Showing 101 items matching anaesthetic equipment
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Geoffrey Kaye Museum of Anaesthetic History
Slide
Slide mounted in white slide case showing examples of equipment including beakers and stands.Handwiritten in pencil: EMBLEY'S / 9448 -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Case, Mayer & Meltzer et al, c. 1903
Black round topped box with brass hooks at front and brass hinges at rear. There is a black fabric handle on the top (broken). Inside the box is black padding with the manufacturer's logo printed in gold leaf. There is a square section in the base of the box, usually for a glass bottle but which is holding a metal pourer. The rest of the kit is missing.Printed in gold leaf on inside lid of box: MAYER & MELTZER / LONDON / MELBOURNE & CAPE TOWN Stamped on underside of metal pourer: BARTH & CO / LONDON Handwritten on inside of lifting linen-covered paper: [indecipherable] d as described on Pawn-Ticket / January 1903 / Jacket / Boots [cont...]mayer & meltzer, barth & co -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Oscillotonometer, von Recklinghausen
This oscillotonometer was owned by Dr. Herbert Claus Newman, an Anaesthetist who gained his diploma in Anaesthetics in 1956. Dr Newman served in the Vietnam War and was also one of over 50 of Australia's medical professionals who signed a joint statement in 2004 condemning the Federal Government for committing Australian troops to the Iraq war.Brown leather case with silver clasp and brown leather handle. Case contains Dr. von Recklinghausen Scala Alternans Oscillotonometer – a round silver pressure gauge with paper scale and needle point reader. The silver valve and lever at the bottom of the gauge connects black and orange rubber tubing to the grey linen arm cuff rolled closed with Velcro and a rubber inflation bulb.Yellow sticker on top of case in yellow type: H. NEWMAN Printed on face of gauge: Oscillotonometer / n. Dr. von Recklinghausen / "SCALA ALTERNANS" / 6585868 / S|K Printed on scale near zero reading: mmHg Printed on scale near highest reading: mm Hg = Torr Printed on scale is numbers 0 to 300 in increments of 20 Stamped on reverse of valve: 148blood pressure, oscillotonometer, dr. von recklinghausen, scala alternans, newman, h., newman, herbert claus, vietnam war -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Vaporiser, Tecota, Cyprane Ltd, c. 1970
Used by mothers during childbirth, the anaesthetic Trilene (trichloroethylene) was inhaled through a face mask [missing] attached to the rubber tubing [missing] and the vaporising chamber. The Trilene was poured into the chamber to be turned into a vapour. The machine was used in the obstetric wards at University College Hospital, London. Trilene was introduced in the 1940s. The machine was made by Cyprane Ltd.Khaki metal multi layered cylinder. Set on top of khaki metal plate with four (4) rubber feet.Stamped in red on top level of vaporiser: Cyprane Ltd •Stamped in red on serial plate: TECOTA MARK 6 / CHARGE WITH TRICHLOROETHYLENE B.P. / CYPRANE LTD. SERIAL No / KEIGHLEY / YORKS. / T1469 •Clear sticker with red printed text stuck on metal plate: PAT No 646680 / PATENTS PENDINGtrichlorethylene vaporiser, tecota mark 6 -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Inhaler, Hewitt, George Barth & Co. Ltd, c. 1895
Sir Frederic W. Hewitt (1857-1916), an accomplished and well respected English anesthesiologist, was an expert in the function and use of the Clover Ether Inhaler. In 1901, Hewitt described his modification of the Clover Inhaler. Often referred to as the Hewitt Wide-Bore Inhaler, Dr. Hewitt introduced changes in order to make it easier to breathe through the device and improve the ventilation of oxygen and carbon dioxide. In 1901, Hewitt was recruited to anesthetize King Edward VII for emergency abdominal surgery. This was just a day or so before the new King was to be coronated. He recovered well, and Hewitt became the first anesthesiologist ever to be knighted. (Source: Wood Library Museum)Tall black round topped box with brass hooks at the sides and brass hinges at rear. There is a brown fabric handle on the top. The box has red padding inside the lid and red lining inside the base and sides. There is a round section