Five thousand years of minimal access surgery: 1850 to 1990: Technological developments.

This is the second of a three-part series that charts the history of minimal access surgery from antiquity to current times. Although rapid developments in laparoscopic and robotic surgery have transformed surgical care over the last 30 years, our predecessors made significant advances in their time which set the principles for modern practice. Part I of this series described how ancient medical practitioners developed simple instruments, from metal or wood, for viewing body cavities. Improvements in the use of metal, glass and lighting allowed for inspection of deeper parts of the body. This second part of the series will show how advances in electrical technology allowed the development of improved lighting for endoscopy and laparoscopy along with the use of electrocautery for a wide range of therapeutic procedures.

Radiofrequency surgery: 3500 years old and still young.

PURPOSE: To review the history of Radiofrequency surgery, delineate the actual situation and describe the applications in eyelid surgery. DESIGN: Review. METHODS: Review of literature, personal communication with several pioneers in the field, and own experience. CONCLUSION: Radiofrequency surgery has evolved from rude burning to a sophisticated surgical technique.

The SAGES Fundamental Use of Surgical Energy program (FUSE): history, development, and purpose.

BACKGROUND: Adverse events due to energy device use in surgical operating rooms are a daily occurrence. These occur at a rate of approximately 1-2 per 1000 operations. Hundreds of operating room fires occur each year in the United States, some causing severe injury and even mortality. The Society of American Gastrointestinal and Endoscopic Surgeons (SAGES) therefore created the first comprehensive educational curriculum on the safe use of surgical energy devices, called Fundamental Use of Surgical Energy (FUSE). This paper describes the history, development, and purpose of this important training program for all members of the operating room team. METHODS: The databases of SAGES and the FUSE committee as well as personal photographs and documents of members of the FUSE task force were used to establish a brief history of the FUSE program from its inception to its current status. RESULTS: The authors were able to detail all aspects of the history, development, and national as well as global implementation of the third SAGES Fundamentals Program FUSE. CONCLUSIONS: The written documentation of the making of FUSE is an important contribution to the history and mission of SAGES and allows the reader to understand the idea, concept, realization, and implementation of the only free online educational tool for physicians on energy devices available today. FUSE is the culmination of the SAGES efforts to recognize gaps in patient safety and develop state-of-the-art educational programs to address those gaps. It is the goal of the FUSE task force to ensure that general FUSE implementation becomes multinational, involving as many countries as possible.

History of power sources in endoscopic surgery.

The history of energy sources used in surgery is inextricably linked to the history of electricity. Milestones include identification of safe electrical waveforms that can be used in the human body, patient isolation to prevent alternate-site burns, bipolar energy sources to negate capacitance injuries, laser energy, and the combination vessel sealing devices commonly used today. Engineering efforts to eliminate many of the hazards of electrosurgery are critical to how we practice modern gynecologic surgery. The introduction of bipolar instruments, increasing the safety of monopolar electrosurgery by not using hybrid trocars, and introduction of active shielding of the instruments from stray radiofrequency energy using intelligent secondary conductors have led to the re-emergence of electrosurgery as the universal surgical energy source. The low ongoing costs and the presence of electrosurgical generators in all hospitals readily enables electrosurgery to be the mainstay. Expensive lasers are confined to specialized centers, where they continue to be used, but for a long while filled a gap created by complications of electrosurgery. Sophisticated power sources continue to be introduced and include the ultrasonic scalpel, plasma surgery, and various devices for sealing vessels, all of which have advantages and disadvantages that are recognized as they begin to be subjected to scientific validation in randomized trials.

Surgical complications specific to monopolar electrosurgical energy: engineering changes that have made electrosurgery safer.

Monopolar electrosurgical energy is the most commonly used energy source during laparotomic and laparoscopic surgery. The clinical application of monopolar energy is not without risk. Monopolar electrosurgical energy was introduced into surgical practice at the turn of the 20th century. Alternate site burns during laparotomic application were the most common complication for the first half century (i.e., ground point burns and dispersive electrode burns [1920-1970]). The aims of this article were to discuss historic design flaws associated with the most common alternate site burns, ground point burns, and dispersive electrode burns and the technological advancements introduced to mitigate these risks to the patient and to discuss current design flaws associated with stray energy burns during laparoscopy because of insulation failure and capacitive coupling and the technological advancements introduced to eliminate these risks to the patient. Today, insulation failure and capacitive coupling are the most common reasons for electrosurgical injury during laparocopic procedures. There is a need for advanced technology such as active electrode monitoring to address these invisible risks to the surgeon and their patients. In addition, the laparoscopic surgeon should be encouraged to study the basic biophysics involved in electrosurgery.

The life and legacy of William T. Bovie.

This Historian's Address, presented at the North Pacific Surgical Association 2012 meeting, held in Spokane, Washington, on November 9, 2012, briefly reviews the life and surgical contributions of the inventor William T. Bovie and his collaboration with Dr Harvey Cushing, which led to the widespread acceptance of surgical electrocautery for dissection and hemostasis.

