Examining the Fingernails When Evaluating Presenting Symptoms in Elderly Patients
Mark E. Williams, MD
Nov 23, 2009
Human fingernails, located on the dorsal aspect of the terminal 40% of the distal phalanx of each finger, are complex structures involving 3 different layers:
The nail plate (the nail). This is the keratinized structure, which grows throughout life;
The nail bed (ventral matrix, sterile matrix). This is the vascular bed that is responsible for nail growth and support. It lies protected between the lunula (the "half moon" seen through the nail) and the hyponychium (the posterior part of the nail bed epithelium); and
The eponychium (cuticle). The epidermal layer between the proximal nail fold and the dorsal aspect of the nail plate.
The primary purpose of the nail is protection. Abnormalities of the nail are often caused by skin disease and infection (most often fungal) but may also indicate more general medical conditions. This discussion does not address localized trauma or nail infections but offers examples of nail abnormalities that may occur with systemic disease.
Check to see whether the nails are normal by looking at the following (Figure 1):
Softness and flexibility of free edge;
Shape and color;
Quality of paronychial tissue; and
Growth rate (about 6 months from cuticle to free edge). Time of events can be estimated from location.
Figure 1. The normal nail.
Examining the Nails
Elderly people carry the last 6 months of their medical record on the approximately 10 square centimeters of keratin comprising the fingernails. Examining the fingernails can help the clinician detect a number of general and specific factors, including the following:
Inner emotional state;
Occupations and hobbies;
Rheumatic conditions; and
The patient's manicure can reveal state of health, nutritional status, past events, personality, occupation, and one's inner state. Systemic illness should show the nail changes in each of the nails on one hand. The thumb may reveal more extensive changes given its increased size.
It is useful to follow the following sequence when examining the nails:
Check the nail shape;
Examine the nail color;
Survey processes around the nails;
Compare hands; and
Note skin conditions.
It is critical to examine the nails in adequate light. Gently rotate the nail in the light so that the reflection highlights all aspects of the nail. Notice the lunula, the pale crescent moonlike coloration at the base of the nail. Leukonychia stria and a pointed tent-like lunula suggest an excessive manicure and pushing on the cuticle. Paronychias suggest stress and poor attention to hygiene. This can reflect depression, dementia, or psychiatric illness.
Nail growth is continuous. It takes about 6 months for a fingernail in an elderly person to completely grow out. Cold temperature can slow growth rates but not to any clinically significant degree (pun intended). The middle fingernail grows the fastest, followed by the forefinger and ring finger. Aging slows the growth rate from approximately 3 months in childhood to 6 months in 70-year-olds. Nails in elderly people are also thicker than in younger people. Thin nails in a postmenopausal woman raise the possibility of metabolic bone disease. The nails of the dominant hand grow slightly more quickly than the nondominant nails, probably because minor trauma accelerates nail growth. Conversely, immobility slows the growth rate of fingernails. Understanding the growth rate is important because the time interval from a critical event can be estimated from the location of a nail lesion. For example, a white line appearing transversely halfway up the nail suggests an acute illness 3 months earlier. Regular observation will demonstrate its progression to the end of the nail edge.
Distance from base and line of polish gives an approximate date of application (nails grow 0.1 mm/day). Picking at polish reflects nervousness and agitation. Toenail polish suggests unusual flexibility or a friendly helper.
Observing the Nail Shape and Surface
Clubbing involves a softening of the nail bed with the loss of normal Lovibond angle between the nail bed and the fold, an increase in the nail fold convexity, and a thickening of the end of the finger so it resembles a drumstick.
To determine whether nails are clubbed, have the patient place both forefinger nails together and look between them. If you can see a small diamond space between them (Schamroth's window) then the nails are not clubbed (Schamroth's sign) (Figure 2).
Figure 2. Schamroth's sign.
Causes of clubbing (not exhaustive) include the following (Figure 3):
Pulmonary and cardiovascular causes (80%)
Lung cancer, pulmonic abscess, interstitial pulmonary fibrosis, sarcoidosis, beryllium poisoning, pulmonary arteriovenous fistula, subacute bacterial endocarditis, infected arterial grafts, aortic aneurysm
Gastrointestinal causes (about 5%)
Inflammatory bowel disease, sprue, neoplasms (esophagus, liver, bowel)
Hyperthyroidism (about 1%)
Note: Chronic obstructive pulmonary disease does not cause clubbing.
Figure 3. Example of clubbed fingernails.
