, Brazil. 3 Faculty of Veterinary Science, National University of La
Plata, La Plata, Buenos Aires, Argentina.
Introduction
Transmissible venereal tumor (TVT), also known as infectious sarcoma, venereal granuloma, transmissible lymphosarcoma
or Sticker tumor, is a benign reticuloendothelial tumor of the dog that mainly affects the external genitalia (Fig. 1 and Fig.
2) and occasionally the internal genitalia (Fig. 3a, Fig. 3b, and Fig. 3c). As it is usually transmitted during coitus [1] it
mainly occurs in young, sexually mature animals [2]. TVT also affects wild canids [3]. Transmissible venereal tumor cells
contain an abnormal number of chromosomes ranging from 57 to 64 and averaging 59, in contrast to the normal 78 of the
species. Surface antigen characteristics suggest that all TVTs arose from a single original canine tumor [2]. The capacity of
immunologic response of the host has a main role in the expansion of such tumors [4] with an increase in severity seen in
immunologically compromised animals.
Figure 1. A cauliflower like transmissible venereal tumor protruding from the vulva in a 4 year old
crossbreed bitch. - To view this image in full size go to the IVIS website at www.ivis.org . -
Figure 2. Transmissible venereal tumor on the glands penis of a 6 year old, crossbreed dog. - To view
this image in full size go to the IVIS website at www.ivis.org . -
Figure 3a. Transmissible venereal tumor in the cranial vagina of a 3 year old, crossbreed bitch.
Abdominal radiography showing a mass. - To view this image in full size go to the IVIS website at
www.ivis.org . -
Figure 3b. Transmissible venereal tumor in the cranial vagina of a 3 year old, crossbreed bitch. During
the surgery. - To view this image in full size go to the IVIS website at www.ivis.org . -
Figure 3c. Transmissible venereal tumor in the cranial vagina of a 3 year old, crossbreed bitch.
Excised genital tract. - To view this image in full size go to the IVIS website at www.ivis.org . -
Although TVT has a cosmopolitan distribution, it is most frequently encountered in tropical and subtropical zones [2]. In
South America it is commonly found in urban areas with large populations of free-roaming dogs. The current review is
based on the experience of the authors in Brazil and Argentina, and on relevant publications [1-44].
Etiopathology
Canine TVT was initially described by Novinsky in 1876, who demonstrated that the tumor could be transplanted from one
susceptible host to another by inoculating it with tumoral cells [5]. Cytoplasmatic inclusions found in the tumoral cells
caused this neoplasia to be attributed to a viral agent by some authors [6], although the tumor could not consistently be
transmitted by cell free extracts [1].
Presently, the consensus view is that TVT arise from allogenic cellular transplants [5] and that the abnormal cells of the
neoplasm are the vectors of transmission. The exfoliation and transplantation of neoplastic cells during physical contact
provide the main mode of transmission onto genital mucosa, and also onto nasal or oral mucosa, during mating or licking
of affected genitalia, respectively [7,8]. The implantation of the tumor is facilitated by the presence of any mucosal lesion
or by the loss of mucosal integrity [9].
The tumor growth appears 15 to 60 days after implantation. TVTs can either grow slowly and unpredictably for years or be
invasive and eventually become malignant and metastasize [10,11]. TVTs are immunogenic tumors, and it has been
demonstrated that the immune system of the host has a main role in inhibiting tumor growth and metastasis [4,7]. In young
dogs or dogs with a compromised immune system, tumors may have a greater tendency to metastasize [12]. In one study
metastases were more frequent in males (16%) than in females (2%) [44]. Metastases have been reported in less than 5 - 17
% of cases [2,5]. They have been described in subcutaneous tissue, skin, lymph nodes, eyes, tonsils, liver, spleen, oral
mucosa, hypophysis, peritoneum, brain, and bone marrow [11,13-16] (Fig. 4 and Fig. 5). Extragenital lesions have been
reported to occur both in isolation and in association with the genital lesions [5]. However, one report suggests that most if
not all instances are secondary to genital lesions in that in over 500 cases neoplastic foci on genitalia could always be
detected in cases where extragenital lesions were present [44]. Although, spontaneous remission has been described in
experimental transplantation it has not been confirmed in natural cases [5,9].
