Videodermoscopy as a Novel Tool for Dermatologic Education

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Videodermoscopy as a Novel Tool for Dermatologic Education

Dermoscopy, or the noninvasive in vivo examination of the epidermis and superficial dermis using magnification, facilitates the diagnosis of pigmented and nonpigmented skin lesions.1 Despite the benefit of dermoscopy in making early and accurate diagnoses of potentially life-limiting skin cancers, only 48% of dermatologists in the United States use dermoscopy in their practices.2 The most commonly cited reason for not using dermoscopy is lack of training.

Although the use of dermoscopy is associated with younger age and more recent graduation from residency compared to nonusers, dermatology resident physicians continue to receive limited training in dermoscopy.2 In a survey of 139 dermatology chief residents, 48% were not satisfied with the dermoscopy training that they had received during residency. Residents who received bedside instruction in dermoscopy reported greater satisfaction with their dermoscopy training compared to those who did not receive bedside instruction.3 This article provides a brief comparison of standard dermoscopy versus videodermoscopy for the instruction of trainees on common dermatologic diagnoses.

Bedside Dermoscopy

Standard optical dermatoscopes used for patient care and educational purposes typically incorporate 10-fold magnification and permit examination by a single viewer through a lens. With standard dermatoscopes, bedside dermoscopy instruction consists of the independent sequential viewing of skin lesions by instructors and trainees. Trainees must independently search for dermoscopic features noted by the instructor, which may be difficult for novice users. Simultaneous viewing of lesions would allow instructors to clearly indicate in real time pertinent dermoscopic features to their trainees.

Videodermatoscopes facilitate the simultaneous examination of cutaneous lesions by projecting the dermoscopic image onto a digital screen. Furthermore, these devices can incorporate magnifications of up to 200-fold or greater. In recent years, research pertaining to videodermoscopy has focused on the high magnification capabilities of these devices, specifically dermoscopic features that are visualized at magnifications greater than 10-fold, including the light brown nests of basal cell carcinomas that are seen at 50- to 70-fold magnification, twisted red capillary loops seen in active scalp psoriasis at 50-fold magnification, and longitudinal white indentations seen on nail plates affected by onychomycosis at 20-fold magnification.4-6 The potential value of videodermoscopy in medical education lies not only in the high magnification potential, which may make subtle dermoscopic findings more apparent to novice dermoscopists, but also in the ability to facilitate simultaneous dermoscopic examinations by instructors and trainees.

Educational Applications for Videodermoscopy

To illustrate the educational potential of videodermoscopy, images taken with a standard dermatoscope at 10-fold magnification are presented with videodermoscopic images taken at magnifications ranging from 60- to 185-fold (Figures 1–3). These examples demonstrate the potential for videodermoscopy to facilitate the visualization of subtle dermoscopic features by novice dermoscopists, relating to both the enhanced magnification potential and the potential for simultaneous rather than sequential examination.

Figure 1. Comedolike openings of seborrheic keratosis demonstrated using standard dermoscopy (A)(10-fold magnification) versus videodermoscopy (B)(60-fold magnification).

Figure 2. Pigment network of a nevus demonstrated using standard dermoscopy (A)(10-fold magnification) versus videodermoscopy (B)(60-fold magnification).

Figure 3. Club-shaped root of a telogen hair demonstrated using standard dermoscopy (A)(10-fold magnification) versus videodermoscopy (B)(60-fold magnification).

 

 

Final Thoughts

High-magnification videodermoscopy may be a useful tool to further dermoscopic education. Videodermatoscopes vary in functionality and cost but are available at price points comparable to those of standard optical dermatoscopes. Owners of standard dermatoscopes can approximate some of the benefits of a digital videodermatoscope by using the standard dermatoscope in conjunction with a camera, including those integrated into mobile phones and tablets. By attaching the standard dermatoscope to a camera with a digital display, the digital zoom of the camera can be used to magnify the standard dermoscopic image, enhancing the ability of novice dermoscopists to visualize subtle findings. By presenting this magnified image on a digital display, dermoscopy instructors and trainees would be able to simultaneously view dermoscopic images of lesions, sometimes with magnifications comparable to videodermatoscopes.

