Spuncare™ Procedure Gown, NonSterile | One Size Fits Most
HAL-13962
Halyard
Apparel
The Spuncare™ Procedure Gown is a high-quality, non-sterile protective garment designed for use in medical and laboratory settings. Engineered to provide reliable coverage and comfort, this gown is ideal for various procedures and routine care activities. Its one-size-fits-most design ensures versatility and ease of use, making it a practical choice for healthcare professionals.
Key Features:
- Durable Material: Constructed from high-quality spunbond polypropylene, the Spuncare™ Procedure Gown offers excellent strength and durability. The material is lightweight yet resilient, providing effective protection without compromising on comfort.
- Breathability: The gown is designed to be breathable, allowing air circulation to keep the wearer cool and comfortable during prolonged use. This feature is particularly beneficial in fast-paced and high-temperature environments.
- Non-Sterile: Suitable for non-sterile procedures, routine patient care, and general-purpose use in medical and laboratory settings. The non-sterile nature of the gown makes it ideal for situations where sterility is not a primary concern.
- Full Coverage: Designed to provide comprehensive coverage, the gown protects against fluids, particulates, and other contaminants. The long sleeves with elastic cuffs ensure a secure fit, preventing exposure to the wearer's arms and wrists.
- Comfortable Fit: The one-size-fits-most design accommodates a wide range of body types and sizes. The gown features adjustable ties at the neck and waist, allowing for a customized and secure fit.
- Ease of Use: The Spuncare™ Procedure Gown is easy to don and doff, facilitating quick changes between procedures. Its user-friendly design helps streamline workflow and improve efficiency in busy healthcare settings.
- Cost-Effective: As a disposable garment, the gown offers an economical solution for maintaining hygiene and safety standards. It eliminates the need for laundering and reduces the risk of cross-contamination.