Blue-black hyperpigmentation on the extremities

Article Type
Changed
Tue, 12/20/2022 - 17:56
Display Headline
Blue-black hyperpigmentation on the extremities

A 68-year-old man with type 2 diabetes ­presented with progressive hyperpigmentation of the lower extremities and face over the past 3 years. Clinical examination revealed confluent, blue-black hyperpigmentation of the lower extremities (Figure), upper extremities, neck, and face. Laboratory tests and arterial studies were within normal ranges. The patient’s medication list included lisinopril 10 mg/d, metformin 1000 mg twice daily, minocycline 100 mg twice daily, and omeprazole 20 mg/d.

Confluent blue-black hyperpigmentation of the legs

WHAT IS YOUR DIAGNOSIS?
HOW WOULD YOU TREAT THIS PATIENT?

 

 

Diagnosis: Minocycline-induced hyperpigmentation

Hyperpigmentation is a rare but not uncommon adverse effect of long-term minocycline use. In this case, our patient had been taking minocycline for more than 5 years. When seen in our clinic, he said he could not remember why he was taking minocycline and incorrectly assumed it was for his diabetes. Chart review of outside records revealed that it had been prescribed, and refilled annually, by his primary physician for rosacea.

Minocycline hyperpigmentation is subdivided into 3 types:

  • Type I manifests with blue-black discoloration in previously inflamed areas of skin.
  • Type II manifests with blue-gray pigmentation in previously normal skin areas.
  • Type III manifests diffusely with muddy-brown hyperpigmentation on photoexposed skin.

Furthermore, noncutaneous manifestations may occur on the sclera, nails, ear cartilage, bone, oral mucosa, teeth, and thyroid gland.1

Diagnosis focuses on identifying the source

Minocycline is one of many drugs that can induce hyperpigmentation of the skin. In addition to history, examination, and review of the patient’s medication list, there are some clues on exam that may suggest a certain type of medication at play.

Continue to: Antimalarials

 

 

Antimalarials. Chloroquine, hydroxychloroquine, and quinacrine can cause blue-black skin hyperpigmentation in as many as 25% of patients. Common locations include the shins, face, oral mucosa, and subungual skin. This hyperpigmentation rarely fully resolves.2

Amiodarone. Hyperpigmentation secondary to amiodarone use typically is slate-gray in color and involves photoexposed skin. Patients should be counseled that pigmentation may—but does not always—fade with time after discontinuation of the drug.2

Heavy metals. Argyria results from exposure to silver, either ingested orally or applied externally. A common cause of argyria is ingestion of excessive amounts of silver-­containing supplements.3 Affected patients present with diffuse slate-gray discoloration of the skin.

This case underscores the importance of routinely reassessing patients’ understanding of their medications and treatment plans.

Other metals implicated in skin hyperpigmentation include arsenic, gold, mercury, and iron. Review of all supplements and herbal remedies in patients presenting with skin hyperpigmentation is crucial.

Bleomycin is a chemotherapeutic agent with a rare but unique adverse effect of inducing flagellate hyperpigmentation that favors the chest, abdomen, or back. This may be induced by trauma or scratching and is often transient. Hyperpigmentation can occur secondary to either intravenous or intralesional injection of the medication.2

Continue to: In addition to medication...

 

 

In addition to medication- or supple­ment-­induced hyperpigmentation, there is a physiologic source that should be considered when a patient presents with ­lower-extremity hyperpigmentation:

Stasis hyperpigmentation. Patients with chronic venous insufficiency may present with hyperpigmentation of the lower extremities. Commonly due to dysfunctional venous valves or obstruction, stasis hyperpigmentation manifests with red-brown discoloration from dermal hemosiderin deposition.4

Unlike our patient, those with stasis hyperpigmentation may present symptomatically, with associated dry skin, pruritus, induration, and inflammation. Treatment involves management of the underlying venous insufficiency.4

When there’s no obvious cause, be prepared to dig deeper

At the time of initial assessment, a thorough review of systems and detailed medication history, including over-the-counter supplements, should be obtained. Physical examination revealing diffuse, generalized hyperpigmentation with no reliable culprit medication in the patient’s history warrants further laboratory evaluation. This includes ordering renal and liver studies and tests for thyroid-stimulating hormone and ferritin and cortisol levels to rule out metabolic or endocrine hyperpigmentation disorders.