In the setting of a dermatology residency program, videodermoscopy can be incorporated into bedside teaching with experienced dermoscopists and for the live presentation of dermoscopic features at departmental grand rounds. By facilitating the simultaneous, high-magnification and live viewing of skin lesions by dermoscopy instructors and trainees, digital videodermoscopy has the potential to address an area of weakness in dermatologic training.

References
  1. Vestergaard ME, Macaskill P, Holt PE, et al. Dermoscopy compared with naked eye examination for the diagnosis of primary melanoma: a meta-analysis of studies performed in a clinical setting. Br J Dermatol. 2008;159:669-676.
  2. Engasser HC, Warshaw EM. Dermatoscopy use by US dermatologists: a cross-sectional survey [published online July 8, 2010]. J Am Acad Dermatol. 2010;63:412-419, 419.e1-419.e2.
  3. Wu TP, Newlove T, Smith L, et al. The importance of dedicated dermoscopy training during residency: a survey of US dermatology chief residents. J Am Acad Dermatol. 2013;68:1000-1005.
  4. Seidenari S, Bellucci C, Bassoli S, et al. High magnification digital dermoscopy of basal cell carcinoma: a single-centre study on 400 cases. Acta Derm Venereol. 2014;94:677-682.
  5. Ross EK, Vincenzi C, Tosti A. Videodermoscopy in the evaluation of hair and scalp disorders. J Am Acad Dermatol. 2006;55:799-806.
  6. Piraccini BM, Balestri R, Starace M, et al. Nail digital dermoscopy (onychoscopy) in the diagnosis of onychomycosis. J Eur Acad Dermatol Venereol. 2013;27:509-513.
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All from the Department of Dermatology, Stanford University Medical Center, California. Dr. Nord also is from the Dermatology Service, VA Palo Alto Health Care System, California.

The authors report no conflict of interest.

This case was part of a presentation at the 8th Cosmetic Surgery Forum under the direction of Joel Schlessinger, MD; November 30-December 3, 2006; Las Vegas, Nevada. Dr. Sheu was a Top 10 Fellow and Resident Grant winner.

Correspondence: Kristin M. Nord, MD, VA Palo Alto Healthcare System, Dermatology Service, Mail Code 123, 3801 Miranda Ave, Palo Alto, CA 94304 (knord@stanford.edu).

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Author and Disclosure Information

All from the Department of Dermatology, Stanford University Medical Center, California. Dr. Nord also is from the Dermatology Service, VA Palo Alto Health Care System, California.

The authors report no conflict of interest.

This case was part of a presentation at the 8th Cosmetic Surgery Forum under the direction of Joel Schlessinger, MD; November 30-December 3, 2006; Las Vegas, Nevada. Dr. Sheu was a Top 10 Fellow and Resident Grant winner.

Correspondence: Kristin M. Nord, MD, VA Palo Alto Healthcare System, Dermatology Service, Mail Code 123, 3801 Miranda Ave, Palo Alto, CA 94304 (knord@stanford.edu).

Author and Disclosure Information

All from the Department of Dermatology, Stanford University Medical Center, California. Dr. Nord also is from the Dermatology Service, VA Palo Alto Health Care System, California.

The authors report no conflict of interest.

This case was part of a presentation at the 8th Cosmetic Surgery Forum under the direction of Joel Schlessinger, MD; November 30-December 3, 2006; Las Vegas, Nevada. Dr. Sheu was a Top 10 Fellow and Resident Grant winner.

Correspondence: Kristin M. Nord, MD, VA Palo Alto Healthcare System, Dermatology Service, Mail Code 123, 3801 Miranda Ave, Palo Alto, CA 94304 (knord@stanford.edu).

