Produits connexes non disponibles
Nous ouvrons la voie en matière de préparation préopératoire de la peau efficace
La préparation préopératoire de la peau du patient BD ChloraPrep™ avec une solution stérile offre une protection antimicrobienne standardisée, puissante et persistante qui s’appuie sur plus de 60 études cliniques et qui fait la confiance des prestataires de soins de santé depuis plus de 21 ans. Dans une étude clinique récente, l’antiseptique préopératoire BD ChloraPrep™ a démontré une persistance antimicrobienne pendant au moins 7 jours¹.
Les applicateurs BD ChloraPrep™ avec solution stérile ont une gamme complète de produits pour répondre aux besoins de zone de couverture de chaque patient : tailles de 1 mL, Frepp™ 1,5 mL, 3 mL, 10,5 mL et 26 mL.
Une solution fiable pour la préparation de la peau
L’expérience inégalée de près de 5 milliards d’applicateurs vendus dans 38 pays depuis plus de 21 ans, avec les preuves inégalées de plus de 50 études cliniques qui appuient l’efficacité et la sécurité.
Applicateur et solution stériles
La technologie de stérilisation brevetée maintient l’efficacité et la pureté de la solution antiseptique
Persistante
Il est important de maintenir des niveaux inférieurs de bactéries sur la peau pendant la cicatrisation afin de minimiser les bactéries qui pénètrent dans le site d’incision ou une rupture de la peau.Dans une étude clinique récente, BD ChloraPrep™ a démontré une persistance antimicrobienne pendant au moins 7 jours.
Processus standardisés et économies
La préparation de la peau BD ChloraPrep™ est la seule préparation de la peau qui offre une large gamme de zones de couverture pour répondre à vos besoins cliniques et permet une préparation cutanée standardisée économique dans tous les environnements de soins.Choisissez parmi une gamme d’options de produits en fonction de vos besoins et de la couleur de la peau du patient. Utilisez l’orange Hi-Lite pour la peau pigmentée plus claire ou claire lorsque vous voulez un effet incolore.
Ce matériel peut permettre de former le personnel à l’utilisation de la solution antiseptique cutanée BD ChloraPrep™.
La collection de vidéos de BD sur le secteur et nos offres vous donne des informations que vous pouvez utiliser pour continuer à viser l’excellence.
BD ChloraPrep™ is a rapid-acting and persistent preoperative skin preparation. Its proven formulation is available in six unique applicators designed for the right amount of solution for the right procedural area.
Advantages of BD ChloraPrep™ preoperative skin preparation include its broad spectrum, rapid-acting and persistent antimicrobial activity (at least 7 days¹), and effectiveness in the presence of blood and organic matter. These advantages are a result of the unique 2% CHG/70% IPA formulation of BD ChloraPrep™ preoperative skin preparation. Chlorhexidine gluconate, a cationic bisbiguanide, works by destroying the bacterial cell membrane and precipitating cell contents. Alcohol denatures cell proteins. As a result, BD ChloraPrep™ preoperative skin preparation provides better broad spectrum, immediate, cumulative and residual antibacterial activity compared to traditional iodophors. ² ³
2% w/v chlorhexidine gluconate (CHG) and 70% v/v isopropyl alcohol (IPA)
Yes. BD ChloraPrep preoperative skin preparation is Health Canada approved for Healthcare Professional use only.
Prepping time varies by the location and size of the prep site and applicator used.
Pinch
• Hold the applicator with the sponge down.
• Pinch the lever only once to activate the ampules and release the antiseptic.
Apply
Wet the sponge by pressing and releasing the sponge against the treatment/incision area until liquid is visible on the skin.
• Completely wet the treatment area with antiseptic.
Dry surgical sites (e.g., abdomen or arm)
– Use gentle, repeated back-and-forth strokes for 30 seconds.
Moist surgical sites (e.g., inguinal fold)
– Use gentle, repeated back-and-forth strokes for 2 minutes.
• Do not allow the solution to pool; tuck prep towels to absorb solution, and then remove.
Dry
• For safety and efficacy, allow the solution to completely dry. Follow labeled instructions per applicator package.
Prepping time varies by the location and size of the prep site and applicator. Prepping with BD ChloraPrep™ preoperative skin preparation is a procedure that, compared to the "scrub and paint technique," greatly reduces the amount of time required for patient preoperative skin preparation.