Stopping the offending medication is the first step

Discontinuation of the offending medication may result in mild improvement in skin hyperpigmentation over time. Some patients may not experience any improvement. If improvement occurs, it is important to educate patients that it can take several months to years. Dermatology guidelines favor discontinuation of antibiotics for acne or rosacea after 3 to 6 months to avoid bacterial resistance.5 Worsening hyperpigmentation despite medication discontinuation warrants further work-up.

Patients who are distressed by persistent hyperpigmentation can be treated using picosecond or Q-switched lasers.6

Our patient was advised to discontinue the minocycline. Three test spots on his face were treated with pulsed-dye laser, carbon dioxide laser, and dermabrasion. The patient noted that the spots responded better to the carbon dioxide laser and dermabrasion compared to the pulsed-dye laser. He did not ­follow up for further treatment.

References

1. Wetter DA. Minocycline hyperpigmentation. Mayo Clin Proc. 2012;87:e33. doi: 10.1016/j.mayocp.2012.02.013

2. Chang MW. Chapter 67: Disorders of hyperpigmentation. In: Bolognia J, Schaffer J, Cerroni L, et al (eds). Dermatology. 4th ed. Elsevier; 2018:1122-1124.

3. Bowden LP, Royer MC, Hallman JR, et al. Rapid onset of argyria induced by a silver-containing dietary supplement. J Cutan Pathol. 2011;38:832-835. doi: 10.1111/j.1600-0560.2011.01755.x

4. Patterson J. Stasis dermatitis. In: Weedon’s Skin Pathology. 3rd ed. Churchill Livingstone Elsevier;2010: 121-153.

5. Zaenglein AL, Pathy AL, Schlosser BJ, et al. Guidelines of care for the management of acne vulgaris. J Am Acad Dermatol. 2016;74:945-73.e33. doi: 10.1016/j.jaad.2015.12.037

6. Barrett T, de Zwaan S. Picosecond alexandrite laser is superior to Q-switched Nd:YAG laser in treatment of minocycline-induced hyperpigmentation: a case study and review of the literature. J Cosmet Laser Ther. 2018;20:387-390. doi: 10.1080/14764172.2017.1418514

Article PDF
Author and Disclosure Information

Dermatology Consultants, PA, Saint Paul, MN (Dr. Ali); Department of Dermatology, Mayo Clinic, Rochester, MN (Dr. Wetter); Mayo Clinic Alix School of Medicine, Rochester, MN (Mr. Jin)
wetter.david@mayo.edu

DEPARTMENT EDITOR
Richard P. Usatine, MD

University of Texas Health, San Antonio

The authors reported no potential conflict of interest relevant to this article.

Issue
The Journal of Family Practice - 71(10)
Publications
Topics
Page Number
445-447
Sections
Author and Disclosure Information

Dermatology Consultants, PA, Saint Paul, MN (Dr. Ali); Department of Dermatology, Mayo Clinic, Rochester, MN (Dr. Wetter); Mayo Clinic Alix School of Medicine, Rochester, MN (Mr. Jin)
wetter.david@mayo.edu

DEPARTMENT EDITOR
Richard P. Usatine, MD

University of Texas Health, San Antonio

The authors reported no potential conflict of interest relevant to this article.

Author and Disclosure Information

Dermatology Consultants, PA, Saint Paul, MN (Dr. Ali); Department of Dermatology, Mayo Clinic, Rochester, MN (Dr. Wetter); Mayo Clinic Alix School of Medicine, Rochester, MN (Mr. Jin)
wetter.david@mayo.edu

DEPARTMENT EDITOR
Richard P. Usatine, MD

University of Texas Health, San Antonio

The authors reported no potential conflict of interest relevant to this article.

Article PDF
Article PDF

A 68-year-old man with type 2 diabetes ­presented with progressive hyperpigmentation of the lower extremities and face over the past 3 years. Clinical examination revealed confluent, blue-black hyperpigmentation of the lower extremities (Figure), upper extremities, neck, and face. Laboratory tests and arterial studies were within normal ranges. The patient’s medication list included lisinopril 10 mg/d, metformin 1000 mg twice daily, minocycline 100 mg twice daily, and omeprazole 20 mg/d.