in the base of the box for holding the round clear glass bottle for ether. There is also a ellipse-shaped metal inhaler on small metal base with a thin metal handle and pipe with bakelite plug attached via a small metal chain. A brown mask is made of brown leather and celluloid which is connected to the inhaler. There is a metal ether measure for pouring the ether.On notecard in box: (B) HEWITT'S INHALER 1895, MADE BY GEO. BARTH & CO LTD., ADVERTISED AS THE SOLE MAKERS OF THE INHALER AND RECOGNISED BY HEWITT IN HIS TEXT BOOK - ANAESTHETICS AND THEIR ADMINISTRATION - AS THE MAKER OF HIS INHALER. / GIVEN BY DR. E.S. HOLLOWAY IN 1951, WHO ACQUIRED MUCH OF HOWARD JONES' EQUIPMENT AFTER THE LATTER'S DEATH. Stamped on underside of glass bottle in a circle: WUBW [illegible] Blue sticker on inhaler: O.2.13. Printed on inhaler under handle: Geo Barth [illegible] / SOL [illegible] Printed on body of inhaler: Full Printed on body of inhaler: 1/2 Printed on inside of leather mask: F35hewitt, sir frederic, jones, howard, inhaler, geo. barth & co. ltd., ether -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Inhaler, Collison, Inhilation Institute Ltd, c 1932
This device was designed by W E Collison for self administration of oxygen therapy, particularly in the home. By his own description "It presents none of the tiresome and irksome features associated with medical apparatus and is readily understood by patients." Registration number: 772839 and 785517 Patent number: 415437Metal tubing designed to attach to an oxygen cylinder which leads to a number of gauges and continues on to a metal head which holds two glass bulbs. Glass bulb on left is amber in colour and the glass bulb on the right is clear.Both bulbs have residue on the inside. Between the bulbs is a connecter that leads to red rubber tubing that is fluted toward the end.collison, oxygen therapy, inhaler -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Vaporiser, c. 1958
The Fluotec vaporizer was made to administer only halothane (Fluothane). It was one of the first vaporizers made for use with only one anesthetic, and one of the first to use a bimetallic coil for temperature compensation.The bimetallic coil is part of the valve that controls how much of the carrier gas enters the vapor chamber to vaporize the anesthetic.Modern vaporisers still use this bimetallic coil technology today. Serial No: 5040 Patent No: 814427 A ready reference “calibration card” came attached to these vaporizers. The card was printed with a scale that indicated the concentration of halothane produced at different flow rates and dial settings.This item does not have a reference card with it.This Flotec vaporiser holds historic significance as a very good example of an early model piece of equipment for halothane only administration. Modern vaporisers still use the bimetallic coil technology and therefore this object has scientific and research significance.Small metal stand with 3 rubber feet, Main metal cylinder body housing the bimetallic coil. Inlet valve with a brass attachment and metal outlet valve. Metal dial that controls % Penthrane. Dial notches range from OFF to 1.5. Small silver chain hangs from the top of the dial lever. Small silver metal box held by 4 screws and a round bakelite window with FULL inscribed in white text located on the front of the main cylinder Fluothane Cyprane vaporiser. Fluotec Mark II by Pentec, with stand. Royal Children's HospitalStamped on Inlet and outlet valve: INLET OUTLET Stamped on to a plate on the front of the vaporiser: KEEP UPRIGHT / PENTHRANE / WHEN CHARGEDinhaler, fluotec mark ii -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Vaporiser, Penthrane, Cyprane Ltd, c. 1982
This vaporiser has a main cylindrical body with a step up to the dial plate with a small red latch to lock dial in to place.On the front of the body sits a square gauge to indicate the level FULL along with a long rectangular shape.There is an Inlet and outlet valve that sits behind the metal dial.There is a manufacturers plate sitting on top of the dial and the inlet/outlet valve. Inscribed on top plate: KEEP UPRIGHT/ PENTEC 2/ WHEN CHARGED •Inscribed on inlet & oulet valve plate: PENTEC 2/ SERIAL NO 252939/ PATENTS PENDING •MADE IN / ENGLAND BY/ CYPRANE LTD / KEIGHLEY •Metal dial has inscribed: OFF/.2 .5 1 1.5 2 Max •Inscribed on front plate in green writing: USE ONLY/ PENTHRANE/ (METHOXYFLURANE)penthrane, vaporizer, anaesthesia, anaesthetic machine -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Mask, Ramsay Surgical Limited