Figure 4. Penile transmissible venereal tumor with inguinal lymphoid node metastasis. - To view this
image in full size go to the IVIS website at www.ivis.org . -
Figure 5. Transmissible venereal tumor protruding through anus (top) and vulva (below) in a 2 year
old, crossbreed bitch. - To view this image in full size go to the IVIS website at www.ivis.org . -
Immunological studies have demonstrated that the tumor is transplanted through barriers of main histocompatibility
complexes (MHC) [17]. Immunocomplexes have been found in serum samples of dogs with TVT [18]. Tumor cells in the
rapid growth phase do not express type I and II MHC antigens, while 30% to 40% of cells in the initial regression phase
express both antigens. This difference may be responsible for the additional immune response of the host, accelerating the
regression of the tumor [12,17].
Differences in cell types have also been found between stages of tumor progression. Tumors in progressive growth have
round cells with microvilli while regressing tumors present transitional rather fusiform cells. Moreover, regressing tumors
have a high number of T lymphocytes [19,20]. It is thought that substances secreted by the lymphocyte infiltrate are
responsible for the tumor’s regression by inducing cellular differentiation [12,20,21].
Gross and Microscopic Characteristics
Small pink to red, 1 mm to 3 mm diameter nodules can be observed 2 or 3 weeks after transplantation. Initial lesions are
superficial dermoepidermal or pedunculated. Then, multiple nodules fuse together forming larger, red, hemorrhagic,
cauliflower-like, friable masses. The masses can be 5 cm to 7 cm in diameter which then progress deeper into the mucosa
as multilobular subcutaneous lesions with diameters that can exceed 10 - 15 cm. Tumors bleed easily and while becoming
larger, normally ulcerate and become contaminated [22].
Cytological examination reveals the typical round to slightly polyhedral cells, with rather eosinophilic vacuolated thin
cytoplasm and a round hyperchromatic nucleus with a nucleolus and a moderate number of mitotic figures [23]. The
nucleus to cytoplasmic ratio is large (Fig. 6a and Fig. 6b).
Figure 6a. Transmissible venereal tumor cells. Nuclear pleomorphism, chromatin condensation and
cytoplasmatic vacuoles. - To view this image in full size go to the IVIS website at www.ivis.org . -
Figure 6b. Canine transmissible venereal tumor cells. Note the mitotic activity in the cell near the
center of the image, as evidenced by the irregular shaped nuclear material which appears to be in
mitotic prophase or metaphase. - To view this image in full size go to the IVIS website at
www.ivis.org . Histologically, TVTs are made up of a homogenous tissue with a compact mass of cells that are mesenchymal in origin and
the borders of which cannot easily be differentiated [2,5,24]. There is frequently an infiltration of lymphocytes, plasma
cells and macrophages [25]. TVTs should be differentiated from mastocytomas, histiocytomas or malignant lymphomas
[5].
Diagnosis
Clinical signs vary according to the localization of the tumors. Dogs with genital localization have a hemorrhagic
discharge. In males, lesions usually localize cranially on the glans penis, on preputial mucosa or on the bulbus glandis.
Tumoral masses often protrude from the prepuce [26] and phimosis can be a complication [30]. The discharge can be
confused with urethritis, cystitis, or prostatitis [2]. The involvement of regional lymph nodes is frequent in males with large
tumors.
In bitches the tumors are of similar gross appearance as in male dogs and can be localized in the vestibule and/or caudal
vagina, protruding from the vulva and frequently causing a deformation of the perineal region. Only very rarely, however,
do they interfere with micturition. A considerable hemorrhagic vulvar discharge may occur and can cause anemia if it
persists. The discharge can attract males and the condition of the bitch can be mistaken for estrus by the owners.
Infrequently, TVTs can localize in the uterus [22].
