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Geoffrey Kaye Museum of Anaesthetic History
Equipment - Ether in Oil
Ether in oil was used for rectal anaesthesia. Rectal anaesthesia offered a way to administer anaesthesia when using a mask was impractical, such as oral or respiratory tract surgery. Undiluted ether was irritating to the bowel and even proved to be fatal. Ether in oil, developed in 1913, minimized irritation with no reported deaths.Empty clear glass bottle with cork stopper which has become dislodged and is now inside the bottle. The bottle has a white label with handwriting on the front. The bottle has been decanted.Handwritten in ink: Ether in Oil / = parts Stamped in red ink on top left corner of label: CAU... [faded and almost indecipherable]ether, ether in oil, rectal administration, anaesthesia -
Geoffrey Kaye Museum of Anaesthetic History
Ampoule, Propanidid
Introduced by Bayer in 1963, Propanidid is an ultra short-acting general anaesthetic. It was withdrawn because of anaphylactic reactions.Set of three clear glass ampoules with product details printed in red ink. There is a clear liquid retained inside each of the ampoules.Printed in red ink: Eponotol / 0,5g Propanidid / in 10ml inj. sol.propanidid, anaesthetic, anaphylaxis, bayer -
Geoffrey Kaye Museum of Anaesthetic History
Ampoule, Hypnotic 8064
Thiopentone was known as Hypnotic 8064 prior to its release onto the market. Thiopentone became popular during the inter-war years as a fast acting, short duration anaesthetic. It is used less frequently now as propofol is more popular. Also known as Pentothal sodium.Thiopentone has also been embroiled in controversy since being linked to deaths following the bombing of Pearl Harbor.Large clear glass ampoule containing powdered Hypnotic 8064. A small white label (now discoloured) with typed information is stuck on to the ampoule.Typed on label: HYPNOTIC 8064thiopentone, propofol, pearl harbor, short duraction, fast acting -
Geoffrey Kaye Museum of Anaesthetic History
Ampoules, Anaesthetic
This multi-purpose kit contains drugs for resuscitation, sedation and local anaesthetic. It could also assist in the delivery of a baby. The kit holds a selection of pharmaceuticals that would most likely have been used by a general practitioner anywhere between the 1950s and 1980s.Square cardboard box containing 100 separate ampoules of pharmaceuticals. Each ampoule is held in place by a cardboard cover with a round cut-out to match the ampoule. There are ten rows of ten.Handwritten in blue ink on side of box: OCTAPRESSIN Handwritten in blue ink on top of box: 5 units / 100mls saline Handwritten in blue ink on side of box: OCTAPRESSIN / PLV2 Stamped in black ink on manufacturer's label on side of box: Physician's Sample / not for sale / Batch 62 164mestinon, chlorpheniramine maleate, lobeline-hydrochloride b.p.c., adrenalin tartrate, isuprel hcl, vandid, alupent, plv2, ephedrine hydrochloride, atropine sulphate, metaraminol, pituitrin, ergometrine maleate, procaine, largactil chlorpromaz, roche, glaxo-allenburys, boots, boehringer & ingelheim -
Geoffrey Kaye Museum of Anaesthetic History
Phial, Ethyl Chloride, Bengue & Co. Ltd. Mfg. Chemists, Circa 1900
The glass phial contained liquid ethyl chloride, little pressure being required to liquefy the gas at room temperature. By directing the nozzle downwards at the skin or mucous membrane to be analgesed, a stream of liquid squirts out, vaporising on contact, thus producing transient local temperatures of approximately -10 qc. Ether's unpleasant smell agitated patients. Ethyl chloride's pleasant odour reduced agitation. It could be used for induction and worked quickly without irritating respiratory passages. Ethyl chloride spray could also be used as a local anaesthetic. Faded rectangular burgundy box containing a glass phial with metal and rubber lid that forms a spray nozzle. The lid of the box had a mustard coloured manufacturer's label wtih burgundy writing. The phial has a discoloured white label with red writing and a blue label with white writing.Printed in white ink on blue label: IMPORTANT / NOT DESTROY THIS TUBE, IT CAN / BE REFILLED FOR / 2/10bengue & co. ltd., london, ethyl chloride, 1900, local anaesthesia -
Geoffrey Kaye Museum of Anaesthetic History
Vial, Ketalar, Parke Davis
Ketamine is useful for inducing anaesthesia in shocked patients. It is also commonly used in low doses or infusions for the management of chronic pain. It can produce a state of 'dissociative anaesthesia', where patients are pain free, but not necessarily unconscious. Three small glass vials with different colour print labels on each containing 10ml Ketalar (Ketamine Hydrochloride).local anaesthetic, ketalar, ketamine hydrochloride, shock, parke davis -