Confluent blue-black hyperpigmentation of the legs

WHAT IS YOUR DIAGNOSIS?
HOW WOULD YOU TREAT THIS PATIENT?

 

 

Diagnosis: Minocycline-induced hyperpigmentation

Hyperpigmentation is a rare but not uncommon adverse effect of long-term minocycline use. In this case, our patient had been taking minocycline for more than 5 years. When seen in our clinic, he said he could not remember why he was taking minocycline and incorrectly assumed it was for his diabetes. Chart review of outside records revealed that it had been prescribed, and refilled annually, by his primary physician for rosacea.

Minocycline hyperpigmentation is subdivided into 3 types:

  • Type I manifests with blue-black discoloration in previously inflamed areas of skin.
  • Type II manifests with blue-gray pigmentation in previously normal skin areas.
  • Type III manifests diffusely with muddy-brown hyperpigmentation on photoexposed skin.

Furthermore, noncutaneous manifestations may occur on the sclera, nails, ear cartilage, bone, oral mucosa, teeth, and thyroid gland.1

Diagnosis focuses on identifying the source

Minocycline is one of many drugs that can induce hyperpigmentation of the skin. In addition to history, examination, and review of the patient’s medication list, there are some clues on exam that may suggest a certain type of medication at play.

Continue to: Antimalarials

 

 

Antimalarials. Chloroquine, hydroxychloroquine, and quinacrine can cause blue-black skin hyperpigmentation in as many as 25% of patients. Common locations include the shins, face, oral mucosa, and subungual skin. This hyperpigmentation rarely fully resolves.2

Amiodarone. Hyperpigmentation secondary to amiodarone use typically is slate-gray in color and involves photoexposed skin. Patients should be counseled that pigmentation may—but does not always—fade with time after discontinuation of the drug.2

Heavy metals. Argyria results from exposure to silver, either ingested orally or applied externally. A common cause of argyria is ingestion of excessive amounts of silver-­containing supplements.3 Affected patients present with diffuse slate-gray discoloration of the skin.

This case underscores the importance of routinely reassessing patients’ understanding of their medications and treatment plans.

Other metals implicated in skin hyperpigmentation include arsenic, gold, mercury, and iron. Review of all supplements and herbal remedies in patients presenting with skin hyperpigmentation is crucial.

Bleomycin is a chemotherapeutic agent with a rare but unique adverse effect of inducing flagellate hyperpigmentation that favors the chest, abdomen, or back. This may be induced by trauma or scratching and is often transient. Hyperpigmentation can occur secondary to either intravenous or intralesional injection of the medication.2

Continue to: In addition to medication...

 

 

In addition to medication- or supple­ment-­induced hyperpigmentation, there is a physiologic source that should be considered when a patient presents with ­lower-extremity hyperpigmentation:

Stasis hyperpigmentation. Patients with chronic venous insufficiency may present with hyperpigmentation of the lower extremities. Commonly due to dysfunctional venous valves or obstruction, stasis hyperpigmentation manifests with red-brown discoloration from dermal hemosiderin deposition.4

Unlike our patient, those with stasis hyperpigmentation may present symptomatically, with associated dry skin, pruritus, induration, and inflammation. Treatment involves management of the underlying venous insufficiency.4

When there’s no obvious cause, be prepared to dig deeper

At the time of initial assessment, a thorough review of systems and detailed medication history, including over-the-counter supplements, should be obtained. Physical examination revealing diffuse, generalized hyperpigmentation with no reliable culprit medication in the patient’s history warrants further laboratory evaluation. This includes ordering renal and liver studies and tests for thyroid-stimulating hormone and ferritin and cortisol levels to rule out metabolic or endocrine hyperpigmentation disorders.

Stopping the offending medication is the first step

Discontinuation of the offending medication may result in mild improvement in skin hyperpigmentation over time. Some patients may not experience any improvement. If improvement occurs, it is important to educate patients that it can take several months to years. Dermatology guidelines favor discontinuation of antibiotics for acne or rosacea after 3 to 6 months to avoid bacterial resistance.5 Worsening hyperpigmentation despite medication discontinuation warrants further work-up.

Patients who are distressed by persistent hyperpigmentation can be treated using picosecond or Q-switched lasers.6

Our patient was advised to discontinue the minocycline. Three test spots on his face were treated with pulsed-dye laser, carbon dioxide laser, and dermabrasion. The patient noted that the spots responded better to the carbon dioxide laser and dermabrasion compared to the pulsed-dye laser. He did not ­follow up for further treatment.

