Plaster: Our Orthopaedic Heritage

Plaster: Our Orthopaedic Heritage

Background Plaster has been used for centuries as a stiffening agent to treat fractures and other musculoskeletal conditions that require rest, immobilization, or correction of a deformity. Despite modern metallurgy and internal stabilization, plaster casts and splints remain an important means of e...

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Bibliographic Details
Published in:Journal of bone and joint surgery. American volume Vol. 94; no. 20; pp. e152(1) - e152(8)
Main Authors: DeMaio, Marlene, MD (CAPT MC, USN), Garland, Joshua, MD (LCDR MC, USN), McHale, Kathleen, MD (COL MC, USA [ret]), Lenhart, Martha, MD, PhD (COL MC, USA), McIlvaine, Christopher, Rhode, Michael, BA
Format: Journal Article
Language:English
Published: 2012
Subjects:
Orthopedics
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Summary:Background Plaster has been used for centuries as a stiffening agent to treat fractures and other musculoskeletal conditions that require rest, immobilization, or correction of a deformity. Despite modern metallurgy and internal stabilization, plaster casts and splints remain an important means of external stabilization. Casting is a dying art as modern internal and external fixation replace external immobilization. Proper casting technique is paramount. This manuscript outlines the history and chemistry of immobilization materials and techniques as well as the differences among them and the advantages and disadvantages of each. Methods Historical references, peer-reviewed journals, textbooks, and primary sources were reviewed to provide data for this review. Results The history of immobilization reveals a progressive development and refinement of materials that culminated in Mathijsen’s plaster bandage in 1851. In 1798, calcium sulfate (plaster of Paris) was introduced. By 1927, crinoline rolls dipped in plaster treated with binding agents facilitated application. Synthetic casting “tapes” (45% polyurethane resin and 55% fiberglass) were introduced in the 1970s. Splinting techniques are ancient, with development spurred by treatment of war wounds. Plaster relies on soft-tissue contact to maintain rigidity. There are well-known advantages, disadvantages, and complications of plaster management. Casting materials all create an exothermic reaction. Burns are associated with water temperatures of >24°C, more than eight layers (ply), and inadequate ventilation. The maximum water temperature must be lower with fiberglass casts. Plaster was the definitive management for most fractures for over 100 years until it was replaced by modern surgical techniques involving internal fixation in the latter part of the twentieth century. Conclusions Plaster casts and splints remain an important treatment method for acute and chronic orthopaedic conditions.
ISSN:0021-9355
DOI:10.1016/S0021-9355(12)70385-5