ACENSwww.famed.com.pl

Hybrid Antibacterial Beds

The product was made of materials that possess antimicrobial/antibacterial properties.

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Hybrid Antibacterial Beds

ACENSPurpose

Beds for use in Intensive Care Wards, combining high operational parameters, comfort to the patient solutions and great effectiveness in the fight against HAI (Healthcare Associated Infections).

Unique features of a hybrid bed• The Hybrid ACENS (Antimicrobial Copper

Nanotechnology Silver) Bed is the first bed to combine two efficient technologies greatly reducing the harmful effects of bacteria. Peripheral elements of the bed comprise the antibacterial CU+ copper; this includes side rails, which are the parts of a bed that patients and the staff touch the most frequently. The copper destroys up to 90% of bacteria and viruses on its surface. Silver nanoparticles constitute one of the components of the bed’s plastic parts. They prevent bacteria and viruses from multiplying on bed parts that are usually difficult to access.

• Silver nanoparticles cause irreparable damage to the cell structure harmful to human pathogens. It protect patients against infections caused by certain types of fungi, bacteria or viruses. It’s use in parts of the product that are not often directly touched, provides

additional support and complement the standard disinfection procedures in hospitals.

• Copper coated areas with antimicrobial properties fight bacteria and viruses that cause infections in the place of their occurrence. Such surfaces are the most effective and ideal material in a hospital environment, where their natural and permanent suitability in the bacterias fighting complements standard infection control measures.

• Both the specific copper alloys, and silver particles, exhibit strong antimicrobial properties. The reason why we use both technologies in the ACENS+ construction is that their effectiveness depends inter alia on the temperature and humidity in the room. In this respect they have quite different “preferences”, and that’s why we used both materials to work together complementarily.

Numbers do not lie

80% Up to 80% of infections in hospitals comes through touch1

99% Copper alloys kill 99% of bacteria in two hours2

58% Copper Cu+ reduces the risk of infection by 58%3

51%of patients staying at the Intensive Care Wards in the world is infectious. These patients are subject of death twice more in comparison with uninfected patients.

1 – The Secret Life of Germs. P. Tierno, Atria Books: New York, NY, USA. 2001.2 - [1] Effects of temperature and humidity on the efficacy of methicillin-resistant Staphylococ-cus aureus challenged antimicrobial materials containing silver and copper. H.T. Michels, J.O. Noyce and C.W. Keevil, Letters in Applied Microbiology, 49 (2009) 191-195.

[2] Role of copper in reducing hospital environment contamination. A.L. Casey, D. Adams, T.J. Karpanen, P.A. Lambert, B.D. Cookson, P. Nightingale, L. Miruszenko, R. Shillam, P. Christian and T.S.J. Elliott, J. Hosp Infect (2009).3 – http://www.antimicrobialcopper.com

Contact killing of microbes by copper surfaces

Species Killing time, RT1

Salmonella enterica 4 hCampylobacter jejuni 8 hEscherichia coli O157 65 minEscherichia coli O157 75 minMRSA2 (NCTC10442) 45 minEMRSA-13 (NCTC11939) 60 minEMRSA-163 (NCTC13143) 90 minListeriamonocytogenes Scott A 60 minMycobacterium tuberculosis 5 to 15 days 4

Candida albicans 60 minKlebsiella pneumoniae 60 minPseudomonas aeruginosa 180 minAcinetobacter baumannii 180 minMRSA 180 minInfluenza A virus (H1N1) 6 h, 4-log decreaseC. difficile (ATCC9689) vegetative cells and spores 24–48 h

C. difficile NCTC11204/R20291 vegetative cells 30 minC. difficile dormant spores Unaffected 3 hC. difficile germinating spores 3 h, 3-log decreasePseudomon asaeruginosa PAO1 120 min

