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2.
Wilderness Environ Med ; 31(1): 82-86, 2020 Mar.
Article in English | MEDLINE | ID: mdl-32008950

ABSTRACT

Treating skin disorders in wilderness settings is often challenging. In this report we describe common skin conditions affecting the feet of river runners on the Colorado River in Grand Canyon National Park. These conditions are frequently referred to by river runners with a catchall term, "tolio." Several skin disorders have been identified as components of tolio, with the most prevalent currently being pitted keratolysis. We present a case of pitted keratolysis in a river guide occurring during a multiday river trip, where treatment can be difficult. Prevention is often more important.


Subject(s)
Athletic Injuries/diagnosis , Athletic Injuries/therapy , Foot Rot/diagnosis , Foot Rot/therapy , Immersion Foot/therapy , Water Sports , Animals , Arizona , Athletic Injuries/etiology , Foot Rot/etiology , Humans , Immersion Foot/diagnosis , Immersion Foot/etiology , Male , Middle Aged , Treatment Outcome
3.
Clin Exp Dermatol ; 45(1): 10-14, 2020 Jan.
Article in English | MEDLINE | ID: mdl-31309614

ABSTRACT

From the French Invasion of Russia in 1812, to Glastonbury festival in 2007, trench foot has been reported, yet the exact nature of the condition remains unclear. This review explores the pathogenesis and treatment of trench foot. Trench foot is considered to be a nonfreezing cold injury often complicated by infection, in which exposure to cold temperatures just above freezing, combined with moisture, results in a peripheral vasoneuropathy. The presence of physical trauma, bacterial or fungal infections, malnutrition, venous hypertension and lymphoedema mean that some individuals are at greater risk of trench foot. Trench foot may be prevented by warming the feet, changing socks, staying active, rubbing the skin with oil and regularly inspecting the feet. Avoiding risk factors may help prevent the condition. The management of trench foot is less clear. Vasodilators such as iloprost and nicotinyl tartrate or sympathectomy may help. Trench foot may lead to necrosis, cellulitis, sepsis and amputation. It remains a poorly understood condition.


Subject(s)
Cold Temperature/adverse effects , Immersion Foot , Vasodilator Agents/therapeutic use , Cellulitis/etiology , Foot/pathology , Humans , Immersion Foot/etiology , Immersion Foot/prevention & control , Immersion Foot/therapy , Risk Factors , Water/adverse effects
4.
Am J Clin Dermatol ; 16(5): 399-424, 2015 Oct.
Article in English | MEDLINE | ID: mdl-26159354

