. 2021 Aug 27;803:149932. doi: 10.1016/j.scitotenv.2021.149932

Table 1.

Included studies (JAD: jet air dryer, WAD: warm air dryer, PT: paper towel, CFU: colony forming units, PFU: plaque forming units, GC: genomic copies, SD: standard deviation).

Reference	Study characteristics	Microorganisms analysed/identified	Aerosol and droplet sampling (incl. air and deposition samples)	Other environmental sampling (incl. surface swabs and water samples)
Aithinne et al., 2019	Country: USA Setting: Laboratory Design: Toilet bowl water inoculated with Clostridium difficile; culture-based analysis Activity: Toilet flushing (seat down with open lid) Contaminated area/medium: Air, toilet bowl water, floor	Clostridium difficile	First 3 flushes: ~8, 3, 2.5 CFU counts, respectively; equivalent airborne droplet nuclei spore aerosol ~10.9, 3.8, 3.4 CFU/m³, respectively. Considering 5 m³toilet chamber size: droplet nuclei bioaerosol generation rate was ~54, 19, 17 CFU/flush, respectively.	Water (>24 flushes): Spores captured in all trials, indicating persistent contamination. Approximate bowl water concentrations: First flush: reduced by ~3 logs After 3 flushes: reduced by ~4–5 logs Floor: usually 1 or 2 CFU (max 4 CFU). All plates around toilet had at least 1 positive sample. Cumulative area density for all plates was 533 CFU/m² after 24 flushes; 75% of this level attained after 4 flushes, 90% attained after 9 flushes.
Alharbi et al., 2016	Country: Saudi Arabia Setting: Academic Design: Culture-based analysis of ambient microbiome in university washrooms; Isolates identified using VITEK2^R Activity: Hand drying (WAD) Contaminated area/medium: Airflow from warm air dryer	Staphylococcus haemolyticus, Micrococcus luteus, Pseudomonas alcaligenes, Bacillus cereus and Brevundimonas diminuta/vesicularis	Bacteria isolated per sampled dryer after exposure to airflow for 30 s: Brevundimonas diminuta/vesicularis: 3% Staphylococcus haemolyticus: 52% Micrococcus luteus: 29% Bacillus cereus: 4% Pseudomonas alcaligenes: 12%	N/A
Best et al., 2018	Country: UK, France, Italy Setting: Healthcare Design: 2 washrooms tested at 3 hospitals (1 each in the UK, France, Italy); 20 L air sample; culture-based analysis using both non-selective and selective media Activity: Hand drying (JAD, PT) Contaminated area/medium: Air, jet air dryer unit, paper towel dispenser, sink, door, floor, dust	Total aerobic count; enterococci and vancomycin resistant enterococci (VRE); enterobacteria incl. Escherichia coli, Klebsiella spp., and extended spectrum β-lactamase (ESBL)-producing enterobacteria; Staphylococcus aureus and methicillin resistant S. aureus (MRSA); C. difficile	Median counts in UK, France, and Italy, respectively: PT: 5, 5, 5 CFU JAD: 6, 1, 0 CFU	Median counts in UK, France, and Italy, respectively: Hand drying unit/dispenser: 9, 9, <1 CFU PT vs 200, 300, 100 CFU JAD Floor: 40, 24, <1 CFU PT vs 200, 190, <1 CFU JAD Door: 1, 12, <1 CFU PT vs 15, 5, 0 CFU JAD Sink: 85, 37, <1 CFU PT vs 63, 132, <1 CFU JAD Dust: 115, 300, 75 CFU PT vs 145, 300, 20 CFU JAD Enterococci: greater recovery in floor and dust for JAD vs PT in UK; very low recovery in France and Italy. Enterobacteria: greater recovery in unit and floor for JAD vs PT in UK; greater recovery in dust for JAD vs PT in France; very low recovery in Italy. S. aureus: greater recovery in unit and floor for JAD vs PT in UK; very low recovery in France; no recovery in Italy. MRSA: very low recovery, but greater on floor in JAD vs PT in UK; no recovery in France and Italy. ESBL-producing bacteria: greater recovery on floor in JAD vs PT in UK; low recovery in France and Italy. C. difficile was not recovered from any samples in any country.