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Dermoscopy, or the noninvasive in vivo examination of the epidermis and superficial dermis using magnification, facilitates the diagnosis of pigmented and nonpigmented skin lesions.1 Despite the benefit of dermoscopy in making early and accurate diagnoses of potentially life-limiting skin cancers, only 48% of dermatologists in the United States use dermoscopy in their practices.2 The most commonly cited reason for not using dermoscopy is lack of training.

Although the use of dermoscopy is associated with younger age and more recent graduation from residency compared to nonusers, dermatology resident physicians continue to receive limited training in dermoscopy.2 In a survey of 139 dermatology chief residents, 48% were not satisfied with the dermoscopy training that they had received during residency. Residents who received bedside instruction in dermoscopy reported greater satisfaction with their dermoscopy training compared to those who did not receive bedside instruction.3 This article provides a brief comparison of standard dermoscopy versus videodermoscopy for the instruction of trainees on common dermatologic diagnoses.

Bedside Dermoscopy

Standard optical dermatoscopes used for patient care and educational purposes typically incorporate 10-fold magnification and permit examination by a single viewer through a lens. With standard dermatoscopes, bedside dermoscopy instruction consists of the independent sequential viewing of skin lesions by instructors and trainees. Trainees must independently search for dermoscopic features noted by the instructor, which may be difficult for novice users. Simultaneous viewing of lesions would allow instructors to clearly indicate in real time pertinent dermoscopic features to their trainees.

Videodermatoscopes facilitate the simultaneous examination of cutaneous lesions by projecting the dermoscopic image onto a digital screen. Furthermore, these devices can incorporate magnifications of up to 200-fold or greater. In recent years, research pertaining to videodermoscopy has focused on the high magnification capabilities of these devices, specifically dermoscopic features that are visualized at magnifications greater than 10-fold, including the light brown nests of basal cell carcinomas that are seen at 50- to 70-fold magnification, twisted red capillary loops seen in active scalp psoriasis at 50-fold magnification, and longitudinal white indentations seen on nail plates affected by onychomycosis at 20-fold magnification.4-6 The potential value of videodermoscopy in medical education lies not only in the high magnification potential, which may make subtle dermoscopic findings more apparent to novice dermoscopists, but also in the ability to facilitate simultaneous dermoscopic examinations by instructors and trainees.

Educational Applications for Videodermoscopy

To illustrate the educational potential of videodermoscopy, images taken with a standard dermatoscope at 10-fold magnification are presented with videodermoscopic images taken at magnifications ranging from 60- to 185-fold (Figures 1–3). These examples demonstrate the potential for videodermoscopy to facilitate the visualization of subtle dermoscopic features by novice dermoscopists, relating to both the enhanced magnification potential and the potential for simultaneous rather than sequential examination.

Figure 1. Comedolike openings of seborrheic keratosis demonstrated using standard dermoscopy (A)(10-fold magnification) versus videodermoscopy (B)(60-fold magnification).

Figure 2. Pigment network of a nevus demonstrated using standard dermoscopy (A)(10-fold magnification) versus videodermoscopy (B)(60-fold magnification).

Figure 3. Club-shaped root of a telogen hair demonstrated using standard dermoscopy (A)(10-fold magnification) versus videodermoscopy (B)(60-fold magnification).

 

 

Final Thoughts

High-magnification videodermoscopy may be a useful tool to further dermoscopic education. Videodermatoscopes vary in functionality and cost but are available at price points comparable to those of standard optical dermatoscopes. Owners of standard dermatoscopes can approximate some of the benefits of a digital videodermatoscope by using the standard dermatoscope in conjunction with a camera, including those integrated into mobile phones and tablets. By attaching the standard dermatoscope to a camera with a digital display, the digital zoom of the camera can be used to magnify the standard dermoscopic image, enhancing the ability of novice dermoscopists to visualize subtle findings. By presenting this magnified image on a digital display, dermoscopy instructors and trainees would be able to simultaneously view dermoscopic images of lesions, sometimes with magnifications comparable to videodermatoscopes.

