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Does Skin Marker Type Prevent Erasure Of Surgical-Site Markings?

Tue, 12/08/2009 - 6:09am
Mean differences in grayscale contrast by skin preparation

Site marking is an essential part of the preoperative process to prepare the surgical patient. Currently, surgical associations mandate a time-out to verify the correct surgical site and surgery,[1,2] which is meant to eliminate wrong-site surgery.[3–5]

According to the Joint Commission[6], site marking should be within the surgical field after draping and that the time-out be performed just before surgical incision. Marking is also an essential part of surgical procedures such as mastopexy, in which the unanesthetized patient is marked preoperatively to provide optimal cosmesis and symmetry.[7] The erasure of these site markings can cause problems in terms of site identification and surgical incision positioning.

Meanwhile, skin preparation is also part of the preoperative process, and chlorhexidine-based skin preparation solutions have been recommended as a way of decreasing the risk of postoperative wound infection.[8,9]

However, at least 1 commercially available chlorhexidine-based skin preparation solution (Chloraprep; chlorhexidine gluconate, 2% w/v, plus isopropyl alcohol, 70% v/v; Enturia, Inc, Leawood, Kan), which requires a surgical scrub application for 30 seconds, has been found to erase site marking when made with 1 type of marking pen.[10]

Although several other skin-marking pens (some disposable) are now available in different sizes and ink colors, no study had yet assessed their ability to withstand such skin preparation.

In response to this, Simon Mears, MD, PhD, Arman B. Davani and Stephen M. Belkoff, PhD, conducted a study test the hypothesis that some markers can withstand skin preparation with a chlorhexidine-based skin preparation solution in a manner similar to that with an iodine-based solution.

Methods
To conduct the study, the researchers obtained five flaps of skin from male white cadavers were obtained from the State Anatomy Board. The skin flaps were warmed to 20°C, and the temperature was measured with a thermocouple (K-type; Omega Engineering, Inc, Stamford, Conn).

Nine commercially available pens specifically marketed for skin marking were identified through an Internet search. On each flap of skin, 2 separate rows of marks were made with each of the 9 types of pens:

  1. Sandel 4-in-1 marker (skin, wide) (Sandel Medical Industries, LLC, Chatsworth, Calif);
  2. Waterproof Permanent Marker-Mini, Fine Tip (Viscot Medical LLC, East Hanover, NJ);
  3. OP-marks mini markers (OP-marks, Inc, Bogart, Ga);
  4. OP-marks mini max (OP-marks, Inc);
  5. Accu-line wide body (Accu-line Products, Inc, Hyannis, Mass);
  6. Sharpie super permanent marker (Sanford Corporation, Oak Brook, Ill);
  7. Securline surgical skin marker no. 1000 (Precision Dynamics Corporation, San Fernando, Calif);
  8. HMS Twin-Tip broad (Hospital Marketing Services Co, Inc, Naugatuck, Conn); and
  9. HMS Twin-Tip fine (Hospital Marketing Services Co, Inc).
Each mark was a single vertical line that was approximately 50 mm long. Digital photographs (Fig 1) were obtained with a 10.1-megapixel camera (Digital Rebel XTi; Canon USA, Inc, Lake Success, NY), equipped with a 100-mm macro lens (EF 100-mm f/2.8 USM Macro Lens; Canon USA, Inc) and a ring flash (MR-14EX TTL; Canon USA, Inc). Camera settings included a shutter speed of 1/60 seconds and an F-stop value of 4.0.

Figure 1. Photographs of skin markings before (left) and after (right) the application of a chlorhexidine-based (top) or iodine-based (bottom) skin preparation solution. Marks made with each of the pens from left to right are as follows: Sandel 4-in-1 marker, Waterproof Permanent Marker-Mini, OP-marks mini markers, OP-marks mini max, Accu-line wide body, Sharpie super permanent marker, Securline surgical skin marker no. 1000, HMS Twin-Tip broad, and HMS Twin-Tip fine.

