This article is about the medical condition. For the 2008 album by Why?, see Alopecia (album).
Alopecia |
Classification and external resources |
Alopecia in a 33-year-old man. |
ICD-10 |
L65.9 |
ICD-9 |
704.09 |
DiseasesDB |
14765 |
MedlinePlus |
003246 |
MeSH |
D000505 |
Alopecia ( /ˌæləˈpiːʃə/, from Classical Greek ἀλώπηξ, alōpēx) means loss of hair from the head or body. Alopecia can mean baldness, a term generally reserved for pattern alopecia or androgenic alopecia.[1] Compulsive pulling of hair (trichotillomania) can also induce hair loss. Hairstyling routines such as tight ponytails or braids may cause traction alopecia. Both hair relaxer solutions, and hot hair irons can also induce hair loss. In some cases, alopecia is due to underlying medical conditions, such as iron deficiency.[2]
Generally, hair loss in patches signifies alopecia areata. Alopecia areata typically presents with sudden hair loss causing patches to appear on the scalp or other areas of the body. If left untreated, or if the disease does not respond to treatment, complete baldness can result in the affected area, which is referred to as alopecia totalis. When the entire body suffers from complete hair loss, it is referred to as alopecia universalis. It is similar to the effects that occur with chemotherapy.[3]
Contents
- 1 Signs and symptoms
- 2 Causes
- 3 Pathophysiology
- 4 Diagnosis
- 5 Treatment
- 6 Research
- 7 See also
- 8 Footnotes
- 9 External links
|
Signs and symptoms
The physician should note the distribution of hair loss, presence and characteristics of skin lesions, and the presence of scarring. Part widths should be measured. All abnormalities should be noted.
In male-pattern hair loss, loss and thinning begin at the temples and either thins out or falls out. Female-pattern hair loss occurs when hair thinning occurs at the frontal and parietal.
Causes
Causes of alopecia include:
- Alopecia mucinosa
- Androgenic alopecia
- Chronic inflammation
- Diabetes[4]
- Dissecting cellulitis
- Fungal infections (such as tinea capitis)
- Hair treatments (chemicals in relaxers, hair straighteners)
- Hereditary disorders
- Hormonal changes
- Hyperthyroidism and hypothyroidism[5]
- Hypervitaminosis A
- Iron deficiency or malnutrition in general
- Lupus erythematosus
- Medications (side effects from drugs, including chemotherapy, anabolic steroids, and birth control pills[6])
- Pseudopelade of Brocq
- Radiation therapy
- Scalp infection
- Secondary syphilis[7]
- Telogen effluvium
- Traction alopecia
- Trichotillomania
- Tufted folliculitis
Pathophysiology
Hair follicle growth occurs in cycles. Each cycle consists of a long growing phase (anagen), a short transitional phase (catagen) and a short resting phase (telogen). At the end of the resting phase, the hair falls out (exogen) and a new hair starts growing in the follicle beginning the cycle again.
Normally about 100 hairs reach the end of their resting phase each day and fall out.[citation needed] When more than 100 hairs fall out per day, clinical hair loss (telogen effluvium) may occur[citation needed]. A disruption of the growing phase causes abnormal loss of anagen hairs (anagen effluvium).
Diagnosis
Evaluation for causative disorders should be done based on clinical symptoms. Because they are not usually associated with an increased loss rate, male-pattern and female-pattern hair loss don’t generally require testing. If hair loss occurs in a young man with no family history, the physician should question the patient on drug and illicit drug use.
- The pull test: this test helps to evaluate diffuse scalp hair loss. Gentle traction is exerted on a group of hair (about 40–60) on three different areas of the scalp. The number of extracted hairs is counted and examined under a microscope. Normally, fewer than three hairs per area should come out with each pull. Very roughly, if more than ten hairs are obtained, the pull test is considered positive.[8]
- The pluck test: In this test, the individual pulls hair out “by the roots.” The root of the plucked hair is examined under a microscope to determine the phase of growth and used to diagnose a defect of telogen, anagen, or systemic disease. Telogen hairs are hairs that have tiny bulbs without sheaths at their roots. Telogen effluvium shows an increased percentage of hairs upon examination. Anagen hairs are hairs that have sheaths attached to their roots. Anagen effluvium shows a decrease in telogen-phase hairs and an increased number of broken hairs.