Best and Redway, 2015	Country: UK Setting: Not described Design: Gloved hands contaminated with Saccharomyces cerevisiae, or volunteers' hands naturally contaminated following toileting; culture-based analysis Activity: Hand drying (JAD, WAD, PT, textile roller towel) Contaminated area/medium: Wall and floor around hand drying unit	Saccharomyces cerevisiae	N/A	JAD dispersed more bacteria than WAD, PT and textile roller towel. Vertical dispersal (height) during hand drying: JAD: 0.6–1.2 m PT: 0.9–1.2 m Textile roller: 1.2–1.5 m WAD: 0–0.3 m
Best et al., 2014	Country: UK Setting: Experimental setting not identified, 65 m³ room Design: Gloved hands contaminated with lactobacilli or black paint; culture-based analysis with lactobacillus-selective agar plates Activity: Hand drying (JAD, WAD, PT) Contaminated area/medium: Air and floor around hand drying unit	Lactobacillus	Mean counts after 15min; for 10 cm and 1 m away, respectively: JAD: 70.7, 89.5 CFU WAD: 15.7, 18.6 CFU PT: 2.6, 2.2 CFU	Mean counts under dryer,and 1 m and 2 m away, respectively: JAD: 68.3, 2, 1.4 CFU WAD: 190, 7.8, 1.4 CFU PT: 11.9, 0.7, 0.4 CFU
Best et al., 2012	Country: UK Setting: Healthcare, controlled experiment Design:C. difficile spiked faecal suspensions poured into toilet bowls to mimic diarrhoea; culture-based analysis Activity: Toilet flushing (seat down with open and closed lid) Contaminated area/medium: Air, toilet cistern, toilet seat, floor	C. difficile	Mean counts 0–30, 30–60, and 60–90 min after flush: Seat height: 3, 7, 0 CFU closed vs 35, 3, 0 CFU open lid; 10 cm above: 4, 1, 0 CFU closed vs 6, 0, 0 CFU open lid; 25 cm above: 7, 4, 1 CFU open lid; Control (water): 0, 0, 0 CFU.	Droplets of varying size were ejected to the height of the seat upon flushing. Lid closed: No Clostridium difficile recovered on any surface. Lid open:Clostridium difficile recovered at all locations (mean 1–3 CFU), except floor on left-hand side.
Boone and Gerba, 2005	Country: USA Setting: Childcare and household Design: Fomites (e.g. door handles, light switches, children's toys) sampled in homes and day care centres, periodic sampling over a 2.5-year period; environmental swabs and RT-PCR analysis Activity: General toilet/station use Contaminated area/medium: Toilet seat, floor, faucet, diaper changing station	Influenza A virus	N/A	Seasonal Influenza A virus positive samples: 53% spring vs 23% fall. Influenza A virus positive samples on surfaces: Diaper changing area: 57% Toilet seat: 42% Toilet floor: 41% Bathroom faucet: 36%
Boxman et al., 2009a	Country: Netherlands Setting: Restaurant Design: Outbreak investigation; clinical and environmental swabs and RT-PCR analysis Activity: General toilet use, vomiting in toilet, food handling Contaminated area/medium: Toilet seat	Norovirus	N/A	Norovirus present in 4 of 9 samples: male and female toilet seats, grip of the knife used to cut bread, and hands of ill food handler cutting bread for restaurant guests.
Boxman et al., 2009b	Country: Netherlands Setting: Restaurant Design: Outbreak investigations; clinical and environmental swabs and RT-PCR analysis Activity: General toilet use, food handling Contaminated area/medium: Toilet seat, toilet handle or tap	Norovirus	N/A	Norovirus present in 48 of 119 (40%) samples from 14 of 27 (52%) outbreaks. Norovirus RNA was most often found on swabs taken in bathrooms (64%), with 10/18 samples positive (excl. cruise ship and summer camp).
Breathnach et al., 2012	Country: UK Setting: Healthcare Design: Outbreak investigations; clinical and environmental swabs; culture-based testing, antimicrobial susceptibility testing, and molecular typing (serotyping, PFGE, VNTR) Activity: General hospital activities Contaminated area/medium: Toilet, faucet, sink drain trap (U-bend), shower head, shower drain, water, ward sluice room, toilet brush	Multidrug-resistant Pseudomonas aeruginosa	N/A	Outbreak 1: Waste outlets on intensive care and haematology positive for outbreak strain indicated reservoir of organism in waste pipe system; sewer water sample yielded organism, but not known clinical case of Pseudomonas aeruginosa for several months at time of testing. Mean 391 notifications of blocked sinks, toilets or sluices in the hospital each year (2005–2010). Outbreak 2: Shower drain, toilet bowl, and toilet brush positive for outbreak strain; incoming water for drinking, hand washing, and showering negative. Pseudomonas aeruginosa not isolated from cleaning equipment, soap, and skin antiseptic preparations. Blockages partly due to paper towels and clinical wipes down toilet.
Carducci et al., 2016	Country: Italy Setting: Healthcare, workplace Design: Used previously published/collected data to develop a preliminary quantitative microbial risk assessment (QMRA) model for Human Adenovirus contaminated workplace environments. Activity: N/R Contaminated area/medium: Air	Human Adenovirus	Human Adenovirus detected in all settings, with highest concentration in indoor environments. Average concentration range: 2 log10 GC/m³ outside landfill to 8 log10 GC/m3 in hospital toilets. Human Adenovirus concentration in toilets: 4-Bed patient room: 7.90 (SD: 2.81) GC/m³ 2-Bed patient room: 6.81 (SD: 3.61) GC/m³ Healthcare: 6.02 (SD: 4.02) GC/m³ Office: 4.81 (SD: 2.96) GC/m³	N/A
Cooper et al., 2016	Country: Canada Setting: Healthcare Design: Air and surface samples, culture-based analysis Activity: Toilet flushing Contaminated area/medium: Air, toilet seat, sink counter	Anaerobic and aerobic bacteria	Aerobic bacterial concentration (GM): UVC-treated: 153.2 (SD: 1.7) CFU/m³ Control: 236.5 (SD: 1.44) CFU/m³ Anaerobic bacterial concentration (GM): UVC-treated: 45 (SD: 2.4) CFU/m³ Control: 86 (SD: 2.8) CFU/m³	Bacterial concentration UVC-treated vs control (GM): Sink counter: 1.6 (SD: 2.2) vs 31.0 (SD: 3.1) CFU/10 cm² Toilet seat: 7.7 (SD: 5.5) vs 224 (SD: 7.5) CFU/10 cm² Two control toilet seat samples with >2000 CFU/10 cm²; may represent highly contaminated droplets after flushing.