One of a range of metal face masks designed to have a cover which helps protect the patient's face.Wire frame mask designed to cover mouth and nose. There is a metal hook on the left hand side protuding from the base of the mask and wire mesh raised from the base with a circle in the middle.facemask, anaesthesia, ramsay surgical -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Resuscitator Unit, c. 1960
Mechanical resuscitation devices, such as the Pulmotor and Lungmotor, were popular in the early part of the twentieth century. Their use waned in the 1920s as significant bodies like the British Medical Research Council and American Red Cross refused to endorse them. The most popular of the resuscitators to emerge in the 1930s was the E&J (Ericson and Johnson) resuscitator. The device was soon widely available, vigorously promoted with support from many medical practitioners. They were soon to be found in hospitals, emergency services like the ambulance and fire brigade, and voluntary life-saving organisations. In Australia, Norman James, director of anaesthesia at the Royal Melbourne Hospital, developed an interest in equipment for ambulances and the resuscitation of drowning victims. Little in the way of practical, portable equipment was available to either the ambulances or the voluntary life-saving organisations, such as Surf Life Saving Australia (SLSA); American resuscitators, like the E&J, were expensive and bulky to import. James designed a simple portable resuscitation device for local use after being approached by Jack Conabere, secretary of the Elwood Life Saving Club (ELSC). The resulting Royal Melbourne Hospital resuscitator, or the R.M. resuscitator as it was marketed, was a simpler, manual version of those available overseas. It was gas driven with a plunger, marked “Press”, and a safety valve. The small working unit attached directly to the facemask. Once the patient was positioned facedown and the airway cleared of debris, the mask was placed firmly over the face. The plunger allowed gas to flow and lung inflation; releasing the plunger allowed expiration. This simple resuscitator was marketed by Commonwealth Industrial Gases (CIG) and became very popular in Australia with volunteer and professional rescue organisations. It represents one of the many innovations in resuscitation equipment that resulted from cooperation between volunteer life savers and medical practitioners. Norman James worked closely with Jack Conabere and the Government Pathologist to develop the equipment. ELSC was the first life saving club to use the resuscitator on the beach. While conducting an early training exercise on 23 December 1951, they used it to successfully resuscitate a man who had drowned after capsizing his home made yacht. The R.M. resuscitator was also used in more inventive ways. At Fairfield Hospital in Melbourne, a group of physiotherapists and doctors did some innovative work with polio patients, teaching them glossopharyngeal (or “frog”) breathing, as a means of becoming less dependent on ventilators. In 1981, the Australian Standards Association stated that the RM head failed to meet its revised standards and it was withdrawn from the market. Red leather suitcase with black leather trim with metal studs. There are clip locks for locking the suitcase in the closed position. The suitcase contains equipment for oxygen resuscitation. There is a space allocated for two oxygen cylinders, however there are no cylinders present.Embossed into metal plaque: The C.I.G. / Oxy-viva / PORTABLE UNIVERSAL OXYGEN RESUSCITATORresuscitation, portable, surf life saving australia, royal melbourne hospital, rm resuscitator -
Geoffrey Kaye Museum of Anaesthetic History
Waveform Ventilator, 1970