Geoffrey Kaye Museum of Anaesthetic History
Ampoule, Propofol, Biochemie Australia (Novartis)
Propofol is an induction agent for anaesthesia and also used in intensive care to induce unconsciousness. Propofol doesn't dissolve in water so it comes in a white, oily solution and must be refrigerated before it’s used. The solution consists of soybean oil, fats purified from egg yolks, and glycerol. Propofol is used as an “induction agent”—the drug that causes loss of consciousness— for general anaesthesia in major surgery. In lower doses it is also used for “conscious sedation” of patients getting procedures on an outpatient basis at ambulatory surgery centres. The main reason propofol is the agent of choice is because it allows for very rapid recovery, is the perfect drug for insertion of laryngeal masks and is the agent of choice for infusions. It has largely replaced thiopentone, the original drug of choice, but this is still available in Australia and used in specific situations. Propofol was linked to the death of Michael Jackson. Large clear glass ampoule with adhered manufacturer's label blue on white label containing the milky liquid of Propofol BC, 20mls.propofol, local anaesthetic, intensive care, jackson, michael, biochemie australia (novartis) -
Geoffrey Kaye Museum of Anaesthetic History
Kelene, Gilliard, Monnet & Cartier, 1890
Kelene is the proprietary name used for ethyl chloride in France which became synonymous with the agent in Europe. The manufacturer, Gilliard P. Monnet and Cartier of Lyon, also supplied Redard with his ampoules in 1890. Ethyl chloride was discovered by the French chemist Guillaume-Francois Rouelle in 1759; however it was not until 1901 that Frederic-Henri Basse manufactured sufficient for scientific study. Marie Jean-Pierre Flourens, Professor Comparative Anatomy at the University of Paris, first reported the effect of the inhalation of ethyl chloride after some experiments with and other agents in dogs. He described three experiments in which the dogs died, however death followed a period of insensibility as with ether although of much faster onset.Ten large glass phials containing 3g Kelene (Ethyl Chloride) stored in their original packaging. The box originally had twelve phials with now only ten remaining. Of the ten, 8 still contain the Kelene, 1 phial is empty but intact and 1 phial is broken. The cardboard box has a maroon paper cover, removable top with the product label and literature pasted across the base and top of the package. All product information is in French.ethyl chloride, kelene, local anaesthetic, gilliard p. monnet and cartier, france -
Geoffrey Kaye Museum of Anaesthetic History
Boyle's Machine, British Oxygen Company, circa 1950
This Boyle’s machine was made by the British Oxygen Company (BOC) in the 1950’s. The original Boyle's machine was invented by the British anaesthetist, Henry Boyle in 1917. His machine was a modification of the American Gwathmey apparatus of 1912, and became the best known early continuous flow anaesthetic machine. The Boyle’s machine was first made by Coxeter and Sons, under the direction of Lord George Wellesly, which was later acquired by the British Oxygen Company (BOC). Though a lot of changes have been made to the original design of the Boyle’s machine, the basic structure remains the same today.Green trolley on casters with flowmeter and vaporiser bottles attached to a stainless cross bar. There is a glass shelf at top of the trolley and a second glass shelf at base of trolley, above a pull out drawer. The pull out drawer contains 4 x black rubber masks, 3 x black rubber tubing connectors, 4 x seals, 1 a black corrugated rubber hose with red rebreather bag, red tube and masonite support board.Tin plate attached to upper portion of trolley: THE / BOYLE / apparatus / BY THE BRITISH OXYGEN CO. LTD.henry boyle, anaesthetic machine, gas, oxygen, flowmeter, nitrous oxide, british oxygen company, boc, coxeter and sons -
Geoffrey Kaye Museum of Anaesthetic History
Shipway's Apparatus, Circa 1916
