Spinal Needle Reli 1-1 2 Inch 22 Gauge Quincke Style Fashion

Description
Introducing the Spinal Needle Reli 1-1 2 Inch 22 Gauge Quincke Style, a precise and reliable medical tool designed for use in spinal procedures. Manufactured by Myco Medical Supplies, this needle combines quality materials with expert engineering, making it an essential addition to any healthcare professional s toolkit. Ideal for administering spinal anesthesia or performing lumbar punctures, this spinal needle offers both safety and efficacy in clinical settings.
The needle features a 22-gauge size, ensuring optimal flow and minimal tissue trauma. Its Quincke style tip allows for easier penetration of the dural membranes, reducing the risk of complications during procedures. Crafted from medical-grade stainless steel, the Spinal Needle Reli offers exceptional strength and durability, making it suitable for single use only. Awareness of proper disposal methods will help maintain safety standards in your practice.
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Precision Design: The specialized Quincke style tip enhances access to the spinal canal, promoting effective and controlled procedures.
- Disposable Use: Each needle is designed for single use, minimizing infection risks and ensuring the safety of patients and practitioners alike.
With a length of 1-1 2 inches, this spinal needle is well-suited for various patient anatomies. The regular wall thickness ensures stability and strength during use, while the black color code provides easy identification amidst other medical instruments. Each needle is compliant with HCPCS code A4215, ensuring standardization in medical billing and record keeping.
This product meets the UNSPSC Code 42142541, highlighting its classification in the medical supply industry. Whether you are a seasoned professional or a trainee, the Spinal Needle Reli 1-1 2 Inch 22 Gauge Quincke Style will enhance your procedural capabilities and improve patient outcomes.
Choose quality and reliability in your medical tools. Invest in the Spinal Needle Reli and experience the difference in performance and safety during spinal procedures.
Additional Information
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