Case summary
A 10-year-old male neutered domestic shorthair cat was presented with a 4 month history of slow, progressive swelling and intermittent multifocal bleeding of the distal right forepaw that progressively developed after cephalic vein catheterisation for anaesthesia. The procedure was performed for dental calculus removal. Initial clinical and biopsy (superficial biopsy) findings matched two differential diagnoses: progressive angiomatosis and acquired peripheral arteriovenous fistula (AVF). AVF was suspected based on Doppler ultrasound examination that identified multiple abnormal sinusoidal neoformed branching vessels with turbulent high-velocity flow spectrum at the confluence of the artery and vein, and high-velocity arterialised flow in the vein. Owing to rapid and severe progression of lesions after biopsy, the owner requested amputation of the cat’s limb. A definitive diagnosis of acquired iatrogenic peripheral AVF was based on deep-tissue microscopical evaluation. High numbers of arterioles and venules in superficial and deep dermis embedded in oedematous stroma were connected to dilated and tortuous vessels with irregularly thickened walls in deep dermis and panniculus. Vasculitis and vascular thrombosis and thickening (attributed to local hypertension) were common findings. No bone or muscular invasion were observed. The cat was doing well 3 years after surgery.
Case description
A 10-year-old male neutered domestic shorthair cat presented with a 4 month history of slow, progressive swelling of the distal right (mostly dorsolateral) forepaw. Skin lesions evolved to erosions with intermittent multifocal bleeding. Occasional chewing of the lesions was reported. There was no previous history of traumatic injuries. The owner reported that lesions started to develop 3 weeks after cephalic vein catheterisation for anaesthesia and dental calculus removal.
Bacterial infection was initially suspected; thus, a 15 day course of clindamycin (10 mg/kg q24h PO [Clindacyn; Farmaceutici Gellini]) and a 3 day course of prednisolone (0.5 mg/kg q24h PO [Vetsolone; Bayer]) were administered by the referring veterinarian. No improvement was seen. Antibiotic therapy was discontinued 2 days before referral to the dermatologists. Upon referral, the cat was in general good health, no systemic signs were observed and general physical examination was unremarkable with the exception of skin lesions that consisted of moderate soft tissue swelling of distal right dorsal carpus and foot. The skin had adherent black crusts on the dorsum of the right paw and interdigital spaces (Figure 1). There were no lesions on the ventral aspect of the limb. Bleeding was easily provoked by crust removal. Upon palpation, the affected area was manifestly colder than the corresponding surface on the contralateral limb. No pain, pruritus or lameness were elicited.
Based on clinical history, presentation and lack of response to prior therapy, the list of differential diagnoses included vasculitis/vasculopathy, angiomatosis, a vascular tumour (angioma-angiosarcoma) or an arteriovenous fistula (AVF). Microscopic examination of hair shafts was unremarkable. No parasites or fungal elements were observed, nor were hair shape or cuticular anomalies. Skin scrapings were negative for aetiological agents. Wood’s lamp and fungal culture were negative for dermatophytes.
Cytological samples obtained from swollen soft tissues by fine-needle aspiration air dried and stained with May Grünwald–Giemsa stain were characterised by blood contamination and rare plump spindle cells (<10 cells per sample), interpreted as reactive fibroblasts.
Complete blood cell count and biochemical profiles were unremarkable. Four 4 mm punch biopsies were taken under general anaesthesia (pre-anaesthetic medication: 0.2 mg/kg butorphanol and 3 µg/kg dexmedetomidine IM; anaesthesia: 3 mg/kg propofol IV followed by maintenance with isoflurane) from the distal forelimb at the level of the paw and were immediately fixed in 10% neutral buffered formalin.
Microscopic lesions were similar in all biopsies. Lesions were diffuse, severe and characterised by severe diffuse serocellular crusting. Crusts contained keratin scales, degenerated (karyolytic) neutrophils, serum and erythrocytes. Severe diffuse orthokeratotic hyperkeratosis was present in conjunction with severe diffuse epidermal irregular hyperplasia and multifocal erosions and dermal haemorrhages underneath multifocal epidermal ulcers. Variably severe spongiosis, intercellular oedema and mild neutrophilic exocytosis were visible.
Capillaries in the superficial and mid-dermis were multifocally occluded by fibrin thrombi or were highly reactive with plump endothelial cells with prominent nuclei and thickened walls. Angiogenesis and fibroplasia were diffusely present and variably severe in the superficial and mid-dermis. Fibrinoid and necrotising leukocytoclastic vasculitis was multifocally observed.
In the deep dermis at the limit of one of the four biopsies an increased number of vessels, grouped reactive proliferating capillaries and extensive large irregular vessels were locally present.
Microscopic findings were limited owing to the lack of sufficient deep tissue. Clinical signs at presentation, and gross and microscopic lesions were still compatible either with progressive angiomatosis (PA) or an acquired peripheral AVF and a definitive diagnosis was not considered feasible at this time on microscopic grounds.