BD ChloraPrep™ preoperative skin preparation is for external use only.
Use with care in premature infants or infants under 2 months of age. These products may cause irritation or chemical burns.
BD ChloraPrep™ should not be used:
Additional labeled warnings of BD ChloraPrep™ preoperative skin preparation include:
Use with care in premature infants or infants under 2 months of age. These products may cause irritation or chemical burns.
Each BD ChloraPrep™ applicator is appropriate for a variety of procedures, depending on the size of the area that needs to be prepped.
26 mL BD ChloraPrep™ applicator (~13.2 in x ~13.2 in)
10.5 mL BD ChloraPrep™ applicator (~8.4 in x ~8.4 in)
3 mL BD ChloraPrep™ applicator (~4 in x ~5 in)
1 mL and FREPP™ 1.5 mL BD ChloraPrep™ applicators and ChloraPrep™ swabstick (~2.5 in x ~2.5 in)
BD ChloraPrep™ applicators have been designed as convenient single-use, latex-free, hands-off applicators. Designed for a smooth delivery of the appropriate amount of solution for each respective procedure, the packaging for the BD ChloraPrep™ swabstick and the patented glass ampule in the Frepp™, 3 mL, 10.5 mL and 26 mL applicators eliminate the risk of contaminated solution and protect the chlorhexidine gluconate (CHG) molecule from degradation.
Furthermore, BD ChloraPrep™ Frepp™, 3 mL, 10.5 mL and 26 mL applicators each use a patented "wing" design to minimize instances where aseptic technique is compromised.
The coverage area is specific to each applicator.
26 mL BD BD ChloraPrep™ applicator: ~13.2 inches x ~13.2 inches
10.5 mL BD BD ChloraPrep™ applicator: ~8.4 inches x ~8.4 inches
3 mL BD BD ChloraPrep™ applicator: ~4 inches x ~5 inches
1mL and FREPP 1.5 mL BD BD ChloraPrep™ applicators and BD ChloraPrep™ swabstick: ~2.5 inches x ~2.5 inches
Preoperative skin preparation is necessary to limit microorganisms on the skin and help minimize their entry into an incision or device-insertion site after application. Normal skin flora and suboptimal skin antisepsis are the primary drivers of healthcare-associated infections (HAIs).¹
For most SSIs, the source of pathogens is the endogenous flora of the patient’s skin, mucous membranes, or hollow viscera. When mucous membranes or skin is incised, the exposed tissues are at risk for contamination with endogenous flora.⁴ The goal of preoperative patient skin antisepsis is to reduce the patient's risk of developing a surgical site infection by removing soil and transient microorganisms at the surgical site. Reducing the amount of bacteria on the skin near the surgical Incision lowers the risk of contaminating the surgical incision site. Effective skin antiseptics rapidly and persistently remove transient microorganisms and reduce resident microorganisms to sub-pathogenic levels with minimal skin and tissue irritation.⁵
Surgical skin preparation aims to reduce the bacteria on the skin that may cause infection through the cleaning of the patient’s skin.⁶
Clipping hair before surgery isn’t just messy—the loose hair can increase the potential risk of contamination to your patients. Potentially contaminated hair on linens, wheels and the floor can migrate into the OR and elsewhere in the facility.
Cleaning the skin before surgery reduces the amount of bacteria and microorganisms present that may cause surgical site infections. Follow antiseptic package inserts for optimal efficacy with regards to following prep time, application process, dry time, and warnings/contraindications.
Alcohol-based preoperative skin antiseptics are recommended in the evidence-based infection prevention guidelines published by preeminent health organizations:
● American College of Surgeons/Surgical Infection Society (ACS/SIS): Alcohol-containing preoperative skin preparatory agents should be used unless contraindication exists. (2016)⁷
● Centers for Disease Control and Prevention (CDC): Perform intraoperative skin preparation with an alcohol-based antiseptic agent unless contraindicated. (2017)⁸
● World Health Organization (WHO): The panel recommends alcohol-based antiseptic solutions based on CHG for surgical skin site preparation.⁶
● Society for Healthcare Epidemiology of America (SHEA): Use an alcohol based antiseptic for skin preparation.⁹
○ PVP-I allows for the free iodine to be released, which destroys proteins and DNA of microorganisms.
○ This solution is often used, since it is safe to use on most skin regardless of age.
