Friday, 24 January 2014

Pioneering practice

This week, Project Archivist Louise traces some of neurosurgeon Norman Dott's breakthroughs in the treatment of aneurysms:

Aneurysms occur when weakness in the walls of veins or arteries cause a ‘bulge’ when blood passes through them. This weakness can produce bleeding, a haemorrhage, when the walls of the vessel rupture. In the field of surgical practice, Norman Dott stands out for his pioneering 1931 operation to treat an intracranial aneurysm by direct surgical intervention into an area called the Circle of Willis, a loop of arteries at the base of the brain. Since these arteries sit near the brainstem, through which the nerves that connect the brain to the motor and sensory systems of the rest of the body pass, operating in this area carried a great deal of potential risk in the early days of  Dott’s ground-breaking surgeries.

This first operation on such an aneurysm was carried out on a middle-aged patient whom Dott described as a ‘personal friend and benefactor’. Dott wrapped the area of the aneurysm with muscle from the patient’s leg in order to strengthen the blood vessel walls where they were thinning dangerously. Weary of seeing patients die from brain haemorrhages, post-mortem observations had led Dott to realise that brain haemorrhages could sometimes heal themselves by blood-clots that stemmed further leakage, and that surgery could perhaps ‘reinforce Nature’s attempt at healing’ through providing another form of ‘scaffolding’. Although he was advised against surgical intervention for fear of fatality (for medical specialisms such as neurosurgery in their relative infancy could ill afford a high mortality rate), Dott proceeded with the operation in April 1931. Despite the risks, the operation was a success, with the patient’s only complaint being a pain in his leg from where the muscle graft was taken!
However, such surgery was a major undertaking and carried considerable risk. For aneurysms of the carotid artery, Dott practised tying (ligation) of arteries, shutting off blood-flow to the aneurysm, a practice that he pioneered in 1932, just a year after his pioneering aneurysm wrapping operation. The process of detecting aneurysms was considerably aided in 1933, when Dott was the first to demonstrate an aneurysm by means of angiography, an x-ray technique that involved operating on the patient under anaesthetic to expose the artery, injecting it with a dye and subsequently taking x-ray films.

LHB1 CC/24/PR2.917 Photographic image of an angiogram clearly showing the blood vessels in the brain (1942)
Yet another breakthrough was to come in the midst of the Second World War, when Dott performed an operation on a foreign seaman. The patient had an aneurysm in the anterior communicating artery, a small vessel which carries blood from one side of the brain to another. It is a common site for aneurysm formation and difficult to access without causing further haemorrhage. In the case of the seaman, Dott decided that it would be safer to put a clip on the larger artery which was feeding the smaller anterior communicating artery – this could be done without disturbing the aneurysm, which had already ruptured. Although the operation itself was not without risk, the patient’s case file reveals that he was ‘up after five days… in excellent condition and fit for discharge.’

Dott’s work in the diagnosis and treatment of intracranial aneurysms was both pioneering and wide-ranging – weighing up the risk to each patient, treatment was advised accordingly. In some cases of aneurysm Dott recognised that the surgical risk (and even the risk of exposing arteries through angiography) was unwarranted when it was possible for the body to repair itself through rest and recuperation.
We are extremely lucky at LHSA in holding a large collection of x-rays and photographs of Dott’s diagnostic procedures – both ventriculograms and angiograms. In the age of Magnetic Resonance Imaging (MRI) and Computerised Tomography (CT) scans, it is easy to forget how invasive these x-ray diagnostic procedures were for patients (operations in themselves), and how privileged visions inside a patient's head could not be taken lightly in these relatively early days of neurosurgery.

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