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What nutritional deficiencies and toxic exposures are associated with nail changes?
INFANTS WITH IRON DEFICIENCY have a higher rate of koilonychia—concavity of the outer surface of the nail—(strength of recommendation [SOR]: C, one case-control study).
Vitamin B12 deficiency is associated with various nail pigment changes that are reversible with treatment (SOR: C, case reports).
Muehrcke’s lines (transverse white bands that run parallel to the lunula) occur in a minority of patients with hypoalbuminemia. (SOR: C, one cross-sectional study).
Fingernail clubbing has been found in most patients with kwashiorkor, or protein malnutrition (SOR: C, one cross-sectional study).
Transplacental exposure to polychlorinated biphenyls (PCBs) and polychlorinated dibenzofurans (PCDFs) has been associated with nail deformities and color changes (SOR: C, one case-control study).
Evidence summary
The evidence linking nail changes with nutritional deficiencies and toxic exposures is sparse, dated, and of low quality. Conditions associated with nail changes include iron deficiency, B12 deficiency, hypoalbuminemia, protein malnutrition, and PCB/PCDF exposures.
Iron deficiency is associated with koilonychia
A case-control study of 400 infants in a low-income well-baby clinic found 22 with koilonychia, a prevalence of approximately 5%. Randomly selected age-matched infants without koilonychia served as controls.
Infants with koilonychia had significantly lower hematocrit (30% vs 34%; P<.005), hemoglobin (9.4 vs 10.7 g/dL; P<.02), and serum iron (50 vs 84 mcg/dL; P<.001) than controls.1
B12 deficiency can discolor nails, but changes are reversible
Four articles describe 5 case reports of pigment changes to nails associated with B12 deficiency, all of which resolved with B12 therapy. Nail changes included brownish reticulate pigmentation,2 longitudinal hyperpigmented streaks,3 bluish-black pigment of all nails with transverse longitudinal hyperpigmented streaks,4 and entirely blue nails.5 B12 levels ranged from undetectable to 113 pg/mL.
Hypoalbuminemia linked to Muehrcke’s lines
A cross-sectional study of 72 patients selected on the basis of general cachectic appearance found 44 to have low serum albumin. Of those, 10 (23%) had Muehrcke’s lines. All of the patients with Muehreke’s lines had albumin levels <2.7 g/dL. None of the 28 patients with normal albumin had Muehrcke’s lines.6
Kwashiorkor can cause fingernail clubbing
In a cross-sectional study of 60 children 1 to 4 years of age diagnosed with kwashiorkor without evidence of tuberculosis infection, fingernail clubbing was found in 46 (76.7%). Clubbing was mild in 26 (43.3%) children, moderate in 19 (37.7%), and severe in one (1.7%).7 Kwashiorkor is extremely rare in children in the United States and other developed countries.
Transplacental chemical exposures found to deform and discolor nails
A case-control study compared finger- and toenail findings from more than 100 Taiwanese children exposed transplacentally to high levels of PCBs and PCDFs with nail findings from a comparable number of controls. The investigators looked at parental reports and physical examination results.8
Although the rates of nail abnormalities reported by parents of exposed children differed slightly from rates documented by physical examination, children exposed to PCBs and PCDFs had consistently higher rates of nail deformity than controls. The researchers examined 117 cases and 106 controls. They identified dystrophic fingernails in 15% of exposed children and 1% of controls (odds ratio [OR]=15.4; 95% confidence interval [CI], 2-119); dystrophic toenails occurred in 32% of exposed children and 18% of controls (OR=2.2; 95% CI, 1.2-4.1). The most common fingernail deformities were grooves and ridges. The most common toenail deformities were koilonychias, ridges, thickening, and pigmentation changes.8
PCB exposure is an issue in the United States and other developed countries, but at much lower levels than the accidental contamination. Whether lower levels of exposure cause nail changes isn’t known.
Recommendations
No recommendations are available. A dermatology textbook lists several nail changes associated with nutritional deficiencies and toxic exposures (TABLE).9
Table
Nail changes linked to nutrition deficits and toxins9
Nail change | Associated with |
---|---|
Beau’s lines (transverse depressions of all the nails) | Zinc deficiency |
Diffuse white nail | Zinc deficiency, anemia |
Koilonychia (concave nails) | Iron deficiency |
Diffuse brown, black, or white bands | Malnutrition |
Diffuse brown nail | Photographic developer |
Variable white | Hyopcalcemia, thallium toxicity (rat poison) |
Muehrcke’s lines (transverse, stationary, paired white bands) | Hypoalbuminemia |
Mee’s lines (transverse white bands) | Arsenic |
Longitudinal pigmentation | B12 or folate deficiency |
1. Hogan GR, Jones B. The relationship of koilonychia and iron deficiency in infants. J Pediatr. 1970;77:1054-1057.
2. Ridley CM. Pigmentation of fingertips and nails in vitamin B12 deficiency. Br J Dermatol. 1977;97:105-106.
3. Niiyama S, Mukai H. Reversible cutaneous hyperpigmentation and nails with white hair due to vitamin B12 deficiency. Eur J Dermatol. 2007;17:551-552.