Flores et al., 2011	Country: USA Setting: Academic Design: Surface sampling in public washrooms, culture-independent analysis; 16S rRNA sequencing Activity: General toilet use Contaminated area/medium: Door handle, stall handle, faucet handle, soap dispenser, toilet seat, toilet handle, floor	Actinobacteria, Bacteroidetes, Firmicutes, Proteobacteria dominated the 19 phyla identified	N/A	19 phyla observed across all surfaces, most sequences (<92%) as Actinobacteria, Bacteriodetes, Firmicutes, or Proteobacteria. Environmental source of bacteria on surfaces: All surfaces: human skin (Propionibacteriaceae, Corynebacteriaceae, Staphylococcaceae, Streptococcaceae), gut, mouth, and urine. Toilet handle and seat: gut (Firmicutes (Clostridiales, Ruminococcaceae, Lachnospiraceae), Bacteroidetes (Prevotellaceae, Bacteroidaceae)) Toilet floor: soil (Rhodobacteraceae, Rhizobiales, Microbacteriaceae, Nocardioidaceae), high diversity Lactobacillaceae more abundant on surfaces in female than male washrooms.
Gerhardts et al., 2012	Country: Germany Setting: Laboratory Design: Transmission experiments; hand > non-porous surface > hand (x4); culture-based analysis Activity: Surface contact transmission model Contaminated area/medium: Toilet brush, plastic tube (representing door handle), acrylic glass rod (representing faucet handle)	Escherichia coli, Bacillus subtilis (atrophaeus), MS2 bacteriophage	N/A	Amount of bacteria transferred onto the toilet brush, door handle, handle, and hand of person 4, respectively: MS2 bacteriophage: 6.26, 3.94, 2.75, 2.07 log10 PFU Escherichia coli: 2.47, 1.07, -, - log10 CFU Bacillus subtilis: 4.05, 2.45, -, 0.70 log10 CFU
Gormley et al., 2017	Country: UK Setting: Laboratory Design: Model organism inoculated into a pilot test rig to investigate within-building transmission potential due to defective plumbing (dry U-traps); culture-base analysis Activity: Toilet flushing Contaminated area/medium: Air, toilet bowl, toilet seat	Pseudomonas putida	Passive airsampling: Cross-transmission of viable bacteria can occur between adjacent floors of a sanitary plumbing system: toilet flushing with wastewater on a lower floor contaminated the room on the upper floor with aerosols. This occurred both with an induced upward airflow and without; however, cross-contamination was less severe in absence of airflow. Active airsampling: Cross-transmission of bacteria through entire sanitary plumbing test-rig: from flushing contaminated wastewater at lower floor, into test chamber, and then into extract ventilation system.	With upward airflow: Bacterial CFU on top, right and front walls of test chamber. With no induced airflow: Bacterial CFU only on bottom surface; thus cross-transmission even in absence of applied airflow. With partially-filled U-trap: Bacterial CFU on toilet, test chamber surfaces, and duct connected to extract fan; toilet contamination higher than test chamber, and focused towards front of toilet bowl probably influenced by draw of extract fan.
Halabi et al., 2001	Country: Austria Setting: Healthcare Design: water quality analysis; membrane filtration method; culture-based analysis; total CFU and selective media Activity: N/R Contaminated area/medium: Water from conventional and non-touch faucets	Pseudomonas aeruginosa, Legionella spp.	N/A	Faucet water samples contaminated withPseudomonas aeruginosa: Without temperature selection: 17 (74%) With temperature selection: 1 (7%) Non-touch, no temperature selection: 10 (100%) Conventional (adjacent to non-touch): 0 Outlet and magnetic valve of non-touch faucets contaminated with Pseudomonas aeruginosa, but no contamination in cold- or warm-water junctions. *Faucet water samples contaminated with Legionella* spp.:** Non-touch design: 10 (100%) Conventional design: 3 (30%)
Harrison et al., 2003	Country: UK Setting: Laboratory Activity: Hand drying (PT) Contaminated area/medium: Paper towel dispenser, used paper towel	Micrococcus luteus, Serratia marcescens	N/A	Average bacterial transfer from contaminated hand to dispenser: Micrococcus luteus: 8.72 (10 ³) CFU front vs 6.14 (10³) CFU back (transfer rate: 0.04%) Serratia marcescens: 4.5 (10³) CFU front vs 1.61 (10³) CFU back (transfer rate: 0.03%) Micrococcus luteus towels: 1 (10⁶) CFU pulled vs 2 (10⁴) CFU remaining in dispenser. Serratia marcescens towels: 3.4 (10⁵) CFU pulled vs 4.5 (10³) CFU remaining in dispenser. Average transfer rate from contaminated dispenser to hand and towel: Micrococcus luteus: 13.1 (SD: 0.39)% and 6.0 (SD: 0.22)% Serratia marcescens: 12.4 (SD: 0.41)% vs 6.7 (SD: 0.25)%
