Piedraia hortae

Last updated

Piedraia hortae
Piedra Negra Micosis.png
Black piedra nodules on hair
Scientific classification
Kingdom:
Fungi
Phylum:
Ascomycota
Class:
Dothideomycetes
Order:
Capnodiales
Family:
Piedraiaceae
Genus:
Piedraia
Species:
Piedraia hortae
Binomial name
P. hortae
(Brumpt) Fonseca & Leão (1928)
Synonyms [1]
  • Trichosporon hortaeBrumpt (1913)
  • Trichosporon guayoDelamare & Gatti (1928)
  • Piedraia sarmentoiM.J.Pereira (1929)
  • Piedraia venezuelensisBrumpt & Langeron (1934)
  • Piedraia surinamensis C.W.Dodge (1935)
  • Piedraia javanica Boedijn & Verbunt (1938)
  • Piedraia malayiGreen & Mankikar (1950)

Piedraia hortae is a superficial fungus that exists in the soils of tropical and subtropical environments and affects both sexes of all ages. [2] The fungus grows very slowly, forming dark hyphae, which contain chlamydoconidia cells and black colonies when grown on agar. Piedraia hortae is a dermatophyte and causes a superficial fungal infection known as black piedra, which causes the formation of black nodules on the hair shaft and leads to progressive weakening of the hair. [3] The infection usually infects hairs on the scalp and beard, but other varieties tend to grow on pubic hairs. The infection is usually treated with cutting or shaving of the hair and followed by the application of anti-fungal and topical agents. The fungus is used for cosmetic purposes to darken hair in some societies as a symbol of attractiveness.[ citation needed ]

Contents

Morphology

When grown on agar at 25 °C (77 °F)Piedraia hortae grows very slowly [4] to form black-greenish, limited and pointed colonies. [4] Piedraia hortae taken from infected hairs have dark brown nodules, [5] which are made up of ascostroma. The nodules have a gritty feel, organized in a stromatic fashion [6] and have a high concentration of chitin and melanoid pigments. [3] The colonies produce a red pigment and remain smooth and covered with short aerial hyphae. Microscopically, P. hortae produces short, dark hyphae containing thick-walled resting cells. The ascomata consist of irregularly shaped pseudothecia that are black in colour. Each ascoma contains a single ascus containing eight ascospores. [3] The ascospores are dark, curved and become very narrow at the ends forming whip-like appendages. [7] Affected hairs develop stone-like black nodules affixed to the hair shaft that cause weakness of the hair. Infected hairs treated with potassium hydroxide fluoresce under ultraviolet light despite that the fungus itself does not normally fluoresce. Fluorescence of the piedra indicates secondary contamination by bacteria. [8] Identification is easily achieved by microscopic examination of the hair nodules, and can be confirmed by sequence analysis of the nuclear ribosomal internal transcribed spacer region. [9]

Pathology

Black piedra
Piedra Negra Micosis.png
Black piedra nodules on hair

Piedraia hortae causes the formation of nodules on the hair shaft, a clinical superficial disease commonly known as black piedra. [10] Black piedra is usually seen in tropical regions and it usually targets humans of all ages and targets the scalp, moustache and occasionally pubic hair. The source of the infection is usually in soils, poor hygiene, long hair, cultural use of veils and the application of plant oils to wet hair favours the growth of the infection. [8] Black piedra is a superficial fungal infection, which means that it is restricted to the stratum corneum and causes no inflammation. [11] The infection of the hair shaft results in the formation of nodules on the scalp, moustache and pubic hair. The nodules are hard and gritty, [2] which produce a metallic sound when the hair is combed. The nodules colonize the hair shaft, which causes progressive weakness of the hair and leads to breakage of the hair in severe cases, which can lead to hair loss and baldness. The fungus also has the potential to destroy the cuticular layers of the hair and move into the cortex. Piedraia hortae survives in the scalp is due to the slow rate of the keratin degradation near the cortex and the compact formation of the nodules [6] and the hyphae are tightly packed in black piedra cases. [12] The initial invasion of human hair by P. hortae is achieved by using an eroding hyphae, which force their way beneath or between the cuticular layer. [8] The force applied between or beneath the hair cuticle arises from the growth of the fungus itself. The breakdown of keratin is mainly due to enzymatic processes and corresponds to the abundance of localized mitochondria. The breakdown of keratin begins with the cementing material and progresses to the cortex of the hair shaft. [8] In the cortex two types of degradative patterns are produced which are either parallel or vertical to the axis hair shaft. The parallel pattern arises from hyphal separation of the external cortical layers. The vertical pattern is produced by direct hyphal penetration which creates channels that increase in size as the cortex degrades. [8]