Recognising that warmed ether was less irritating to the airway and patients receiving it were less likely to experience shock, Francis Shipway developed the Shipway's apparatus which was used during World War 1 and continued to be used through to World War 2. Reduction of shock for patients who had experienced trauma was crucial to their later recovery, particularly during war times. This example of the Shipway's apparatus also has the facility for administering chloroform.A triangular metal stand with two glass jars sitting in a metal tub and a green metal jar that looks like a thermos, also sitting in a metal tub. A metal pole has been screwed into the centre point of the stand, with a circular top to act as a handle. One of the jars has a rubber stopper in the neck with metal tubing attached to the stopper. The other glass jar has a metal screw top with a dropper spout. The two glass jars are connected via red rubber tubing. The apparatus has been sectioned in parts to show the inner mechanisms.Typed in black ink on white paper and adhered to metal bath: SHIPWAY'S APPARATUS •Typed in black ink on white paper and adhered to metal bath: ETHER VAPORISER •Typed in black ink on white paper and adhered to metal bath: THERMOS WITH HOT WATER •Typed in black ink on white paper and adhered to glass bottle: CHLOROFORM VAPORIZER •Typed in black ink on white paper and adhered to metal connector: TO AIR BELLOWS •Typed in black ink on white paper and adhered to tube in thermos: DELIVERY TUBE •Moulded into base of thermos: THERMOSshipway, world war i, warmed ether, endotracheal, chloroform -
Geoffrey Kaye Museum of Anaesthetic History
Hewitt's Gas-Air Stopcock and Mask, 1887
Sir Frederick William Hewitt was a great advocate of nitrous oxide anaesthesia, mainly for short procedures. In 1885, he reviewed the methods of administration and concluded that accurately fitting valves were essential at the commencement of the inhalation, in order to ensure the rapid washout of air from the lungs; and there was a distinct advantage in allowing some rebreathing of nitrous oxide towards the end of inhalation. He thus devised the stopcock. The stopcock consists of a cylinder with two rotating sleeves and two rubber flap valves. The arrangement allows air to be breathed either through the valves or rebreathed to and from the bag; nitrous oxide to be breathed either through the valves from the bag and out to the atmosphere or rebreathed to and from the bag. Soon after the introduction of this stopcock, there was an increased interest in administering oxygen in combination with nitrous oxide.Amber coloured ether inhaler, with leather mask, celluloid shield and inflatable cushion with attached Hewitt's stopcock.hewitt, stopcock, celluloid, ether, inhaler, mask, rebreathing -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Murray's Chloroform Mask, 1868
This small, neat, domette covered mask was widely used throughout Australia for the administration of chloroform anaesthesia.Triangular shaped mask with hinged arm at point of triangle that connects to upper frame section via a hook. Used for the administration of chloroform.chloroform, facemask, foldable, anaesthesia, anesthesia -
Geoffrey Kaye Museum of Anaesthetic History
Bellamy Gardner mask with Ogston frame, post 1905
The Bellamy Gardner mask was in use by 1905 and was the first British mask for the open administration of ether. This mask combines the features of the Bellamy Gardner mask with a tower frame designed by Ogston. The Museum's "Penn catalogue", circa 1970, describes this mask: "this followed closely upon Ferguson's lead, but has an enormous amount of "dead-space" contained within the apparatus."Open wire ether mask with inner dome (Bellamy Gardner mask) and outer wire frame tower (Ogston frame).Moulded into connector clip: BRITISH MAKEbellamy gardner, ogston, open ether administration, henry peter penn -
Geoffrey Kaye Museum of Anaesthetic History
Inhaler, Ether, Dewee, 1901
This is a simple metal mask with an ether chamber surmounting it. The patient breathes air down through the variable orifice over the surface of ether and in through the variable orifice over the surface of ether and in through the inspiratory valve. Exhalation was by means of the expiratory valve placed in the centre of the mask. All channels are extremely small and would offer considerable resistance to respiration.Metal inhaler with shaped rim edgeEngraved by hand into side of mask: DEWEE'S ETHER / INHALER.. 1901. Stamped into side of mask: J.E. LEECO / PATD. NOV. 12-1901 / 400ether, inhaler, ramsay, dewee, leeco -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Cylinder, Nitrous Oxide