Huesca-Espitia et al., 2018	Country: USA Setting: Academic Design: Investigated the effect of retrofitting HEPA filters to warm air hand dryers; agar plates exposed to hand dryer air in bathroom settings; culture-based analysis with isolate identification by MALDI-TOF Biotyper Activity: Hand drying (WAD) Contaminated area/medium: Airflow from dryer, washroom air, inner surface of warm air drier nozzle	Bacterial CFU, Acinetobacter baumannii, Acinetobacter radioresistens, Bacillus cereus, Bacillus infantis, Bacillus licheniformis, Bacillus marisflavi, Bacillus megaterium, Bacillus pumilus, Bacillus simplex, Bacillus subtilis, kanamycin-resistant Bacillus subtilis, Erwinia sp., Exiguobacterium aurantiacum, Kocuria rhizophila, Micrococcus luteus, Pantoea septica, Paracoccus yeei, Pseudomonas luteola, Roseomonas mucosa, Staphylococcus aureus, Staphylococcus capitis, Staphylococcus epidermidis, Staphylococcus hominis, Staphylococcus pasteuri, Staphylococcus simulans	Bacterial counts from hand dryer vs environmental air: Building 1: 17.7 (SD: 10.1) vs 0.21 (SD: 0.57) CFU/plate Building 2: 23.8 (SD: 23.3) vs 0 CFU/plate Academic building: 59.5 (SD: 60.2) vs 1 (SD: 1.46) CFU/plate	Hand dryer nozzles with and without HEPA filters: ~4 CFU/washroom recovered on inner surface; unlikely that dryers carry significant reservoir of bacteria. Bacterial deposition by hand dryers: With HEPA filter: 14.8 (SD: 3.3) CFU/plate Without HEPA filter: 59.8 (SD: 16.5) CFU/plate Bacteria recovered following exposure to hand dryers or washroom air: With HEPA filter: Bacillus cereus, Bacillus marisflavi, Bacillus megaterium, Bacillus pumilus, Bacillus simplex, Pantoea septica, Pseudomonas luteola, Staphylococcus aureus, Staphylococcus hominis Without HEPA filter: Bacillus cereus, Bacillus infantis, Bacillus licheniformis, Bacillus megaterium, Bacillus pumilus, Bacillus simplex, Bacillus subtilis, Erwinia sp., Kocuria rhizophila, Micrococcus luteus, Paracoccus yeei, Roseomonas mucosa, Staphylococcus aureus, Staphylococcus capitis, Staphylococcus epidermidis, Staphylococcus hominis, Staphylococcus pasteuri, Staphylococcus simulans Washroom air: Acinetobacter baumannii, Acinetobacter radioresistens, Bacillus megaterium, Bacillus subtilis, Erwinia sp., Exiguobacterium aurantiacum, Micrococcus luteus, Staphylococcus capitis, Staphylococcus hominis
Inkinen et al., 2017	Country: Finland Setting: Healthcare, childcare, workplace, retirement home Design: Investigated bacterial loads on copper surfaces vs chromed, plastic or wooden surfaces; surface swabs and culture-based analysis; selective plating for indicator bacteria Activity: N/R Contaminated area/medium: Toilet support rail, toilet flush button, door handle, floor drain	Bacterial CFU, Enterobacteriaceae, coagulase positive Staphylococcus, Staphylococcus aureus	N/A	Total bacterial counts across different types of materials: Copper: 16 (SD: 45) CFU Copper reference: 105 (SD: 430) CFU Brass: 20 (SD: 70) CFU Chromed reference: 9 (SD: 17) CFU Enterobacteriaceaeand Gram-negative rods positive samples across different types of materials: Copper: 22/104 (21%) Copper reference: 37/110 (34%) Brass: 3/17 (17%) Chromed reference: 2/20 (10%) Enterococcipositive samples across different types of materials: Copper: 16/104 (15%) Copper reference: 17/110 (15%) Brass: 0/17 (<6%) Chromed reference: 0/20 (<5%) Staphylococcus aureuspositive samples across different types of materials: Copper: 2/78 (2.6%) Copper reference: 11/79 (14%) Brass: 1/6 (17%) Chromed reference: 0/6 (<17%)
Kanayama Katsuse et al., 2017	Country: Japan Setting: Healthcare Design: surface swabs and culture-based analysis to investigate bacterial loads on toilet seat and bidet nozzles; antimicrobial susceptibility testing; PCR antimicrobial resistance gene screening; PFGE; and sequencing Activity: General bidet-toilet use Contaminated area/medium: Toilet seat, warm-water bidet nozzle	Enterobacteriaceae, Enterobacter spp., Enterococcus spp., Streptococcus spp., Klebsiella spp., Citrobacter spp., Acinetobacter spp., non-glucose fermenting rods, Staphylococcus aureus, methicillin-resistant Staphylococcus aureus (MRSA), Escherichia coli, extended-spectrum β-lactamase (ESBL)-Escherichia coli, Stenotrophomonas maltophilia, Pseudomonas aeruginosa	N/A	Number of toilets sampled positive for bacteria on bidet nozzle and toilet seat: Staphylococcus aureus: 10 (3.4%), 2 MRSA Streptococcus spp.: 12 (4.1%) Enterococcus spp.: 87 (29.8%) Escherichia coli: 38 (13.0%), 1 ESBL-producer Enterobacter spp.: 22 (7.5%) Klebsiella spp.: 13 (4.5%) Citrobacter spp.: 5 (1.7%), 1 ESBL-producer Other Enterobacteriaceae: 6 (2.1%) Pseudomonas aeruginosa: 6 (2.1%) Acinetobacter spp.: 6 (2.7%) Stenotrophomonas maltophilia: 39 (13.4%) Other non-glucose fermenting rods: 186 (63.7%) Other Gram-negative rods: 142 (48.6%)
Katano et al., 2014	Country: Japan Setting: Public restroom, residential Design: water sampling and culture-based analysis to investigate bacterial loads in bidet lavage water; selective media Activity: Bidet-toilet use Contaminated area/medium: Water from bidet lavage tanks	Pseudomonas aeruginosa, Escherichia coli	N/A	Mean total bacteria counts in different settings: Household: 293 (SD: 309.1) CFU/0.1 ml Public facility: 109.5 (SD: 62.9) CFU/0.1 ml Pseudomonas aeruginosa and Escherichia coli isolated from lavage tank water from number of households.