Treatment

The infection cannot easily be removed mechanically, [5] although further proliferation of infection can be achieved by avoidance of moisture. Removal generally involves cutting or shaving of the hair, [2] but chemical treatments may be similarly useful. For women some individuals use a fine comb to remove as much of the infection as possible [13] and then they cut or shave their hair. This is then followed by the application of a sublimate solution in 60% alcohol solution to the scalp. Historical treatments have used alcoholic tinctures of heavy metals, such as mercury bichloride. [14] The application of antifungal shampoos such as pyrithione zinc, formaldehyde and salicylic acid is effective against black piedra. Oral therapy with itraconazole or terbinafine also causes nodules to break down over time. [7] [15] Removal of affected hair and treatment with topical agents is also effective and results in very low recurrences rates.[ citation needed ] However, even in the absence of treatment, spontaneous remission may occur. [12]

Terbinafine has been used in the treatment. [16]


Cosmetic uses

Black piedra is sometimes cultivated for cosmetic purposes due to social factors that favour a specific hair colour, which makes them more attractive in their society. Several Indian tribes located from Panama have been known to use several methods in order to darken the hair of albino individuals within their community. One of these methods is the cultivation of black piedra for an extensive period of time in the individuals hair. [17] In Malaysia the nodules of black piedra are very attractive and women are encouraged to sleep with their hair buried in the soil to encourage growth of the black nodules. [18]

Similar taxa

The genus Piedraia contains another species known as Piedraia quintanilhae , which is more common in chimpanzees than humans. It differs from P. hortae in terms of the ascospores do not have any attachments. [19] Another species known as Trichosporon biegelii is commonly known to cause white piedra . White piedra is more common in temperate and semitropical climates, [20] such as South America, Asia, Europe, Japan, and parts of the southern United States. Black piedra usually affects scalp hair, whereas white piedra is more commonly found in pubic hair, axillary hair, beards, moustaches, and eyelashes. [21] [22] White piedra affects horses and monkeys, in addition to humans and the nodules are white and brown in colour and can be easily detached from the hair shaft. White piedra is treated by using topical and antifungal agents, but a more effective approach is to use itraconazole therapy. [20] Recent studies have shown that the black, lichen-colonizing fungus, Xanthoriicola physciae , is closely related to P. hortae. [23]

See also

Related Research Articles

<span class="mw-page-title-main">Athlete's foot</span> Skin infection caused by fungus

Athlete's foot, known medically as tinea pedis, is a common skin infection of the feet caused by a fungus. Signs and symptoms often include itching, scaling, cracking and redness. In rare cases the skin may blister. Athlete's foot fungus may infect any part of the foot, but most often grows between the toes. The next most common area is the bottom of the foot. The same fungus may also affect the nails or the hands. It is a member of the group of diseases known as tinea.

Dermatophyte is a common label for a group of fungus of Arthrodermataceae that commonly causes skin disease in animals and humans. Traditionally, these anamorphic mold genera are: Microsporum, Epidermophyton and Trichophyton. There are about 40 species in these three genera. Species capable of reproducing sexually belong in the teleomorphic genus Arthroderma, of the Ascomycota. As of 2019 a total of nine genera are identified and new phylogenetic taxonomy has been proposed.

<span class="mw-page-title-main">Tinea corporis</span> Medical condition

Tinea corporis is a fungal infection of the body, similar to other forms of tinea. Specifically, it is a type of dermatophytosis that appears on the arms and legs, especially on glabrous skin; however, it may occur on any superficial part of the body.