Nitrous oxide has been used for anaesthesia in dentistry since December 1844, where Horace Wells made the first 12–15 dental operations with the gas in Hartford. Its debut as a generally accepted method, however, came in 1863, when Gardner Quincy Colton introduced it more broadly at all the Colton Dental Association clinics, that he founded in New Haven and New York City. Hospitals administer nitrous oxide as one of the anaesthetic drugs delivered by anaesthetic machines. Nitrous oxide is a weak general anaesthetic, and so is generally not used alone in general anaesthesia. In general anaesthesia it is used as a carrier gas with oxygen for more powerful general anaesthetic drugs.Medium size empty blue coloured cylinder with rounded base and painted white neck once containing Nitrous Oxide. A large blue on white diamond shaped label is adhered onto the main cylinder body.Printed on manufacturer's label: 'CIG [logo] / [blank weights table] / DRY / NITROUS OXIDE / C.I.G. (Victoria) PTY. LTD. / 50 LA TROBE STREET, MELBOURNE C3 / Telephones: FJ 6681 / FJ 4164 / USE NO OIL / OR GREASE'nitrous oxide, dental anaesthesia, dental anesthesia, gardner quincy colton, colton dental association -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Drip tube
The Soulevac sterile glass drip tube was used for blood transfusions.Clear glass bulb with rubber caps at each end and blue manufacturer's information stamped onto bulb. Drip tube is housed in original packaging.blood transfusion, world war i, first world war -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Fluothane (Halothane)
Prior to the introduction of halothane, most anaesthetic agents were flammable or had other limitations such as nausea, arrhythmias or slow recovery. It was clear there was a need for a new, non-flammable anaesthetic agent. Fluothane is a brand name for halothane.Amber glass bottle with white rounded manufacturer's label and green printed text, with white metal screw top lid. The bottle is housed in its original cardboard packaging. Bottle has been decanted.halothane, fluothane, non-flammable, nausea, fluorinated -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Cylinder, Oxygen
In Australia, the wholesale druggists Fenton, Grimwade and Company, established in 1876, were producing small quantities of oxygen for medical and industrial purposes(11,11). In 1910, they produced a booklet promoting the therapeutic use of oxygen, suggesting it's use in pulmonary and cardiac affections, asphyxia, and morphine poisoning(9). Eventually, oxygen was to play a more significant role in medicine following two significant events. In 1895, Karl Von Linde succeeded in liquefying air, and then fractionally distilling its individual components, including oxygen. This new technique for the production of oxygen from air was revolutionary, but large demand for it did not develop in the wider community until Claude and Hess managed to compress acetylene into cylinders safely in 1897, keeping the highly explosive fuel stable by dissolving it in acetone. By 1900, the oxy-acetylene welding technique was born, and the demand for oxygen for industrial purposes accelerated worldwide. In Australia, Russell Grimwade, working for his father's company, ordered the first oxygen plant to be built in Australia in 1910. (George Kantianis, 2013)Medium sized black coloured cylinder with rounded base once containing oxygen with a large black on white diamond shaped manufacturer's label adhered to the front. Much of the label has been degraded with missing bits, and rust stains.Printed on to manufacturer's label: OFFICIALLY PREPARED FOR MED? / AUSTOX [in logo] / COMPRESSED / OXYGEN / CONTENTS / 33 [handwritten in pencil] Imperial Gallons / KEEP COOL / Australiand Oxygen and Industrial ? / Pty. Ltd. / MELBOURNEoxygen, cylinder, therapeutic, russell grimwade -
Geoffrey Kaye Museum of Anaesthetic History
Mouth opener, Heister
The advent of anaesthesia posed immediate problems for the oral surgeons and dentists who were used to operating on awake patients with intact airway reflexes. Early anaesthetics were very light and often created an uncooperative patient. Dentists were quick to complain they had trouble opening the mouth quickly enough and dental props soon made an appearance. Gags and tongue depressors proliferated, all initially devised to improve surgical and anaesthetic access, not to protect the airway. Other instruments for opening the jaws included the somewhat fearsome devices known as mouth openers. Heister's mouth opener was incorporated in anaesthetic practice but was not designed for this purpose. Lorenz Heister (1983 - 1758) used his device for mouth inspection and for operations on the palate, tonsils and teeth in the pre-anaesthesia era. He was not impressed with the way it was used by others in his life time and believed that it overstretched the jaw when used inappropriately. Despite its apparent brutality, the Heister mouth gag was still advertised for sale in 1983 and its useful mechanism has been incorporated into modern surgical retractors.Steel cork-screw shaped object with a twist top handle which will force the two arms apart. Each arm has ribbing toward the end to create friction when inserted in the mouth.Stamped into the twist top handle: MAYER & MELTZERheister, mouth gag, mouth opener -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Mouth opener, Heister, 1941
