CONTEXT: Laser treatment of benign prostatic obstruction (BPO) has become more prevalent in recent years. Although multiple surgical approaches exist, there is confusion about laser-tissue interaction, especially in terms of physical aspects and with respect to the optimal treatment modality. OBJECTIVE: To compare available laser systems with respect to physical fundamentals and to discuss the similarities and differences among introduced laser devices. EVIDENCE ACQUISITION: The paper is based on the second expert meeting on the laser treatment of BPO organised by the European Association of Urology Section of Uro-Technology. A systematic literature search was also carried out to cover the topic of laser treatment of BPO extensively. EVIDENCE SYNTHESIS: The principles of generation of laser radiation, laser fibre construction, the types of energy emission, and laser-tissue interaction are discussed in detail for the laser systems used in the treatment of BPO. The most relevant laser systems are compared and their physical properties discussed in depth. CONCLUSIONS: Laser treatment of BPO is gaining widespread acceptance. Detailed knowledge of the physical principles allows the surgeon to discriminate between available laser systems and their possible pitfalls to guarantee high safety levels for the patient.
CONTEXT: Laser treatment of benign prostatic obstruction (BPO) has become more prevalent in recent years. Although multiple surgical approaches exist, there is confusion about laser-tissue interaction, especially in terms of physical aspects and with respect to the optimal treatment modality. OBJECTIVE: To compare available laser systems with respect to physical fundamentals and to discuss the similarities and differences among introduced laser devices. EVIDENCE ACQUISITION: The paper is based on the second expert meeting on the laser treatment of BPO organised by the European Association of Urology Section of Uro-Technology. A systematic literature search was also carried out to cover the topic of laser treatment of BPO extensively. EVIDENCE SYNTHESIS: The principles of generation of laser radiation, laser fibre construction, the types of energy emission, and laser-tissue interaction are discussed in detail for the laser systems used in the treatment of BPO. The most relevant laser systems are compared and their physical properties discussed in depth. CONCLUSIONS: Laser treatment of BPO is gaining widespread acceptance. Detailed knowledge of the physical principles allows the surgeon to discriminate between available laser systems and their possible pitfalls to guarantee high safety levels for the patient.
Authors: T Bschleipfer; T Bach; R Berges; K Dreikorn; C Gratzke; S Madersbacher; M-S Michel; R Muschter; M Oelke; O Reich; C Tschuschke; K Höfner Journal: Urologe A Date: 2016-02 Impact factor: 0.639
Authors: Lukas Lusuardi; Michael Mitterberger; Stephan Hruby; Thomas Kunit; Birgit Kloss; Paul F Engelhardt; Manuela Sieberer; Günter Janetschek Journal: World J Urol Date: 2014-05-24 Impact factor: 4.226
Authors: Christopher Netsch; M Stoehrer; M Brüning; A Gabuev; T Bach; T R W Herrmann; A J Gross Journal: World J Urol Date: 2013-05-09 Impact factor: 4.226
Authors: Mark Taratkin; Christopher Netsch; Dmitry Enikeev; Andreas J Gross; Thomas R W Herrmann; Dmitry Korolev; Ekaterina Laukhtina; Petr Glybochko; Benedikt Becker Journal: World J Urol Date: 2020-06-30 Impact factor: 4.226
Authors: Mario W Kramer; Jens J Rassweiler; Jan Klein; Alexey Martov; Nikolay Baykov; Lukas Lusuardi; Günter Janetschek; Rodolfo Hurle; Mathias Wolters; Mahmoud Abbas; Christoph A von Klot; Armin Leitenberger; Markus Riedl; Udo Nagele; Axel S Merseburger; Markus A Kuczyk; Marko Babjuk; Thomas R W Herrmann Journal: World J Urol Date: 2015-04-25 Impact factor: 4.226