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Features & Benefits

Versatile probe portfolio with various burn patterns, needle lengths and stiffnesses
NEUWAVE PR probes with distal energy control, NEUWAVE LK and LN probes for large single-probe ablations, minimally invasive 17 gauge probes and NEUWAVE XT probes with a stiffer shaft for difficult probe placements.

Help protect non-target tissue with the NEUWAVE™ PR Probe
For lesions in challenging locations where non-target tissue or structures need to be protected. The NEUWAVE PR Probe is the only probe that offers distal energy control for precise, controlled ablations with a limited distance past the tip and limited ablation length to help protect non-target tissue.

Address larger lesions with multi-probe synchrony
Activate 2-3 probes simultaneously with multi-probe synchrony to reduce the risk of incomplete ablations. Create large, confluent ablation zones with high temperatures at the periphery and reduce procedure time.2** Benefit from more ways to target lesions including addressing multiple lesions simultaneously and bracketing lesions.

Utilize CO2 enabled Tissu-Loc™ Technology to help reduce probe migration
CO2 cooled system with Tissu-Loc™ Technology. Tissu-Loc Technology creates a non-lethal ice ball at the probe tip to “stick” the probe in place. This reduces the risk of probe migration during additional scanning.

Verify Probe Placement and Confirm Technical Success
NEUWAVE’s Ablation Confirmation Software helps physicians identify ablation targets, assess appropriate probe placement and confirm the technical success of each procedure. Information and images captured during the procedure can be relayed to PACS, referral sources and patients.
References
* Refer to IFU for Ablation Zone Sizes
**When using multiple probes, NeuWave Medical recommends a maximum of 2 cm spacing between probes to make a contiguous ablation zone. Ablations spaced more than 2 cm had non-contiguous results.
1. Laeseke et al. Multiple-Antenna Microwave Ablation: Spatially Distributing Power Improves Thermal Profiles and Reduces Invasiveness. Journal of Interventional Oncology. 2009; 2(2):105-112. C. M. Harari, et al, Microwave Ablation: Comparison of Simultaneous and Sequential Activation of Multiple Antennas in Liver Model Systems. Radiology. 2015 Jul 2:142151.
2. Laeseke et al. Multiple-Antenna Microwave Ablation: Spatially Distributing Power Improves Thermal Profiles and Reduces Invasiveness. Journal of Interventional Oncology. 2009; 2(2):105-112. Brace, et al. Microwave Ablation with Multiple Simultaneously Powered Small-gauge Triaxial Antennas: Results from an in Vivo Swine Liver Model. Radiology Volume 224: Number 1 - July 2007. Lubner et al. Microwave Tumor Ablation: Mechanism of Action, Clinical Results and Devices. JVIR 2010 Aug: 21(8 Suppl): S192-S203. C. M. Harari, et al, Microwave Ablation: Comparison of Simultaneous and Sequential Activation of Multiple Antennas in Liver Model Systems.Radiology. 2016 January, Volume 278:1.
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