In cases with extra genital localization of the TVT, clinical diagnosis is usually more difficult because TVTs cause a
variety of signs depending on the anatomical localization of the tumor, e.g., sneezing, epistaxis, epiphora, halitosis and
tooth loss, exophthalmos, skin bumps, facial or oral deformation along with regional lymph node enlargement [2].
Definitive diagnosis is based on physical examination and cytological findings typical of TVT in exfoliated cells obtained
by swabs, fine needle aspirations or imprints of the tumors [5,11,27].
Treatment
Several treatments including surgery, radiotherapy, immunotherapy, biotherapy and chemotherapy have been applied for
TVT. Surgery has been used extensively for the treatment of small, localized TVTs, although the recurrence rate can be as
high as 50 - 68% in cases of large invasive tumors [2,24,28,29]. Contamination of the surgical site with TVT cells is also a
source of recurrence [44]. Transmissible venereal tumors are radiosensitive and orthovoltage as well as cobalt have been
used for this purpose [2,9,30].
Biotherapy studies have also been reported. The intratumoral application of Calmette-Guérin's bacillus (BCG) was used for
three weeks with sporadic success [8]. Recurrences have been described after immunotherapy using Staphylococcus protein
A, BCG or a vaccine made from tumoral cells [2,42]. Biotherapy has unfortunately also resulted in a high rate of recurrence
[5,9,42].
Chemotherapy has been shown to be the most effective and practical therapy, with vincristine sulfate being the most
frequently used drug [31]. Vincristine (Oncovin®, Lily), is administered weekly at a dose of 0.5 to 0.7 mg/m 2 of body
surface area or 0.025 mg/kg, IV [7,24]. The involution of the lesions is gradual, although it is particularly noticeable and
significant at the beginning of the treatment. Complete remission usually takes 2 to 8 injections [27,31] and occurs in more
than 90% of the treated cases (unpublished observation). A cure rate approaching 100% is achieved in cases treated in the
initial stages of progression, especially in cases of less than 1 year duration, and independent of the presence or not of
metastases [44]. In cases of longer duration, longer periods of therapy are required, and the cure rate is lower [44]. Side
effects can be expected.
Cytostatic agents, such as vincristine, can cause myelosuppression and gastrointestinal effects resulting in leukopenia and
vomiting in 5 to 7% of the patients. Paresis has also been described as a side effect due to peripheral neuropathy [31,32]. A
complete white blood cell count is, therefore, recommended prior to each administration. When the white blood cell count
is below 4,000 mm 3 further administration should be delayed 3 to 4 days and the dose of vincristine can be reduced to 25%
of the initial dose [1]. The most frequent complication of vincristine treatment is the occurrence of local tissue lesions
caused by extravasation of the drug during IV application resulting in the development of necrotic lesions with crusts (Fig.
7a and Fig. 7b).
Figure 7a. Necrotic skin lesion caused by perivascular leakage of vincristine sulfate. Seven days after
application. - To view this image in full size go to the IVIS website at www.ivis.org . -
Figure 7b. Necrotic skin lesion caused by perivascular leakage of vincristine sulfate. Fifteen days after
application. - To view this image in full size go to the IVIS website at www.ivis.org . -
Other chemotherapeutic agents indicated for TVT treatment include cyclophosphamide (5 mg/kg, PO, for 10 days as a
single drug therapy or given in association with prednisolone, 3 mg/kg, for 5 days); also, weekly vinblastine (0.1 mg/kg, IV
during 4 to 6 weeks), methotrexate (0.1 mg/kg, PO, every other day) or a combination of the 3 drugs. However, there is no
apparent advantage in the combination of chemotherapy over using vincristine alone [5,9,13,21].
Resistant cases can be treated with doxorubicin (Adriamycin®, Adria Lab, 30 mg/m 2 , IV, with 3 applications every 21
days) [5,43]. When total disappearance of the tumor cannot be achieved by chemotherapy, electro-cauterization or cryocauterization can be useful [2,9]. After therapy, small remnant lesions can disappear spontaneously after 1 or 2 weeks
(unpublished observations). In cases that fail to resolve with chemotherapy, radiotherapy has been reported to yield good
results [44].