Professor Arthur Barrington (Barry) Baker was the first Australian anaesthetist to gain a DPhil in anaesthesia. He completed his DPhil at Oxford University at the Nuffield Department of Anesthesia in 1971, titled, Physiological Responses to Artificial Ventilation. The Waveform Ventilator is the machine developed to illustrate his DPhil. The waveform ventilator was used in several scientific studies on 'the effects of varying inspiratory flow waveforms and time in intermittent positive pressure ventilation (IPPV)', published in the 'British Journal of Anaesthesia'. Professor Arthur Barrington Baker had an extensive career in research and clinical practice including holding the position as the Nuffield Professor of Anaesthetics at Sydney university (1992 - 2005) and also as the Dean of the Australian and New Zealand College of Anaesthetists (ANZCA) (1987-1990).The variable waveform ventilator is of national significance, due to its association with Professor Arthur Barrington Baker (Prof. Baker) the first Australian academic anaesthetist, and the representation of historical social themes and research and design, in anaesthesia. Historic significance – It is a rare type of ventilator in good condition and well provenanced. It is a tangible record of the beginning of the long established and distinguished career of Prof. Baker, the first anaesthetist in Australia to gain a DPhil. Prof Baker has a strong involvement in the Australian and New Zealand College of Anaesthetists (ANZCA) organisation. The object is a product of Prof Baker’s Doctorate of Philosophy (DPhil) on respiratory physiology and is associated with the prestigious Oxford University and the well-known Nuffield Department of Anaesthetics. It also represents the social theme of migration to England from Australia in the 1960s and 1970s to access and experience academic and artistic opportunities limited in Australia at the time. Scientific Value – The object is of scientific value as it offers major potential for education and interpretation in anaesthesia. Although ventilators are common equipment, this specific design and construct prototype is one of a kind, designed and used specifically for research purposes. A rectangular shaped object on a trolley with four wheels. The top half of the object consists of two panels, one of cream coloured painted wood, the other black plastic, both containing several dials of different shapes and sizes. The wood surface also contains several gauges and a safety pressure clear plastic box. The plastic surface also contains a pin board. The bottom half of the object consists of two shelves. The whole object's perimeter is lined with perforated metals. The top wooden surface has several metal pieces of equipment and a long tube. The rear of the object contains numerous types of tubing and wire, a gas cylinder and two leather straps with buckles. The bottom half of one side of the objects has 3 electrical power outlets.Waveform Generator, Drs Colliss N Cowie, Dr Baker Dr Murray Willson, Dr Babbington, Safety Pressure, Error POS F/B, Position, Feedback, Set Balance, Reset, Full Stroke, Velocity, Converter Current, line Pressure, Low Pressure, Bias Pressure, Start, Stop, Stop, Reset Press, Max Press, W/G Output, A/CRO B/2.baker, arthur barrington, baker, barry, professor, academic anaesthetist, oxford university, nuffield department of anaesthesia -
Geoffrey Kaye Museum of Anaesthetic History
Medical Carry Box, Allen & Hanburys
A characteristic black, round topped box, to carry medical equipment with a divider which would have held a square, plain glass bottle. The donor, Dr. Holloway is known to have acquired much of Dr. Howard Jones' equipment. In 1930 Dr Howard Jones, M.B., B.S., (Lond.). Surgeon Anaesthetist to Charing Cross Hospital first described percaine in an article in the British Journal of Anaesthesia. According to Norman, J. in the British Journal of Anaesthesia, Jones was the first honorary secretary of the Association of Great Britain and Ireland, 'of spinal anaesthesia fame', and a leading practitioner in his day. He apparently committed suicide in 1935, there are references that he 'could not make a living from anaesthesia'. (Norman, 2002, 'An informal history of the first 25 years', The British Journal of Anaesthesia, 88 (3): 445-450) The maker of this medical box, Allen and Hanburys Ltd., was a British pharmaceutical manufacturer, founded in 1715, absorbed by Glaxo Laboratories in 1958.Black cardboard box with handle and simple border decoration on top. Brass hinges at the rear and two brass hook clasps at the front. Interior is lined with black linen. Cardboard divider inside and square compartment in corner would have been used to hold a bottle of ether in place.Printed in gold leaf inside lid: ALLEN & HANBURYS LTD / LONDON.W. / 48.WIGMORE STdr. [e.s.] holloway, medical box, carry kit, allen & hanbury's ltd. -