Koilonychia are spoon-shaped concave nails (Figures 4A, 4B). This occurs normally in children and usually resolves with aging. To determine whether a nail is spooned, perform the water drop test. Place a drop of water on the nail. If the drop does not slide off, then the nail is flattened from early spooning. An experienced clinician can look at the nail and perform a "mental" water drop test. Causes include the following:
Protein deficiency, especially in sulfur-containing amino acids (cysteine or methionine);
Exposure to petroleum-based solvents;
Systemic lupus erythematosus; and
Figure 4A. Spooned nail.
Figure 4B. Spooned nail.
In 1846, Joseph Honoré Simon Beau described transverse lines in the substance of the nail as signs of previous acute illness. The lines look as if a little furrow had been plowed across the nail. Illnesses producing Beau's lines include the following:
Intermittent doses of immunosuppressive therapy or chemotherapy can also produce Beau's lines. Severe zinc deficiency has also been proposed as a cause of Beau's lines.
By noting its location on the nail, the approximate date of the illness associated with it can be determined (Figures 5A, 5B). Moreover, the depth of the line provides a clue to the severity of the illness.
Figure 5A. The location of Beau's lines halfway up the nail suggests illness 3 months ago.
Figure 5B. Two Beau's lines suggest illnesses about 2 months apart.
Thin Brittle Nails
Thin, brittle nails can indicate the following (Figure 6):
Metabolic bone disease (nail thinness is correlated with osteopenia);
Systemic amyloidosis (indicated by yellow waxy flaking); and
Figure 6. Note the thin nails in this woman with severe osteopenia.
Onychorrhexis is the presence of longitudinal striations or ridges (Figure 7). It can simply be a sign of advanced age but it can also occur with the following:
Peripheral vascular disease;
Lichen planus; and
Darier's disease (striations are red/white).
Central ridges can be caused by:
Folic acid deficiency; and
Figure 7. Example of a central nail ridge.
Central Nail Canal (Median Nail Dystrophy)
When a central nail canal is present, the cuticle is usually normal (Figure 8A). Central nail canal is associated with:
Severe arterial disease ("Heller's fir tree deformity" -- a central canal with a fir tree appearance -- may occur with peripheral artery disease (Figure 8B);
Severe malnutrition; and
Figure 8A. Example of central nail canal.
Figure 8B. Central nail canal with Heller's fir tree deformity.
Nail pitting -- small punctate depressions -- are caused by nail matrix inflammation, which can be the result of:
Psoriasis (random appearance of pits) (Figure 9);
Alopecia areata (geometric rippled grid) (Figure 10);
Figure 9. Indication of psoriasis.
Figure 10. Indication of alopecia areata.
With nail beading, the beads seem to drip down the nail like wax (Figure 11). It is associated with endocrine conditions, including the following:
Addison's disease; and
Vitamin B deficiency.
Figure 11. Nail beading.
Rough Nail Surface
When nails look sandpapered and dull, consider (Figure 12):
Chemical exposure; and
Figure 12. Example of a rough nail surface.
Slow nail growth produces thickness (Figure 13). In such cases, the following should be considered:
Peripheral vascular disease;
Yellow nail syndrome; and
Figure 13. Example of a nail thickening.
Onycholysis is distal separation of the nail plate from the underlying nail bed (Figure 14). It is associated with the following:
Toxic exposures (solvents);
Blistering from autoimmune disease; and
Porphyria cutanea tarda (onycholysis and skin blistering from sun exposure).
Figure 14. Traumatic onycholysis (involving only 1 nail).
Severe Nail Curvature (Beaked Nails)
Curved or beaked nails are caused by resorption of distal digit (Figure 15). Consider the following:
Figure 15. Example of severe nail curvature.
Complete Nail Destruction
Complete local nail destruction can be caused by local mechanisms, including trauma and paronychia. Generalized conditions that might cause complete nail destruction include the following:
Toxic epidermal necrolysis;
Bullous diseases; and
Observing Nail Color
Abnormalities of the Lunula
If the lunula is absent, consider anemia or malnutrition (Figure 16). A pyramidal lunula might indicate excessive manicure or trauma (Figure 17). A pale blue lunula suggests diabetes mellitus. If the lunula has red discoloration, consider the following causes among others (Figure 18):
Collagen vascular disease; and
Figure 16. Absent lunula.
Figure 17. Pyramidal lunula.
Figure 18. Lunula with red discoloration.
Transverse White Lines (Mee's lines)
Any acute illness can produce transverse milky white lines. In addition, they might be caused by heavy metal toxicity (classically arsenic) or chemotherapy. The time of event may be determined from the location of the lines on nail (Figure 19).
