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  In this article
   Skin and Aviation
   Occupational Der...
   Dermatological I...
   Space and Skin
   Space Tourism

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 Table of Contents    
Year : 2011  |  Volume : 77  |  Issue : 4  |  Page : 413-417

Skin in aviation and space environment

Department of Dermatology, Air Force Hospital, Jorhat, Assam - 785 005, India

Date of Web Publication29-Jun-2011

Correspondence Address:
Sanjiv Grover
Department of Dermatology, Air Force Hospital, Jorhat, Assam - 785005
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Source of Support: None, Conflict of Interest: None

DOI: 10.4103/0378-6323.82387

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The aerospace environment is a dynamic interaction between man, machine and the environment. Skin diseases are not particularly significant aeromedically, yet they could permanently affect an aviator's status for continued flying duty. A number of dermatological conditions lend themselves to flying restrictions for the aviator. Aircrew and ground crew are exposed to a myriad of elements that could also adversely impact their flying status. Inflight stresses during flights as well as space travel could impact certain behaviors from a dermatological standpoint. With the advent of space tourism, dermatological issues would form an integral part of medical clearances. With limited literature available on this subject, the review article aims to sensitize the readers to the diverse interactions of dermatology with the aerospace environment.

Keywords: Aeromedical, aviation, occupational dermatoses, skin, space

How to cite this article:
Grover S. Skin in aviation and space environment. Indian J Dermatol Venereol Leprol 2011;77:413-7

How to cite this URL:
Grover S. Skin in aviation and space environment. Indian J Dermatol Venereol Leprol [serial online] 2011 [cited 2020 Dec 6];77:413-7. Available from:

  Introduction Top

Aviation and space or aerospace environment is a dynamic interaction between man, machine and environment. Since skin is the first organ that interacts with this environment, it is essential to learn the dermatological implications of such an environment. With limited literature available on this subject, the review article aims to sensitize the readers to the diverse interactions of dermatology with the aerospace environment.

Skin diseases are not particularly significant aeromedically. Most dermatological diseases are transient, cause no incapacitation, and can usually be managed by a short course of topical medications. Yet it exacts a huge morbidity. During World War II, in some tropical areas, dermatological diseases comprised up to 75% of all outpatient department (OPD) visits. [1] Skin disease resulted in almost 25% of all lost man-days aboard a US Navy aircraft carrier. [2] Another study conducted on the US Air Force aero-medical consultations found that dermatological disorders comprised 11.3% of all medical referrals. Fungal infections were the commonest disorder in 14.5%; and 50.3% involved skin disease which could permanently affect an aviator's status for continued flying duty. [3]

  Skin and Aviation Top

The milieu during flights is much different from those faced on terra firma which the body is accustomed and acclimatized to. These differences may contribute to inflight stresses and include low barometric pressure (565 mm Hg vs. 760 mm Hg), low PaO 2 (55 mm Hg vs. 98 mm Hg), low humidity (10-20%) and prolonged cramped sitting. These factors may impact certain behaviors from a dermatological viewpoint. Low humidity may hamper those suffering from atopic dermatitis, jet lag may alter timings of medications and special meals need to be catered for, e.g. gluten-free diet for those with dermatitis herpetiformis. Air casualty evacuation of dermatological emergencies, e.g. acute skin failure involves overcoming challenging issues of immobilization, maintenance of ambient temperature/humidity, provision of air/water mattress, oxygen supply, etc.

  Occupational Dermatoses Top

Dielectric fluids, sealants, kerosene, jet fuel components are some of the innumerable chemicals used in the airline industry which act as skin irritants or allergens. The most important skin irritant in jet fuel components is reported to be N-phenyl-l-naphthylamine. [4] Other irritants encountered by aircrew during routine inspections of aircrafts include deicing agents, hydraulic fluid or jet fuel. Chronic exposure to visible light through cockpit windows has been blamed for the development of chronic actinic dermatitis in a pilot with known atopic eczema. [5] Contact dermatitis to flight gloves and to face mask have also been reported in the literature. [6] A helicopter pilot has been reported to have developed erythema multiforme and cutaneous leishmaniasis during 'Operation Desert Storm', a prime example of 'geographical variation'. [7]