In the setting of a dermatology residency program, videodermoscopy can be incorporated into bedside teaching with experienced dermoscopists and for the live presentation of dermoscopic features at departmental grand rounds. By facilitating the simultaneous, high-magnification and live viewing of skin lesions by dermoscopy instructors and trainees, digital videodermoscopy has the potential to address an area of weakness in dermatologic training.

Dermoscopy, or the noninvasive in vivo examination of the epidermis and superficial dermis using magnification, facilitates the diagnosis of pigmented and nonpigmented skin lesions.1 Despite the benefit of dermoscopy in making early and accurate diagnoses of potentially life-limiting skin cancers, only 48% of dermatologists in the United States use dermoscopy in their practices.2 The most commonly cited reason for not using dermoscopy is lack of training.

Although the use of dermoscopy is associated with younger age and more recent graduation from residency compared to nonusers, dermatology resident physicians continue to receive limited training in dermoscopy.2 In a survey of 139 dermatology chief residents, 48% were not satisfied with the dermoscopy training that they had received during residency. Residents who received bedside instruction in dermoscopy reported greater satisfaction with their dermoscopy training compared to those who did not receive bedside instruction.3 This article provides a brief comparison of standard dermoscopy versus videodermoscopy for the instruction of trainees on common dermatologic diagnoses.

Bedside Dermoscopy

Standard optical dermatoscopes used for patient care and educational purposes typically incorporate 10-fold magnification and permit examination by a single viewer through a lens. With standard dermatoscopes, bedside dermoscopy instruction consists of the independent sequential viewing of skin lesions by instructors and trainees. Trainees must independently search for dermoscopic features noted by the instructor, which may be difficult for novice users. Simultaneous viewing of lesions would allow instructors to clearly indicate in real time pertinent dermoscopic features to their trainees.

Videodermatoscopes facilitate the simultaneous examination of cutaneous lesions by projecting the dermoscopic image onto a digital screen. Furthermore, these devices can incorporate magnifications of up to 200-fold or greater. In recent years, research pertaining to videodermoscopy has focused on the high magnification capabilities of these devices, specifically dermoscopic features that are visualized at magnifications greater than 10-fold, including the light brown nests of basal cell carcinomas that are seen at 50- to 70-fold magnification, twisted red capillary loops seen in active scalp psoriasis at 50-fold magnification, and longitudinal white indentations seen on nail plates affected by onychomycosis at 20-fold magnification.4-6 The potential value of videodermoscopy in medical education lies not only in the high magnification potential, which may make subtle dermoscopic findings more apparent to novice dermoscopists, but also in the ability to facilitate simultaneous dermoscopic examinations by instructors and trainees.

Educational Applications for Videodermoscopy

To illustrate the educational potential of videodermoscopy, images taken with a standard dermatoscope at 10-fold magnification are presented with videodermoscopic images taken at magnifications ranging from 60- to 185-fold (Figures 1–3). These examples demonstrate the potential for videodermoscopy to facilitate the visualization of subtle dermoscopic features by novice dermoscopists, relating to both the enhanced magnification potential and the potential for simultaneous rather than sequential examination.

Figure 1. Comedolike openings of seborrheic keratosis demonstrated using standard dermoscopy (A)(10-fold magnification) versus videodermoscopy (B)(60-fold magnification).

Figure 2. Pigment network of a nevus demonstrated using standard dermoscopy (A)(10-fold magnification) versus videodermoscopy (B)(60-fold magnification).

Figure 3. Club-shaped root of a telogen hair demonstrated using standard dermoscopy (A)(10-fold magnification) versus videodermoscopy (B)(60-fold magnification).

