Othmar Wess scite author profile

We treated nine patients with functioning gallbladders containing one to three symptomatic radiolucent stones not larger than 25 mm in diameter, as well as five patients with stones in the common bile duct that were not removable by endoscopic procedures, by means of extracorporeally generated shock waves during general anesthesia. The patients with gallbladder stones received adjuvant treatment with a combination of ursodeoxycholic acid and chenodeoxycholic acid. All gallbladder stones were disintegrated into sludge or fragments with diameters of no more than 8 mm. In six of the nine patients the fragments disappeared completely within 1 to 25 weeks. No adverse effects were detected during a follow-up period of 10 to 34 weeks, except transient biliary pain in two patients, with mild pancreatitis in one. In four of the five patients with common-bile-duct stones, shock-wave treatment permitted stone disintegration and successful endoscopic extraction or spontaneous passage of fragments. We conclude that gallstone disease may be treated successfully and without serious adverse effects by extracorporeally generated shock waves in selected patients.

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A neural model for chronic pain and pain relief by extracorporeal shock wave treatment

Wess

2008

Urol Res

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The paper develops a new theory of chronic pain and pain relief by extracorporeal shock wave treatment. Chronic pain without underlying anatomical disorder is looked at as a pathological control function of memory. Conditioned reXexes are considered to be engraved memory traces linking sensory input of aVerent signals with motor response of eVerent signals. This feature can be described by associative memory functions of the nervous system. Some conditioned reXexes may cause inappropriate or pathological reactions. Consequently, a circulus vitiosus of pain sensation and muscle and/or vessel contraction is generated when pain becomes chronic (pain spiral). The key feature is a dedicated engram responsible for a pathological (painful) reaction. The pain memory may be explained by the concept of a holographic memory model published by several authors. According to this model it is shown how nervous systems may generate and recall memory contents. The paper shows how extracorporeal shock wave treatment may reorganize pathologic memory traces, thus giving cause to real and permanent pain relief. In a generalized manner, the idea of associative memory functions may help in the understanding of conditioning as a learning process and explain extracorporeal shock wave application as an eYcient treatment concept for chronic pain. This concept may open the door for new treatment approaches to chronic pain and several other disorders of the nervous system.

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Fragmentation of Gallstones by Extracorporeal Shock Waves

Sauerbruch

Delius

Paumgartner

et al. 1987

Survey of Anesthesiology

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Physics and Technique of Shock Wave Lithotripsy (SWL)

Wess

2012

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Othmar Wess

Shock-Wave Lithotripsy of Gallbladder Stones

Fragmentation of Gallstones by Extracorporeal Shock Waves

A neural model for chronic pain and pain relief by extracorporeal shock wave treatment

Fragmentation of Gallstones by Extracorporeal Shock Waves

Physics and Technique of Shock Wave Lithotripsy (SWL)

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