Effects of Oral Stanozolol Administration on Tracheal Collapse of Dog
WSAVA 2002 Congress
*Maurizio Dondi, Ezio Bianchi, Roberta Saleri, Fausto Quintavalla
*Animal Health Department - Section of Internal Medicine - University of Parma
Parma, IT


Tracheal collapse (TC) is a respiratory distress syndrome common in toy and miniature dog breeds. It is characterized by a typical chronic cough, dyspnea and tachypnea. The progressive worsening of the disease leads to hypoxia and episodical syncope. Little is known about the causes of TC, even if a multifactorial aetiology was identified. A recent pathogenetic hypothesis points to the dystrophy of the cartilage rings and of the fibro-muscular structures as a possible cause of the disease. The aim of this study was to evaluate the therapeutic benefits of a daily administration of low doses of Stanozolol, androgen with anti-dystrophic properties, in subjects with different tracheal collapse gravity.


A total of 13 toy breed dogs affected by tracheal collapse were included in our study. The diagnosis of TC was based on 1) relevant historical data 2) clinical findings 3) thoracic radiographs. Complete blood count and plasma biochemical profile were performed to evaluate the general health status and the presence of possible exclusion criteria (cardiovascular, hepatobiliary and renal diseases, pregnancy, current pharmacological therapies). According to Tangner and Hobson classification (1982) we identified for all animals the degree class of TC and we establish a direct correlation with the clinical score (CS). Stanozolol (Stargate® cpr, ACME®, Italy) 0.3 mg/Kg was administered orally once daily for two months. Dogs were examined at day 0 and then at day 60. The main parameter considered was the changes in CS during therapy. Statistical analysis of outcomes was performed by the non parametric Wilcoxon matched-pairs signed-ranks test and by the Sign Test. P<0.05 was considered significant.


The treatment elicited an improvement of CS in all the animals, with a complete recovery in 8 out of 13 dogs. In particular, the resulted series of paired values of CS and the respective improvement degree for each dog were: 1*(3**,0***)=+3****; 2(3,1)=+2; 3(3,1)=+2; 4(1,0)=+1; 5(1,0)=+1; 6(1,0)=+1; 7(2,0)=+2; 8(2,0)=+2; 9(2,0)=+2; 10(3,1)=+2; 11(3,2)=+1; 12(1,0)=+1; 13(1,0)=+1 [*= dog identification number; **= Clinical Score at day 0; ***= Clinical Score at day 60; ****= degree improvement]. Statistical analysis showed significant differences (p<0.001) of the clinical score comparing values before and after treatment. No alterations of hepatic function and of the sexual secondary characters were found.


Our results underline a significant reduction of the clinical scores in response to Stanozolol therapy. Stanozolol is a synthetic androgen derived from testosterone; however stanozolol shows a higher affinity for the glucocorticoid receptors than for those of the androgens. The glucocorticoid receptor block is carried out for low Stanozolol doses and it reduces the tissue catabolic activity. In vitro studies show a clear positive effect of Stanozolol on collagen synthesis in fibroblastic cell cultures: this action is mediated by an increase in the synthesis of the cytokine TGFß-1. In particular, TGFß-1 is involved in the proliferation of chondrocytes and in the deposition of extracellular matrix. We may hypothesize that the benefic action of Stanozolol in the CT therapy is induced by an increase in TGFß-1 synthesis by tracheal chondrocytes and fibroblasts.

Speaker Information
(click the speaker's name to view other papers and abstracts submitted by this speaker)

Ezio Bianchi
Animal Health Department - Section of Internal Medicine - University of Parma

Fausto Quintavalla
Animal Health Department - Section of Internal Medicine - University of Parma

Maurizio Dondi
Animal Health Department - Section of Internal Medicine - University of Parma
Via del Taglio, 8
Parma, Parma 43100 IT

Roberta Saleri
Department of Animal Prod, Vet Biotech, Quality and Food Safety, Section of Veterinary Physiology - University of Parma

MAIN : : Oral Stanozolol: Tracheal Collapse
Powered By VIN