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Abstract

Objective

To study the effect of sclerosant concentration, use of 5-µm filter, use of CO₂ versus air and needle size on the stability of sodium tetradecyl sulphate (STS) foam and observe the dynamics of liquid reformation from foam within the syringe prior to injection.

Method

Observations of liquid reformation within the syringe following foam preparation using the Tessari method.

Result

Foam stability varies little with STS concentration between 0.5% and 3%. Needle size has little effect in this study. An in-line filter produces significantly more stable foam, and CO₂ foam is significantly less stable than air foam. Liquid reformation is predictable and does not progress at a constant rate.

Conclusion

Regardless of the method and details of the foam produced, sclerotherapists should be aware of the dynamics and speed of foam degradation, and reconstitute foam at the first sign of liquid reformation, as this heralds the onset of rapid degradation of the foam. This is particularly relevant for rapidly deteriorating foam produced from CO₂, or without the use of a filter.

Keywords

sclerotherapy foam sodium tetradecyl sulphate sclerosant

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References

Cavezzi

, Tessari

. Foam sclerotherapy techniques: different gases and methods of preparation, catheter versus direct injection. Phlebology 2009;24:247–51

Myers

, Roberts

. Evaluation of published reports of foam sclerotherapy: what do we know conclusively? Phlebology 2009;24:275–80

History and today practice in foam sclerosant foam preparation. See www.cavezzi.it (last accessed 30 January 2011)

Rao

, Goldman

. Stability of foam in sclerotherapy: differences between sodium tetradecyl sulfate and polidocanol and the type of connector used in the double-syringe system technique. Dermatol Surg 2005;31:19–22

Lai

, Goldman

. Does the relative silicone content of different syringes affect the stability of foam in sclerotherapy? J Drugs Dermatol 2008;7:399–400

Tessari

, Cavezzi

, Frullini

. Preliminary experience with a new sclerosing foam in the treatment of varicose veins. Dermatol Surg 2001;27:58–60

Hill

. Comparison of foam stability by foam composition. Phlebology 2008;24:86

Myers

, Fris

, Jolley

. Treatment of varicose veins by endovenous laser therapy: assessment of results by ultrasound surveillance. Med J Aust 2006;185:199–202

Morrison

. Ultrasound-guided foam sclerotherapy: safety and efficacy. Phlebology 2009;24:239

10.

Shirazi

, Goldman

. The use of a 5-microm filter hub increases foam stability when using the double-syringe technique. Dermatol Surg 2008;34:91–2

11.

Tessari

LCA

, Rosso

, Cabrera Garrido

. Variables in foam sclerotherapy: literature and experimental data. ANZ J Phlebol 2008;11:83–4

12.

Parsi

, Exner

, Connor

, Herbert

, Ma

, Joseph

. The lytic effects of detergent sclerosants on erythrocytes, platelets, endothelial cells and microparticles are attenuated by albumin and other plasma components in vitro . Eur J Vasc Endovasc Surg 2008;36:216–23

Sodium tetradecyl sulphate foam stability prior to injection: factors affecting liquid reformation

Abstract

Objective

Method

Result

Conclusion

Keywords

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References