Kimmitt and Redway, 2016	Country: UK Setting: Laboratory Design: Gloved hands contaminated with MS2 bacteriophage; culture-based analysis Activity: Hand drying (JAD, WAD, PT) Contaminated area/medium: Air, vertical board/wall	MS2 bacteriophage	Mean total viral plaques after 0–2.5, 2.5–5, 5–7.5, 7.5–10, 10–12.5, and 12.5–15 min of drying device use: JAD: 387.7, 226.7, 145.4, 85.8, 49.2, 43.8 PFU WAD: 11.4, 5.6, 3.2, 1.6, 1.5, 0.8 PFU PT: 20.5, 5.2, 3.1, 2.0, 0.8, 0.4 PFU	Mean total viral plaques across all heights (0.15–1.65 m) at 0.4m vs plaques set at 0.71m height across all distances (0–3 m) from drying units: JAD: 2218.7 vs 3004.5 PFU WAD: 34.4 vs 103.7 PFU PT: 1.6 vs 15.4 PFU
Knowlton et al., 2018	Country: USA Setting: Healthcare Design: Bioaerosol sampling; culture-based analysis Activity: Toilet flushing (with and without waste) Contaminated area/medium: Air	Bacterial CFU	Mean bioaerosol concentration at different conditions: No waste no flush: 210 (SD: 136) CFU/m³ No waste with flush: 240 (SD: 132) CFU/m³ Faecal waste with flush: 278 (SD: 149) CFU/m³	N/A
Kouadri, 2020	Country: Saudi Arabia Setting: Academic Design: Bathroom handwashing conditions; Selective media; culture-based; antimicrobial susceptibility testing of 16 isolates Activity: Hand drying (WAD, PT) Contaminated area/medium: Airflow from dryer, air around warm air dryer, inner surface of dryer nozzle	Bacterial CFU, multi-drug resistant Escherichia coli, Klebsiella spp., Staphylococcus aureus, Bacillus cereus, coagulase-negative Staphylococcus spp.	Mean bacterial number recovered in different settings: WAD on airflow: 290.75 (SD 15.1) WAD off airflow: 25 (SD: 13.7) Washroom air (30 min, 1 m): 72.5 (SD: 30.2) Bacteria were recovered included Escherichia coli, Klebsiella spp., Bacillus cereus, Staphylococcus aureus, and coagulase-negative Staphylococcus spp.	Swabs from WAD nozzle found 43 bacterial colonies.
Kurgat et al., 2019	Country: USA Setting: Workplace Design: Used viral tracers (MS2 phage) to identify office environment fomites and evaluate hygiene intervention; culture-based analysis Activity: General toilet use Contaminated area/medium: Soap dispenser, faucet handle, restroom door handle	MS2 bacteriophage	N/A	Mean concentration on surfaces across different conditions: Baseline: 1.25 (SD: 1.46) log10 PFU/cm² With surface disinfection: 1.07 (SD: 1.44) log10 PFU/cm² With surface disinfection and hand hygiene: 0.33 (SD: 1.05) log10 PFU/cm² Consistently higher concentrations in break room refrigerator, exit door push bar, soap dispensers in women's washroom, faucet handle in sink in break room, and drawer handles in break room (range 75th percentile: 4.79 log10PFU/surface to 5.13 log10PFU/surface). Break room (75th percentile: 5.88 log10PFU) and the women's washroom (75th percentile: 5.17 log10PFU) were the most contaminated locations
Margas et al., 2013	Country: UK Setting: Laboratory Design: Settle plates, air sampling and surface swabs; culture-based analysis Activity: Hand drying (JAD, PT) Contaminated area/medium: Air, floor, wall, sink, soap dispenser, jet air dryer unit, paper towel dispenser	Coliform bacteria CFU	No significant difference between drying method; however, bacterial level increased rapidly after starting hand washing and drying. Bacterial counts after 3 min vs end of trial by distance from device: 0.5 m: 410 vs 1435 CFU/m³ 2.30 m: 490 vs 1200 CFU/m³	Mean bacterial counts on settle plates exposed to washroom air for 1 h by distance from device: Overall: 184.8 JAD vs 123.9 PT CFU/plate 0.5 m: 221.17 JAD vs 161.6 PT CFU/plate 1 m: 175.38 JAD vs 96.5 PT CFU/plate 1.5 m: 173.74 JAD vs 119.70 PT CFU/plate 2 m: 177.91 JAD vs 115.44 PT CFU/plate More bacteria deposited on floor following JAD use, ~61 colonies identified. Mean bacterial counts on surfaces after 100 people washed and dryed hands according to JAD or PT use: Soap dispenser: 1.659 JAD vs 1.204 PT log CFU/25 cm² Sink: 2. 452 JAD vs 2.216 PT log CFU/25 cm² Wall close: 0.787 JAD vs <0.398 PT log CFU/25 cm² Wall far: <0.398 JAD vs 0.777 PT log CFU/25 cm² JAD back panel: 2.781 log CFU/25 cm² JAD front panel: 3.176 log CFU/25 cm² PT dispenser: 1.224 log CFU/25 cm² PT bin: 2.160 log CFU/25 cm²
