Applications
General & Microsurgery Solutions
JenaSurgical serves as your trusted partner in laser medicine, offering a diverse range of general surgery and microsurgery solutions.
With our commitment to excellence and continuous innovation, JenaSurgical provides urologists and patients worldwide with the most advanced laser solutions for optimal health.
Explore the future of laser medicine with JenaSurgical today and find out how we ensure the best possible outcomes for patients.
JenaSurgical provides laser-based technologies designed for urological applications, including the management of urinary stone disease and benign prostatic hyperplasia (BPH). Holmium lasers are widely utilized in urology for various procedures, including laser enucleation techniques for BPH. Techniques like Holmium Laser Enucleation (HoLEP-EPS by JenaSurgical) are utilized with a focus on minimally invasive procedures and efficiency in surgical outcomes.
To complete the OR equipment, JenaSurgical also offers the MultiCut Solo, a stand-alone morcellation system for prostate adenoma extraction. This system is designed to assist with tissue removal and preparation for histopathological analysis.
Discover JenaSurgical’s laser technologies and surgical solutions tailored to meet the needs of modern urological procedures.
Holmium lasers have become indispensable in urology, offering minimally invasive treatment options. Within the JenaSurgical portfolio, the low-power MultiPulse Ho system is designed for stone treatment procedures, while the high-power MultiPulse HoPLUS supports a broader range of urological applications, including urethral stricture or benign prostatic hyperplasia (BPH).
Key treatments:
- Prostate enucleation & ablation (BPH treatment) with HoLEP
- Transurethral and percutaneous lithotripsy
- Urethral strictures
Laser technology has become a key tool in ENT surgery, providing options for precise and minimally invasive approaches to various ear, nose and throat conditions. CO₂ lasers, including those in the MultiPulse PRO Family, are commonly utilized in this field.
CO₂ lasers emit a wavelength of 10,600 nm, which interacts with water and soft tissues. This enables controlled tissue ablation with careful application to minimize thermal impact on adjacent structures. These features support their use in a variety of ENT procedures.
In ENT surgery, CO₂ lasers are utilized in various procedures, including laryngeal surgery, otology, rhinology, and head and neck oncology. They are commonly applied in delicate interventions such as vocal cord surgery, stapedectomy, turbinate reduction and tumor resection.
A notable aspect of CO₂ lasers is their ability to aid in minimizing intraoperative bleeding, which can enhance visibility during surgery. This characteristic is particularly useful in areas with rich vascularization, such as the nasal cavity and oropharynx. Additionally, the focused beam allows for precise tissue ablation, with an emphasis on preserving surrounding structures.
CO₂ lasers, when used with colposcopes, are frequently utilized in the treatment of lower genital tract conditions, such as dysplasia and warts. They are also applied in gynaecological oncology for procedures addressing cervical intraepithelial neoplasia (CIN), offering precise tissue targeting and outpatient procedure options.
These lasers are additionally used for managing conditions like vulvar intraepithelial neoplasia (VIN) and vaginal intraepithelial neoplasia (VAIN). In laparoscopy, CO₂ lasers allow for controlled application while aiming to minimize thermal effects on surrounding tissues.
Systems like the MultiPulse PRO Family are also utilized for addressing gynecological concerns such as endometriosis, adhesions and fibroids.
Key treatments:
- Colposcopy
- Laparoscopy
Laser systems are used in a variety of General Surgery procedures, with different wavelengths offering distinct interactions with tissues. Surgical outcomes depend on factors such as laser-tissue interaction, the transmission system and the chosen parameters.
Key potential benefits of laser technology in surgery include:
- Precise tissue removal with targeted application. ● Cauterization of blood vessels to help manage bleeding. ● Reduced risk of contamination during the procedure. ● Focused surgical areas to minimize disruption. ● Support for postoperative recovery processes.
In General Surgery, laser-endoscope systems are used to support precise, minimally invasive procedures. These systems help reduce tissue disruption, minimize lateral thermal effects and assist in improving hemostasis during surgery.