Geoffrey Kaye Museum of Anaesthetic History
Mask, Yankauer, c. 1904
Sidney Yankauer, M.D. (1872-1932), an ear, nose and throat specialist and pioneer in bronchoscopy, practiced at the Mount Sinai Hospital in New York. Dr. Yankauer, a prolific inventor of medical equipment, might best be known for the tube he designed for suctioning the mouth and throat. Yankauer introduced the wire-mesh anaesthesia mask around 1904. The drop method involved placing the mask over the patient’s nose and mouth, and then placing gauze over the mesh of the mask. Next, liquid anaesthetic, such as ether or chloroform, was applied in drops or lightly poured onto the gauze so that the patient breathed in evaporated anesthetic as well as air. The gutter around the base of the mask was designed to catch any residue of the harmful anaesthetic. (The Wood Library Museum, 2016; Museum of Healthcare Kingston, 2016)A metal tear-shaped mask with gauze wire dome, gutter around the base and detachable spring piece with open circular handle to secure cloth over gauze. Found inside medical carry box #899Stamped underneath neck of circular handle: HATRICKdr [e.s.] holloway, hatrick, yankauer, drop method, mask, gauze -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Sphygmograph, c. 1881 - 1901
They sphygmograph was devised as an improved device to measure blood pressure, and was a marked improvement on the first machine of its type. The sphygmomanometer was considered cumbersome and the Dudgeon sphygmograph was smaller, and once placed into its box, could be carried in a pocket. The Dudgeon sphygmograph was introduced in 1881. It was strapped tot he wrist with a metal strip that moved a stylus. This transmitted a record of the pulse onto smoked paper, creating a record of blood pressure.The sphygmograph is housed in a purple-lined, leather bound case with a metal hinge and clasp located halfway up the case. It is constructed from chrome and comprises several moving parts including wires, knobs and handles. A black fabric strap with a metal attachment is also present, used to attach to the patient's wrist.blood pressure, dudgeon, pocket-sized, portable -
Geoffrey Kaye Museum of Anaesthetic History
Anaesthetic machine, Minnitt, 1930 - 1937
This Minnitt machine was owned by Dr Mary Clementina DeGaris. Dr DeGaris qualified from medicine, MB BS, at the University of Melbourne in 1905. She continued her studies, becoming only the second woman in Victoria to qualify MD, in 1907. With the outbreak of war, DeGaris attempted to enlist as a doctor with the Australian Army but was refused. Undeterred she travelled to England, where she joined the Scottish Women's Hospitals for Foreign Service, a medical group made up entirely of women. After the war, she returned to Australia and set up practice as an obstetrician in Geelong, Victoria. Subsequently, the Geelong Hospital named a wing after her, "DeGaris House", which is now part of Geelong Private Hospital. DeGaris was awarded the St Saba medal, 3rd class, for her work during WWI. Robert James Minnitt introduced the concept of self-administered analgesia, using an apparatus designed and built in conjunction with London scientific instrument-maker, Charles King. The Minnitt apparatus met with considerable success and led to further modifications, including the introduction of the Queen Charlotte gas-air analgesia apparatus in 1936.Brown leather suitcase with brass locks and leather handle. Inside the case is metal equipment, with arms for attaching cylinders. On top of the case, located underneath the handle, is a small brass plate, bearing the name of the owner in black printed script on a piece of card or paper held inside the plate.Printed in black ink on name plate: Dr Mary C. De Garis.minnitt, geelong, scottish women's hospitals, world war i, obstetrician -
Geoffrey Kaye Museum of Anaesthetic History
Photograph