A 68-year-old man with type 2 diabetes ­presented with progressive hyperpigmentation of the lower extremities and face over the past 3 years. Clinical examination revealed confluent, blue-black hyperpigmentation of the lower extremities (Figure), upper extremities, neck, and face. Laboratory tests and arterial studies were within normal ranges. The patient’s medication list included lisinopril 10 mg/d, metformin 1000 mg twice daily, minocycline 100 mg twice daily, and omeprazole 20 mg/d.

Confluent blue-black hyperpigmentation of the legs

WHAT IS YOUR DIAGNOSIS?
HOW WOULD YOU TREAT THIS PATIENT?

 

 

Diagnosis: Minocycline-induced hyperpigmentation

Hyperpigmentation is a rare but not uncommon adverse effect of long-term minocycline use. In this case, our patient had been taking minocycline for more than 5 years. When seen in our clinic, he said he could not remember why he was taking minocycline and incorrectly assumed it was for his diabetes. Chart review of outside records revealed that it had been prescribed, and refilled annually, by his primary physician for rosacea.

Minocycline hyperpigmentation is subdivided into 3 types:

  • Type I manifests with blue-black discoloration in previously inflamed areas of skin.
  • Type II manifests with blue-gray pigmentation in previously normal skin areas.
  • Type III manifests diffusely with muddy-brown hyperpigmentation on photoexposed skin.

Furthermore, noncutaneous manifestations may occur on the sclera, nails, ear cartilage, bone, oral mucosa, teeth, and thyroid gland.1

Diagnosis focuses on identifying the source

Minocycline is one of many drugs that can induce hyperpigmentation of the skin. In addition to history, examination, and review of the patient’s medication list, there are some clues on exam that may suggest a certain type of medication at play.

Continue to: Antimalarials

 

 

Antimalarials. Chloroquine, hydroxychloroquine, and quinacrine can cause blue-black skin hyperpigmentation in as many as 25% of patients. Common locations include the shins, face, oral mucosa, and subungual skin. This hyperpigmentation rarely fully resolves.2

Amiodarone. Hyperpigmentation secondary to amiodarone use typically is slate-gray in color and involves photoexposed skin. Patients should be counseled that pigmentation may—but does not always—fade with time after discontinuation of the drug.2

Heavy metals. Argyria results from exposure to silver, either ingested orally or applied externally. A common cause of argyria is ingestion of excessive amounts of silver-­containing supplements.3 Affected patients present with diffuse slate-gray discoloration of the skin.

This case underscores the importance of routinely reassessing patients’ understanding of their medications and treatment plans.

Other metals implicated in skin hyperpigmentation include arsenic, gold, mercury, and iron. Review of all supplements and herbal remedies in patients presenting with skin hyperpigmentation is crucial.

Bleomycin is a chemotherapeutic agent with a rare but unique adverse effect of inducing flagellate hyperpigmentation that favors the chest, abdomen, or back. This may be induced by trauma or scratching and is often transient. Hyperpigmentation can occur secondary to either intravenous or intralesional injection of the medication.2

Continue to: In addition to medication...

 

 

In addition to medication- or supple­ment-­induced hyperpigmentation, there is a physiologic source that should be considered when a patient presents with ­lower-extremity hyperpigmentation:

Stasis hyperpigmentation. Patients with chronic venous insufficiency may present with hyperpigmentation of the lower extremities. Commonly due to dysfunctional venous valves or obstruction, stasis hyperpigmentation manifests with red-brown discoloration from dermal hemosiderin deposition.4

Unlike our patient, those with stasis hyperpigmentation may present symptomatically, with associated dry skin, pruritus, induration, and inflammation. Treatment involves management of the underlying venous insufficiency.4

When there’s no obvious cause, be prepared to dig deeper

At the time of initial assessment, a thorough review of systems and detailed medication history, including over-the-counter supplements, should be obtained. Physical examination revealing diffuse, generalized hyperpigmentation with no reliable culprit medication in the patient’s history warrants further laboratory evaluation. This includes ordering renal and liver studies and tests for thyroid-stimulating hormone and ferritin and cortisol levels to rule out metabolic or endocrine hyperpigmentation disorders.