Additional clinical evaluations were granted. Ultrasound examination of the forelimb revealed irregular dilation of the cephalic vein with multiple abnormal sinusoidal neoformed branching vessels. Doppler ultrasound revealed a turbulent high-velocity flow spectrum at the confluence of the artery and vein, and high-velocity arterialised flow in the vein.
Following biopsy, the cat worsened rapidly over 2–3 weeks, developing pain and lameness that was unresponsive to anti-inflammatory therapy (meloxicam 0.05 mg/kg PO). There was rapid progression of the lesion proximally, with intense swelling spreading from the right carpus into the antebrachium with intensification of soft tissue swelling.
Local excision was not feasible at this point, thus the owner opted for amputation of the affected limb under general anaesthesia (pre-anaesthetic medication: 0.2 mg/kg methadone and 3 µg/kg dexmedetomidine IM; anaesthesia: 3 mg/kg propofol IV followed by maintenance with isofluorane and infusion of 10 µg/kg/h fentanyl).
Following surgery, the entire leg was fixed in 10% neutral buffered formalin and lesional tissues were sampled. The residual leg was then demineralised in a solution of 10% hydrochloric acid and formic acid for 1 week. Skin and deep tissues were routinely processed and evaluated microscopically.
Microscopic findings were characterised by surface changes similar to those of the initial biopsies. The mid- and deep dermis and panniculus contained abnormally elevated numbers of vessels of various calibre (Figure 2), with dilated and tortuous profiles and with irregularly thickened walls (Figure 3) and multifocally occluded by fibrin thrombi (Figure 4). Vessel calibre and the occasional presence of lamina elastica allowed the identification of arterioles and venules among the proliferation. Deep vessels were also characterised by transmural thickening of the vasculature due to spindle-cell proliferation and collagen deposition (lamination).
The wall of some vessels was characterised by inter- and intracellular oedema and multifocal vascular lumen occlusion. These changes were interpreted as the consequence of hypertension. In adjacent dermis and panniculus, elevated numbers of plump reactive fibroblasts and oedema were diffusely evident. The deep tissues, and tibial and carpal bones were all evaluated at different levels and no lesions were observed.
Follow-up was performed via email with the owner. The cat was clinically normal 3 years after the amputation, with no recurrence of the original lesion or incidence of metastatic disease.
A diagnosis of acquired iatrogenic peripheral AVF was supported by: (1) a history of intravenous cephalic vein catheterisation 15 days prior to the development of a cutaneous and vascular lesion in the same geographical area; (2) ultrasound evidence of abnormal sinusoidal branching vessels with turbulent high-velocity flow spectrum at the confluence of the artery and vein, and high-velocity arterialised flow in the vein in the affected limb; (3) histological findings of the lesion pre- and post-limb amputation; and (4) complete resolution of disease following excision.
Discussion
AVF is an uncommon vascular proliferation derived from the abnormal direct connection between an artery and an adjacent vein circumventing the terminal capillary circulation. In humans, AVFs are generally classified as either congenital or acquired according to their origin, and as either cardiac or extracardiac (peripheral) according to their site of development.1,2
Congenital AVFs result from the persistence of the embryological communication between arteries and veins, while acquired AVFs are not present at birth and are due to pathological events (eg, trauma, vascular inflammation, aneurysm rupture) or iatrogenic procedures (eg, haemodialysis). Cardiac congenital AVFs are linked to a defect of atrial and ventricular septa. Extracardiac congenital AVFs at several anatomical sites, including hepatic, ocular, auricular, spinal and peripheral vascular tissues systems, have been described in humans and animals.123456789101112131415161718192021222324–25
In veterinary medicine, most cases of AVF described are extracardiac and acquired, and have been described in dogs, cats and horses. Acquired AVFs are more frequently reported in the portal and peripheral circulation.1234567–8,121314151617181920212223–24,26
Peripheral AVF of skin and subcutaneous tissues has been most commonly described following trauma (bites, blunt trauma, wounds) or tumour development.1,2,181920–21 The most frequent iatrogenic cause of AVF in human patients is the surgical anastomosis between an artery and a vein created as vascular access for haemodialysis. In veterinary medicine, underlying factors in AVF formation include venepuncture, catheterisation, injection of irritant medications, repeated blood collection in canine blood donors and surgery (eg, feline declawing).1,2,14,22
In the present case, AVF was classified as acquired and peripheral. The AVF developed 3 weeks after an iatrogenic procedure consisting of cephalic vein cannulation for general anaesthesia, and affected the dorsum of the right paw and interdigital spaces. This case closely resembles reports of AVF developing in human dialysis patients and, to our knowledge, is the first description of an AVF developing after venous catheterisation in a cat.