This photograph was reproduced in the book One Grand Chain : The History of Anaesthesia in Australia 1846 - 1962 : Volume 2 1934 - 1962, Gwen Wilson, edited by Jeanette Thirlwell Jones, on page 89.Black and white photograph depicting a dentist's office with a woman patient sitting in a chair receiving anaesthesia. Behind the chair is a fully gowned and masked anaesthetist operating a DM Machine with CIG oxygen cylinders. The male dentist is seated to the left of the patient holding equipment near the patient's mouth. A woman dental nurse is standing to the left of the dentist holding a suction tool.•Stamped in red ink on reverse: C.I.G. Equipment Pty. Ltd. •Handwritten in blue ink on reverse: CG13 •Handwritten in grey pencil on reverse: Dr H.N. Matthews / Essendon / Return to F Biggs •Handwritten in grey pencil on reverse: 6 [in a circle]dentist, anaesthetist, dental nurse, patient, cig, oxygen cylinder, shipway, dm machine -
Geoffrey Kaye Museum of Anaesthetic History
Photograph, The Age, 1961
Black and white photograph depicting four men in business suits on a beach, standing around a table displaying medical equipment and oxygen tanks. There are CIG oxygen tanks leaning upright against the table, and a display box containing oxygen tanks is on the ground in front of the table. There is another box displaying oxygen tanks, an open suitcase and a megaphone on the table. Three of the men are looking at the fourth man on the far right who is holding a piece of equipment. There is an ambulance from the Elwood Life Saving Club directly behind the men and other cars in the background.•Handwritten in grey pencil on reverse: 7 [inside a circle] •Handwritten in grey pencil on reverse: 4902 •Printed stamp in blue ink on reverse: COPYRIGHT / This photograph may not be reproduced / without permission in writing from the / Editor of "The Age" / 233 Collins Street, Melbourne, and 117 / Pitt Street, Sydney •Printed in black ink on paper label which has detached from the reverse of photograph: ELWOOD LIFE SAVING CLUB / EQUIPMENT PRESENTATION: / Photo from the "AGE" dated 30th December, 1961, / showing the comissioning of Elwood Life Saving / Club's new Ambulance replacing one wrecked in / a collision and covering the presentation of a / State Government cheque for £1,000 by Mr. Baron / Snider, M.L.A. to cover the cost of this ambulance. / In the picture, Mr. Snider (right) inspects / equipment with - from left, the state secretary / of The Royal Life Saving Society of Australia / (Mr. E. A. Pleydell, M.B.E.), club secretary / Mr. Tom Manion, and club president Mr. Jack / Conabere.oxygen tanks, oxygen, cig, the royal life saving club of australia, elwood lifesaving club, ambulance -
Geoffrey Kaye Museum of Anaesthetic History
Photograph
Black and white photograph of a demonstration of a dental procedure on a patient who is receiving anaesthesia. Dr Geoffrey Kaye, wearing a white gown, is holding the patient's mouth open with one hand and is holding medical equipment in the other. The anaesthetist's hands are supporting the patient's head and administering anaesthesia to the patient through an inhaler. The background of the photo has been covered with black ink so that only the anaesthetist's hands, Dr Kaye, and the patient are visible.•Printed text in black ink on paper label glued under photo: Opening Mouth without a Gag. •Handwritten with blue ink on reverse and underlined: Photo. 1.geoffrey kaye, anaesthesia, dental procedure, patient, anaesthetist -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Eyebath
Small glass container with a round base, extending into an oval shaped openingeye bath, glass -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Junker's apparatus
Between 1867 and 1920, anaesthesia for dental operations was often maintained by blowing the vapour of ether or chloroform into the patients' oral or nasal pharynx. Junker's inhalers are a "blow over" device used with a hand-held bellows to bubble air through liquid chloroform and to the patient. It was initially intended for use with bichloride of methylene, a mixture of chloroform and methyl alcohol. Ferdinand Ethelbert Junker introduced his inhaler in 1867 as appointed physician to Samaritan Free Hospital for Women (although it didn't have that name until c.1904). Glass jar with liquid measure markers etched onto. The jar has a metal lid, with a metal tube descending into the jar. Two metal tubes are protuding out of the top of the lid, and each has a small section of rubber tubing attached. There is also a metal hook, used to attached the jar to the physicians (anaesthetist's) lapel.Stamped into frame of metal lid: LONDON MADEjunker, blow over, chloroform, samaritan free hospital for women -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Airway, Guedel