○ CHG breaks down bacteria cell membranes to disinfect the skin.
○ The combination of fast-acting and persistent antimicrobial activity is the key to an effective preoperative skin preparation. IPA alone provides a 99.99% reduction in bacteria, but it does not provide long-lasting microbial kill. BD ChloraPrep™ maintains antimicrobial activity, demonstrating persistence for at least 7 days¹ compared to two hours for free iodine. Because BD ChloraPrep™ preoperative skin preparation contains the combination of isopropyl alcohol and chlorhexidine, it is more effective than isopropyl alcohol alone.
○ The chlorhexidine bisbiguanide groupings associate strongly to exposed anionic sites on the cell wall and cell membrane, particularly acidic phospholipids and proteins, causing displacement of divalent cations (Ca2+ and Mg2+). Bridging adjacent phospholipids in the cell membrane will cause a loss of structural integrity, reduce membrane fluidity and allow leakage of cellular materials. ¹³
○ Bacterial cells are negatively charged, but in the presence of chlorhexidine, the bacterial cell is neutralized and the charge is reversed. The attraction of the cationic chlorhexidine molecule and the negatively charged bacterial cell contributes to a rapid rate of bacterial kill; surface charge reversal is secondary to cell death. ³
○ In contrast, traditional iodophors can take two to three minutes until the free release of iodine can occur. While the iodophor dries, free iodine becomes available. The iodine then attacks the bacterial cell and the oxidation of two sulfhydryl groups, resulting in the formation of a disulfide bond. The effectiveness of iodophors is ≤ three hours. Lastly, iodophors are neutralized in the presence of blood and organic matter and have greater irritation than the CHG solution. ¹⁴
○ Chlorhexidine-based antiseptics have been used globally for more than 50 years and have been widely used in the US, Europe, Canada and Japan for more than 30 years. In the United States alone, more than 100 studies (excluding those focused on hand hygiene data) have been published, revealing positive outcomes related to the use of chlorhexidine gluconate (CHG)-based antiseptics. There are over 60+ published studies specifically for BD ChloraPrep™ preoperative skin preparation.
The combination of fast-acting and long-lasting antimicrobial activity is the key to an effective preoperative skin preparation. IPA alone provides a 99.99% reduction in bacteria, but it does not provide long-lasting microbial kill. BD ChloraPrep™ maintains antimicrobial activity for at least 7 days¹ compared to two hours for free iodine.³ Because BD ChloraPrep™ preoperative skin preparation contains the combination of isopropyl alcohol and chlorhexidine, it is more effective than isopropyl alcohol alone.
There are a number of reasons why skin preparation prior to surgery matters. Effectively preparing the skin can reduce the microorganisms on the skin that may cause surgical site infections. Below are some of the risk factors:
● On a single square centimeter of skin, there can be as many as 10 million aerobic bacteria¹⁵
● 80% of microorganisms reside in the first five cell layers of the epidermis¹⁶
● Infection prevention measures have focused on asepsis of healthcare providers and the environment, but there is evidence about the role played by the patient's own skin⁸
Skin preparation solutions designed to reduce microorganisms on the skin before surgical procedures may contribute to contamination when nonsterile antiseptic solutions are used. According to the FDA, intrinsic contamination “may occur during the manufacturing process”.¹⁷ Infections from intrinsic contamination of antiseptics have been well documented.¹⁸ ¹⁹ Because of intrinsic contamination risks, the FDA requested that manufacturers label topical antiseptic solutions as sterile or nonsterile.¹⁷ Sterilizing the antiseptic solution during production can minimize potential intrinsic bacterial threats. However, most U.S. manufacturers of commercially available antiseptic skin preparations have not adopted this technologically challenging process. BD overcame this challenge, developing a patented process to sterilize antiseptic solutions within sealed containers to provide sterility assurance. In summary:
● Antiseptics do not self-sterilize²º
● All commonly used antiseptic agents have been linked to infection-causing contamination.¹⁹
● Outcomes associated with contaminated antiseptics may be underreported for a range of reasons. ○ Disposal of the contaminated product before infection is discovered¹⁸
○ Inconsistent contamination within the same product lot¹⁸
BD offers an exclusive portfolio of fully sterile skin prep applicator products.
BD has a number of tools and products aimed at helping reduce bacteria on the skin that may cause infections.
