Norman Dott's contribution to aneurysm surgery

Norman Dott (1897-1973) and medical illustration: the importance of art to neurosurgery

Anatomical information and pathologies have been conveyed through the medium of medical illustrations for centuries. In the formative years of British neurosurgery, Professor Norman Dott (1897-1973) utilised medical illustrations as a means of documenting neurosurgical advances and conveying pathological-anatomical correlation. He commissioned a vast number of medical illustrations over the course of his career, ultimately producing a diverse collection of items, most of which is cared for by Lothian Health Services Archive (LHSA), Edinburgh, Scotland. In this study, the original material from Dott's personal collection was audited. Of 172 stand-alone drawings, 84 were categorised and analysed. The findings are a reflection of Dott's expertise as an academic and a surgeon. Spanning the years 1925-1968, a wide range of pathologies and procedures are depicted including intracranial aneurysms and their ligation, an area in which Dott was renowned for pioneering surgical advances. The collection stands as a testament to Dott's emphasis upon medical illustration to communicate the intricacies and complexities of his field, providing valuable insight into clinical and surgical practice in neurosurgery when the specialty was in its juvenescence. In order to illuminate the connections between biography and specialism that generated an extraordinary visual archive, this study considers the early life and work of Norman Dott and the influence of Harvey Cushing on Dott's prioritisation of visual documentation of surgical practice. It explores the impact of German-American medical artist Max Brödel on the UK, and especially on the artists employed by Dott, before presenting a short review of the medical illustrations they created.

Norman Dott: three vignettes on the making of a master neurosurgeon

Purpose: This historical perspective paper attempts to provide a unique picture of Norman Dott through three vignettes from periods of his life and career.Materials and methods: Archive materials relating to Norman Dott in the Lothian Health Service Archive and the University of Edinburgh's Centre for Research Collections, including letters, notes and speeches, were consulted and provide the principle sources supporting this paper. Additional materials including books and journal articles written by or about Dott were accessed while writing this paper.Results and conclusions: Norman Dott CBE FRCSE FRSE FRCSC (1897-1973) is now considered one of the most influential surgeons of his generation. During a 44-year career he was a pioneer of transsphenoidal pituitary surgery, craniopharyngioma surgery, intracranial aneurysm surgery and other neurosurgical topics. The historical vignettes explored in this paper illuminate certain aspects of Dott's life, career and character that had an important impact on his achievements in neurosurgery.

Historical Landmarks in the Management of Aneurysms and Arteriovenous Malformations of the Central Nervous System

OBJECTIVE

To describe the history of vascular and endovascular neurosurgery.

METHODS

A literature research was conducted including historical events from 2000 bc to the twenty-first century ad, and a timetable was filled with information regarding the most representative historical landmarks regarding vascular and endovascular neurosurgery.

RESULTS

Starting from approaches limited to the cervical carotid artery, vascular neurosurgery gained its way through the intracranial and finally endovascular space thanks to the introduction of both innovative and progressively less invasive procedures. With the invention of cerebral angiography in 1927, Egas Moniz paved the way for modern endovascular neurosurgery.

CONCLUSIONS

Numerous pioneers have been described through this historical reconstruction. Their genius, effort, dedication, and passion brought a massive contribution to vascular and endovascular neurosurgery as we know it today.

Cerebrovascular neurosurgery in evolution: the endovascular paradigm

Endovascular technique represents an important, minimally invasive approach to treating cerebrovascular disease. In this article, we discuss the origins of endovascular neurosurgery as a discipline in the context of important technical milestones, evidence-based medicine, and future cerebrovascular neurosurgical training. Cerebrovascular neurosurgery has seen a steady, convergent evolution toward the surgeon capable of seamless incorporation of open and endovascular approaches to any complex vascular disease affecting the central nervous system. Neurosurgery must assume the leadership role in the multidisciplinary neurovascular team.

Cardiac standstill and circulatory flow arrest in surgical treatment of intracranial aneurysms: a historical review

Since the first surgery for an intracranial aneurysm in 1931, neurological surgeons have long strived to determine the optimal methods of surgical correction. Significant challenges of aneurysm clipping include intraoperative rupture and complex dome morphology. Hypothermia, cardiopulmonary bypass, pharmacologically induced hypotension, and cardiac standstill are a few of the methodologies historically and currently employed in the management of these issues. In the 1980s, significant advances in pharmacology and anesthesiology led to the use of agents such as adenosine for chemically induced hypotension and eventually complete circulatory arrest. Since the institution of the use of these agents, the traditional methods of circulatory arrest under conditions of hypothermia and cardiopulmonary bypass have fallen out of favor. However, there still exists a subset of technically difficult aneurysms for which cardiac standstill, both chemical and hypothermic, remains a viable therapeutic option. In this paper, the authors describe the history of cardiac standstill by both hypothermic and chemically induced means as well as provide examples in which these techniques are still necessary.

Endovascular neurosurgery in Europe and in Italy: what is in the future?

BACKGROUND

The cerebrovascular discipline has undergone dramatic changes in recent years. This has been made possible by the work of pioneers in the fields of neurosurgery and neuroradiology.

METHODS

In this article we review the evolution and fundamental stages that led to the birth of endovascular treatment and discuss why, also in Europe, this treatment must be included in neurosurgery, encouraging the training of endovascular neurosurgeons who can collaborate with their interventional neuroradiology colleagues in order to form unbiased surgeons who understand the disease from both the endovascular as well as the surgical prospective. We examine how the new generation of European cerebrovascular specialists, including neurosurgeons, neuroradiologists, and some neurologists, will attain their requisite endovascular training. Finally, we briefly review the current state of endovascular neurosurgery in Europe and in Italy and speculate about what its role will be in the near and distant future.