Exposure to cosmic rays is an area of special concern. At sea level, the exposure to cosmic radiation is 0.06 ΅Sv/h. At 35,000 ft level, the altitude of a commercial airliner, this exposure rises by 100 times to 6 ΅Sv/h. Melanoma and non-melanoma skin cancers and prostate cancer is reportedly three times more likely to occur in pilots than in the general population; and is reportedly more likely in pilots with longer careers.[8],[9],[10] Another study has attributed enhanced ultraviolet radiation rather than cosmic radiation to the increased cancer risk. [11] A meta-analysis of studies of aircrews between 1986 and 1988 concluded that aircrews seemed to be at higher risk for melanoma, and cancer of brain, prostrate and breast. [12] However, the association may be confounded by differences in lifestyle factors (circadian rhythm disruption, leisure-time sun-exposure), reproductive factors or family history. [13]

Ground crew is exposed to aviation fuels and lubricants. They are also exposed for prolonged duration to the environment during the course of their outdoor duties on the tarmac. Polymorphic light eruptions have been reported in 7% of ground crew, with a higher incidence in winters than in summers, possibly due to inadequate adaptive hardening of the skin. Prolonged wearing of flying clothing in hot and humid weather leads to sweating, which in turn enhances the proneness to dermatophyte infection. Quality of clothing used and duration of use are other factors that may influence the pattern of skin diseases. [14]

  Dermatological Implications in Aviators Top

A number of dermatological conditions impact the employability of aircrew. [15],[16] These are conditions which tend to recur frequently; require periodic courses of systemic medications such as steroids; those that interfere with wearing of cockpit equipment; or medications that may interfere with performance. Some illustrative dermatological conditions and their influence in a flying environment are elucidated below:

Atopic dermatitis: Itching can be distracting; low humidity can exacerbate dermatitis; and severe exacerbations can require use of systemic steroids and antihistamines. In certain environments, systemic steroids exceeding prednisone 20 mg and sedating antihistamines are contraindications for flying duties.

Psoriasis: Psoriatic lesions may interfere with wearing of aviation equipment. Face and scalp psoriasis may impede wearing mask and helmet respectively; and palmoplantar psoriasis may interfere with handling cockpit controls. Psoriasis also distracts by pruritus or pain and exacerbates through repeated trauma (Koebner's phenomenon) and physically/emotionally strenuous work. Medications like Psoralen + UltraViolet A (PUVA) and methotrexate are incompatible with flying duties; and psychological aspects may also affect the aviator's duties.

Acne: Conditions like cystic acne interfere with wearing of aviation equipment; exacerbates due to rubbing, pressure, or exposure to hot/humid environments; and has associated psychological issues. Use of medications, e.g. isotretinoin may impair flying duties on account of photosensitivity and impaired night vision.

Urticaria: Flight restrictions depend on the frequency of episodes, extent and severity of lesions, and type/amount of medication necessary to achieve symptomatic control.

Contact dermatitis: Distraction by pruritus/pain, systemic complications, associations with other disease processes, interference with wearing of protective aviation equipment, medications that are incompatible with flying duties and recurrence of symptoms on re-exposure are issues to consider for aviation duties.

HIV infection: A significant percentage develops subtle neurobehavioral and cognitive deficits; and nearly 50% show additional deficits under conditions of hypoxia. Risk of depression/suicide, seizures or sudden violent or disturbed behavior may also influence flight restrictions.

Others: Those with palmoplantar hyperhidrosis, leprosy with nerve function impairment, Herpes zoster, etc. need suitable flight restrictions.

Drugs: Only those medications which do not interfere with the performance of flying duties or use of personnel/life-support equipment such as topical antiseptics/antifungals/hydrocortisone/benzoyl peroxide/tretinoin/acyclovir, etc. are permitted during flying duties.

Individual employability restrictions or permissions will eventually depend on the individual merits of the case.

  Space and Skin Top

Microbial milieu : About 50 species of microbes, mostly bacteria, reside in all orifices and persist despite washing and disinfecting. They are carried to the space along with the space traveler. Reduced atmospheric pressure, dilution and interpersonal exchange of microbes during space travel may make them pathogenic. [17] Because of the difficulty in bathing and maintenance of personal hygiene, outbreaks of pyodermas, viral infections and fungal infections may occur. A Soviet study has recommended bathing once in four days to allow natural homeostatic mechanisms to operate. [18]

Immunological effects: C3 levels are elevated; C4 levels remain unchanged; Immunoglobulin A, Immunoglobulin G, Immunoglobulin M levels are increased; Interferon alfa (IFN-α) levels are raised; Interferon gamma (IFN-γ) levels are reduced; and T-cell responsiveness to mitogen and lymphocyte activation are reduced. [19] These may influence the host response to cutaneous infections or eczemas.