Oral airways, such as the Guedel, make it much easier for patients to be ventilated. They depress the tongue and prevent it from falling to the back of the throat where it would obstruct the airway.Curved, red rubber tubing with a metal connector in one end. 19M.M. DOairway, ventilation, obstruction, guedel, rubber -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Draeger Pulmotor, c.1920
The Dräeger Pulmotor was developed in 1907. It addressed previous concerns about lung injury, by limiting both the inspiratory and expiratory pressures. Although still controversial, the Pulmotor was widely distributed and commercially successful. Oxygen from cylinders provided both the inspiratory gas flow and the driving mechanism. Expiration was an active process and gases were sucked from the lungs by negative pressure created by a Venturi effect. This device came with a facemask and harness, with a caution that the operator should take care to prevent air entering the stomach.Draeger resuscitation kit, inside wooden case with handle. Case contains small heavy gas cylinder with large beige handwritten 'S. M E' inscription on one side. Due to water damage case missing pieces of plywood in corner and floor of case bubbled and swollen.|Rubber decomposed rigidinspiratory, expiratory, pulmotor, negative pressure -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Ampoule, Camphor
Camphor has been used traditionally for many years, solely or in combination with other treatments for the relief of pain, inflammation and irritation in body and skin. Persian physicians Rhazes (860–932CE) and Avicenna (980–1037CE) used camphor extensively in the treatment of particular types of headache. Symptoms of camphor poisoning include “psychomotor agitation” and hallucinationsPale blue cardboard box with blue manufacturer's label across the face of the box and down each side. The label has black printed text. Inside the box is allocation for ten (10) ampoules. There are three (3) clear glass ampoules each with a pale blue label with black printed text. A metal blade is wrapped in tissue paper and a thin, squared off piece of metal is also wrapped in tissue paper.pain medicine, inflammation, rhazes, avicenna, camphor, headache -
Geoffrey Kaye Museum of Anaesthetic History
Bird Anaesthesia Assistor/Controller Mark 4
The Bird Mark 4 is an anaesthesia assistor or controller with pressure and volume controller to be driven by a respirator. Combination of Mark 4 with respirator makes an automatic anaesthesia respirator eliminating manual bagging. The machine can work through Boyle anaesthetic system. It is designed for both paediatric and adult application. (Drugs and Equipment in Anaesthesia Practice, Aruna Parameswari, 2019)Green metal box atop a clear plastic unit with a black bellows inside, which forms one part of the overall unit. The unit is attached to a pole, enabling height adjustment. The pole is, in turn, attached to a set of four castors [not original].White text on black stick on strip on top of metal box: DO NOT PULL APART / FOR USE IN THEATRE ONLY A series of instructions are printed in white text over the unit.anaesthesia assistor, anaesthesia controller, pressure controller, volume controller, paediatric, adult -
Geoffrey Kaye Museum of Anaesthetic History
Album - Photograph album, Rupert Hornabrook