ABSTRACT

Meteorological data show that disastrous floods are increasingly frequent and more severe in recent years, perhaps due to climatic changes such as global warming. During and after a flood disaster, traumatic injuries, communicable diseases, chemical exposures, malnutrition, decreased access to care, and even mental health disorders dramatically increase, and many of these have dermatological manifestations. Numerous case reports document typical and atypical cutaneous infections, percutaneous trauma, immersion injuries, noninfectious contact exposures, exposure to wildlife, and exacerbation of underlying skin diseases after such disasters as the 2004 Asian tsunami, Hurricane Katrina in 2005, and the 2010 Pakistan floods. This review attempts to provide a basic field manual of sorts to providers who are engaged in care after a flooding event, with particular focus on the infectious consequences. Bacterial pathogens such as Staphylococcus and Streptococcus are still common causes of skin infections after floods, with atypical bacteria also greatly increased. Vibrio vulnificus is classically associated with exposure to saltwater or brackish water. It may present as necrotizing fasciitis with hemorrhagic bullae, and treatment consists of doxycycline or a quinolone, plus a third-generation cephalosporin and surgical debridement. Atypical mycobacterial infections typically produce indolent cutaneous infections, possibly showing sporotrichoid spread. A unique nontuberculous infection called spam has recently been identified in Satowan Pacific Islanders; combination antibiotic therapy is recommended. Aeromonas infection is typically associated with freshwater exposure and, like Vibrio infections, immunocompromised or cirrhotic patients are at highest risk for severe disease, such as necrotizing fasciitis and sepsis. Various antibiotics can be used to treat Aeromonas infections. Melioidosis is seen mainly in Southeast Asia and Australia, particularly in rice farmers, and can remain latent for many years before presenting as the host's immunocompetence wanes. It can present with a variety of skin findings or as a nonspecific febrile illness, and preferred treatment consists of ceftazidime or a carbapenem with trimethoprim/sulfamethoxazole (TMP/SMX) for 2 weeks, then continuing TMP/SMX for at least 3 months. Leptospirosis is a waterborne zoonosis that is often prevalent after heavy rains or flooding. Different forms exist, including Fort Bragg fever, which produces a distinctive erythematous papular rash on the shins. Doxycycline is often sufficient; however, volume and potassium repletion may be necessary if renal involvement exists. Chromobacterium violaceum infection may occur after open skin is exposed to stagnant or muddy water. Cultured colonies produce a unique violacein pigment, and treatment typically consists of a carbapenem. Both typical and atypical fungal infections are increased in the flooding disaster scenario, such as dermatophytosis, chromoblastomycosis, blastomycosis, and mucormycosis. Appropriate antifungals should be used. In addition, land inundated with water expands the habitat for parasites and/or vectors, thus increased vigilance for regional parasitic infections is necessary after a flood. Lastly, noninfectious consequences of a flooding disaster are also common and include miliaria, immersion foot syndromes, irritant and allergic contact dermatitis, traumatic wounds and animal bites, and arthropod assault, as well as exacerbation of existing skin conditions such as atopic dermatitis, psoriasis, and alopecia areata due to increased stress or nonavailability of daily medications.


Subject(s)
Dermatomycoses/diagnosis , Dermatomycoses/therapy , Floods , Skin Diseases, Bacterial/diagnosis , Skin Diseases, Bacterial/therapy , Wounds and Injuries , Dermatitis, Contact/etiology , Dermatitis, Contact/therapy , Dermatomycoses/microbiology , Fresh Water , Humans , Immersion Foot/etiology , Immersion Foot/therapy , Miliaria/etiology , Miliaria/therapy , Seawater , Skin Diseases, Bacterial/microbiology , Skin Diseases, Parasitic/diagnosis , Skin Diseases, Parasitic/parasitology , Wounds and Injuries/etiology , Wounds and Injuries/therapy
6.
Trop Doct ; 44(2): 119-21, 2014 Apr.
Article in English | MEDLINE | ID: mdl-24448485

ABSTRACT

Trench foot is a relatively rare condition in tropical countries. We present here a case report of trench foot in a child who was put on hip spica for her hip ailment. Although rare, awareness on the part of the clinician can prevent this potentially serious condition and early diagnosis and treatment can prevent further consequences.


Subject(s)
Frostbite , Immersion Foot/etiology , Child , Cold Temperature , Compartment Syndromes , Diagnosis, Differential , Female , Frostbite/physiopathology , Frostbite/therapy , Gangrene/diagnosis , Hot Temperature , Humans , Immersion Foot/therapy , Treatment Outcome
8.
Curr Sports Med Rep ; 11(3): 135-41, 2012.
Article in English | MEDLINE | ID: mdl-22580491

ABSTRACT

Exercise in cold environments exerts a unique physiologic stress on the human body, which, under certain conditions, may result in a cold-related injury. Environmental factors are the most important risk factors for the development of hypothermia in athletes. Frostbite occurs as a result of direct cold injury to peripheral tissues. The biggest risk for frostbite is temperature. Trench foot is a result of repeated and constant immersion in cold water. Chilblains are local erythematous or cyanotic skin lesions that develop at ambient air temperatures of 32°F to 60°F after an exposure time of about 1 to 5 h. Cold urticaria is, essentially, an allergic reaction to a cold exposure and can be controlled with avoidance of the cold. There are a number of risk factors and conditions that predispose athletes to cold injury, but exercise in the cold can be done safely with proper education and planning.