<span class="mw-page-title-main">Tinea capitis</span> Cutaneous fungal infection of the scalp

Tinea capitis is a cutaneous fungal infection (dermatophytosis) of the scalp. The disease is primarily caused by dermatophytes in the genera Trichophyton and Microsporum that invade the hair shaft. The clinical presentation is typically single or multiple patches of hair loss, sometimes with a 'black dot' pattern, that may be accompanied by inflammation, scaling, pustules, and itching. Uncommon in adults, tinea capitis is predominantly seen in pre-pubertal children, more often boys than girls.

<span class="mw-page-title-main">Dermatophytosis</span> Fungal infection of the skin

Dermatophytosis, also known as ringworm, is a fungal infection of the skin. Typically it results in a red, itchy, scaly, circular rash. Hair loss may occur in the area affected. Symptoms begin four to fourteen days after exposure. Multiple areas can be affected at a given time.

<span class="mw-page-title-main">Onychomycosis</span> Medical condition

Onychomycosis, also known as tinea unguium, is a fungal infection of the nail. Symptoms may include white or yellow nail discoloration, thickening of the nail, and separation of the nail from the nail bed. Fingernails may be affected, but it is more common for toenails. Complications may include cellulitis of the lower leg. A number of different types of fungus can cause onychomycosis, including dermatophytes and Fusarium. Risk factors include athlete's foot, other nail diseases, exposure to someone with the condition, peripheral vascular disease, and poor immune function. The diagnosis is generally suspected based on the appearance and confirmed by laboratory testing.

<i>Trichobacteriosis axillaris</i> Medical condition

Trichobacteriosis axillaris is a superficial bacterial colonization of the hair shafts in sweat gland–bearing areas, such as the armpits and the groin. It is a trivial disease of worldwide occurrence that is believed to be caused by the genus Corynebacteria.

<span class="mw-page-title-main">White piedra</span> Medical condition

White piedra is a mycosis of the hair caused by several species of fungi in the genus Trichosporon. It is characterized by soft nodules composed of yeast cells and arthroconidia that encompass hair shafts.

Exophiala jeanselmei is a saprotrophic fungus in the family Herpotrichiellaceae. Four varieties have been discovered: Exophiala jeanselmei var. heteromorpha, E. jeanselmei var. lecanii-corni, E. jeanselmei var. jeanselmei, and E. jeanselmei var. castellanii. Other species in the genus Exophiala such as E. dermatitidis and E. spinifera have been reported to have similar annellidic conidiogenesis and may therefore be difficult to differentiate.

Piedra is a hair disease caused by a fungus, which causes formation of nodules on the hair shaft.

Piedraia is a genus of fungus within the Piedraiaceae family in the Capnodiales order.

<i>Microsporum audouinii</i> Species of fungus

Microsporum audouinii is an anthropophilic fungus in the genus Microsporum. It is a type of dermatophyte that colonizes keratinized tissues causing infection. The fungus is characterized by its spindle-shaped macroconidia, clavate microconidia as well as its pitted or spiny external walls.

<span class="mw-page-title-main">Fungal folliculitis</span> Inflammation of hair follicles due to fungal infection

Majocchi's granuloma is a skin condition characterized by deep, pustular plaques, and is a form of tinea corporis. It is a localized form of fungal folliculitis. Lesions often have a pink and scaly central component with pustules or folliculocentric papules at the periphery. The name comes from Domenico Majocchi, who discovered the disorder in 1883. Majocchi was a professor of dermatology at the University of Parma and later the University of Bologna. The most common dermatophyte is called Trichophyton rubrum.

<i>Microsporum gypseum</i> Species of fungus

Microsporum gypseum is a soil-associated dermatophyte that occasionally is known to colonise and infect the upper dead layers of the skin of mammals. The name refers to an asexual "form-taxon" that has been associated with four related biological species of fungi: the pathogenic taxa Arthroderma incurvatum, A. gypsea, A. fulva and the non-pathogenic saprotroph A. corniculata. More recent studies have restricted M. gypseum to two teleomorphic species A. gypseum and A. incurvatum. The conidial states of A. fulva and A. corniculata have been assigned to M. fulvum and M. boullardii. Because the anamorphic states of these fungi are so similar, they can be identified reliably only by mating. Two mating strains have been discovered, "+" and "–". The classification of this species has been based on the characteristically rough-walled, blunt, club-shaped, multicelled macroconidia. Synonyms include Achorion gypseum, Microsporum flavescens, M. scorteum, and M. xanthodes. There has been past nomenclatural confusion in the usage of the generic names Microsporum and Microsporon.