... documents anaesthetic equipment, and the way it was used. ...This photo album depicts a small period of time during 1919, and highlights some of the anaesthetic work conducted by Dr Rupert Hornabrook. There is no record as to the reason for the construction of the album, but it appears to offer insight into his work the Dental School, as well as experimentation with different types of anaesthetic agents, using himself as a test subject.Rupert Hornabrook was an early full-time anaesthetist in Australia. He helped to develop anaesthesia into a specialised field of medicine by conducting research into the way anaesthesia worked, and its effects on the body. This album is of historic significance as it not only documents a specific period in the professional life of a full-time anaesthetist in Australia, it also documents anaesthetic equipment, and the way it was used.Blue photograph album with vinyl wrapped heavy card cover. A three ringed binder is attached to the inside of the album and sixteen (16) photographs are inside, mounted on heavy card. Each photograph has a typed label on white paper in blue ink adhered to the front describing the events of the photograph. Photographs depict various administrations of ethyl chloride as anaesthesia and analgesia, with many photographs of Rupert Hornabrook. -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Electroconvulsive therapy machine
In 1940 doctors started experimenting with curare for use with electric shock therapy. Electric shock therapy regularly caused broken bones, including vertebrae, and all sorts of dislocations. The intensity of convulsions was high and couldn’t be controlled. During the 19th Century curare was unsuccessfully used to treat rabies, tetanus and epilepsy. By 1935, Harold King had isolated tubocurarine, curare’s active ingredient. In 1942, Harold Griffith successfully used standardised curare (Intocostrin) with cyclopropane. Within five years synthesised muscle relaxants were available. Intocostrin, combined with an anaesthetic agent, was a break-through for this treatment.Solid wooden box with three separate sections inside box. First section contains electrical lead for attaching unit to mains power. Second section contains ECT unit and controls. Third sections contains electrical lead ending in plugs for holding in hands. Sections cannot be separated out, they form one unit.Etched on to the face of the internal unit: PROPERTY OF / THE ROYAL WOMEN'S HOSPITAL Label tape affixed to top of the lid: E.C.T. UNIT OP. THEATRES R.W.H.anaesthesia, muscle relaxants, electroconvulsive shock therapy, women -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Ether dropper
"Y" shaped hollow metal tubing with a red rubber stopper at the intersection of the "Y". -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Bellamy Gardner mask, 1908
H. Bellamy Gardner, an anaesthetist at the Charing Cross Hospital, was the first to use open ether in England and was responsible for popularizing the technique. Bellamy Gardner's mask consists of a wire frame which was covered with layers of gauze. He recommended constructing a face-pad consisting of several layers of gauze which were rolled together and tied to make an oval. This was applied to the face and the mask rested on the top. Ether was then administered directly on to the mask.Oval chrome-plated steel wire frame designed to fit around a face. The wire-framed dome has both vertical and horizontal wire components to sit over a patient's nose and mouth. Ether was applied to a gauze pad which was held securely in place by a hinged wire lid. This is a modified version of Bellamy Gardner's original mask.Etched on clasp: BELLAMY / GARDNER'S / ETHER MASKether, gauze -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Syringe kit (empty), Chas F Thackray Ltd
Steel box holding syringe parts. There are four hollow metal rods resting in metal clasps attached to a baseboard inside the tin. Some of the rods appear to have metal wire threaded through (purpose unknown). There are a number of clasps attached to the baseboard and top-plate which indicate syringes would have been housed there.Maker's mark stamped into tin: THACKRAY / LEEDS -
Geoffrey Kaye Museum of Anaesthetic History
Equipment - Syringe
Pale blue cardboard box with white (discoloured) and blue manufacturer's label adhered to front. Inside the box is a cardboard rest holding a glass syringe with metal point and hand grip. The plunger has a metal end, with a rubber or plastic plunge. The manufacturer's label records it as a Record type hypodermic syringe, an Everett Product, and distributed by the Amalgamated Dental Co Ltd of Melbourne and Sydney. Additional information on the label suggests it have been marketed as The Laminex.