Each mark was a single vertical line that was approximately 50 mm long. Digital photographs (Fig 1) were obtained with a 10.1-megapixel camera (Digital Rebel XTi; Canon USA, Inc, Lake Success, NY), equipped with a 100-mm macro lens (EF 100-mm f/2.8 USM Macro Lens; Canon USA, Inc) and a ring flash (MR-14EX TTL; Canon USA, Inc). Camera settings included a shutter speed of 1/60 seconds and an F-stop value of 4.0.

The markings were allowed to dry for at least 15 minutes before skin preparation. On each skin flap, a chlorhexidine-based skin preparation solution (Chloraprep) was applied to one row of markings and an iodine-based skin preparation solution (Duraprep; iodophor, 0.7% available iodine, plus isopropyl alcohol, 74% w/w; 3M Healthcare, St Paul, Minn), which served as the control, was applied to the other row.

Both solutions were applied according to their respective manufacturer's guidelines. Chloraprep was applied for 30 seconds, with repeated forward and backward strokes of the applicator. Duraprep was applied by painting a single layer of the solution on the site. No scrubbing motion was used during Duraprep application. The surface of the skin flaps was allowed to dry completely after skin preparation and then we obtained a second set of digital images with the same camera and settings.

Adobe Photoshop CS2 (Adobe Systems, Inc, San Jose, Calif) was used to convert the raw digital images into a grayscale with 256 levels (with 0 being the darkest and 255 being white). The mean contrast in grayscale between each mark and its surrounding skin was determined with the program's histogram tool. The difference between grayscale contrast measurements of the images before and after skin preparation was calculated.

The effect of the type of marker and skin preparation solution on the difference in grayscale contrast was evaluated by multiple linear regression analysis (Stata10; StataCorp, LP, College Station, Tex). Unless otherwise specified, differences were considered significant at P < .05.

Results
The mean grayscale contrast for all markings with Chloraprep application was significantly lower than that of the preapplication marking (Table 1). Duraprep application did not significantly alter the mean grayscale contrast for any of the surgical markers (Table 1). There were no significant differences between markings subjected to Chloraprep, that is, none of the markings resisted erasure significantly better than another.

Table 1. 


Type of pen

Mean (95% confidence interval) difference

Chloraprep

Duraprep

Sandel 4-in-1 marker (skin, wide)

40.5 (28.8–52.1)

4.4 (-10.9 to 19.6)

Waterproof Permanent Marker-Mini, Fine Tip

47.8 (37.5–58.1)

3.9 (−2.2 to 10.0)

OP-marks mini markers

47.9 (39.2–56.7)

3.7 (−0.5 to 7.9)

OP-marks mini max

49.4 (39.5–59.4)

3.9 (−4.2 to 12.0)

Accu-line wide body

51.2 (45.0–57.3)

9.9 (7.1–12.6)

Sharpie super permanent marker

53.5 (44.5–62.4)

9 (−2.8 to 21.6)

Securline surgical skin marker no. 1000

36.0 (28.6–43.4)

12.3 (3.6–21.1)

HMS Twin-Tip broad

40.2 (33.5–47.0)

2.4 (0.0–4.8)

HMS Twin-Tip fine

26.2 (16.2–36.2)

2.4 (−4.2 to 8.9)

Discussion: What Can Be Done?
Results of the study suggest that currently all available skin markers are significantly erased when chlorhexidine-based skin preparation solution is used to prepare the skin, rejecting the hypothesis that there was a marker compatible with chlorhexidine-based skin preparation solution. We found no marker less vulnerable to erasure than another when exposed to the chlorhexidine-based skin preparation solution.

The researchers suggest that site-marking erasure could be prevented through various mechanisms. Marker technology could evolve so that the ink is more permanent and cannot be erased with skin preparation.

The type of chlorhexidine preparation solution could be changed so that it does not erase the marks. It is possible that the recommended application method could be altered to lessen site-marking erasure.