<i>Aphanoascus fulvescens</i> Species of fungus

Aphanoascus fulvescens is a mould fungus that behaves as a keratinophilic saprotroph and belongs to the Ascomycota. It is readily isolated from soil and dung containing keratin-rich tissues that have been separated from their animal hosts. This organism, distributed worldwide, is most commonly found in areas of temperate climate, in keeping with its optimal growth temperature of 28 °C (82 °F). While A. fulvescens is recognized as a geophilic fungal species, it is also a facultative opportunistic pathogen. Although it is not a dermatophyte, A. fulvescens has occasionally been shown to cause onychomycosis infections in humans. Its recognition in the laboratory is clinically important for correct diagnosis and treatment of human dermal infections.

<i>Microsporum gallinae</i> Species of fungus

Microsporum gallinae is a fungus of the genus Microsporum that causes dermatophytosis, commonly known as ringworm. Chickens represent the host population of Microsporum gallinae but its opportunistic nature allows it to enter other populations of fowl, mice, squirrels, cats, dogs and monkeys. Human cases of M. gallinae are rare, and usually mild, non-life-threatening superficial infections.

<i>Epidermophyton floccosum</i> Species of fungus

Epidermophyton floccosum is a filamentous fungus that causes skin and nail infections in humans. This anthropophilic dermatophyte can lead to diseases such as tinea pedis, tinea cruris, tinea corporis and onychomycosis. Diagnostic approaches of the fungal infection include physical examination, culture testing, and molecular detection. Topical antifungal treatment, such as the use of terbinafine, itraconazole, voriconazole, and ketoconazole, is often effective.

Myriodontium keratinophilum is a fungus widespread in nature, most abundantly found in keratin-rich environments such as feathers, nails and hair. Despite its ability to colonize keratinous surfaces of human body, the species has been known to be non-pathogenic in man and is phylogentically distant to other human pathogenic species, such as anthropophilic dermatophytes. However, its occasional isolation from clinical specimens along with its keratinolytic properties suggest the possibility it may contribute to disease.

Cephalotheca foveolata is a species of fungus. It is rarely opportunistic and generally manifests as a minor subcutaneous infection.