Mkrtchyan et al., 2013	Country: UK Setting: Public restroom Design: Selective culture-based analysis; 16S rRNA sequencing and MALDI-TOF for identification; culture-based antimicrobial susceptibility testing; PCR for mec and ccr genes Activity: General toilet use Contaminated area/medium: Hand dryer unit, toilet seat, stall door surface, tap, soap dispenser, urinal floor	Staphylococcus, Bacillus, Micrococcus, Escherichia, Proteus, Citrobacter, Morganella, Acinetobacter, Corynebacterium, Delftia, Sphingobacteria, Campylobacter, Pseudomonas, Korucia, Rothia, Arthrobacter, Anaerococcus, Rhodococcus	N/A	Most contaminated surfaces were hand dryer, toilet seat, inner door, tap, soap dispenser, and urinal floor. Number of isolates identified by genera: Staphylococcus: 103 Bacillus: 37 Micrococcus: 30 Escherichia: 1 Proteus: 5 Citrobacter: 2 Morganella: 1 Acinetobacter: 7 Corynebacterium: 4 Delftia: 2 Sphingobacteria: 2 Campylobacter: 1 Pseudomonas: 1 Korucia: 6 Rothia: 2 Arthrobacter: 2 Anaerococcus: 3 Rhodococcus: 2
Mohamed et al., 2015	Country: USA Setting: Healthcare, restaurant, shopping centre, supermarket, public park, gas station Design: Culture-based; isolates subject to virulence genotyping, phylotyping, clonal typing, PFGE, and disc diffusion AST Activity: General toilet/station use Contaminated area/medium: Toilet seat, toilet surfaces, toilet water, floor near toilet, in-stall sanitary napkin receptacle, stall handle, sink drain, faucet tap, diaper changing station handle	Escherichia coli, extraintestinal pathogenic Escherichia coli (ExPEC), antimicrobial-resistant Escherichia coli	N/A	25/1120 (2.2%), or 14.9% of fluorescent cultures, from 18/56 (32%) washrooms had confirmed Escherichia coli isolates. 10/1120 (0.9%), or 40% of confirmed Escherichia coli samples, from 9/56 (16%) washrooms had presumptive ExPEC; 8 samples with confirmed ExPEC. Prevalence ofEscherichia coliand ExPC isolates by washroom category: Public park: 1% vs 0.5% Fast food: 3.5% vs 2% Mall: 3.3% vs 1.7% Gas station: 1.5% vs 1% Medical centre: 2% vs 0.5% Supermarket: 2.5% vs 0% Prevalence ofEscherichia coliand ExPC isolates by washroom gender: Female: 3.4% vs 1% Male: 1.5% vs 1.2% Unisex: 0.4% vs 0.4%
Patrick et al., 2010	Country: New Zealand Setting: Childcare Design: Culture-based Activity: Hand drying (WAD, PT, cloth towel) Contaminated area/medium: Chamois cloth (representing skin), liquorice straps (representing food), pipette tip (representing toy)	Bacterial CFU	N/A	Mean bacterial counts across different surfaces at baseline, usual practice, and dual hand drying, respectively: Surrogate skin: 50,200, 4400 vs 780 CFU Food: 45,000, 15,000 vs 2440 CFU Surrogate toy: 12,000, 3100 vs 130 CFU
Pitt et al., 2018	Country: UK Setting: Academic Design: Culture-based Activity: Hand drying (JAD, WAD, PT) Contaminated area/medium: Wall, floor under dryer or paper towel dispenser, trough of jet air dryer unit, side and underside of warm air dryer, paper towel dispenser knob	Bacterial CFU, Staphylococcus spp., Staphylococcus aureus, Staphylococcus epidermis, Staphylococcus haemolyticus, Pantoea agglomerans, Bacillus spp.	N/A	Fewer organisms recovered underneath and to the right of PT dispenser; highest counts underneath WAD. Notable counts at 20 cm to the right of JAD in vertical line down the wall. Sampling of PT dispenser knobs, sides of WAD and trough of JAD yielded high bacterial counts (‘too many to count’) in all cases. Bacterial colonies: Most isolates either Staphylococcus spp. (Staphylococcus epidermidis or Staphylococcus aureus) or non-pathogenic Bacillus spp.; organisms from trough in JADs included Staphylococcus haemolyticus in female washroom and Pantoea agglomerans in male washroom.
