PROVON® Clear & Mild Foam Handwash

1200 mL Refill for PROVON® LTX-12™ Dispenser

PROVON® Clear & Mild Foam Handwash
SKU: 1941-02
Size:
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PROVON® Clear & Mild Foam Handwash

1200 mL Refill for PROVON® LTX-12™ Dispenser

Spa-inspired, green certified foam hand soap that is both fragrance and dye free.

  • Enriched with moisturizers and skin conditioners
  • ECOLOGO® Certified to Standard Name UL 2784
  • USDA Certified Biobased Product
  • SMART-FLEX™ bottle design uses 30% less material than HDPE
  • Patent-pending controlled collapse technology maintains bottle shape longer while emptying
  • Removable pump for easier recycling
  • SANITARY SEALED™ refill helps prevent contamination
  • Fresh dispensing valve with each refill
SKU: 1941-02
Size:
SDS Downloads English Spanish

Luxurious foam formulation.

Third-party sustainability certifications.

Refills are made from recyclable plastic.

Intelligent design creates less waste.

SKU
1941-02
Case Pack
2
Case Weight
6.28 lbs
Overall Case Dimensions
9.75 h x 5.5 w x 7.75 d
Overall Unit Dimensions
8.95 h x 3.69 w x 5.11 l
Case Cu. Ft.
0.24 ft³
Cases Per Layer
43
Cases Per Pallet
172
Layers Per Pallet
4
Dispensing System
LTX
Product Type Packaging
Dispenser Refills
Refill Type
Refill for LTX-12™ dispensing system
Refill Material
Lightweight PET plastic bottle, polypropylene collar, mixed material plastic pump.
Refill Recyclability
Remove pump on refill for easy recycling.
Refill Features
SANITARY SEALED™ refills are hygienic, and hold their shape while emptying completely with the patent-pending CONTROLLED COLLAPSE™ feature.
Dispenser Material
Durable ABS Plastic with rugged polycarbonate view windows (both recycling code number 7).
Store Below
110°F (43°C)
Country of Manufacture
United States
UPC (Each)
073852026634
Case UPC (GTIN)
10073852026631
Ingredients
Ingredients: Water (Aqua), Sodium Laureth Sulfate, Glycerin, Citric Acid, Cocamidopropyl Betaine, Disodium Cocoamphodiacetate, PEG-7 Glyceryl Cocoate, PEG-8, Polyquaternium-39, Sodium PCA, Methylchloroisothiazolinone, Methylisothiazolinone
Ingredients of ‘fragrance/parfum’ comply with the safety standards of the International Fragrance Association (IFRA) and can be found within the List of Consumer Goods Fragrance Ingredients
Sustainability Certification
Meets UL EcoLogo Standard for Hand Cleaner UL 2784
Meets USDA biobased Standard for hand cleaners
Well-Being Solutions for People, Places and the Planet

High performing, mild hand soaps for cleaner hands and a healthy environment.

Third-party Certifications:
Sustainable Chemistry:
Ingredients Derived from Natural Sources

Ingredients Derived from Natural Sources:68% of formula ingredients derived from plant or biobased sources. Enriched with natural moisturizers and extracts to condition skin.

Biodegradable Formulation

Biodegradable Formulation:Formula meets OECD (Organization for Economic Co-Operation and Development) Guidelines for biodegradability.

Sustainable Packaging:
Packaging Designed for Easy Recycling

Packaging Designed for Easy Recycling:Remove pump and recycle with any plastic recycling. Easily recyclable PET material.

Designed to Reduce Waste

Designed to Reduce Waste:Smart shipping, uses less cardboard to reduce material waste.

Ingredients Sourced in Sustainable Ways:
No animal testing. No animal derived ingredients.
Additional Resources:
We openly share our Sustainability practices, learnings and the challenges we have encountered along the way in our annual GOJO Sustainability Report. GOJO 2016-17 Sustainability Report

1. Wet hands under warm running water.

2. Dispense soap.

3. Rub hands and exposed portions of arms together for 20 seconds.

4. Rinse thoroughly.

5. Dry with clean paper towels.

6. Turn taps off using towel.

Reducing Infection Rates in Healthcare

Bacterial shedding and desquamation from the hands of healthcare workers correlates with skin condition.


Read the article

Results: Bacterial dispersal and quantitative skin measurements were obtained from 86 healthcare workers over a 3 day period. The levels of bacteria shed from the hands of the healthcare workers was found to be negatively correlated to corneometer measurements (p < 0.01); and positively correlated to desquamation index (p < 0.02). No correlation was found between levels of shed bacteria and transepidermal water loss. As expected, corneometer measurements were found to be negatively correlated to desquamation index (p < 0.0001).
Conclusion: The results of this hospital study demonstrate that the levels of bacteria shed from the hands of healthcare workers are influenced by the health of the individual's skin; i.e. dry skin sheds more bacteria. This increased bacterial dispersal from dry skin may increase the infection transfer risk for healthcare workers with poor skin condition in the acute care setting.
Reference: American Journal of Infection Control, Volume 34, Issue 5, June 2006, Pages E85-E86. C.A. Kolly, J.W. Arbogast, D.R. Macinga

Reducing Infection Rates in Healthcare

Bacterial shedding and desquamation from the hands of healthcare workers correlates with skin condition.


Read the article

Results: Bacterial dispersal and quantitative skin measurements were obtained from 86 healthcare workers over a 3 day period. The levels of bacteria shed from the hands of the healthcare workers was found to be negatively correlated to corneometer measurements (p < 0.01); and positively correlated to desquamation index (p < 0.02). No correlation was found between levels of shed bacteria and transepidermal water loss. As expected, corneometer measurements were found to be negatively correlated to desquamation index (p < 0.0001).
Conclusion: The results of this hospital study demonstrate that the levels of bacteria shed from the hands of healthcare workers are influenced by the health of the individual's skin; i.e. dry skin sheds more bacteria. This increased bacterial dispersal from dry skin may increase the infection transfer risk for healthcare workers with poor skin condition in the acute care setting.
Reference: American Journal of Infection Control, Volume 34, Issue 5, June 2006, Pages E85-E86. C.A. Kolly, J.W. Arbogast, D.R. Macinga

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