References

  1. "Piedraia hortae (Brumpt) Fonseca & Leão". MycoBank. International Mycological Association. Retrieved 2014-12-09.
  2. 1 2 3 Schwartz, R.A. (2004). "Superficial fungal infections". Lancet. 364 (9440): 1173–82. doi:10.1016/S0140-6736(04)17107-9. PMID   15451228. S2CID   28932880.
  3. 1 2 3 Figueras, M.J.; Guarro, J (1997). "X-ray microanalysis of black piedra". Antonie van Leeuwenhoek. 72 (4): 275–281. doi:10.1023/a:1000409311166. PMID   9442268. S2CID   10420470.
  4. 1 2 Bonifaz, Alexandro; Gómez-Daza, F; Paredes, V; Ponce, R. M. (2010). "Tinea versicolor, tinea nigra, white piedra, and black piedra". Clinics in Dermatology. 28 (2): 140–145. doi: 10.1016/j.clindermatol.2009.12.004 . PMID   20347655.
  5. 1 2 Paixao, G.C (2001). "A patient clinical lesion of black piedra and mycological diagnosis of white piedra". Clinical Microbiology Newsletter. 23 (7): 55–58. doi:10.1016/s0196-4399(01)80015-5. ISSN   0196-4399.
  6. 1 2 Figueras, M.J.; Guarro, J; Zaror, L (1997). "Ultrastructural aspects of hair digestion in black piedra infection". Journal of Medical and Veterinary Mycology. 35 (1): 1–6. doi: 10.1080/02681219780000791 . PMID   9061578.
  7. 1 2 Figueras, M.J. (2008). "New findings in black piedra infection". Journal of Dermatology. 135: 144–161.
  8. 1 2 3 4 5 Figueras, María José; Guarro, Josep (2000). "Ultrastructural aspect of keratinolytic activity of piedra" (PDF). Revista Iberoamericana de Micología: 136–141.
  9. Liu, Dongyou (2011). Molecular Detection of Human Fungal Pathogens. Florida. ISBN   978-1-4398-1240-2.{{cite book}}: CS1 maint: location missing publisher (link)
  10. "eMedicine - Piedra : Article by Robert A Schwartz". 2018-04-17. Retrieved 2008-11-08.{{cite journal}}: Cite journal requires |journal= (help)
  11. Walsh, Thomas (1996). Medical Microbiology. Texas.{{cite book}}: CS1 maint: location missing publisher (link)
  12. 1 2 Drake, Lynn A. (1996). "Guidelines of care for superficial myoctic infections of the skin: Piedra". American Academy of Dermatology. 34 (1): 122–124. doi:10.1016/s0190-9622(96)90844-0. PMID   8543681.
  13. Dias, Maria Fernanda Reis Gavazzoni; Quaresma-Santos, Maria Victoria Pinto (2013). "Update on therapy for superficial mycoses: review article part I". Anais Brasileiros de Dermatologia. 88 (5): 764–774. doi:10.1590/abd1806-4841.20131996. PMC   3798354 . PMID   24173183. Open Access logo PLoS transparent.svg
  14. Marshall, James (1960). Diseases of the skin. Edinburgh: E. & S. Livingstone. p. 944.
  15. Gip, L (1994). "Black piedra: The first case treated with terbinafine (Lamisil)". British Journal of Dermatology. 130 (Suppl 43): 26–28. doi:10.1111/j.1365-2133.1994.tb06090.x. PMID   8186138. S2CID   22280222.
  16. Gip L (April 1994). "Black piedra: the first case treated with terbinafine (Lamisil)". The British Journal of Dermatology. 130. Suppl 43: 26–8. doi:10.1111/j.1365-2133.1994.tb06090.x. PMID   8186138. S2CID   22280222.
  17. Moyer, Donald; Keeler, Clyde (1964). "Note on culture of black piedra for cosmetic reasons". Archives of Dermatology. 89 (3): 436. doi:10.1001/archderm.1964.01590270122027. PMID   14096368.
  18. "Infectious Agents". www.americanhairloss.org. AmericanHairLossAssociation. 2010. Retrieved November 13, 2014.
  19. DoctorFungus (2007). "Piedraia species". www.doctorfungus.com. DoctorFungusCorporation. Archived from the original on November 13, 2014. Retrieved November 13, 2014.
  20. 1 2 Khandpur, Sujay; Reddy, Belum Sivanagi (2002). "Itraconazole therapy for white piedra affecting scalp hair". Journal of the American Academy of Dermatology. 47 (3): 415–418. doi:10.1067/mjd.2002.124072. PMID   12196752.
  21. Khatu, Swana; Poojary, Shital Amin; Nagpur, Niranjan G (2013). "Nodules on the hair: A rare case of mixed piedra". International Journal of Trichology. 5 (4): 220–223. doi: 10.4103/0974-7753.130421 . PMC   3999658 . PMID   24778538. Open Access logo PLoS transparent.svg
  22. "Aquatic Pathogens". www.env.gov.bc.ca. Province ofBritishColumbia. 2001. Retrieved November 13, 2014.
  23. Ruibal, Constantino; Millanes, Ana; Hawksworth, David (2011). "Molecular phylogenetic studies on the lichenicolous Xanthoriicola physciae reveal antarctic rock inhabiting fungi and Piedraia species among closest relatives in the teratosphaeriaceae". IMA Fungus. 2 (1): 97–103. doi:10.5598/imafungus.2011.02.01.13. PMC   3317360 . PMID   22679593. Open Access logo PLoS transparent.svg
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.