- Scalp biopsy: This test is done when alopecia is present, but the diagnosis is unsure. The biopsy allows for differing between scarring and nonscarring forms. Hair samples are taken from areas of inflammation, usually around the border of the bald patch.
- Daily hair counts: This is normally done when the pull test is negative. It is done by counting the number of hairs lost. The hair that should be counted are the hairs from the first morning combing or during washing. The hair is collected in a clear plastic bag for 14 days. The strands are recorded. If the hair count is >100/day, it is considered abnormal except after shampooing, where hair counts will be up to 250 and be normal.[citation needed]
- Trichoscopy: Trichoscopy is a non-invasive method of examining hair and scalp. The test may be performed with the use of a handheld dermoscope or a video dermoscope. It allows differential diagnosis of hair loss in most cases.[9]
Treatment
See also: Management of baldness
- AminoMar C (Viviscal): This is a marine complex, patented by Viviscal which nourishes the hair follicle from within. The nutrients of AminoMar Chelp nourish your hair during the Anagen phase of hair growth. Consistent intake of supplements with this marine complex strenghten thin and wispy hair, then reduce breakage and thinning of the hair. Using supplements with AminoMar C for 4-6 months are clinically proven to encourage normal healthy hair growth, making hair stronger and more vibrant. This claim is backed by a study reported in the Journal of Clinical and Aesthetic Dermatology in November 2012 (http://jcadonline.epubxp.com/title/9606).
- Minoxidil (Rogaine): This is a non-prescription medication approved for androgenetic alopecia and alopecia areata. Minoxidil comes in a liquid or foam that is rubbed into the scalp twice a day. This is the most effective method to treat male-pattern and female-pattern hair loss.[citation needed] However, only 30–40% of patients experience hair growth. Minoxidil is not effective for other causes of hair loss except alopecia areata. Hair regrowth can take 8 to 12 months. Treatment is continued indefinitely because if the treatment is stopped, hair loss resumes again. Most frequent side effects are mild scalp irritation, allergic contact dermatitis, and increased facial hair.[citation needed]
- Finasteride (Propecia): Is used in male-pattern hair loss in a pill form taken on a daily basis. Finasteride is not indicated for women and is not recommended in pregnant women. Treatment is effective within 6 to 8 months of treatment. Side effects include decreased libido, erectile dysfunction, ejaculatory dysfunction, gynecomastia, and myopathy. Treatment should be continued as long as positive results occur. Once treatment is stopped, hair loss resumes again.
- Egg Oil: In Indian,[10] Japanese, Unani (Roghan Baiza Murgh)[11] and Chinese[12] traditional medicine, Egg Oil was traditionally used as a treatment for alopecia. Egg Oil is claimed to be effective for hair care since it nourishes the scalp, promotes new hair growth, reduces hair fall and retards premature graying. It also improves the texture of hair making it thicker, reduces dandruff and prevents split ends or damage due to chemical coloring.[citation needed]
- Corticosteroids: Injections of cortisone into the scalp can be used to treat alopecia areata. This type of treatment is repeated on a monthly basis. Physician may prescribe oral pills for extensive hair loss due to alopecia areata. Results may take up to a month to be seen.
- Anthralin (Dritho-Scalp): Available as a cream or ointment that is applied to the scalp and washed off daily. More commonly is used to treat psoriasis. Results may take up to 12 weeks to be seen.
- Hormonal modulators: Oral contraceptives or antiandrogens like spironolactone and flutamide can be used for female-pattern hair loss associated with hyperandrogenemia.
- Surgical options: Treatment options such as follicle transplant, scalp flaps, and alopecia reduction are available. These procedures are generally chosen by those who are self-conscious about their hair loss. These options are expensive and painful. There is a risk of infection and scarring. Once surgery has occurred, it takes 6 to 8 months before the quality of new hair can be assessed.