Repp et al., 2013	Country: USA Setting: Workplace Design: Outbreak investigation; surface swabs, RNA extraction, and PCR Activity: General toilet use Contaminated area/medium: Diaper changing station	Norovirus	N/A	Corporeal brown matter found inside and underneath diaper changing station; swabs were positive for Norovirus, although sequencing was not possible.
Sassi et al., 2018	Country: USA Setting: Laboratory Design: MS2 phage inoculation; culture-based analysis Activity: Toilet flushing Contaminated area/medium: Toilet handle, cistern, toilet seat, toilet bowl, toilet water, wall behind toilet, floor near toilet, toilet paper dispenser	MS2 bacteriophage	N/A	Geometric mean bacteriophage concentration on washroom surfaces after flushing: Flush handle: 1.65 (SD: 0.91) log10 PFU/90 cm² Toilet back: 2.89 (SD: 1.04) log10 PFU/100 cm² Back wall: 1.63 (SD: 1.36) log10 PFU/100 cm² Floor: 3.44 (SD: 1.08) log10 PFU/100 cm² Toilet paper dispenser: 1.49 (SD: 1.41) log10 PFU/100 cm² Toilet bowl rim: 3.88 (SD: 1.59) log10 PFU/100 cm² Toilet seat top: 4.21 (SD: 1.26) log10 PFU/100 cm² Toilet seat underside: 4.22 (SD: 1.26) log10 PFU/100 cm² Bacteriophage detected in 1 toilet bowl water sample after single flushing (1/54). Disinfectant evaluation on bacteriophage concentration: At 15 min contact time, all disinfectants showed reduction when compared with no disinfectant; at 30 min contact time, all disinfectants except hydrogen peroxide showed reduction when compared with no disinfectant. Chlorine bleach was the only treatment to show significant reduction between 15 and 30 min contact time. Peracetic acid showed greatest reduction of all treatments for all contact times; hydrogen peroxide exhibited the least reduction for all contact times.
Snelling et al., 2011	Country: UK Setting: Laboratory Design: Hands contaminated by handling chicken prior to washing and drying experiment; culture-based analysis Activity: Hand dying (JAD, WAD, PT) Contaminated area/medium: Aluminium foil (representing surfaces)	Bacterial CFU	N/A	Mean bacterial transfer to aluminium foil after hand drying procedure: No dryer (10 s): 2.76 (SD: 1.02) log10 CFU JAD Airblade (10 s): 1.75 (SD: 1.21) log10 CFU WAD Turbodry (10 s): 3.17 (SD: 1.54) log10 CFU WAD A5 (10 s): 2.95 (SD: 1.46) log10 CFU WAD Turbodry (35 s): 2.02 (SD: 1.25) log10 CFU WAD A5 (30 s): 2.21 (SD: 1.04) log10 CFU JAD vs WAD drying procedure: 21 instances of no bacteria transferred, most often (7 times) with JAD, followed by WAD Turbodry (5 times, at 35 s). Effect of rubbing hands when using WAD: Rubbing increased bacteria transferred in many instances. No statistical difference between any of the dryers when hands still, and bacterial reduction comparable to PT for middle of fingers. Rubbing with PT proved effective and to be the best means of reducing bacterial loading on fingertips.
Suen et al., 2019	Country: Hong Kong Setting: Healthcare, restaurant, food market, shopping centre, public library, sport centre, tourist spot, hotel, public housing state Design: Surface swabs, culture-based analysis; MALDI-TOF and disc diffusion AST of isolates Activity: General toilet use Contaminated area/medium: Paper towel dispenser, dryer unit, air outlet of air dryers, exit door handle, paper towel	Bacterial CFU, Escherichia coli, Proteus mirabilis, Moraxella spp., Staphylococcus aureus, Staphylococcus epidermis, Staphylococcus saprophyticus, methicillin resistant Staphylococcus epidermis, methicillin resistant Staphylococcus saprophyticus	N/A	Highest bacterial counts in washroom surfaces: Internal door handles: 1.48 × 10 ² CFU/cm² JAD: 1.42 10² CFU/cm² WAD: 1.3 × 10 ² CFU/cm² Paper towels: 1.12 × 10 ² CFU/cm² PT dispenser: 0.9 × 10² CFU/cm² Bacterial colonies: Potentially pathogenic Escherichia coli, Proteus mirabilis, Moraxella spp., Staphylococcus aureus, and Staphylococcus saprophyticus isolated from outlets of PT dispenser, hand dryer, and/or door handle. Antibiotic susceptibility assay: Swabs from PT dispensers, JAD, WAD and internal door handles showed 87.1% (27/31) of Staphylococcus spp. samples resistant to at least one first-line antimicrobial agent; 23% (7/31) exhibited co-resistance to ≥3 antimicrobial agents, most common combination penicillin, erythromycin, and clindamycin. Methicillin-resistant Staphylococcus epidermidis found in PT dispenser and Methicillin-resistant Staphylococcus saprophyticus found in WAD. Both strains additionally resistant to erythromycin and clindamycin.