4. Noppakun N, Swasdikul D. Reversible hyperpigmentation of skin and nails with white hair due to vitamin B12 deficiency. Arch Dermatol. 1986;122:896-899.
5. Carmel R. Hair and fingernail changes in acquired and congenital pernicious anemia. Arch Intern Med. 1985;145:484-485.
6. Conn RD, Smith RH. Malnutrition, myoedema, and Muehrcke’s lines. Arch Intern Med. 1965;116:875-878.
7. Amla I, Narayan JV. Finger nail clubbing in Kwashiorkor. Indian J Pediatr. 1968;35:19-22.
8. Gladen BC, Taylor JS, Wu YC, et al. Dermatological findings in children exposed transplacentally to heat-degraded polychlorinated biphenyls in Taiwan. Br J Dermatol. 1990;122:799-808.
9. Habif TP. Clinical Dermatology: A Color Guide to Diagnosis and Therapy. 5th ed. Edinburgh: Mosby; 2010:947–973.
INFANTS WITH IRON DEFICIENCY have a higher rate of koilonychia—concavity of the outer surface of the nail—(strength of recommendation [SOR]: C, one case-control study).
Vitamin B12 deficiency is associated with various nail pigment changes that are reversible with treatment (SOR: C, case reports).
Muehrcke’s lines (transverse white bands that run parallel to the lunula) occur in a minority of patients with hypoalbuminemia. (SOR: C, one cross-sectional study).
Fingernail clubbing has been found in most patients with kwashiorkor, or protein malnutrition (SOR: C, one cross-sectional study).
Transplacental exposure to polychlorinated biphenyls (PCBs) and polychlorinated dibenzofurans (PCDFs) has been associated with nail deformities and color changes (SOR: C, one case-control study).
Evidence summary
The evidence linking nail changes with nutritional deficiencies and toxic exposures is sparse, dated, and of low quality. Conditions associated with nail changes include iron deficiency, B12 deficiency, hypoalbuminemia, protein malnutrition, and PCB/PCDF exposures.
Iron deficiency is associated with koilonychia
A case-control study of 400 infants in a low-income well-baby clinic found 22 with koilonychia, a prevalence of approximately 5%. Randomly selected age-matched infants without koilonychia served as controls.
Infants with koilonychia had significantly lower hematocrit (30% vs 34%; P<.005), hemoglobin (9.4 vs 10.7 g/dL; P<.02), and serum iron (50 vs 84 mcg/dL; P<.001) than controls.1
B12 deficiency can discolor nails, but changes are reversible
Four articles describe 5 case reports of pigment changes to nails associated with B12 deficiency, all of which resolved with B12 therapy. Nail changes included brownish reticulate pigmentation,2 longitudinal hyperpigmented streaks,3 bluish-black pigment of all nails with transverse longitudinal hyperpigmented streaks,4 and entirely blue nails.5 B12 levels ranged from undetectable to 113 pg/mL.
Hypoalbuminemia linked to Muehrcke’s lines
A cross-sectional study of 72 patients selected on the basis of general cachectic appearance found 44 to have low serum albumin. Of those, 10 (23%) had Muehrcke’s lines. All of the patients with Muehreke’s lines had albumin levels <2.7 g/dL. None of the 28 patients with normal albumin had Muehrcke’s lines.6
Kwashiorkor can cause fingernail clubbing
In a cross-sectional study of 60 children 1 to 4 years of age diagnosed with kwashiorkor without evidence of tuberculosis infection, fingernail clubbing was found in 46 (76.7%). Clubbing was mild in 26 (43.3%) children, moderate in 19 (37.7%), and severe in one (1.7%).7 Kwashiorkor is extremely rare in children in the United States and other developed countries.