Figure 19. Note the Mee's line approximately one-third of the way up the nail, suggesting a significant illness 2 months previously.
Leukonychia striae are white splotches caused by minor trauma to the nail matrix (Figure 20). The timing can be determined by the location of the splotches on the nail.
Figure 20. Example of leukonychia striae. Note location of white splotches, which can indicate timing of the traumatic event.
Longitudinal Brown Lines
Longitudinal brown lines form because of increased melanin produced by nail matrix melanocytes (Figure 21). They are associated with:
Nevus at the nail base;
Melanoma (check for periungal pigmentation); and
Figure 21. Longitudinal brown lines.
Splinter hemorrhages are caused by hemorrhage of the distal capillary loop (Figure 22). Note the thickness of these areas. They are associated with the following:
Subacute bacterial endocarditis;
Systemic lupus erythematosus;
Pityriasis rubra pilaris;
Figure 22. Splinter hemorrhages tend to be fat.
Terry's Half and Half Nails
With Terry's half and half nails, the proximal portion is white (edema and anemia) and the distal portion is dark. These nails imply either renal or liver disease (Figures 23A, 23B).
Figure 23A. This example of Terry's half and half nails suggests liver disease (no brown lines).
Figure 23B. Half and half nails imply renal disease when there is a brown band at the junction of the erythema and the free edge. Image courtesy of w
Generalized Discolorations of the Nail Plate
Nail discoloration is a useful method for identifying potential problems.
White nails can be caused by anemia, edema, or vascular conditions (Figure 24). Consider the following:
· Renal failure;
· Diabetes mellitus;
· Chemotherapy; and
· Hereditary (rare).
Figure 24. Example of white nails.
Pink or Red Nails
With pink or red nail discoloration, the following should be considered (Figure 25):
· Polycythemia (dark);
· Systemic lupus erythematosus;
· Carbon monoxide (cherry red);
· Angioma; and
Figure 25. Example of pink and red nails.
Brown-gray nails may suggest the following (Figure 26):
· Cardiovascular disease;
· Diabetes mellitus;
· Vitamin B12 deficiency;
· Breast cancer;
· Malignant melanoma;
· Lichen planus;
· Syphilis; and
· Topical agents, including hair dyes, solvents for false nails, varnish, and formaldehyde (among many others)
Figure 26. Example of brown-gray nails.
Yellow nails suggest the following (Figure 27):
· Diabetes mellitus;
· Median/ulnar nerve injury;
· Thermal injury; and
Consider yellow nail syndrome if a patient has lymphedema and bronchiectasis.
Figure 27. Example of yellow nails. Image courtesy of www.dermnet.com Used with permission.
Green or Black Nails
Green or black nails indicate the following (Figure 28):
· Topical preparations, including chlorophyll derivations, methyl green, and silver nitrate (among others);
· Chronic Pseudomonas spp infection; and
Figure 28. Example of black nails.
ww.dermnet.com Used with permission.
Processes Around the Nail
Paronychia is associated with separation of the seal between the proximal nail fold and the nail plate that provides entry for bacteria and leads to a localized infection of the paronychial tissues of the hands (Figure 29). Symptoms may include inflammation, swelling, and/or scaling.
Figure 29. Example chronic paronychial inflammation.
Periungal telangeictasia is caused by dilated capillary loops and results in atrophy of the cuticle (Figure 30). It is strongly associated with collagen vascular disease, including the following:
Systemic lupus erythematosus;
Dermatomyositis (especially with Gotton's papules over knuckles); and
Figure 30. Example of periungal telangeictasia. Image courtesy of www.dermnet.com Used with permission.
A mucous or myxoid cyst is a collection of degenerative collagen that can cause swelling and ridging of the nail above the cyst, forming a "gutter" (Figure 31).
Figure 31. Example of a mucus cyst.
The following are examples of patients in whom examining the fingernails may help identify their conditions.
Slide 1. 78-year-old with multiple conditions.
Slide 2. 84-year-old man with a painful ankle.
Slide 3. 68-year-old man with esophageal cancer.
Slide 4. 62-year-old woman with dermatomyositis.
The author would like to thank the University of Virginia GME Office for funding support; Jim Thomas, MD, of www.Dermnet.com for permission to use images from their extensive dermatologic atlas; and the internal medicine residents at the University of Virginia for pre-testing and their helpful feedback
Thursday, May 9, 2013
Did You Know That Your Fingernails Are Speaking To You?
Posted by The Liberty Of It All