Currently, the chlorhexidine-based skin preparation solution is applied by a scrubbing technique because this is the method of application approved by the US Food and Drug Administration for this product. The scrubbing action, however, may exacerbate the erasure of the markings. Changing the skin preparation process would require US Food and Drug Administration approval and verification of effectiveness in skin decontamination.

The exact protocol of the time-out process could also be changed. We used the definition of the time-out process supplied by The Joint Commission Universal Protocol.[6] With this method, the site marking must be visible in the prepared and draped surgical field immediately before skin incision. The time-out is then the final check before surgical incision.[3] This strict definition is necessary to eliminate wrong-site surgery. Although it has been common practice to perform the time-out before positioning or skin preparation, doing so may introduce the opportunity for wrong-site surgery.

It is noted by the researchers that the study does carry its limitation, including the use of cadaveric instead of live skin. It is unknown whether the 2 types of skin respond differently to marker ink. A randomized prospective study (ClinicalTrials.gov Identifier: NCT00739583) is currently underway to investigate the durability of surgical-site markings when exposed to skin preparation solutions.

All specimens in the current study had light skin coloration (white). We expect to include skin with darker pigmentation, which may reduce the contrast of the ink and make site-marking visibility even more challenging. The threshold for marking erasure is also unknown. The surgeon subjectively determines the degree to which a surgical mark is not visible. The researchers take the same position is the same as that of  The Joint Commission; namely, that the marker used should make site markings sufficiently permanent to remain visible after completion of the skin preparation and sterile draping.[6]

In conclusion, the study did not find any skin marker that withstood the effects of the chlorhexidine-based skin preparation solution. The grayscale contrast was significantly decreased for all types of markers after the application of Chloraprep. Researchers agreed additional effort is needed to ensure that surgical-site markings are retained when a chlorhexidine-based skin preparation solution is used.

References

  1. American Academy of Orthopaedic Surgeons. Advisory statement on wrong site surgery. http://www.aaos.org/about/papers/advistmt/1015.asp. Accessed April 22, 2009.
  2. American College of Surgeons Committee on Processes of Surgical Care, American College of Surgeons Member Services Liaison Committee. Statement on ensuring correct patient, correct site, and correct procedure surgery. Bull Am Coll Surg. 2002;87:26.
  3. Michaels RK, Makary MA, Dahab Y, et al. Achieving the National Quality Forum's "Never Events". Prevention of wrong site, wrong procedure, and wrong patient operations. Ann Surg. 2007;245:526–32.
  4. Makary MA, Mukherjee A, Sexton JB, et al. Operating room briefings and wrong-site surgery. J Am Coll Surg. 2007;204:236–43.
  5. Clarke JR, Johnston J, Blanco M, et al. Wrong-site surgery: can we prevent it? Adv Surg. 2008;42:13–31.
  6. The Joint Commission. Universal Protocol UP.01.01.01. http://www.jointcommission.org/NR/rdonlyres/AEA17A06-BB67-4C4E-B0FC-DD195FE6BF2A/0/UP_HAP_20080616.pdf. Accessed April 22, 2009.
  7. Fahmy FS, Hemington-Gorse SJ. The sitting, oblique, and supine marking technique for reduction mammaplasty and mastopexy. Plast Reconstr Surg. 2006;117:2145–51.
  8. Bibbo C, Patel DV, Gehrmann RM, et al. Chlorhexidine provides superior skin decontamination in foot and ankle surgery: a prospective randomized study. Clin Orthop Relat Res. 2005;438:204–8.
  9. Ostrander RV, Botte MJ, Brage ME. Efficacy of surgical preparation solutions in foot and ankle surgery. J Bone Joint Surg Am. 2005;87:980–5.
  10. Mears SC, Dinah AF, Knight TA, et al. Visibility of surgical site marking after preoperative skin preparation. ePlasty. 2008;8:364–9.

Source: Medscape Today

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