Acquired AVFs cause localised hypertension, volume overload and turbulent blood flow associated with the direct connection of arterial and venous flows. Shear stress activates vascular remodelling with development of a collateral circulation characterised by progressive increase of the number and size of anastomotic vessels.1,2,27 The newly formed vessel network often provides an inadequate blood supply with additional abnormalities, including oedema, misshapen vessels and haemorrhage, with swelling of tissues distal to the AVF. Clinical signs are variable depending on location and severity of lesions.
Most common skin lesions in AVF-affected limbs are moderate-to-severe oedema, cyanosis and hypothermia of the area distal to the vascular abnormality. Often, crusts and ulcers are present, provoking lameness and pain. Sometimes a pulsating thrill associated with a continuous murmur can be detected in the AVF area. Furthermore, compression of the proximal artery may induce bradycardia (Nicoladoni–Israel–Branham sign).1,2,13,14,18
In the present case, the cat had no systemic signs and blood tests were unremarkable. Skin lesions, including swelling, non-healing ulcers and thick crusts on the dorsal aspect of the right paw and interdigital spaces, were highly suggestive of AVF. No lesions were observed on the ventral surface. Murmur was not detected at auscultation over the vascular anomaly and Nicoladoni–Israel–Branham sign was negative.
Diagnosis of AVF is based on traditional angiography with contrast media, fluoroscopic angiography, Doppler ultrasound, contrast-enhanced CT and MRI, and, recently, continuous-wave acoustic Doppler examination.1213–14,17,21,23,24,27,28
In this cat, Doppler evaluation was preferred to invasive procedures (angiography/fluoroscopy) or to more expensive ones (CT and MRI) requiring general anaesthesia, to avoid additional catheterisation and owing to the owner’s financial constraints. Ultrasound examination of the forelimb revealed irregular dilation of the cephalic vein with multiple abnormal sinusoidal neoformed branching vessels. Doppler ultrasound revealed a turbulent high-velocity flow spectrum at the confluence of the artery and vein, and high-velocity arterialised flow in the vein.
The differential diagnoses of AVF include vascular aberrations (angiomatosis, venous thrombosis, embolism, aneurysm), vascular tumours (angiosarcoma, haemangioma/haemangiosarcoma, lymphangioma/lymphangiosarcoma), inflammatory or infectious diseases (eg, crushing or penetrating wounds), lymphoedema, and Klippel–Trenaunay-like syndrome (vascular proliferation secondary to deep lymphatic hypoplasia). The only major differential diagnosis following gross clinical and microscopical findings was PA. PA is aggressive with progressive growth resulting in soft tissue destruction and phalangeal bone lysis. Histopathology is characterised by a central cavernous vessel surrounded by small, capillary-type vascular structures. In some cases, large- or medium-sized vessels invade dermis and subcutaneous tissue. Vessels may resemble capillaries or may be accompanied by smooth muscle and fibrous tissue, creating vascular structures that resemble small arterioles and veins. These latter lesions are referred to as arteriovenous angiomatosis.29
AVFs, as seen in our case, do not progress rapidly, do not invade deep tissues and are characterised by increased numbers of thin-walled and grouped, small vascular structures resembling venules and arterioles in superficial-to-deep dermis. Proliferation is associated with acute vessel injury (fibrinoid hyaline deposits, pyknotic nuclear fragments, vascular necrosis, haemorrhage, luminal thrombosis) but lack hard-tissue invasion.1,2 The most common form of treatment of AVF in human medicine is endovascular embolisation, and only one case has been treated similarly in a cat. A catheter is inserted into an artery and guided by imaging towards the AVF site. Here, an embolic agent (eg, coils, glues, balloons) is injected to close the abnormal vascular connection. Embolisation can be unsuccessful owing to incomplete occlusion or complications (eg, bleeding, infection, allergic reactions). Another option, most common in veterinary medicine, is the surgical resection of AVF with or without vessel reconstruction. The type of surgery depends on the extension and location of AVF.121314151617–18,20212223–24,30,31
Prognosis of AVF depends on the size and location of vessels involved. In the present case amputation was considered the optimal and resolutive treatment option because of the location and the extent of the vascular damage, and the systemic signs (pain and lameness) unresponsive to medical treatment. AVF excision with angioplasty or embolisation were considered not possible owing to the extensive vascular network.
Conclusions
This case report describes an iatrogenic acquired peripheral AVF in a middle-aged cat following cephalic vein intravenous catheterisation. The diagnosis of AVF was well characterised by clinical findings, ultrasound imaging and histopathology. Treatment via amputation of the affected limb was curative.
References
Notes
[2] Conflicts of interest The authors declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.
[3] Financial disclosure The authors received no financial support for the research, authorship, and/or publication of this article.
[4] Lisa Graziano https://orcid.org/0000-0001-7553-5120