Stopping the offending medication is the first step

Discontinuation of the offending medication may result in mild improvement in skin hyperpigmentation over time. Some patients may not experience any improvement. If improvement occurs, it is important to educate patients that it can take several months to years. Dermatology guidelines favor discontinuation of antibiotics for acne or rosacea after 3 to 6 months to avoid bacterial resistance.5 Worsening hyperpigmentation despite medication discontinuation warrants further work-up.

Patients who are distressed by persistent hyperpigmentation can be treated using picosecond or Q-switched lasers.6

Our patient was advised to discontinue the minocycline. Three test spots on his face were treated with pulsed-dye laser, carbon dioxide laser, and dermabrasion. The patient noted that the spots responded better to the carbon dioxide laser and dermabrasion compared to the pulsed-dye laser. He did not ­follow up for further treatment.

References

1. Wetter DA. Minocycline hyperpigmentation. Mayo Clin Proc. 2012;87:e33. doi: 10.1016/j.mayocp.2012.02.013

2. Chang MW. Chapter 67: Disorders of hyperpigmentation. In: Bolognia J, Schaffer J, Cerroni L, et al (eds). Dermatology. 4th ed. Elsevier; 2018:1122-1124.

3. Bowden LP, Royer MC, Hallman JR, et al. Rapid onset of argyria induced by a silver-containing dietary supplement. J Cutan Pathol. 2011;38:832-835. doi: 10.1111/j.1600-0560.2011.01755.x

4. Patterson J. Stasis dermatitis. In: Weedon’s Skin Pathology. 3rd ed. Churchill Livingstone Elsevier;2010: 121-153.

5. Zaenglein AL, Pathy AL, Schlosser BJ, et al. Guidelines of care for the management of acne vulgaris. J Am Acad Dermatol. 2016;74:945-73.e33. doi: 10.1016/j.jaad.2015.12.037

6. Barrett T, de Zwaan S. Picosecond alexandrite laser is superior to Q-switched Nd:YAG laser in treatment of minocycline-induced hyperpigmentation: a case study and review of the literature. J Cosmet Laser Ther. 2018;20:387-390. doi: 10.1080/14764172.2017.1418514

References

1. Wetter DA. Minocycline hyperpigmentation. Mayo Clin Proc. 2012;87:e33. doi: 10.1016/j.mayocp.2012.02.013

2. Chang MW. Chapter 67: Disorders of hyperpigmentation. In: Bolognia J, Schaffer J, Cerroni L, et al (eds). Dermatology. 4th ed. Elsevier; 2018:1122-1124.

3. Bowden LP, Royer MC, Hallman JR, et al. Rapid onset of argyria induced by a silver-containing dietary supplement. J Cutan Pathol. 2011;38:832-835. doi: 10.1111/j.1600-0560.2011.01755.x

4. Patterson J. Stasis dermatitis. In: Weedon’s Skin Pathology. 3rd ed. Churchill Livingstone Elsevier;2010: 121-153.

5. Zaenglein AL, Pathy AL, Schlosser BJ, et al. Guidelines of care for the management of acne vulgaris. J Am Acad Dermatol. 2016;74:945-73.e33. doi: 10.1016/j.jaad.2015.12.037

6. Barrett T, de Zwaan S. Picosecond alexandrite laser is superior to Q-switched Nd:YAG laser in treatment of minocycline-induced hyperpigmentation: a case study and review of the literature. J Cosmet Laser Ther. 2018;20:387-390. doi: 10.1080/14764172.2017.1418514

Issue
The Journal of Family Practice - 71(10)
Issue
The Journal of Family Practice - 71(10)
Page Number
445-447
Page Number
445-447
Publications
Publications
Topics
Article Type
Display Headline
Blue-black hyperpigmentation on the extremities
Display Headline
Blue-black hyperpigmentation on the extremities
Sections
Disallow All Ads
Content Gating
No Gating (article Unlocked/Free)
Alternative CME
Disqus Comments
Default
Use ProPublica
Hide sidebar & use full width
render the right sidebar.
Conference Recap Checkbox
Not Conference Recap
Clinical Edge
Display the Slideshow in this Article
Medscape Article
Display survey writer
Reuters content
Disable Inline Native ads
WebMD Article
Article PDF Media