The advent of anaesthesia posed immediate problems for the oral surgeons and dentists who were used to operating on awake patients with intact airway reflexes. Early anaesthetics were very light and often created an uncooperative patient. Dentists were quick to complain they had trouble opening the mouth quickly enough and dental props soon made an appearance. Gags and tongue depressors proliferated, all initially devised to improve surgical and anaesthetic access, not to protect the airway. Other instruments for opening the jaws included the somewhat fearsome devices known as mouth openers. Heister's mouth opener was incorporated in anaesthetic practice but was not designed for this purpose. Lorenz Heister (1983 - 1758) used his device for mouth inspection and for operations on the palate, tonsils and teeth in the pre-anaesthesia era. He was not impressed with the way it was used by others in his life time and believed that it overstretched the jaw when used inappropriately. Despite its apparent brutality, the Heister mouth gag was still advertised for sale in 1983 and its useful mechanism has been incorporated into modern surgical retractors. This Heister heavy patterned mouth opener was acquired from an Italian Army medical unit at Tobruk in 1941 and donated to the museum in 1946.Scissor-like metal device with a screw mechanism at the top which allows for the open or closed position to be locked.heister, lorenz, mouth opener, gag, heavy patterned -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Bird Respirator Mark 7A with C.I.G. 'Ventviva' ventilator
The Bird ventilator Mark 7 is driven by medical compressed air or oxygen. It is not suited for anaesthesia unless using a special anaesthesia assistor controller attachment, which is essentially a “bag in a bottle” device.Apparatus attached to four castor stand with attached white wall connecting tubing.anaesthesia attachment, bag in a bottle -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Cannula, Transfusion
Doctors trained in blood transfusion were essential to the development of Forward Resuscitation Teams during World War I. In 1918, Dr Alan Holmes a Court and his colleagues established a resuscitation team and, following their remarkable success at the battle of Hamel on July 4, teams were permanently established at each of the five Australian divisions. Each team consisted of one doctor trained in surgery, blood transfusion and resuscitation, another doctor trained in anaesthesia, resuscitation and blood donor classification, and four other assisting staff. This team moved out to the wounded, rather than waiting for them to be stretchered back. They provided on-the-spot, life-saving resuscitation. The wounded were then transported back to the Casualty Clearing Station or Regimental Aid Post for further treatment.A selection of metal cannula of various designs and sizes.blood, transfusion, intravenous, cannula -
Geoffrey Kaye Museum of Anaesthetic History
Bottle, ACD Solution
Citrated blood was introduced by the Americans in 1917. This allowed blood administration to be delayed for up to two hours but there were many problems with transport, storage and infection in these early experimental days. This bottle contains ACD Solution (Anticoagulant Citrate Dextrose Solution) for ensuring blood doesn't coagulate during storage.Clear glass bottle with white [discoloured] label on the front with red printed text. The bottle contains a yellowish solution. The metal screw-top lid has been covered with brown paper and a black rubber tie is draped around the shoulder of the bottle.anticoagulant, citrate, dextrose, transfusion -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Cylinder, Medical Compressed Air