Subject(s)
Body Temperature/physiology , Cold Temperature/adverse effects , Wounds and Injuries/etiology , Wounds and Injuries/prevention & control , Frostbite/etiology , Frostbite/therapy , Humans , Hypothermia/etiology , Hypothermia/therapy , Immersion Foot/etiology , Immersion Foot/therapy , Raynaud Disease/etiology , Raynaud Disease/therapy , Urticaria/etiology
9.
Wilderness Environ Med ; 17(4): 282-9, 2006.
Article in English | MEDLINE | ID: mdl-17219792

ABSTRACT

The approaching 90-year anniversary of United States entry into the Great War is an apt time to examine the response to trench foot (now called nonfreezing cold injury [NFCI]) in this conflict. Trench foot appeared in the winter of 1914, characterized by pedal swelling, numbness, and pain. It was quickly recognized by military-medical authorities. There was little debate over whether it was frostbite or new condition, and it was quickly accepted as a specific disease. The major etiologies proposed were exposure, diet, and infection. The opinion emerged that it was caused by circulatory changes in the foot caused by cold, wet, and pressure. Predisposing factors included dietary inadequacy and fatigue. A number of labels were first given to the disease. However, the name "trench foot" was eventually officially sanctioned. Trench foot became a serious problem for the Allies, leading to 75 000 casualties in the British and 2000 in the American forces. Therapy for trench foot involved a number of conventional, tried-and-tested, and conservative methods. Some more innovative techniques were used. Amputation was only used as a last resort. Prevention involved general measures to improve the trench environment; modification of the footwear worn by the men; and the provision of greases to protect them from moisture. The medical reaction to this condition seems to have been relatively effective. The causation was identified, and prophylactic measures were introduced to fit this model; these seem to have been successful in reducing the prevalence of the condition by 1917-18.


Subject(s)
Immersion Foot/history , Military Medicine/history , World War I , Europe , History, 20th Century , Humans , Immersion Foot/etiology , Immersion Foot/prevention & control
10.
Age Ageing ; 34(6): 651-2, 2005 Nov.
Article in English | MEDLINE | ID: mdl-16267198

ABSTRACT

Elderly patients commonly present to hospital following a collapse and period of distressing immobilisation on the floor. We present a case of bilateral trench foot in such a patient with no prior peripheral vascular disease. Examination of the feet is mandatory for early detection of this rare condition in the collapsed elderly patient.


Subject(s)
Accidental Falls , Immersion Foot/etiology , Aged , Amputation, Surgical , Fatal Outcome , Gangrene/etiology , Gangrene/surgery , Humans , Male , Toes/surgery
13.
Aviat Space Environ Med ; 70(2): 135-40, 1999 Feb.
Article in English | MEDLINE | ID: mdl-10206932

ABSTRACT

METHOD: A retrospective study was performed of 10 yr of medical records to determine the type, severity, etiological factors and treatment of cold injury experienced by members of the British Antarctic Survey between 1986-95. RESULTS: There were 61 new consultations for cold injury. These comprised 2.5% of all new consultations with an incidence of 65.6 per 1000 per year. Cold injuries seen were frostbite (95%), hypothermia (3%) and trench foot (2%). Superficial frostbite was the most common injury (74% of cases) with the face the most frequently affected area (47% of injuries). No cases of frostbite severe enough to cause permanent tissue loss were seen. The prevalence of cold injury increased with falling temperature to a maximum between -25 and -35 degrees C, despite these temperatures occurring infrequently. The relationship with windchill is not as clear cut with frequency of injury tending to follow the frequency of windchill values except at higher windchill values. Neither temperature nor windchill were found to significantly influence the severity of frostbite. Prior cold injury was shown to be significantly (chi2 p < 0.001) associated with further cold injury. Most injuries (78%) occurred during recreation; skiing and snowmobile driving were often implicated. CONCLUSIONS: Cold injury is uncommon in Antarctica. Despite this, it warrants a continued high profile as under most circumstances it may be regarded as an entirely preventable occurrence.


