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Surgical Planning for Mohs Defect Reconstruction in the Digital Age

Practice Gap

An essential part of training for a micrographic surgery and dermatologic oncology fellowship and scope of practice involves planning and execution of reconstructive surgery for Mohs defects. Recently, a surgical pearl presented by Rickstrew and colleagues1 highlighted the use of different colored surgical marking pens and their benefit in a trainee-based environment.

Delineating multiple options for reconstruction with different colored markers on live patients allows fellows in-training to participate in surgical planning but introduces more markings or drawings that need to be wiped off during or after surgery, potentially prolonging operative time. Furthermore, the Rickstrew approach has the potential to (1) cause unnecessary emotional distress for the patient during surgical planning and (2) add to the cost of surgery with the purchase of various colors of surgical markers.

 

Technique

To improve patient experience and trainee education, we propose fine-tuning the colored marker approach by utilizing a digital drawing program for surgical planning prior to the procedure. We recommend Snip & Sketch—a free, readily accessible digital annotating application that runs on the Microsoft Windows 10 operating system (https://www.microsoft.com/en-us/p/snip-sketch/9mz95kl8mr0l#activetab=pivot:overviewtab)—to mark up screenshot photographs of postoperative Mohs defects from the electronic medical record.

Using Snip & Sketch, the fellow in-training can then use, for example, a green “digital pen” to draw on the captured image and plan their surgical repairs (Figure 1) without input from the attending physician. Different colored pens can be used to highlight nerves, vessels, relaxed skin tension lines, and tension vectors associated with flap movement.

Mohs defect and reconstructive options designed by a fellow in-training (spiral flap in green) and attending physician (melolabial interpolation flap in blue).
FIGURE 1. Mohs defect and reconstructive options designed by a fellow in-training (spiral flap in green) and attending physician (melolabial interpolation flap in blue).

Subsequently, the attending physician, using a different color digital pen—say, blue—can design alternative reconstructive options (Figure 1). Suture lines also can be drawn to outline the predicted appearance of surgical scars (Figure 2).

Predicted appearance of a surgical scar from Mohs defect reconstruction.
FIGURE 2. Predicted appearance of a surgical scar from Mohs defect reconstruction.

Then, the attending physician and fellow in-training brainstorm and discuss the advantages and disadvantages of each reconstructive option to determine the optimal approach to repairing the Mohs defect.

Advantages and Disadvantages

The main advantage of using a digital drawing program is that it is time-saving and cost-efficient. Digital planning also spares the patient undue anxiety from listening to the discussion on each repair option.

 

 

The primary downside of digital surgical planning is that it is 2-dimensional, thus providing an incomplete representation of a 3-dimensional cutaneous structure. In addition, skin laxity, flap mobility, and free-margin distortion cannot be fully appreciated on a 2-dimensional image.

Despite these drawbacks, digital surgical planning provides trainees with an active learning experience through a more collaborative and comprehensive discussion of reconstructive options.

Practice Implications

Active learning using an electronic device has been validated as a beneficial addition to Mohs micrographic surgery training.2 Utilizing a digitized annotating program for surgical planning increases the independence of trainees and allows immediate feedback from the attending physician. The synergy of digital technology and collaborative learning helps cultivate the next generation of confident and competent Mohs surgeons.

References
  1. Rickstrew J, Roberts E, Amarani A, et al. Different colored surgical marking pens for trainee education. J Am Acad Dermatol. 2021:S0190-9622(21)00226-7. doi:10.1016/j.jaad.2021.01.069
  2. Croley JA, Malone CH, Goodwin BP, et al. Mohs Surgical Reconstruction Educational Activity: a resident education tool. Adv Med Educ Pract. 2017;8:143-147. doi:10.2147/AMEP.S125454
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Author and Disclosure Information

Drs. Lai, Rogachefsky, and Lee are from Affiliated Dermatologists & Dermatologic Surgeons, Morristown, New Jersey, and the Department of Medicine/Dermatology, Morristown Medical Center. Dr. Parker is from Midwest Dermatology, Omaha, Nebraska.

The authors report no conflict of interest.

Correspondence: Kristyna Lee, MD, MPH, 182 South St, Ste 1, Morristown, NJ 07960 ([email protected]).