Effects of Vincristine Treatment on Spermatogenesis
Spermatogenesis can be temporarilly or permanently altered by the administration of cytotoxic drugs [33,34]. Drug-altered
spermatogenesis may not return to normal for one or more spermatic cycles [35]. It is known that vincristine reduces
human fertility [30]. Studies in laboratory animals have shown that vincristine damages the DNA of germ cells thereby
reducing the rate of development of these cells [36]. Vincristine can cause cytoplasmic protein precipitation, which in turn
interferes with microtubule formation [33]. Little information is available on the long-term effects of vincristine on male
dog fertility and most of the studies only have described semen quality during treatment [30,37].
In one study, 8 mature dogs were unilaterally orchidectomized and treated with vincristine 0.025 mg/kg given
intravenously for 7 weeks. Then the remaining testis was excised. Histological evaluation on both testes revealed mild to
moderate degeneration in the second testicle [34]. In the same study, semen was collected from 6 male dogs before, during
and for up to 120 days after the same therapeutic protocol. An increase in sperm mid-piece and tail abnormalities, decrease
in sperm motility and decrease in sperm concentration were found between weeks 2 to 4, 3 to 4 and 9 to 11, respectively,
after the beginning of the treatment [34].
In another report in which a German shepherd was given vincristine sulphate 0.025 mg/kg intravenously for 3 weeks,
treatment caused high teratozoospermia and total asthenozoospermia with unchanged libido, during 4 weeks of evaluation
[37].
In a third study, 17 mature dogs were observed during vincristine treatment (0.6 mg/m 2 per week for 4 weeks) during
which complete regression of the tumors was achieved. Semen was evaluated before the beginning of the treatment, 3 days
after each injection and 15 days after the last injection. Semen quality transiently deteriorated during the treatment but had
returned to normal by 15 days after the last injection. The dogs had a normal GnRH response after each semen collection
and retained normal libido during and after treatment [38]. This would appear to have been an epidydimal effect of the drug
treatment.
Considering that in dogs spermatogenesis takes approximately 62 days, and the transport through the epididymis requires
15 days [39,40], long-term studies are required to define the effect of vincristine on semen quality and its effect on the
fertility of stud dogs. A recent study described the effect of vincristine in a male Boxer with a genital TVT. The dog was
and treated with vincristine intravenously at 0.5 - 0.7 mg/m 2 of body surface area per week for 6 weeks and until complete
regression of the tumor. Libido, testicular size and consistency were not altered either during or after treatment. Total
sperm count decreased to low values (<200 x10 6 ), during weeks 4 and 5 and then increased to higher than pre-treatment
values (440 x10 6 ). Percentages of progressive motility and morphological abnormalities remained within normal range and
the dog sired a normal litter within one year after treatment [41]. Such results show that gonadal response to treatment
varies among individuals.
Conclusions
TVT is the most prevalent neoplasia of the external genitalia of the dog in tropical and sub-tropical areas. The most
frequent owner’s complaint is the hemorrhagic discharge. Diagnosis is based on typical physical and cytological findings.
Weekly IV vincristine administration has been shown to be the most effective and practical therapy. Further experimental
studies, carried out in larger groups of dogs, are necessary to investigate the changes in semen quality during vincristine
treatment, and its long term effects on spermatogenesis and fertility. Until sufficient information on fertility effects
becomes available, clinicians and owners must balance the potential benefits to the patient and the interest in using the
animal for breeding.
Acknowledgements
The authors thank Prof. Dr. Constantin Boscos (Clinic of Obstetrics and Artificial Insemination, Faculty of Veterinary
Medicine, Aristotle University of Thessaloniki, Thessaloniki, Greece), for access to unpublished information on TVT and
the text of his presentation on CVT at the 2004 WSAVA Congress in Rhodes, Greece [44].
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