Species Killing time, RT1

MRSA NCTC 10442 75 min, 7 log decreaseEscherichia coli W3110 1 minAcinetobacter johnsonii DSM6963 A few minutesPantoeastewartii DSM30176 1 minPseudomonas oleovorans DSM 1045 1 minStaphylococcus warnerii DSM 20316 A few minutesBrachybacterium conglomeratum DSM10241 A few minutes

Aspergillus flavus 120 hAspergillus fumigatus > 120 hAspergillus niger > 576 hFusarium culmonium 24 hFusarium oxysporum 24 hFusarium solani 24 hPenicillium crysogenum 24 hCandida albicans 24 hEnterococcus hirae ATCC 9790 90 minDifferent Enterococcus spp. 60 minCandida albicans 5 minSaccharomy cescerevisiae 30 sHIV-1 3 days *

1 – RT, room temperature; only the values for the most efficient alloy are reported.2 – Methicillin-resistant Staphylococcus aureus.3 – Epidemicmethicillin-resistant Staphylococcus aureus.4 – Time before strain became culture positive in Bactec 12B growth medium after exposure

to copper.

* The exact time is not known, the value of three days is due to the study methodology.Source: Sagripanti, J.L., and M.M. Lightfoote. 1996. Cupric and ferric ions inactivate HIV. AIDS Res. Hum. Retrovir. 12:333-337.]Applied and environmental microbiology, Mar. 2011, p. 1541–1547

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AcensBed supported by two

cylindrical columns (without lateral tilts)

Acens+Bed supported by three

cylindrical columns(with lateral tilts)

Autoregress: 210 mmLateral tilts: 25° (Acens+)

390

15 14 13 12 11 10 09 07 08 06 05 04 03 02 01

PlasticCopper Silver Steel

360300 330

Minutes

300 60 90 120 150 180 210 240 270

Number of bacteria (in millions)

Comparison of the antibacterial effects of copper to the antibacterial effects of other materials at room temperature

ACENS+ is based on the popular LE-13 bed. As a result we offer you a proven, multifunctional product that has been developed with exceptional care for detail and features a number of major advantages:

• Low bed position and side rails allow the patient to safely get in and out the bed,

• The double autoregression function reduces the load in the area of the patient’s shins and thighs,

• Autoregress 21 centimeters reduces the risk of spinal injury in an episode of the L3-S1, decreases the risk of bedsore rising andextenuates pressure when changing body position in the cardiac one, Fowler’s positon and the positional therapy;

• Possibility of lateral tilts (available in bed ACENS +) allow conducting positional therapy: in, inter alia, static drain, diseases and injuries of the spine, hip etc.

• The position of a cardiac chair increases the patient’s comfort,

• A wired remote control and control panel mounted on the side rail allow the patient to choose the most comfortable position,

• Adjustable bed length,• The head board of the bed can be easily removed,

providing medical staff with fast and easy access to the patient in life-threatening situations,

• Lateral tilting makes it easier to nurse the patient and eliminates negative factors affecting medical staff (lifting patients with heavier weight, spinal load etc.),

• A weighing system (optional) allows staff to examine the weight of a patient and thus administer the proper dosage of medicine,

• The bed can be used for X-ray examination by means of a C-arm

A versatile product

Bedframe translucency and cooperation with C-arm

Available head and foot boards

RAL 7002

RAL 6019 RAL 6027

RAL 5012

RAL 1018

RAL 5024RAL 5002

RAL 1015

Available colours of inserts for PL-19.1 head and foot boards

PL-19.1 Plastic head and foot boards with colour inserts

Source: www.antimicrobialcopper.org

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Configuration options:

Available control panels:

Control panel WL-99.4All electric functions can be operated by the hand controller. Central control panel with possibility of steering and locking of electric functions, LCD displayer, additional buttons: cardiological chair, Fowler’s position, electric CPR, examination position, anti-shock position.

Control panel WL-99.6All electric functions can be operated by the hand controller. Central control panel with possibility of steering and locking of electric functions, LCD displayer, additional buttons: cardiological chair, Fowler’s position, electric CPR, examination position, anti-shock position.