 

 

Final Thoughts

High-magnification videodermoscopy may be a useful tool to further dermoscopic education. Videodermatoscopes vary in functionality and cost but are available at price points comparable to those of standard optical dermatoscopes. Owners of standard dermatoscopes can approximate some of the benefits of a digital videodermatoscope by using the standard dermatoscope in conjunction with a camera, including those integrated into mobile phones and tablets. By attaching the standard dermatoscope to a camera with a digital display, the digital zoom of the camera can be used to magnify the standard dermoscopic image, enhancing the ability of novice dermoscopists to visualize subtle findings. By presenting this magnified image on a digital display, dermoscopy instructors and trainees would be able to simultaneously view dermoscopic images of lesions, sometimes with magnifications comparable to videodermatoscopes.

In the setting of a dermatology residency program, videodermoscopy can be incorporated into bedside teaching with experienced dermoscopists and for the live presentation of dermoscopic features at departmental grand rounds. By facilitating the simultaneous, high-magnification and live viewing of skin lesions by dermoscopy instructors and trainees, digital videodermoscopy has the potential to address an area of weakness in dermatologic training.

References
  1. Vestergaard ME, Macaskill P, Holt PE, et al. Dermoscopy compared with naked eye examination for the diagnosis of primary melanoma: a meta-analysis of studies performed in a clinical setting. Br J Dermatol. 2008;159:669-676.
  2. Engasser HC, Warshaw EM. Dermatoscopy use by US dermatologists: a cross-sectional survey [published online July 8, 2010]. J Am Acad Dermatol. 2010;63:412-419, 419.e1-419.e2.
  3. Wu TP, Newlove T, Smith L, et al. The importance of dedicated dermoscopy training during residency: a survey of US dermatology chief residents. J Am Acad Dermatol. 2013;68:1000-1005.
  4. Seidenari S, Bellucci C, Bassoli S, et al. High magnification digital dermoscopy of basal cell carcinoma: a single-centre study on 400 cases. Acta Derm Venereol. 2014;94:677-682.
  5. Ross EK, Vincenzi C, Tosti A. Videodermoscopy in the evaluation of hair and scalp disorders. J Am Acad Dermatol. 2006;55:799-806.
  6. Piraccini BM, Balestri R, Starace M, et al. Nail digital dermoscopy (onychoscopy) in the diagnosis of onychomycosis. J Eur Acad Dermatol Venereol. 2013;27:509-513.
References
  1. Vestergaard ME, Macaskill P, Holt PE, et al. Dermoscopy compared with naked eye examination for the diagnosis of primary melanoma: a meta-analysis of studies performed in a clinical setting. Br J Dermatol. 2008;159:669-676.
  2. Engasser HC, Warshaw EM. Dermatoscopy use by US dermatologists: a cross-sectional survey [published online July 8, 2010]. J Am Acad Dermatol. 2010;63:412-419, 419.e1-419.e2.
  3. Wu TP, Newlove T, Smith L, et al. The importance of dedicated dermoscopy training during residency: a survey of US dermatology chief residents. J Am Acad Dermatol. 2013;68:1000-1005.
  4. Seidenari S, Bellucci C, Bassoli S, et al. High magnification digital dermoscopy of basal cell carcinoma: a single-centre study on 400 cases. Acta Derm Venereol. 2014;94:677-682.
  5. Ross EK, Vincenzi C, Tosti A. Videodermoscopy in the evaluation of hair and scalp disorders. J Am Acad Dermatol. 2006;55:799-806.
  6. Piraccini BM, Balestri R, Starace M, et al. Nail digital dermoscopy (onychoscopy) in the diagnosis of onychomycosis. J Eur Acad Dermatol Venereol. 2013;27:509-513.
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  • Bedside dermoscopy training can be enhanced through the use of videodermoscopy, which permits simultaneous, high-magnification viewing.
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