-
- Hair transplant: A dermatologist or cosmetic surgeon takes tiny plugs of skin, each which contains a few hairs, and implants the plugs into bald sections. The plugs are generally taken from the back or sides of the scalp. Several transplant sessions may be necessary.
- Scalp reduction: This process is the decreasing of the area of bald skin on the head. In time, the skin on the head becomes flexible and stretched enough that some of it can be surgically removed. After the hairless scalp is removed, the space is closed with hair-covered scalp. Scalp reduction is generally done in combination with hair transplantation to provide a natural-looking hairline, especially those with extensive hair loss.
- Wigs: As an alternative to medical and surgical treatment, some patients wear a wig or hairpiece. They can be used permanently or temporarily to cover the hair loss. Quality, and natural looking wigs and hairpieces are available.
- Dietary Supplement: A dietary supplement, TRX2, is introduced by Oxford BioLabs, after the Oxford Scientists' research on small proteins called "potassium channels". Similar to Minoxidil, TRX2 works by reactivating potassium channels. The treatment contains L-Carntine-tartrate, which has been documented to induce hair growth in humans.[13][14]
- Nitroxides: A nitroxide spin label, TEMPOL is patented and used for the treatment of hair loss. Currently, there is an ongoing clinical trial using TEMPOL to prevent hair loss due to radiation treatment[15]
Research
In May 2009, researchers in Japan identified a gene, SOX21, that appears to be responsible for hair loss in humans[16] and a researcher in India found the missing link between androgenic hormone and hair loss. Androgenic alopecia is said to be a counterproductive outcome of the anabolic effect of androgens.[17]
In March 2012 a study conducted by Dr. George Cotsarelis, chair and professor of Dermatology at the Perelman School of Medicine at the University of Pennsylvania discovered a casual link between elevated levels of Prostagladin D2 (PDG2) and androgenic alopecia. Abnormally high levels of PDG2 (a nearly three-fold increase) were discovered in tissue samples of balding areas compared to haired areas of the scalp. During the course of the research a PDG2 binding receptor GPR44 was also discovered. Clinical trials to assess compounds aimed at targeting the GPR44 receptor are currently underway.[18]
See also
- Alopecia in animals
- Androgenic alopecia – male pattern baldness
- Baldness
- Lichen planopilaris
- Management of baldness
- ^ Proctor PH. Hair-raising. The latest news on male-pattern baldness. Adv Nurse Pract. 1999 Apr;7(4):39-42, 83. Review. PubMed PMID 10382384.[1]
- ^ "Hair loss, balding, hair shedding. DermNet NZ". Archived from the original on 14 November 2007. http://dermnetnz.org/hair-nails-sweat/hair-loss.html. Retrieved 2007-12-07.
- ^ "Chemotherapy and hair loss: What to expect during treatment - MayoClinic.com". Archived from the original on 26 November 2007. http://www.mayoclinic.com/health/hair-loss/CA00037. Retrieved 2007-12-07.
- ^ "What is Alopecia: What Causes Alopecia?". MedicalBug. 6 February 2012. http://www.medicalbug.com/what-is-alopecia-what-causes-alopecia/. Retrieved 28 March 2012.
- ^ Alopecia Areata, by Maria G. Essig, MS, ELS, Yahoo! Health
- ^ "Alopecia: Causes". Better Medicine. http://www.localhealth.com/article/alopecia/causes. Retrieved 28 March 2012.
- ^ "Infectious hair disease – syphilis". Keratin.com. http://www.keratin.com/aq/aq010.shtml. Retrieved 2011-11-17.
- ^ "The hair pull test". Keratin.com. http://www.keratin.com/ab/ab017.shtml. Retrieved 28 March 2012.
- ^ Rudnicka L, Olszewska M, Rakowska A, Kowalska-Oledzka E, Slowinska M. (2008). "Trichoscopy: a new method for diagnosing hair loss". J Drugs Dermatol 7 (7): 651–654. PMID 18664157.
