The best protection begins with your hands
Goodpac+ can reduce cross-contamination up to 96%1
Introducing Goodpac+, the evolution of the classic Goodpac glove dispensing system, which, packed by robots untouched by human hands and incorporating interleave layering, can reduce cross-contamination up to 96% while offering greater safety, practicality, and sustainability.
Healthcare-Associated Infections(HAIs) are an ongoing concern
15 out of
100
patients in developing countries will acquire at least one HAIs.
8.9
Million
HAIs occur every year in acute and long-term care facilities in European Union and European Economic Areas (EU/EEA).2
20% to
40%
HAIs have been attributed to cross-infection via the
hands of healthcare personnel.4
Beyond70%is rarely achieved
HAIs have been attributed to cross-infection via the hands
of healthcare personnel.2
Only9%health-care staff comply
with recommended hand cleanliness procedures in critical care in low- income nations.2
Why traditional glove boxes fall short?
- Constantly contaminated due to frequent touch by multiple users 8
- Dense packaging method causes the gloves to clump, overlap, and fall out when pulled.
- Unwanted gloves are pushed back into the box, further increasing cross-contamination
5 key benefits to any healthcare environment:
Tested performance, proven results
Goodpac+ can reduce mould contamination by up to 89%. 1
For improved security and peace of mind, Goodpac+ allows the glove pack to be kept away from contaminated or dirty surfaces via a wall-mounted dispenser.
Cuff-First™ Technology
Goodpac+ uses a Cuff-First™ approach to enhance the dispensing technique. It deters glove users from touching the dispense opening, or the gloves inside the box. This protects the gloves from contamination.
One-Glove™ Dispensing
The patented layering technique of Goodpac eliminates multiple gloves from leaving the opening. Goodpac+ enhances the user experience with its One-Glove™ dispensing system, preventing the need to push back any taken gloves and therefore, protecting any unused gloves in the box from contamination.
Reduces glove wastage
Goodpac+ One-Glove™ dispensing prevents multiple gloves from falling out resulting in minimal accidental waste. Plus, reducing glove wastage becomes a cost-saving measure, as it ensures each pack lasts longer so that you can fully maximise the use of every glove.
Say goodbye to clumped-up packaging
Clumps occur when gloves are densely packed into a box, making multiple dispensing common. This is why several gloves sometimes fall out when you only need a pair.
Simplifying glove donning
The One-Glove™ dispensing approach also speeds up the glove-donning process to allow you to focus on the important task at hand and help increase your productivity.
With Goodpac+, we make glove donning easy and effortless.
Store your glove supply with ease
All healthcare facilities need to have a stock of gloves to use when needed. However, not every facility has ample space for storage.
Goodpac+ is engineered to optimise space. The interleave glove layering uses less space for the same number of gloves while wasting no material.
14%
smaller size for outer carton,
compared to conventional glove
outer carton^
24%
less inner size, compared to
standard inner packaging^
^Based on internal data.
Did you know – lighting and heating contribute the most to carbon emissions for warehouses12
Our solution helps you to minimise carbon emissions from warehousing.
Enormous Storage, Tremendous Impact
Warehouses emit carbon dioxide through heating, cooling, lighting, and material handling, accounting for 13% of total supply chain emissions. 11
However, the bigger the storage area, the higher the carbon emissions produced.
Less is more
Goodpac+ BY NUMBERS Be a leader in hand hygiene practices
contamination on the glove
contamination on the glove
time, every time
# We take every care to ensure each glove is interleave layered. Due to our quality assurance process requiring offline inspection, some gloves may undergo manual repacking.
Our Product Range
single or triple-cube hygienic wall holders.
Sizes: XS-XL
Packing: 200 gloves per box | 10 boxes per carton
style of dispenser box that fits standard or triple hygienic wall holders.
Sizes: XS-XL
Packing: 200 gloves per box | 10 boxes per carton
and triple cube packs. It is designed to be wall mounted to keep the gloves and their boxes
away from contaminated surfaces.
Color: White
Sizes: XS-XL
Packing: 200 gloves per box | 10 boxes per carton
Reference
- Nguyen, U. (2019, July 6). Evaluation of a Novel Non-Sterile Glove Dispensing System. InfectionControl.tips.
- World Health Organization (WHO). (2021). World Hand Hygiene Day 2021, Key Facts and Figure.
- Mouajou, V., Adams, K., DeLisle, G., Quach, C. (2022). Hand hygiene compliance in the prevention of hospital-acquired infections: a systematic review. The journal of hospital infection Hosp infection, 119,33-48.
- Weber, D. J., Rutala, W. A., Miller, M. B., Huslage, K., & Sickbert-Bennett, E. (2010). Role of hospital surfaces in the transmission of emerging health care-associated pathogens: Norovirus, clostridium difficile, and Acinetobacter species. American Journal of Infection Control, 38(5).
- Sandbøl, S. G., Glassou, E. N., Ellermann-Eriksen, S., & Haagerup, A. (2022). Hand hygiene compliance among healthcare workers before and during the COVID-19 pandemic. American Journal of Infection Control, 50(7), 719–723.
- Engdaw, G. T., Gebrehiwot, M., & Andualem, Z. (2019). Hand hygiene compliance and associated factors among health care providers in Central Gondar zone public primary hospitals, Northwest Ethiopia. Antimicrobial Resistance and Infection Control, 8(1).
- Goel, V., Gupta, S., Bisht, D., & Sharma, R. (2020). Hand hygiene compliance among healthcare workers in a tertiary care academic health care organization. International Journal of Research in Medical Sciences, 8(3), 878.
- Assadian, O., Leaper, D., Kramer, A., & Ousey, K. (2016). Can the design of glove dispensing boxes influence glove contamination? Journal of Hospital Infection, 94(3), 259–262.
- Ries, J. M., Grosse, E. H., & Fichtinger, J. (2016). Environmental impact of warehousing: a scenario analysis for the United States. International Journal of Production Research, 55(21), 6485–6499.
- Fichtinger, Johannes & Ries, Joerg & Grosse, Eric & Baker, Peter. (2015). Assessing the environmental impact of integrated inventory and warehouse management. International Journal of Production Economics, 170, 717-729.