Early cylinders were coloured as their maker saw fit, usually black, perhaps with a white top for oxygen. The Americans first achieved standardisation, but other countries do not follow American Standards. Australia follows the colour-scheme of the British Oxygen Corporation. The body is coloured individually for each gas, viz: compressed air, grey; carbon dioxide, brown; oxygen, black; nitrous oxygen, blue’ cyclopropane, primrose-yellow’ ethylene, mauve. Panels of other colours may appear on the body, but indicate technical points of cylinder-design and do not concern the anaesthetist. (Penn catalogue entry)Empty small pale green painted cylinder with rounded base and attached outflow valve with circular 'On-Off' knob.Handwritten in red paint across the main body of the cylinder: ST. VINCENTS 32510 Printed on manufacturer's label: 'KEEP CYLINDER COOL / CIG [logo] / MADE IN AUSTRALIA / MEDICAL AIR COMPRESSED / DO NOT ALLOW OIL OR GREASE ON VALVE / OPEN VALVE SLOWLY CLOSE AFTER USEcompressed air, cylinder, colour standardisation -
Geoffrey Kaye Museum of Anaesthetic History
Ormsby's Inhaler, 1877
Lambert Ormsby was a New Zealand surgeon who migrated to Ireland. He described his inhaler in a letter to the Lancet in 1877.Ormsby listed the advantages of his inhaler as simple, inexpensive, small quantity required to produce sleep, prevents evaporation of ether, portable and small (can be carried in pocket), short time to complete anaesthesia (two minutes) and safe. Disadvantages of this apparatus were that it had to be removed in order to recharge the sponge with ether or when anaesthesia becomes too deep. Considerable carbon dioxide accumulation developed and there would also be some oxygen lack. In thirty years of use, Ormsby's Inhaler underwent certain modifications, an exhalation valve was fitted to the mask and device for recharging the sponge with ether was later added. The Ormsby inhaler was modified by Carter Braine in 1898 with the aim of making it easier to clean. Essentially it is very similar except there is no net around the bag.The inhaler consists of an india-rubber flexible bag enclosed within a net bag to limit expansion. There is a soft metallic mouthpiece with india-rubber tubing around the edge. The tubing had to be purchased separately from the manufacturer. The body contains a wire cage with a similarly shaped hollow sponge into which ether was poured.Maker's details inscribed into metal ring around the bore: Barth Co. London.ormsby, new zealand, carbon dioxide, carbon accumulation, carter braine, portable -
Geoffrey Kaye Museum of Anaesthetic History
Inhaler, Bruck, 1908
The Bruck Inhaler is a modification of the Clover Inhaler, designed by Lambert Bruck. Bruck added a glass dome which enabled the level of ether to be monitored during administration. This was a revolutionary change as it removed guess work from the process.The Bruck Inhaler is a historically, aesthetically and scientifically significant piece. The basic design is based on the Clover Inhaler, but with a rounded bottom. The idea of a glass viewing window was possibly inspired by Wilson-Smith Inhaler. The Bruck Inhaler is historically significant as it is the first inhaler to be made with a completely clear lower glass section. This improved the usability for the ether administrator, and eliminated much of the guesswork associated with dosage and ether levels, which in turn improved the patient experience. This piece provides a strong local link to both anaesthetic and general medical practice at the turn of the century. The design is credited to Ludwig Bruck of Sydney, and was presumably manufactured in the same area. Bruck, as the attributed designer, holds much relevance to the significance of the object, as connected with him is much historical information about the social context of medical practice. Ludwig Bruck was a prominent figure in the medical industry. He started his medical career in Sydney as a Medical Transfer Agent, and later owned a shop at 16 Castlereagh Street, Sydney. This business is listed in the 1903 Register of Firms as a Medical Agent and Importer of Medical Instruments and Books. Bruck was vocal as a journalist and published analyses of medical statistics, as well as the well known Australasian Medical Dictionary and Handbook, which included the “List of Unregistered Medical Practitioners”. Ludwig Bruck was an immigrant. He was of German descent, which placed him in a precarious position within Sydney society during the turn of century. Bruck conducted several public conversations with prominent members of the Australian Natives Association through the Sunday News in regards to his disagreement of the employment of medical practitioners by the ANA specifically to corroborate their health insurance policies. He was also a stalwart supporter of the Australian arm of the British Medical Association, being the publisher of the first and subsequent editions of The Australian Medical Gazette. Bruck chose to end his life with a combination of poison and chloroform on 14 August 1915, after being accused of trading with the enemy during World War One. His