Taylor et al., 2000	Country: UK Setting: Laboratory, workplace Design: Selective culture-based analysis Activity: Hand drying (WAD, PT) Contaminated area/medium: Air, air from dryer inlet, air from dryer outlet nozzle, inside dryer inlet, inside/outside dryer outer nozzle, dryer sensor/switch, top of dryer unit, wall below dryer, faucet tap, restroom door handle, floor, wall away from dryer	Bacterial CFU, Enterobacteriaceae, Pseudomonas aeruginosa, Staphylococcus aureus	Production of airborne bacteria after hand drying: No significant difference when drying hands with WAD or PT. Bacterial recovery from WAD without and with heater, respectively: Staphylococcus aureus: 66% vs 35 1% Pseudomonas aeruginosa: 62 3% vs 28 2% Reduction in recovery was greater for Pseudomonas aeruginosa. Air emitted from the outlet of the driers contained significantly fewer microorganisms than air entering the driers.	Mean bacterial counts on different surfaces: WAD outlet nozzle inside: 2.52 × 10 ³ CFU2 WAD air inlet: 1.12 × 10³ CFU WAD outlet nozzle outside: 3.20 × 10 ² CFU WAD sensor/switch: 1.38 × 10³ CFU WAD enamel top: 2.10 × 10² CFU Wall below WAD: 7.03 × 10³ CFU Faucet tap: 6.70 × 10 ² CFU Door handle: 2.05 × 10 ³ CFU Floor: 1.63 × 10 ⁴ CFU Wall away from WAD: 4.00 × 10¹ CFU Levels of microorganisms on external surfaces of hand driers were not significantly different to those on other washroom surfaces. Microbiological testing of paper towels: bacteria transferred from hand to towels; if disposal not managed correctly, paper towels could act as bacteriological reservoir.
Tsunoda et al., 2019	Country: Japan Setting: Healthcare Design: Surface swabs and water samples, selective media targeting extended-spectrum beta lactamase and metallo-beta-lactamase producing bacteria, and vancomycin resistant Enterococci; isolate identification by MALDI-TOF Activity: General bidet-toilet use Contaminated area/medium: Warm-water bidet nozzle, water from nozzle	Klebsiella spp., Enterococcus spp., Staphylococcus spp., Acinetobacter spp., Sphingomonas spp., Escherichia coli, extended-spectrum β-lactamase (ESBL)-Escherichia coli, Stenotrophomonas maltophylia	N/A	Bacterial contamination in bidet toilet: Nozzle surface: 167/192 (87%) Spray water: 181/192 (94%) Mean counts of thin colonies recovered: Nozzle surface: 14.4 (SD: 16.2) CFU Spray water: 16.3 (SD: 17.1) CFU Bacterial species identified: Escherichia coli: 8 (4.2%), 7 ESBL-producing Klebsiella spp.: 3 (1.6%) Enterococcus spp.: 7 (3.6%) Staphylococcus spp.: 5 (2.6%) Acinetobacter spp.: 24 (12.5%) Stenotrophomonas maltophylia: 8 (4.2%) Other non-glucose fermenting rods: 174 (90.6%) Sphingomonas spp.: 71 (37.0%) Other Gram-negative rods: 115 (59.9%) Other Gram-positive rods: 83 (43.2%) Enterobacteriaceae isolated from 11/192 (5.7%) bidet toilets. Tap water assessment: 1/123 sample contaminated with Sphingomonas paucimobilis in toilet in inpatient ward.
Verani et al., 2014	Country: Italy Setting: Healthcare, workplace Design: Surface swabs, air and water samples; culture-based analysis for surface and air samples; water samples analysed by isolating DNA with QIAamp DNA mini Kit Activity: Toilet flushing Contaminated area/medium: Air, toilet seat, toilet lid, toilet handle/button, internal door handle, water from toilet	Bacterial CFU, Norovirus, Torque teno virus, Human Adenovirus	Viruses were detected in 35 (81%) of total aerosol samples tested. Frequency positive samples of bacteria and virus in offices: Total positive samples: 12/16 (75%) Human Adenovirus: 10 (62%) Toque teno virus: 3 (18%) Norovirus: 0 (0%) Human Adenovirus + Toque teno virus: 1 (6%) Bacterial count >100 CFU/m³: 13 (81%)	Viruses were detected on 135 surfaces (78%), and in 17 (89%) water samples tested. The surface total positivity was 71% in offices, and 82% in hospital. Frequency positive samples of bacteria and virus in offices: Total positive samples: 46/64 (71%) Human Adenovirus: 43 (67%) Toque teno virus: 6 (9%) Norovirus: 0 (0%) Human Adenovirus + Toque teno virus: 3 (4%) Bacterial count >10 CFU/cm²: 2 (3%) Geometric mean concentration before vs after disinfection in offices: Human Adenovirus: 124 (SD: 42), 67 (SD: 23) GC/cm² Bacteria: 1.2 (SD: 2), 0 CFU/cm²
Zapka et al., 2011	Country: USA Setting: Laboratory, academic Design: Controlled studies to assess bacterial hand contamination and transfer post-hand washing with contaminated or uncontaminated soap; culture-based analysis Activity: Hand washing Contaminated area/medium: Soap dispenser, contaminated and un-contaminated soap	Bacterial CFU, Serratia marcescens, Klebsiella pneumoniae	N/A	Bulk-soap-refillable dispensers: all (14/14) soap dispensers used in an elementary school were contaminated with bacteria, ranging from 6.0 to 7.0 log10 CFU/ml of soap. Gram-negative species included Citrobacter, Providencia, Pseudomonas, Serratia genera.