○ One study compared the removal of dispersed hair using standard surgical clippers with surgical tape vs clippers fitted with the ClipVac™ Hair Removal System. The study assessed clipping duration and the amount of loose hair and microbial contamination following clipping.²¹
■ Faster clipping and cleanup time: Using BD clippers with the ClipVac™ System resulted in an average of 40% faster clipping and cleanup time compared to clippers and adhesive tape.
■ Reduced contamination: Using clippers and the ClipVac™ System significantly reduced the amount of microbial contamination, by an average of 85%, compared to clipping and tape cleanup.
■ Less residual loose hair: Clipping with the ClipVac™ System was highly effective in reducing the dispersion of contaminated hair fibers within areas adjacent to the skin-prep site vs clipping followed by tape cleanup.
Skin preparation solutions designed to reduce microorganisms on the skin before surgical procedures may contribute to contamination when nonsterile antiseptic solutions are used. According to the FDA, intrinsic contamination “may occur during the manufacturing process”.¹⁷ Infections from intrinsic contamination of antiseptics have been well documented.¹⁸ ¹⁹ Because of intrinsic contamination risks, the FDA requested that manufacturers label topical antiseptic solutions as sterile or nonsterile.¹⁷ Sterilizing the antiseptic solution during production can minimize potential intrinsic bacterial threats. However, most U.S. manufacturers of commercially available antiseptic skin preparations have not adopted this technologically challenging process. BD overcame this challenge, developing a patented process to sterilize antiseptic solutions within sealed containers to provide sterility assurance. In summary:
● Antiseptics do not self-sterilize²º
● All commonly used antiseptic agents have been linked to infection-causing contamination.¹⁹
● Outcomes associated with contaminated antiseptics may be underreported for a range of reasons. ○ Disposal of the contaminated product before infection is discovered¹⁸
○ Inconsistent contamination within the same product lot¹⁸
BD offers an exclusive portfolio of fully sterile skin prep applicator products.
○ BD’s durable, efficient clippers support patient preoperative hair removal in a single pass and minimize the risk of compromising the skin. Our clippers remove more hair per second than 3M™, Cardinal Health™, and Medline™ in internal laboratory tests ²⁴, saving valuable OR patient-prep time. They also offer the following benefits:
■ A close cut while maintaining skin integrity
■ A 40° angled, ergonomic handle, allowing seamless preoperative hair removal
■ Usability in either wet or dry clipping conditions
■ The only IXP-7 waterproof-rated clippers for submersibility, to support thorough cleaning and disinfecting
■ Lithium-ion battery technology to facilitate longer runtime and improve energy efficiency
■ Battery-life and charging indicators that alert clinicians to charge level
■ Choice of three blades for a variety of procedures
○ BD ChloraPrep™ is a rapid-acting and persistent preoperative skin preparation. Its proven formulation is available in six unique applicators designed for the right amount of solution for the right procedural area.
○ Advantages of BD ChloraPrep™ preoperative skin preparation include its broad spectrum, rapid-acting and persistent antimicrobial activity (7 days¹) and effectiveness in the presence of blood and organic matter. These advantages are a result of the unique 2% CHG/70% IPA formulation of BD ChloraPrep™ preoperative skin preparation. Chlorhexidine gluconate, a cationic bisbiguanide, works by destroying the bacterial cell membrane and precipitating cell contents. Alcohol denatures cell proteins. As a result, BD ChloraPrep™ preoperative skin preparation provides better broad spectrum, immediate, cumulative and residual antibacterial activity compared to traditional iodophors.² ³
BD E-Z Scrub™ preoperative surgical scrub brushes are single-packaged brushes impregnated with a wide range of antimicrobial formulations. These formulations include chlorhexidine gluconate (CHG), chloroxylenol (PCMX), and povidone-iodine (PVP-I)
These unique sponges are not only designed to be comfortable and gentle on the skin, they are uniquely formulated to help meet CDC and WHO guidelines for cleaning hands before putting on gloves or contacting patients.²⁵
1.Beausoleil C, Comstock SL, Werner D, Li L, Eby JM, Zook EC. Antimicrobial persistence of two alcoholic preoperative skin preparation solutions. J Hosp Infect. 2022 Nov;129:8-16.