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Author and Disclosure Information

Drs. Lai, Rogachefsky, and Lee are from Affiliated Dermatologists & Dermatologic Surgeons, Morristown, New Jersey, and the Department of Medicine/Dermatology, Morristown Medical Center. Dr. Parker is from Midwest Dermatology, Omaha, Nebraska.

The authors report no conflict of interest.

Correspondence: Kristyna Lee, MD, MPH, 182 South St, Ste 1, Morristown, NJ 07960 ([email protected]).

Author and Disclosure Information

Drs. Lai, Rogachefsky, and Lee are from Affiliated Dermatologists & Dermatologic Surgeons, Morristown, New Jersey, and the Department of Medicine/Dermatology, Morristown Medical Center. Dr. Parker is from Midwest Dermatology, Omaha, Nebraska.

The authors report no conflict of interest.

Correspondence: Kristyna Lee, MD, MPH, 182 South St, Ste 1, Morristown, NJ 07960 ([email protected]).

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Practice Gap

An essential part of training for a micrographic surgery and dermatologic oncology fellowship and scope of practice involves planning and execution of reconstructive surgery for Mohs defects. Recently, a surgical pearl presented by Rickstrew and colleagues1 highlighted the use of different colored surgical marking pens and their benefit in a trainee-based environment.

Delineating multiple options for reconstruction with different colored markers on live patients allows fellows in-training to participate in surgical planning but introduces more markings or drawings that need to be wiped off during or after surgery, potentially prolonging operative time. Furthermore, the Rickstrew approach has the potential to (1) cause unnecessary emotional distress for the patient during surgical planning and (2) add to the cost of surgery with the purchase of various colors of surgical markers.

 

Technique

To improve patient experience and trainee education, we propose fine-tuning the colored marker approach by utilizing a digital drawing program for surgical planning prior to the procedure. We recommend Snip & Sketch—a free, readily accessible digital annotating application that runs on the Microsoft Windows 10 operating system (https://www.microsoft.com/en-us/p/snip-sketch/9mz95kl8mr0l#activetab=pivot:overviewtab)—to mark up screenshot photographs of postoperative Mohs defects from the electronic medical record.

Using Snip & Sketch, the fellow in-training can then use, for example, a green “digital pen” to draw on the captured image and plan their surgical repairs (Figure 1) without input from the attending physician. Different colored pens can be used to highlight nerves, vessels, relaxed skin tension lines, and tension vectors associated with flap movement.

Mohs defect and reconstructive options designed by a fellow in-training (spiral flap in green) and attending physician (melolabial interpolation flap in blue).
FIGURE 1. Mohs defect and reconstructive options designed by a fellow in-training (spiral flap in green) and attending physician (melolabial interpolation flap in blue).

Subsequently, the attending physician, using a different color digital pen—say, blue—can design alternative reconstructive options (Figure 1). Suture lines also can be drawn to outline the predicted appearance of surgical scars (Figure 2).

Predicted appearance of a surgical scar from Mohs defect reconstruction.
FIGURE 2. Predicted appearance of a surgical scar from Mohs defect reconstruction.

Then, the attending physician and fellow in-training brainstorm and discuss the advantages and disadvantages of each reconstructive option to determine the optimal approach to repairing the Mohs defect.

Advantages and Disadvantages

The main advantage of using a digital drawing program is that it is time-saving and cost-efficient. Digital planning also spares the patient undue anxiety from listening to the discussion on each repair option.

 

 

The primary downside of digital surgical planning is that it is 2-dimensional, thus providing an incomplete representation of a 3-dimensional cutaneous structure. In addition, skin laxity, flap mobility, and free-margin distortion cannot be fully appreciated on a 2-dimensional image.

Despite these drawbacks, digital surgical planning provides trainees with an active learning experience through a more collaborative and comprehensive discussion of reconstructive options.

Practice Implications

Active learning using an electronic device has been validated as a beneficial addition to Mohs micrographic surgery training.2 Utilizing a digitized annotating program for surgical planning increases the independence of trainees and allows immediate feedback from the attending physician. The synergy of digital technology and collaborative learning helps cultivate the next generation of confident and competent Mohs surgeons.