O controle do câncer no Brasil na primeira metade do século XX / Cancer control in Brasil in the first half of the twentieth century

Discute as ações públicas para o controle do câncer no país, entre a década de 1920 e o final dos anos 1940. Trata da criação da Inspetoria de Profilaxia da Lepra e das Doenças Venéreas, no âmbito do Departamento Nacional de Saúde Pública, primeira ação pública relacionada à doença. Embora de pouco alcance, seu surgimento permite a compreensão do campo profissional, relacionado à doença, existente à época. Observa o papel da difusão da eletrocirurgia na ampliação do interesse médico pelo câncer e na criação do Centro de Cancerologia do Distrito Federal. Discute a criação e a primeira década de atuação do Serviço Nacional de Câncer, aproximando seu perfil inicial das questões que nortearam sua trajetória.(AU)

O controle do câncer no Brasil na primeira metade do século XX / Cancer control in Brazil in the first half of the twentieth century

Discute as ações públicas para o controle do câncer no país, entre a década de 1920 e o final dos anos 1940. Trata da criação da Inspetoria de Profilaxia da Lepra e das Doenças Venéreas, no âmbito do Departamento Nacional de Saúde Pública, primeira ação pública relacionada à doença. Embora de pouco alcance, seu surgimento permite a compreensão do campo profissional, relacionado à doença, existente à época. Observa o papel da difusão da eletrocirurgia na ampliação do interesse médico pelo câncer e na criação do Centro de Cancerologia do Distrito Federal. Discute a criação e a primeira década de atuação do Serviço Nacional de Câncer, aproximando seu perfil inicial das questões que nortearam sua trajetória.

The article discusses public efforts to control cancer in Brazil from the 1920s to the close of the 1940s. It examines the process which brought about creation of the Inspectorship to Combat Leprosy, Venereal Diseases, and Cancer within the National Department of Public Health. Creation of the Inspectorship was the first public action to target cancer and, while it was not far-reaching, its emergence enables us to understand the professional field of cancer at that time. The text also points to the role played by the diffusion of electrosurgery in expanding medical interest about cancer and in the founding of the Cancerology Center in the Federal District. It discusses the establishment and first decade of activities of the National Cancer Service, endeavoring to link the Service's initial profile with the issues that guided its history.

[Electrosurgery, the cornerstone of current achievements of brain tumor surgery--on the occasion of 80th anniversary]. / Elektrokirurgija, temelj suvremenih dosega operacija tumora mozga--prigodom 80. Obljetnice.

Neurosurgical pioneers had so many obstacles that prevented safe work and favorable outcome of the patients operated on. The mortality rate was high and discouraging. The operations were fast and rude whereafter the patients were dying or suffered prolonged hemorrhagic shock. The three cornerstones of neurosurgery, i. e. cerebral localization, asepsis and narcosis, had not yet been discovered and the only diagnostic tools available were recently discovered x-rays, ventriculography and angiography. However, the greatest challenge for the neurosurgeon was that even if luckily localized through a craniotomy, how to remove the brain tumor while avoiding uncontrollable bleeding. Therefore, an array of techniques and tricks were developed such as bone wax, Cushing silver clips, packing of the wound, etc. but all of them were insufficient in case of intracerebral hemostasis. Electrosurgery revolutionized this unacceptable situation thoroughly. It was introduced in neurosurgery 80 years ago (on October 1, 1926) by great Cushing, whereupon its usage has spread rapidly worldwide. The mortality rate was lowered to 13%! The coagulator was constructed by Harvard's physicist Bovie, after whom is named. Owing to the new technique, the control of bleeding in neurosurgery has become much safer, craniotomies are larger than before and the operation time is esentially longer. Since the perfection of bipolar coagulation (by Greenwood and Malis brothers), and after the introduction of the operating microscope (Donaghy, Krayenbühl, Yasargil) in 1970, this half of a century-long monopolar era was over, and the new time of microneurosurgery has begun. It enables better, easier and more precise hemostasis of the magnified brain blood vessels (microscope).

[Electrosurgical concepts in ENT medicine. History, fundamentals and practice]. / Elektrochirurgische Konzepte in der HNO-Heilkunde. Geschichte, Grundlagen und Praxis.

The beneficial use of heat in the context of medical treatments was documented even in ancient times. The development of high-frequency alternating current generators led to actual electrosurgery, in which primary heating of the tissue takes place. In day-to-day clinical practice electrosurgery is used for coagulation and for electrotomies. There are both unipolar and bipolar techniques for these procedures. When a unipolar technique is used the active electrode is in the tip of the instrument and the patient plate is usually affixed to the patient's skin at a site outside the operating field. The bipolar technique differs in that there are no electrodes that need to be attached externally; both poles are contained inside the operating instrument, e.g. in the two prongs of a forceps. In radiofrequency surgery high-frequency electrical energy is applied directly into the tissue by a unipolar or bipolar technique. In this way it is possible to cause interstitial tissue lesions while sparing the superficial mucous membranes.