2.Hemani ML, Lepor H. Skin preparation for the prevention of surgical site infection: which agent is best? Rev Urol. 2009 Fall;11(4):190-5
3.Denton GW. Chlorhexidine. Disinfection, sterilization, and preservation. (Edited by S.S. Block, 4th ed) Philadelphia: Lea & Feabiger. 1991. pp. 322–333.
4.Mangram AJ, Horan TC, Pearson ML, Silver LC, Jarvis WR. Guideline for Prevention of Surgical Site Infection, 1999. Centers for Disease Control and Prevention (CDC) Hospital Infection Control Practices Advisory Committee. Am J Infect Control. 1999 Apr;27(2):97-132
5. 2021 AORN Guidelines for Perioperative Practice: Patient Skin Antisepsis
6.WHO 2016 Global guidelines for the prevention of SSIs fact sheet https://cdn.who.int/media/docs/default-source/integrated-health-services-(ihs)/ssi/fact-sheet-skin-web.pdf?sfvrsn=ead06f37_2#:~:text=Surgical%20site%20skin%20preparation%20is,the%20operating%20room%20(OR).
7.Ban KA, Minei JP, Laronga C, Harbrecht BG, Jensen EH, Fry DE, Itani KM, Dellinger EP, Ko CY, Duane TM. American College of Surgeons and Surgical Infection Society: Surgical Site Infection Guidelines, 2016 Update. J Am Coll Surg. 2017 Jan;224(1):59-74
8.Berríos-Torres SI, et al; Healthcare Infection Control Practices Advisory Committee. Centers for Disease Control and Prevention Guideline for the Prevention of Surgical Site Infection, 2017. JAMA Surg. 2017 Aug 1;152(8):784-791.
9.Yokoe DS,,et al; Society for Healthcare Epidemiology of America (SHEA). A compendium of strategies to prevent healthcare-associated infections in acute care hospitals: 2014 updates. Infect Control Hosp Epidemiol. 2014 Aug;35(8):967-77.
10.AORN. Perioperative Standards and Recommended Practices. Denver, CO: AORN, Inc.; 2013:75-89.
11.Galvin P. Am J Nurs. 2009;109(12):49-55. doi: 10.1097/01.NAJ.0000365187.47124.c0.
12.Karpanen TJ, et al. Antimicrob Agents Chemother. 2009;53(4):1717-1719. doi:10.1128/AAC.01289-08.
13.Gilbert, P. and Moore, L.E. (2005), Cationic antiseptics: diversity of action under a common epithet. Journal of Applied Microbiology, 99: 703-715
14.Trautner, B. Skin antisepsis kits containing alcohol and chlorhexidine gluconate, or tincture of iodine are associated with low rates of blood culture contamination. Infection Control and Hospital Epidemiology, 2002.
15.Chen YE, Tsao H. The skin microbiome: current perspectives and future challenges. J Am Acad Dermatol. 2013 Jul;69(1):143-55.
16.Hendley JO, Ashe KM. Antimicrob Agents Chemother 1991 627-31
17. https://www.fda.gov/drugs/drug-safety-and-availability/questions-and-answers-fda-requests-label-changes-and-single-use-packaging-some-over-counter-topical
18.Chang C, Furlong LA. Microbial stowaways in topical antiseptic products. NEngJMed. 2012;367;23:2170-2173. doi: 10.1056/NEJMp1212680.
19.Weber DJ, Rutala WA, Sickbert-Bennett EE. Outbreaks associated with contaminated antiseptics and disinfectants. Antimicrob Agents Chemother. 2007;51(12):4217-4224.
20.Berger SA. Pseudobacteremia due to contaminated alcohol swabs. J Clin Microbiol. 1983;18 (4): 974-975.
21.Edmiston CE Jr, Griggs RK, Tanner J, Spencer M, Seabrook GR, Leaper D. Perioperative hair removal in the 21st century: Utilizing an innovative vacuum-assisted technology to safely expedite hair removal before surgery. Am J Infect Control. 2016 Dec 1;44(12):1639-1644.
22.Redelmeier, DA, Livesley NJ. Adhesive tape and intravascular-catheter-associated infections. J Gen Intern Med. 1999;14(6):373-375
23.AORN. AORN Guidelines for Perioperative Practice. 2015. Cosulté le 20 mai 2016 sur https://www.aorn.org/guidelines
24.Données archivées
25. Directives 2009 de l’OMS sur l’hygiène des mains