Transplacental chemical exposures found to deform and discolor nails
A case-control study compared finger- and toenail findings from more than 100 Taiwanese children exposed transplacentally to high levels of PCBs and PCDFs with nail findings from a comparable number of controls. The investigators looked at parental reports and physical examination results.8
Although the rates of nail abnormalities reported by parents of exposed children differed slightly from rates documented by physical examination, children exposed to PCBs and PCDFs had consistently higher rates of nail deformity than controls. The researchers examined 117 cases and 106 controls. They identified dystrophic fingernails in 15% of exposed children and 1% of controls (odds ratio [OR]=15.4; 95% confidence interval [CI], 2-119); dystrophic toenails occurred in 32% of exposed children and 18% of controls (OR=2.2; 95% CI, 1.2-4.1). The most common fingernail deformities were grooves and ridges. The most common toenail deformities were koilonychias, ridges, thickening, and pigmentation changes.8
PCB exposure is an issue in the United States and other developed countries, but at much lower levels than the accidental contamination. Whether lower levels of exposure cause nail changes isn’t known.
Recommendations
No recommendations are available. A dermatology textbook lists several nail changes associated with nutritional deficiencies and toxic exposures (TABLE).9
Table
Nail changes linked to nutrition deficits and toxins9
Nail change | Associated with |
---|---|
Beau’s lines (transverse depressions of all the nails) | Zinc deficiency |
Diffuse white nail | Zinc deficiency, anemia |
Koilonychia (concave nails) | Iron deficiency |
Diffuse brown, black, or white bands | Malnutrition |
Diffuse brown nail | Photographic developer |
Variable white | Hyopcalcemia, thallium toxicity (rat poison) |
Muehrcke’s lines (transverse, stationary, paired white bands) | Hypoalbuminemia |
Mee’s lines (transverse white bands) | Arsenic |
Longitudinal pigmentation | B12 or folate deficiency |
INFANTS WITH IRON DEFICIENCY have a higher rate of koilonychia—concavity of the outer surface of the nail—(strength of recommendation [SOR]: C, one case-control study).
Vitamin B12 deficiency is associated with various nail pigment changes that are reversible with treatment (SOR: C, case reports).
Muehrcke’s lines (transverse white bands that run parallel to the lunula) occur in a minority of patients with hypoalbuminemia. (SOR: C, one cross-sectional study).
Fingernail clubbing has been found in most patients with kwashiorkor, or protein malnutrition (SOR: C, one cross-sectional study).
Transplacental exposure to polychlorinated biphenyls (PCBs) and polychlorinated dibenzofurans (PCDFs) has been associated with nail deformities and color changes (SOR: C, one case-control study).
Evidence summary
The evidence linking nail changes with nutritional deficiencies and toxic exposures is sparse, dated, and of low quality. Conditions associated with nail changes include iron deficiency, B12 deficiency, hypoalbuminemia, protein malnutrition, and PCB/PCDF exposures.
Iron deficiency is associated with koilonychia
A case-control study of 400 infants in a low-income well-baby clinic found 22 with koilonychia, a prevalence of approximately 5%. Randomly selected age-matched infants without koilonychia served as controls.
Infants with koilonychia had significantly lower hematocrit (30% vs 34%; P<.005), hemoglobin (9.4 vs 10.7 g/dL; P<.02), and serum iron (50 vs 84 mcg/dL; P<.001) than controls.1
B12 deficiency can discolor nails, but changes are reversible
Four articles describe 5 case reports of pigment changes to nails associated with B12 deficiency, all of which resolved with B12 therapy. Nail changes included brownish reticulate pigmentation,2 longitudinal hyperpigmented streaks,3 bluish-black pigment of all nails with transverse longitudinal hyperpigmented streaks,4 and entirely blue nails.5 B12 levels ranged from undetectable to 113 pg/mL.
Hypoalbuminemia linked to Muehrcke’s lines
A cross-sectional study of 72 patients selected on the basis of general cachectic appearance found 44 to have low serum albumin. Of those, 10 (23%) had Muehrcke’s lines. All of the patients with Muehreke’s lines had albumin levels <2.7 g/dL. None of the 28 patients with normal albumin had Muehrcke’s lines.6
Kwashiorkor can cause fingernail clubbing
In a cross-sectional study of 60 children 1 to 4 years of age diagnosed with kwashiorkor without evidence of tuberculosis infection, fingernail clubbing was found in 46 (76.7%). Clubbing was mild in 26 (43.3%) children, moderate in 19 (37.7%), and severe in one (1.7%).7 Kwashiorkor is extremely rare in children in the United States and other developed countries.