CONCLUSIONS

To remain at the forefront of evaluating, caring for, and treating patients with cerebrovascular disease, vascular neurosurgery must evolve toward a specialty, mastering the knife as well as the catheter. We think it is time for European neurosurgeons to start training residents in endovascular neurosurgery in the same way we train neurosurgeons in every other neurosurgical discipline. • Peer-Review Report.

Surgical management of aneurysmal subarachnoid hemorrhage

Aneurysmal subarachnoid hemorrhage (aSAH) is a common and often devastating condition that requires prompt neurosurgical evaluation and intervention. Modern management of aSAH involves a multidisciplinary team of subspecialists, including vascular neurosurgeons, neurocritical care specialists and, frequently, neurointerventional radiologists. This team is responsible for stabilizing the patient on presentation, diagnosing the offending ruptured aneurysm, securing the aneurysm, and managing the patient through a typically prolonged and complicated hospital course. Surgical intervention has remained a definitive treatment for ruptured cerebral aneurysms since the early 1900s. Over the subsequent decades, many innovations in microsurgical technique, adjuvant maneuvers, and intraoperative and perioperative medical therapies have advanced the care of patients with aSAH. This report focuses on the modern surgical management of patients with aSAH. Following a brief historical perspective on the origin of aneurysm surgery, the topics discussed include the timing of surgical intervention after aSAH, commonly used surgical approaches and craniotomies, fenestration of the lamina terminalis, intraoperative neurophysiological monitoring, intraoperative digital subtraction and fluorescent angiography, temporary clipping, deep hypothermic cardiopulmonary bypass, management of acute hydrocephalus, cerebral revascularization, and novel clip configurations and microsurgical techniques. Many of the topics highlighted in this report represent some of the more debated techniques in vascular neurosurgery. The popularity of such techniques is constantly evolving as new studies are performed and data about their utility become available.

Walter E. Dandy's contributions to vascular neurosurgery

Although Walter E. Dandy (1886-1946) is appropriately credited with the first surgical clipping of an intracranial aneurysm in 1937--a procedure that established the modern field of vascular neurosurgery--his numerous other contributions to this specialty are not as well known. Dandy can be credited with the first detailed description of the vein of Galen malformation, the first description of x-ray visualization of an intracranial aneurysm, the first characterization of basilar artery dolichoectasia, and the publication of the first comprehensive operative case series of arteriovenous malformations, cavernous malformations, and developmental venous anomalies. In addition, Dandy performed the first surgical trapping of a cavernous internal carotid artery (ICA) aneurysm by clipping the supraclinoid ICA and ligating the cervical ICA, and he also executed the first intracranial surgical clipping of the ICA to treat a carotid-cavernous fistula. In this article the authors describe Dandy's contributions to the field of vascular neurosurgery.

Current and evolving management of subarachnoid hemorrhage

Subarachnoid hemorrhage (SAH) is a catastrophic event that carries a mortality rate of 25% to 50%, with 10% to 15% of patients dying before reaching a hospital. Approximately 30,000 aneurysms rupture each year in the United States. Aneurysmal SAH accounts for 2% to 5% of all new strokes each year. Unlike other types of strokes, the incidence of SAH has not declined over time. As many as 46% of SAH survivors have long-term cognitive impairment, with impact on functional status and quality of life. Modern therapy offers the opportunity to reduce the morbidity of SAH by reducing secondary injury, preventing complications, and reducing the risk of future bleeding events. For most people, an aneurysmal rupture is a life-changing event.

Surgical neurology and clinical neurosciences in Edinburgh, Scotland

Surgical neurology in Edinburgh started > 70 years ago with Norman Dott, after his apprenticeship with Harvey Cushing. It continued under the chairmanship of John Gillingham, until 1980, and then Douglas Miller, who merged the Departments of Surgical Neurology and Medical Neurology to form the Department of Clinical Neurosciences in 1986. Particular strengths of the Edinburgh program have been the management of intracranial aneurysms, stereotactic and functional neurosurgery, the management of head and spinal injury and stroke, and neuro-oncology.

Imaging blood vessels of the head and neck

ATHEROSCLEROTIC DISEASE: Patients with transient ischaemic attacks or a non-disabling stroke who are surgical candidates should be screened with Doppler ultrasound, or MRA/CT, or both. The choice will depend on local expertise and availability. If DUS is used it is recommended that the equipment is regularly calibrated and a prospective audit of results, particularly of those patients that go on to angiography, is maintained locally. Those patients found to have the DUS equivalent of a 50% stenosis should have angiography only if surgical or balloon angioplasty treatment is contemplated. Angiography should be performed with meticulous technique to minimise risks. ANEURYSM AND ARTERIOVENOUS MALFORMATIONS: Angiography remains the investigation of choice for patients with subarachnoid haemorrhage. Magnetic resonance angiography and CT can demonstrate the larger aneurysm but because even small aneurysms can rupture with devastating effects, these techniques are not the examination of first choice. Angiography is also the only technique that adequately defines the neck of an aneurysm. This information is becoming increasingly important in management decisions-for instance, whether to clip or use a coil. Likewise angiography is the only technique to fully define the vascular anatomy of arteriovenous malformations although the size of the nidus can be monitored by MRA and this is a useful method of follow up after stereotactic radiosurgery, embolisation, or surgery. There are specific uses for MRA such as in patients presenting with a painful 3rd nerve palsy and as a screening test for those patients with a strong family history of aneurysms. VASCULITIS, FIBROMUSCULAR HYPERPLASIA, AND DISSECTION: These rare arterial diseases are best detected by angiography, although there are increasing reports of successful diagnosis by MRA. There are traps for the many unwary and MRA does not give an anatomical depiction of the arteries but a flow map. Slow flow may lead to signal loss and a false positive diagnosis of vasculitis.