Results 191 to 200 of about 2,084 (248)
Advanced Science, EarlyView.Five‐coordinate, square‐pyramidal Fe(II) complexes adopting polar, non‐centrosymmetric crystal structures exhibit exceptionally large easy‐axis magnetic anisotropy. Ligand‐driven distortions critically control the anisotropy, and the dielectric, Polarization vs Elecric field and piezo response studies confirm intrinsic polarization, positioning these ...
Vijaya Thangaraj +6 more
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Advanced Science, EarlyView.An exogenous reagent‐free dual‐substrate strategy harnesses phenol as an intrinsic electron donor to drive synchronous phenol degradation and Cr(VI) reduction over modified carbon nitride. π–π stacking and hydrogen bonding direct electron transfer to the catalyst, enriching photogenerated electrons and accelerating Cr(VI) reduction 6.4‐fold. This waste‐
Xiaoman Zhang +9 more
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Advanced Science, EarlyView.A senolytic sonovaccine platform (SenoVac) is developed, in which senescent cell‐derived vesicles serve as broad senescent cell antigen reservior. The “2‐step” click chemistry strategy for effective lymph node delivery, and ultrasound‐triggered endosomal escape to boost cross‐presentation, ensures efficient senescent cell clearance and disease ...
Liang Zhang +10 more
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Clinics in Plastic Surgery, 1986
Electrical injury is unlike other burns because of extensive local destruction of tissue at the points of entrance and exit. Artz likened it to a severe muscle crush injury, whereas Hunt showed that the deep-tissue loss is secondary to extremely high temperatures from resistance of the tissues (skin and bone) to the passage of electric current ...
Jeffrey R. Saffle +2 more
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Electrical injury is unlike other burns because of extensive local destruction of tissue at the points of entrance and exit. Artz likened it to a severe muscle crush injury, whereas Hunt showed that the deep-tissue loss is secondary to extremely high temperatures from resistance of the tissues (skin and bone) to the passage of electric current ...
Jeffrey R. Saffle +2 more
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Bracelet burn—An unusual electric burn
Hand, 1976A car mechanic sustained a deep partial thickness burn of the wrist when his metal watch strap short circuited the battery of a car upon which he was working.
B K, Fisher, I, Dvoretzky
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Clinics in Plastic Surgery, 2000
Electrical burns can be divided into flash or typical thermal injury and high-tension injury. The latter is usually caused by greater than 1000 volts and produces a clinically characteristic entry and exit wound. The optimal management of patients with high-tension electrical injury has evolved into a plan of urgent exploration and debridement ...
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Electrical burns can be divided into flash or typical thermal injury and high-tension injury. The latter is usually caused by greater than 1000 volts and produces a clinically characteristic entry and exit wound. The optimal management of patients with high-tension electrical injury has evolved into a plan of urgent exploration and debridement ...
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MANAGEMENT OF ELECTRICAL BURNS
Archives of Surgery, 1954IN SPITE of the voluminous literature on thermal burns published during the last 10 years, surprisingly little has been recorded on electrical burns. It is accepted that the incidence of electrical burns is low, considering that we today live in a veritable maze of electric wiring.
C W, McLAUGHLIN, J D, COE
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Seminars in Neurology, 1995
Electric current can damage an individual by thermal heating of the tissues; by disregulating autonomously functioning organ systems, such as the circulatory and respiratory systems; or by once-only or continuing stimulation of the nerves and striated muscles.
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Electric current can damage an individual by thermal heating of the tissues; by disregulating autonomously functioning organ systems, such as the circulatory and respiratory systems; or by once-only or continuing stimulation of the nerves and striated muscles.
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Scandinavian Journal of Plastic and Reconstructive Surgery, 1968
Electrical burns make up only 2% of all burn injuries in Denmark. In the course of about 6 years 31 patients with electrical hand burns have been admitted to the Burns Unit, Kommunehospitalet, Copenhagen. The causes are reviewed. Three of the injuries were caused by high-tension current (> 1000 volts), the remaining 28 by 220 or 380 v.
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Electrical burns make up only 2% of all burn injuries in Denmark. In the course of about 6 years 31 patients with electrical hand burns have been admitted to the Burns Unit, Kommunehospitalet, Copenhagen. The causes are reviewed. Three of the injuries were caused by high-tension current (> 1000 volts), the remaining 28 by 220 or 380 v.
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Accident and Emergency Nursing, 1999
This article examines electrical burn injuries, how they occur and the nature of the injuries caused when people come into contact with electrical currents. The aetiology of tissue damage is discussed along with the pathophysiology of such encounters. The management of patients presenting with such injuries is explored including the vital role of the ...
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This article examines electrical burn injuries, how they occur and the nature of the injuries caused when people come into contact with electrical currents. The aetiology of tissue damage is discussed along with the pathophysiology of such encounters. The management of patients presenting with such injuries is explored including the vital role of the ...
openaire +2 more sources