Understanding submucosal electrosurgery for the treatment of nasal turbinate enlargement.

The surgical management of inferior turbinate enlargement is controversial. Submucosal electrosurgical techniques for turbinate reduction include conventional diathermy, radiofrequency tissue reduction and coblation. All electrosurgical techniques use radiofrequency electricity to damage turbinate tissue but differ in the control and delivery of energy. This review will examine the history of submucosal electrosurgery and clarify the various techniques. This review will also examine the evidence for the efficacy and safety of electrosurgery for the treatment of nasal turbinate enlargement, and will make a case that no progress will be made in clinical trials on the safety and efficacy unless there is standardisation of equipment and techniques in nasal electrosurgery.

Electrosurgery and bipolar technology.

A major concern in surgery is the prevention or control of bleeding. The ligature and the clip are the hallmarks of the last century of modern surgery. Therapeutic embolization is not really used to stop hemorrhage but to treat aneurysms and so prevent future rupture and bleeding. Blood clotting within the network of coils of the now widely used Guglielmi detachable coils is now progressively becoming the method of choice whenever possible in aneurysm treatment. Simple external compression at a pressure higher than the intravascular pressure can control bleeding, and if continued long enough, may cause clotting in the bleeding vessels. Unfortunately, there are few areas in the central nervous system where such pressure can be applied, although it is a considerable help in opening muscle layers where self-retaining retractors will be used. Low-pressure venous bleeding may be controlled by application of gelfoam, surgically, or a bit of crushed muscle supported temporarily by a wet cottonoid pledget without occlusion of the venous channel. Historically, hot actual cautery or boiling oil were used to achieve hemostasis by forming a large tissue coagulum, which usually prevented bleeding until the entire dead mass sloughed away.

The evolution of Harvey Cushing's surgical approach to pituitary tumors from transsphenoidal to transfrontal.

The evolution of transsphenoidal surgery represents a special chapter in the progress of neurosurgery. Although Cushing initially advocated a transsphenoidal approach to pituitary tumors, he became disenchanted with this approach, ultimately favoring the subfrontal or "transfrontal" route late in his career. Other neurosurgeons followed Cushing's example, and the fate of transsphenoidal surgery entered a dark era in 1929. A review of Cushing's patients' records reveals that his abandonment of the transsphenoidal route was primarily related to the limitations of this approach in providing effective resection of large pituitary lesions-the symptomatic tumor recurrence rate after this procedure was substantial. Furthermore, given the preoperative uncertainty about the suprasellar extension of pituitary tumors prior to modern neuroimaging, the transfrontal route assured Cushing an adequate decompression of the optic chiasm. By 1927, Cushing's mastery of intracranial surgery was accompanied by the use of electrosurgical methods that enabled him to remove sellar lesions through the transfrontal route safely and with timely and effective restoration of visual loss. Transsphenoidal surgery remained relatively dormant, awaiting the efforts and enthusiasm of Norman Dott who bridged the gap between Cushing and Gerard Guiot, the surgeon who revitalized transsphenoidal adenomectomy for future generations of pituitary surgeons.

Battling blood loss in neurosurgery: Harvey Cushing's embrace of electrosurgery.

For his pioneering spirit, definitive work, and unparalleled devotion to conquering neurosurgery's toughest obstacles, Harvey Williams Cushing inarguably has earned the title, "The Father of Neurosurgery." His revolutionary incorporation of electrosurgical techniques in neurosurgery was not exceptional, but part of a pattern of recognizing, embracing, and establishing the use of medical technologies with great potential. Until 1910, Cushing had systematically reduced neurosurgery's primary complications--infection and the effects of intracranial pressure--to decrease mortality rates. Hemostasis had always been a concern of William Halsted's surgical protégé, but only after 1910 could Cushing primarily focus on it. In fact, Cushing's crucial collaboration with William T. Bovie and his electrosurgical apparatus conquered this major obstacle in 1926. The nature of their collaboration--two experts in their respective fields who were passionate about their work, working side by side in the operating room--resulted in progress that surpassed all predecessors in the field. Cushing never did learn the physics behind one of the most important advances of his career. Nonetheless, he did know that by greatly reducing blood loss, electrosurgery allowed him to operate in patients whose tumors had been previously deemed inoperable and on the entire spectrum of neurosurgical patients more safely.

Effect of hemostasis and electrosurgery on the development and evolution of brain tumor surgery in the late 19th and early 20th centuries.

Hemostatic options available to the surgeon in the late 19th and early 20th centuries were limited. The surgical ligature was limited in value to the neurological surgeon because of the unique structural composition of brain tissue as well as the approaches and operating angles used in this type of surgery. In this manuscript the authors review the options available and the evolution of surgical hemostatic techniques and electrosurgery in the late 19th and early 20th centuries and the impact of these methods on the surgical management of tumors of the brain and its coverings.