suicide note stated his horror at leaving his business partner to deal with the tarring of his reputation as the reason for his decision. The Bruck Inhaler has aesthetic significance as it is a beautiful example of turn of the century surgical design and craftsmanship. Aseptic methods of surgery were well known by 1909, and the aesthetic design of the Bruck Inhaler conformed to these principles. The ability for the surgeon to unscrew, clean and sterilize each part of the Inhaler contributes to the streamlined design of the piece. The Buck Inhaler holds scientific significance. There is the capacity for further research to be undertaken on the object. Geoffrey Kaye often collected multiple examples of equipment, usually one for reverse engineering and another for teaching. There are currently two examples of the Bruck Inhaler in the collection, presenting an opportunity for further technical research on the object. The inhaler is oval shaped with one half made of glass to allow observation of the ether level. A vertical cross tube, 22mm in diameter passes between the face-piece and the bag [missing]. There is a stopcock for admission of oxygen or nitrous oxide opposite the bag attachment. There is a central tube, 28mm in diameter, with controllable ports on either side. There is also a tear-drop shaped fask mask.Hand engraved on side of base: L. Bruck / Sydneyclover, joseph, bruck, lambert, inhaler, rebreather, nitrous oxide, oxygen, williams, probyn -
Geoffrey Kaye Museum of Anaesthetic History
Inhaler, Bruck
The Bruck Inhaler is a modification of the Clover Inhaler, designed by Lambert Bruck. Bruck added a glass dome which enabled the level of ether to be monitored during administration. This was a revolutionary change as it removed guess work from the process.The inhaler is oval shaped with two halves. One half should be made of glass [missing] to allow observation of the ether level. A vertical cross tube, 22mm in diameter passes between the face-piece and the bag [broken]. There is a stopcock for admission of oxygen or nitrous oxide opposite the bag attachment. There is a central tube, 28mm in diameter, with controllable ports on either side.The Bruck Inhaler is a modification of the Clover Inhaler, designed by Ludwig Bruck. Bruck added a glass dome which enabled the level of ether to be monitored during administration. This was a revolutionary change as it removed guess work from the process.joseph clover, lambert bruck, inhaler, rebreather, nitrous oxide, oxygen, probyn williams, hewitt -
Geoffrey Kaye Museum of Anaesthetic History
Document - Book, Catalogue, Catalogue of Surgical Sundries, Theatre Equipment, Ward Furniture, Sterilizing Apparatus, c. 1956
Catalogue of surgical and anaesthetic equipment from the 1950sRed bound book with black printed text, and green and white internal pagesTyped in black and red ink onto fly page added to book: RETURN TO: / N. PALLATT, / ALLEN & HANBURYS (AFRICA) LTD. / 1956.catalogue, surgical, anaesthetic -
Geoffrey Kaye Museum of Anaesthetic History
Book - Book, Instruction Manual, John Wright & Sons Ltd, Bristol, XIV Golden Rules of Anaesthesia, 3rd edn, 1908
This book is the third edition of the "Golden Rules of Anaesthesia" and, while it is instructional in style, predates any formal text book on the subject. The first text book in Australia, Practical Anaesthesia, was published in 1932.Book with beige coloured cloth over heavy cardboard cover with gold leaf printing on front cover.Handwritten in black ink on spine: Anaesthesia •Handwritten in black ink on white label adhered to back cover: A.S.A. •Handwritten in blue and black ink on inside cover: Presented to the / ASA / by / W.D. Counsell / 17 June 1952 •Stamped in blue/purple ink on fly sheet: AUSTRALIAN SOCIETY OF ANAESTHETISTS / FACULTY OF ANAESTHETISTS / ROYAL AUSTRALASIAN COLLEGE OF SURGEONSbook, instruction manual, golden rules -
Geoffrey Kaye Museum of Anaesthetic History
Bronchial Blocker, Macintosh Leatherdale Left Bronchial Blocker, 1955
This tube is designed for left pneumonectomy (surgical removal of a lung or part of a lung). The left stem bronchus may be completely blocked off, while the right lung is inflated. There is provision for aspiration of the left bronchus.Rubber tubing with curved and tapered end for insertion into lung. Three smaller tubes come off the larger end, two of which have small rubber valves attached. The tube appears with a banded effect however, the banding is represents the now disintegrated rubber cuff.Blue sticker with white writing on side of tube: S.I.6.bronchus, bronchial, blocker, pneumonectomy, macintosh, leatherdale