- ^ H. Panda: Handbook On Ayurvedic Medicines With Formulae, Processes And Their Uses [2]
- ^ S. Suresh Babu: Homemade Herbal Cosmetics
- ^ Zhong Ying Zhou, Hui De Jin: Clinical manual of Chinese herbal medicine and acupuncture [3]
- ^ Foitzik, K., Hoting, E., Förster, T., Pertile, P. and Paus, R. (November 2007). "L-Carnitine–L-tartrate promotes human hair growth in vitro." (Web & Print). Experimental Dermatology 16: 936–945. (11): 936–945. doi:10.1111/j.1600-0625.2007.00611.x.
- ^ Edwards, Jim (12 January 2011). "Pharma's 4 Best Shots at a Cure for Baldness" (Web). CBSNews.com. CBS News. http://www.cbsnews.com/8301-505123_162-42847047/pharmas-4-best-shots-at-a-cure-for-baldness/. Retrieved 1 August 2012.
- ^ Daniel Cuscela, DO, et alProtection from Radiation-Induced Alopecia with Topical Application of Nitroxides: Fractionated Studies, Cancer J Sci Am 1996;2:273-278 [4].
- ^ Scientists identify gene that may explain hair loss Reporting by Tan Ee Lyn; Editing by Alex Richardson, May 25, 2009, Reuters
- ^ Soni VK (September 2009). "Androgenic alopecia: a counterproductive outcome of the anabolic effect of androgens". Med. Hypotheses 73 (3): 420–6. doi:10.1016/j.mehy.2009.03.032. PMID 19477078.
- ^ "Scientists identify protein responsible for male pattern baldness". Fox News. 21 March 2012. http://www.foxnews.com/health/2012/03/21/scientists-identify-protein-responsible-for-male-pattern-baldness/. Retrieved 21 May 2012.
External links
- Hair loss at the Open Directory Project
- 5-Minute Clinical Consult Alopecia images
Disorders of skin appendages (L60–L75, 703–706)
|
|
Nail |
- thickness: Onychogryphosis
- Onychauxis
- color: Beau's lines
- Yellow nail syndrome
- Leukonychia
- Azure Lunula
- shape: Koilonychia
- Nail clubbing
- behavior: Onychotillomania
- Onychophagia
- other: Ingrown nail
- Anonychia
- ungrouped: Paronychia
- Acute paronychia
- Chronic paronychia
- Chevron nail
- Congenital onychodysplasia of the index fingers
- Green nails
- Half and half nails
- Hangnail
- Hapalonychia
- Hook nail
- Lichen planus of the nails
- Longitudinal erythronychia
- Malalignment of the nail plate
- Median nail dystrophy
- Mees' lines
- Melanonychia
- Muehrcke's lines
- Nail–patella syndrome
- Onychoatrophy
- Onychocryptosis
- Onycholysis
- Onychomadesis
- Onychomatricoma
- Onychomycosis
- Onychophosis
- Onychoptosis defluvium
- Onychorrhexis
- Onychoschizia
- Platonychia
- Pincer nails
- Plummer's nail
- Psoriatic nails
- Pterygium inversum unguis
- Pterygium unguis
- Purpura of the nail bed
- Racquet nail
- Red lunulae
- Shell nail syndrome
- Splinter hemorrhage
- Spotted lunulae
- Staining of the nail plate
- Stippled nails
- Subungual hematoma
- Terry's nails
- Twenty-nail dystrophy
|
|
Hair |
|
|
Sweat glands |
Eccrine |
- Miliaria
- Colloid milium
- Miliaria crystalline
- Miliaria profunda
- Miliaria pustulosa
- Miliaria rubra
- Occlusion miliaria
- Postmiliarial hypohidrosis
- Granulosis rubra nasi
- Ross’ syndrome
- Anhidrosis
- Hyperhidrosis
- Generalized
- Gustatory
- Palmoplantar
|
|
Apocrine |
- Body odor
- Chromhidrosis
- Fox–Fordyce disease
|
|
Sebaceous |
|
|
|
|
|
noco/cong/tumr, sysi/epon
|
|
|
|
|