J. Hosaka et al., Placement of a spring filter during interventional treatment of deep venous thrombosis to reduce the risk of pulmonary embolism, ACT RADIOL, 40(5), 1999, pp. 545-551
Purpose: To assess the efficacy of the Spring filter during interventional
treatment of deep venous thrombosis in vivo.
Material and Methods: A model of inferior vena cava thrombosis was used. Pa
rt I: The thrombus was treated by the pulse-spray technique (PT) (urokinase
250,000 IU; n = 7) or a rotatory basket catheter, Thrombolizer (MT) (activ
ated with compressed air at 7 atm; n = 5). Part II: Following placement of
a Spring filter, the animal underwent PT (n = 5) or MT (n = 5). Based on th
e results of part I, the treatment protocol was modified (PT, urokinase 500
,000 IU; MT, compressed air at 8 atm). Embolus volumes trapped by the filte
r and found in the lungs were calculated and the filtering efficacy quantif
ied.
Results: Part I: Pulmonary emboli (1 to 4 mm in diameter) were observed in
3 animals in the PT group and 1 animal in the MT group, respectively. Media
n reduction in thrombus volume was 21% and 4% by PT and MT, respectively. P
art II: In the PT group, 58% and 100% of the total embolus load was trapped
in 2 animals, while the filter failed to trap emboli (1 to 1.5 mm in diame
ter) in 1 animal. In the remaining 2 animals, no embolus was found trapped
by the filter or in the lungs. In the MT group, 55-97% (median 83%) of the
embolus load was trapped. Emboli found in the lungs did not exceed 4 mm in
diameter.
Conclusion. Preceding interventional treatment of venous thrombosis with pl
acement of the Spring filter reduced the embolic burden on the lungs.