Control panel WL-99.41All electric functions can be operated by the hand controller. Central control panel with possibility of steering and locking of electric functions, LCD displayer, additional buttons: cardiological chair, Fowler’s position, electric CPR, examination position, anti-shock position, scale system control.

Control panel WL-99.61All electric functions can be operated by the hand controller. Central control panel with possibility of steering and locking of electric functions, LCD displayer, additional buttons: cardiological chair, Fowler’s position, electric CPR, examination position, anti-shock position, scale system control.

WL-99.3 All electric functions can be operated by the hand controller. Central control panel with possibility of steering and locking of electric functions, additional buttons: cardiological chair, Fowler’s position, electric CPR, examination position, anti-shock position.

Control panels ACENS ACENS+Control panel WL-99.3 S –

Control panel WL-99.4 O –

Control panel WL-99.41 O –

Control panel WL-99.6 – S

Control panel WL-99.61 – O

Foot controller WL-99.5 O –

Foot controller WL-99.52 – O

Foot controllers WL-99.51 (are placed on both sides of the bed) O O

Scale system Only with WL-99.41 Only with WL-99.61

Hand holder UR-07.0Drip bottle holder WK-17.0 Drip bottle holder WK-12.0

Indicator of bed frame inclination PL-24.3

Indicator of back rest inclination PL-24.1

Proposed additional equipment

Urinal holder WL-19.6

Bed-pan holder WL-20.6

Oxygen bottle holder PL-36.0

Other equipment:• Mattress MC-28.32

in removable cover, waterproof, steam permeable

• Additional mattress MC-41.0 extending standard mattress

• Antidecubitus mattresses: active, passive

• Double extension apparatus

S – standard, O – option, – – not available

Technical data: ACENS ACENS+

Bed length 2280 mm 2280 mm

Total bed length with the bed frame extension 2480 mm 2480 mm

Total bed length with shortened bed frame 2180 mm 2180 mm

Total bed width 965 mm 965 mm

Mattress length x width 2060 x 840 mm 2060 x 840 mm

Height adjustment450-850 mm (electric actuator)

465-865 mm(electric actuator)

Back rest segment inclination0°-74° (electric actuator)

0°-74° (electric actuator)

Thigh rest segment inclination0°-45° (electric actuator)

0°-45° (electric actuator)

Shank rest segment inclination24° (gas spring)

24° (gas spring)

Trendelenburg position15° (electric actuator)

15° (electric actuator)

Reverse-Trendelenburg position17° (electric actuator)

17° (electric actuator)

Lateral tilts –25° (electric actuator)

Back rest segment autoregress 120 mm 120 mm

Thigh rest segment autoregress 90 mm 90 mm

Bed frame extension 200 mm 200 mm

Bed frame shortening (option) 100 mm 100 mm

Permissible load 250 kg 250 kg

Power supply 230 V~,50/60 Hz 230 V~,50/60 Hz

Power consumption 350 VA 350 VA

Protection class against electrocutionI(optionally II)

I(optionally II)

Application part type B B

Protection degree for environment influenceIP 54(optionally IP 66)

IP 54(optionally IP 66)

Castors diametersingle 150 mmdouble 150 mm (option)

single 150 mmdouble 150 mm (option)

The product meets the requirements of the European Directive MDD 93/42/EEC concerning safety of medical devices

CZYSTSZA PRODUKCJA

UNEP

IE C

LEANER PRODUCTION FRAM

EWO

RK

Famed Żywiec Sp. z o.o.ul. Fabryczna 1

34-300 Żywiec, Poland

Head Office:tel.: +48 33 866 62 00fax: +48 33 475 58 90

Export Department: tel.: +48 33 866 62 58tel.: +48 33 866 62 65tel.: +48 33 866 62 66fax: +48 33 861 46 78

expo.famed@famed.com.plwww.famed.com.pl

Edition 01/2015. Famed Żywiec reserves the right to make modifications in the products in the course of technical progress. All illustrations and photos, used in this material, are for illustration and may not accurately depict the actual product.