Systemic physiological changes: During space flight, the following physiological changes may occur: space motion sickness, muscle atrophy, bone loss, negative nitrogen balance, negative calcium balance, fluid shift to upper body, red blood cell loss, decrease in heart size, and increase in heart rate. After flight the physiological effects are: reduced exercise tolerance, reduced blood volume, postural hypotension and reduced cardiac output. [20]

Cutaneous effects of space flight: Skin diseases were leading in probability ranking for occurrence of disease during space flight but with the least mission effect. [21] Skin disorders expected in space flight are xerosis; risk of bacterial colonization; lowered resistance to viral and fungal infections; reduced cell mediated immunity; risk of malignancy from radiation exposure; impairment of wound healing; skin irritation due to fiberglass, skin infection, contact dermatitis and rash. [22]

Skin disorders reported in the literature are rash, contact dermatitis, boils, irritation from fiberglass, Tinea pedis by T mentagrophytes, Tinea cruris by T rubrum, extensive fissuring of fingertips, and primary irritant contact dermatitis to chest electrodes. [23]

Other concerns during space flight are resistance to antibiotics in flight; restrictions on powder form of drugs owing to pulmonary toxicity; restriction of alcohol/gel vehicles as they are flammable; special facilities for staining biopsies/culture; irritant/allergic potential of clothing fabric; shed hair and skin which are inhaled or clog vents; and showering vs. use of moist pads for personal hygiene. [24]

  Space Tourism Top

On 30 April 2001, 60-year-old Dennis Tito and on 18 September 2006 Anousheh Ansari made history as the first male and first female space tourists respectively. Costing approximately $20 million, their sojourn aboard Russian Soyuz rockets to the International Space Station and back, heralded the era of space tourism. The effects of microgravity, limited medicare capabilities and emergency ground egress add to the stresses of space flight. The duration of space flight, type of flight and cabin physiology may influence these effects. Hence, certain flights lend themselves to disqualification of a potential passenger for commercial space travel from a dermatological standpoint. Low earth orbit flights, defined as those with orbits extending 160-2,000 km from the earth's surface, are prohibited to those with 'Severe skin disease, e.g. psoriasis, chronic pruritus, skin tumors that may interfere with use of life support equipment'. [25] Sub-orbital flights, defined as those in which the spacecraft reaches space, but its trajectory intersects the atmosphere or surface of the gravitating body from which it was launched and reaches an altitude just higher than 100 km above sea level, are prohibited to those with 'Communicable diseases'. [26]

  Conclusion Top

As men and women scale newer heights in aviation careers and space exploration, the array of interaction between the cutaneous integument and the aerospace environment is gradually unfolding itself. With technology preparing mankind for interplanetary travels in the not so distant future, this interface is still uncharted. Space may well be the final frontier, but the arena is still young and interaction between dermatology and the aerospace environment can only be ignored at our peril.