Practice Gap

An essential part of training for a micrographic surgery and dermatologic oncology fellowship and scope of practice involves planning and execution of reconstructive surgery for Mohs defects. Recently, a surgical pearl presented by Rickstrew and colleagues1 highlighted the use of different colored surgical marking pens and their benefit in a trainee-based environment.

Delineating multiple options for reconstruction with different colored markers on live patients allows fellows in-training to participate in surgical planning but introduces more markings or drawings that need to be wiped off during or after surgery, potentially prolonging operative time. Furthermore, the Rickstrew approach has the potential to (1) cause unnecessary emotional distress for the patient during surgical planning and (2) add to the cost of surgery with the purchase of various colors of surgical markers.

 

Technique

To improve patient experience and trainee education, we propose fine-tuning the colored marker approach by utilizing a digital drawing program for surgical planning prior to the procedure. We recommend Snip & Sketch—a free, readily accessible digital annotating application that runs on the Microsoft Windows 10 operating system (https://www.microsoft.com/en-us/p/snip-sketch/9mz95kl8mr0l#activetab=pivot:overviewtab)—to mark up screenshot photographs of postoperative Mohs defects from the electronic medical record.

Using Snip & Sketch, the fellow in-training can then use, for example, a green “digital pen” to draw on the captured image and plan their surgical repairs (Figure 1) without input from the attending physician. Different colored pens can be used to highlight nerves, vessels, relaxed skin tension lines, and tension vectors associated with flap movement.

Mohs defect and reconstructive options designed by a fellow in-training (spiral flap in green) and attending physician (melolabial interpolation flap in blue).
FIGURE 1. Mohs defect and reconstructive options designed by a fellow in-training (spiral flap in green) and attending physician (melolabial interpolation flap in blue).

Subsequently, the attending physician, using a different color digital pen—say, blue—can design alternative reconstructive options (Figure 1). Suture lines also can be drawn to outline the predicted appearance of surgical scars (Figure 2).

Predicted appearance of a surgical scar from Mohs defect reconstruction.
FIGURE 2. Predicted appearance of a surgical scar from Mohs defect reconstruction.

Then, the attending physician and fellow in-training brainstorm and discuss the advantages and disadvantages of each reconstructive option to determine the optimal approach to repairing the Mohs defect.

Advantages and Disadvantages

The main advantage of using a digital drawing program is that it is time-saving and cost-efficient. Digital planning also spares the patient undue anxiety from listening to the discussion on each repair option.

 

 

The primary downside of digital surgical planning is that it is 2-dimensional, thus providing an incomplete representation of a 3-dimensional cutaneous structure. In addition, skin laxity, flap mobility, and free-margin distortion cannot be fully appreciated on a 2-dimensional image.

Despite these drawbacks, digital surgical planning provides trainees with an active learning experience through a more collaborative and comprehensive discussion of reconstructive options.

Practice Implications

Active learning using an electronic device has been validated as a beneficial addition to Mohs micrographic surgery training.2 Utilizing a digitized annotating program for surgical planning increases the independence of trainees and allows immediate feedback from the attending physician. The synergy of digital technology and collaborative learning helps cultivate the next generation of confident and competent Mohs surgeons.

References
  1. Rickstrew J, Roberts E, Amarani A, et al. Different colored surgical marking pens for trainee education. J Am Acad Dermatol. 2021:S0190-9622(21)00226-7. doi:10.1016/j.jaad.2021.01.069
  2. Croley JA, Malone CH, Goodwin BP, et al. Mohs Surgical Reconstruction Educational Activity: a resident education tool. Adv Med Educ Pract. 2017;8:143-147. doi:10.2147/AMEP.S125454
References
  1. Rickstrew J, Roberts E, Amarani A, et al. Different colored surgical marking pens for trainee education. J Am Acad Dermatol. 2021:S0190-9622(21)00226-7. doi:10.1016/j.jaad.2021.01.069
  2. Croley JA, Malone CH, Goodwin BP, et al. Mohs Surgical Reconstruction Educational Activity: a resident education tool. Adv Med Educ Pract. 2017;8:143-147. doi:10.2147/AMEP.S125454
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