Subject(s)
Frostbite/epidemiology , Hypothermia/epidemiology , Immersion Foot/epidemiology , Antarctic Regions/epidemiology , Expeditions/statistics & numerical data , Frostbite/etiology , Humans , Hypothermia/etiology , Immersion Foot/etiology , Leisure Activities , Population Surveillance , Prevalence , Retrospective Studies , Risk Factors , Seasons , Severity of Illness Index , Temperature , Time Factors , Wind
14.
Ann R Coll Surg Engl ; 78(4): 372-9, 1996 Jul.
Article in English | MEDLINE | ID: mdl-8712655

ABSTRACT

Non-freezing cold injury (NFCI), so called trench foot, is a condition characterised by a peripheral neuropathy, developing when the extremities are exposed for prolonged periods to wet conditions at temperatures just above freezing. Classically, military personnel are affected, with 14% of casualties in the Falklands conflict afflicted. Clinically, NFCI is characterised by a well-defined acute clinical picture and chronic sequelae. Little is known regarding the pathophysiology and treatment of this condition. Opinions vary as to the type of nerve fibres most susceptible to damage and proposed mechanisms of injury include direct axonal damage, ischaemia and ischaemia/reperfusion. A series of investigations has been performed to clarify which populations of nerve fibres are more susceptible to damage, and to elucidate the exact mechanism of nerve injury. An in vivo rabbit hind limb model, subjected to 16 h of cold immersion (1-2 degrees C), provided the basis of this study. Nerve specimens were examined by semi-thin sectioning for myelin fibre counts, by electron microscopy to assess the unmyelinated fibre population, and fine nerve terminals in plantar skin were assessed immunohistochemically. The results showed that large myelinated fibres were preferentially damaged, while small myelinated and unmyelinated fibres were relatively spared. Nerve damage was found to start proximally and extend distally with time. Serial temperature measurements identified a warm-cold interface in the upper tibial region of immersed limbs. As this was the initial site of injury, this suggested that a dynamic balance exists in the cold immersed limb between the protective effects of cooling and the damaging effects of ischaemia. The non-invasive technique of near infrared spectroscopy was used to measure changes in tissue oxygen supply and utilisation and blood volume. The findings supported the hypothesis that an interface is created at the site of initial nerve damage in the upper tibia, where cyclical ischaemia-reperfusion injury occurs.


Subject(s)
Cold Temperature/adverse effects , Disease Models, Animal , Immersion Foot/etiology , Nerve Fibers , Animals , Hindlimb/innervation , Immersion Foot/pathology , Nerve Fibers, Myelinated , Peripheral Nervous System Diseases/etiology , Rabbits , Reperfusion Injury/complications , Temperature
16.
Injury ; 24(10): 680-1, 1993 Dec.
Article in English | MEDLINE | ID: mdl-7904594

ABSTRACT

A case of severe bilateral trench foot is presented in a patient who lived rough for 3 weeks without removing his boots. Non-operative management yielded no clinical improvement and bilateral below-knee amputation was necessary. Histology revealed subcutaneous and muscle necrosis with secondary arterial thrombosis.


Subject(s)
Amputation, Surgical , Immersion Foot/surgery , Adult , Ill-Housed Persons , Humans , Immersion Foot/etiology , Immersion Foot/pathology , Male , Weather
18.
Buenos Aires; Círculo Militar; 1992. 218 p. ilus, map, tab, graf.
Monography in Spanish | BINACIS | ID: biblio-1187980
19.
Buenos Aires; Círculo Militar; 1992. 218 p. ilus, mapas, tab, graf. (59714).
Monography in Spanish | BINACIS | ID: bin-59714
20.
West J Med ; 152(6): 729-33, 1990 Jun.
Article in English | MEDLINE | ID: mdl-1972307

ABSTRACT

Along the nearly 15,000 miles of trenches on the western front in the Great War of 1914-1918, a condition known as "trench foot" caused serious attrition among the fighting troops and resulted in swollen limbs, impaired sensory nerves, inflammation, and even loss of tissue through gangrene. Physicians, sanitarians, and military officers explored numerous theories regarding etiology and treatment before focusing on a combined regimen of common-sense hygiene and strict military discipline.


Subject(s)
Immersion Foot , Military Personnel , Warfare , Germany , History, 20th Century , Humans , Immersion Foot/etiology , Immersion Foot/physiopathology , Immersion Foot/prevention & control , Male , Military Medicine
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