  References Top

1.James WD. Dermatology. In: Zajtchuk R, editor. Military Dermatology. Medical Department, US Army, Office of the Surgeon General. Virginia: Borden Institute; 1994.  Back to cited text no. 1
2.Vidmar DA, Harford RR, Beasley WJ, Revels J, Thornton SA, Kao TC. The epidemiology of dermatologic and venereologic disease in a deployed operational setting. Mil Med 1996;161:382-6.  Back to cited text no. 2
3.Gee MR. Dermatological disease: Twenty two year experience at the USAF aeromedical consultation service and review of other military and civilian experiences. Aviat Space Environ Med 2000;71:230-7.  Back to cited text no. 3
4.Winder C, Balouet JC. The toxicity of commercial jet oils. Environ Res 2002;89:146-64.  Back to cited text no. 4
5.Leggat PA, Smith DR. Dermatitis and aircrew. Contact Dermatitis 2006;54:1-4.  Back to cited text no. 5
6.Malik AK, Chakraborty N, Gupta JK. Allergy to oxygen mask. Indian J Aero Med 1990;34:66-7.  Back to cited text no. 6
7.Parmet AJ, Hicks AM. Cases from the aerospace medicine residents′ teaching file. Case #60. A Gulf War veteran and aviator with an occupational dermatitis. Aviat Space Environ Med 1994;65:671-3.   Back to cited text no. 7
8.Pukkala E, Auvinen A, Wahlberg G. Incidence of cancer among Finnish airline cabin attendants, 1967-92. BMJ 1995;311:649-52.  Back to cited text no. 8
9.Haldorsen T, Reitan JB, Tveten U. Cancer incidence among Norwegian airline cabin attendants. Int J Epidemiol 2001;30:825-30.  Back to cited text no. 9
10.Rafnsson V, Tulinius H, Jónasson JG, Hrafnkelsson J. Risk of breast cancer in female flight attendants: A population-based study (Iceland). Cancer Causes Control 2001;12:95-101.  Back to cited text no. 10
11.Pukalla E, Aspholm R, Auvinen A, Eliasch H, Gundestrup M, Haldorsen T, et al. Incidence of cancer among Nordic airline pilots over five decades: Occupational cohort study. BMJ 2002;325:567.  Back to cited text no. 11
12.Ballard T, Lagorio S, De Angelis G, Verdecchia A. Cancer incidence and mortality among flight personnel: A meta analysis. Aviat Space Environ Med 2000;71:216-24.  Back to cited text no. 12
13.Bagshaw M, Cucinotta FA. Cosmic radiation. In: Davis JR, Johnson R, Stepanek J, Fogarty JA, editors. Fundamentals of aerospace medicine. 4 th ed. Philadelphia: Lippincott Williams and Wilkins; 2008. p. 221-35.  Back to cited text no. 13
14.Murthy PS, Kar PK, Grover S, Rajagopal R. Polymorphous light eruption in ground crew. Indian J Aero Med 2006;50:39-43.  Back to cited text no. 14
15.US Navy Aeromedical Reference and Waiver Guide. 4 th ed. Dermatology: Naval Aerospace Medical Institute; 2009. Available from [last accessed on 2011 Apr 12].   Back to cited text no. 15
16.Manual of Civil Aviation Medicine. Joint Aviation Authorities, Colorado, USA; Chapter 16: Dermatology: Para 1-22; 2006. Available from [last accessed on 2011 Apr 12].  Back to cited text no. 16
17.Benedetto AV. Space Dermatology Foundation-5 th Annual Seminar ′Skin in Space′. Int J Dermatol 1993;32:148-9.  Back to cited text no. 17
18.Berlin AA. Development of a regimen of sanitary-hygienic procedures (ie a washing regimen). Kosm Biol Aviakosm Med 1989;23:21-6.  Back to cited text no. 18
19.Bechler B, Cogoli A, Mesland D. Lymphocytes in spaceflight. Naturwissenschaften 1986;73:400-3.  Back to cited text no. 19
20.Merz B. The body pays a penalty for defying the laws of gravity. JAMA 1986;256:2040-3, 2052.  Back to cited text no. 20
21.Billica RD, Simmons SC, Mathes KL, McKinley BA, Chuang CC, Wear ML, et al. Perception of the medical risk of spaceflight. Aviat Space Environ Med 1996;67:467-73.  Back to cited text no. 21
22.Fowler JF Jr. Dermatology in space: The final frontier. Adv Dermatol 1991;6:73-81.  Back to cited text no. 22
23.Toback AC, Kohn SR. Manifesto of space medicine: The next dermatologic frontier. J Am Acad Dermatol 1989;20:489-95.  Back to cited text no. 23
24.Toback AC. Space Dermatology: A speciality in evolution. Cutis 1991;48:283-7.  Back to cited text no. 24
25.Aerospace Medical Association Task Force on Space Travel. Medical guidelines for space passengers. Aerospace Medical Association Task Force on Space Travel. Aviat Space Environ Med 2001;72:948-50.  Back to cited text no. 25
26.Rayman RB, Antuñano MJ, Garber MA, Hastings JD, Illing PA, Jordan JL, et al. Medical guidelines for space passengers-II. Aviat Space Environ Med 2002;73:1132-4.  Back to cited text no. 26

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