Transplacental chemical exposures found to deform and discolor nails
A case-control study compared finger- and toenail findings from more than 100 Taiwanese children exposed transplacentally to high levels of PCBs and PCDFs with nail findings from a comparable number of controls. The investigators looked at parental reports and physical examination results.8
Although the rates of nail abnormalities reported by parents of exposed children differed slightly from rates documented by physical examination, children exposed to PCBs and PCDFs had consistently higher rates of nail deformity than controls. The researchers examined 117 cases and 106 controls. They identified dystrophic fingernails in 15% of exposed children and 1% of controls (odds ratio [OR]=15.4; 95% confidence interval [CI], 2-119); dystrophic toenails occurred in 32% of exposed children and 18% of controls (OR=2.2; 95% CI, 1.2-4.1). The most common fingernail deformities were grooves and ridges. The most common toenail deformities were koilonychias, ridges, thickening, and pigmentation changes.8
PCB exposure is an issue in the United States and other developed countries, but at much lower levels than the accidental contamination. Whether lower levels of exposure cause nail changes isn’t known.
Recommendations
No recommendations are available. A dermatology textbook lists several nail changes associated with nutritional deficiencies and toxic exposures (TABLE).9
Table
Nail changes linked to nutrition deficits and toxins9
Nail change | Associated with |
---|---|
Beau’s lines (transverse depressions of all the nails) | Zinc deficiency |
Diffuse white nail | Zinc deficiency, anemia |
Koilonychia (concave nails) | Iron deficiency |
Diffuse brown, black, or white bands | Malnutrition |
Diffuse brown nail | Photographic developer |
Variable white | Hyopcalcemia, thallium toxicity (rat poison) |
Muehrcke’s lines (transverse, stationary, paired white bands) | Hypoalbuminemia |
Mee’s lines (transverse white bands) | Arsenic |
Longitudinal pigmentation | B12 or folate deficiency |
1. Hogan GR, Jones B. The relationship of koilonychia and iron deficiency in infants. J Pediatr. 1970;77:1054-1057.
2. Ridley CM. Pigmentation of fingertips and nails in vitamin B12 deficiency. Br J Dermatol. 1977;97:105-106.
3. Niiyama S, Mukai H. Reversible cutaneous hyperpigmentation and nails with white hair due to vitamin B12 deficiency. Eur J Dermatol. 2007;17:551-552.
4. Noppakun N, Swasdikul D. Reversible hyperpigmentation of skin and nails with white hair due to vitamin B12 deficiency. Arch Dermatol. 1986;122:896-899.
5. Carmel R. Hair and fingernail changes in acquired and congenital pernicious anemia. Arch Intern Med. 1985;145:484-485.
6. Conn RD, Smith RH. Malnutrition, myoedema, and Muehrcke’s lines. Arch Intern Med. 1965;116:875-878.
7. Amla I, Narayan JV. Finger nail clubbing in Kwashiorkor. Indian J Pediatr. 1968;35:19-22.
8. Gladen BC, Taylor JS, Wu YC, et al. Dermatological findings in children exposed transplacentally to heat-degraded polychlorinated biphenyls in Taiwan. Br J Dermatol. 1990;122:799-808.
9. Habif TP. Clinical Dermatology: A Color Guide to Diagnosis and Therapy. 5th ed. Edinburgh: Mosby; 2010:947–973.
1. Hogan GR, Jones B. The relationship of koilonychia and iron deficiency in infants. J Pediatr. 1970;77:1054-1057.
2. Ridley CM. Pigmentation of fingertips and nails in vitamin B12 deficiency. Br J Dermatol. 1977;97:105-106.
3. Niiyama S, Mukai H. Reversible cutaneous hyperpigmentation and nails with white hair due to vitamin B12 deficiency. Eur J Dermatol. 2007;17:551-552.
4. Noppakun N, Swasdikul D. Reversible hyperpigmentation of skin and nails with white hair due to vitamin B12 deficiency. Arch Dermatol. 1986;122:896-899.
5. Carmel R. Hair and fingernail changes in acquired and congenital pernicious anemia. Arch Intern Med. 1985;145:484-485.
6. Conn RD, Smith RH. Malnutrition, myoedema, and Muehrcke’s lines. Arch Intern Med. 1965;116:875-878.
7. Amla I, Narayan JV. Finger nail clubbing in Kwashiorkor. Indian J Pediatr. 1968;35:19-22.
8. Gladen BC, Taylor JS, Wu YC, et al. Dermatological findings in children exposed transplacentally to heat-degraded polychlorinated biphenyls in Taiwan. Br J Dermatol. 1990;122:799-808.
9. Habif TP. Clinical Dermatology: A Color Guide to Diagnosis and Therapy. 5th ed. Edinburgh: Mosby; 2010:947–973.
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