Pear shaped metal mask for attaching to Probyn Williams inhaler. The edge of the facemask is surrounded by a black leather cushion, with a tube on the top. The facemask is metal with a thumb action lever on connector.anaesthesia, inhalational, probyn williams, facemask

http://ukpmc.ac.uk/articles/PMC3139326/reload=0;jsessionid=9FyrkDFnXqMKQZZZCbqV.6 http://ukpmc.ac.uk/articles/PMC1958835/pdf/brmedj02872-0072.pdf Rendell-Baker-Soucek mask. 1 black tube with one end connects a metal piece to a facemask. The other end of black tube connects to 1 red balloon. 5 black masks. 1 spare red balloon and 3 black masks in separate plastic bags.Inscription on 1 black mask. "Wsp / 2 / ANTISTATIC / MADE IN UNITED KINGDOM. Another inscription on 1 black facemask. "LEYMED PAEDIATRIC FACEMASK / MADE IN 3 ENGLAND".paediatric face mask, anaesthetic equipment

Dr. Joseph Clover (1825-1882), an English physician, first described his Portable Regulating Ether Inhaler on Jan. 20, 1877. Clover was an especially sought after anesthesiologist and early pioneer in the specialty. This was the best-known of many inhalers that Clover designed. The dome-shaped reservoir was turned to points on a control dial to gradually increase or decrease the percentage of the air that passed over the ether. Several inventors based new inhalers on this, while the original continued to be manufactured as late as the beginning of WWII.Metal domed chamber with a bulb attachment on an elbow joint for rebreather bag. There is also a connector for a facemask, but no facemask.Engraved on dome of chamber: Clover's Inhaler / Mayer & Meltzer / London •Moulded in to metal at connector: MAYER & MELTZER RD. NO. 212327joseph clover, closed administration, mayer & meltzer

Dr. Joseph Clover (1825-1882), an English physician, first described his Portable Regulating Ether Inhaler on Jan. 20, 1877. Clover was an especially sought after anesthesiologist and early pioneer in the specialty. This was the best-known of many inhalers that Clover designed. The dome-shaped reservoir was turned to points on a control dial to gradually increase or decrease the percentage of the air that passed over the ether. Several inventors based new inhalers on this, while the original continued to be manufactured as late as the beginning of WWII.Metal domed chamber with a bulb attachment on an elbow joint for rebreather bag. There is also a connector for a facemask, but no facemask.White printing on blue sticker: O.2.2. •Engraved on dome: Clover's Inhaler / 1877.joseph clover, portable regulating ether inhaler

Dr. Joseph Clover (1825-1882), an English physician, first described his Portable Regulating Ether Inhaler on Jan. 20, 1877. Clover was an especially sought after anesthesiologist and early pioneer in the specialty. This was the best-known of many inhalers that Clover designed. The dome-shaped reservoir was turned to points on a control dial to gradually increase or decrease the percentage of the air that passed over the ether. Several inventors based new inhalers on this, while the original continued to be manufactured as late as the beginning of WWII. This modified version differs from the original Clover inhaler as it has a glass dome chamber at the top allowing the level of ether to be monitored.Metal based chamber with glass dome top. There is a metal connection point at the top of the glass dome for a rebreather bag, with a whistle tip connection point at the base of the chamber for a facemask. There is no rebreather bag or facemask. There is a black plastic stopper to the side of the chamber, with a glass bulb with a metal wire cage covering.joseph clover, lambert buck, closed administration

Colour slide mounted in white slide case. Image depicts Clover Inhaler with cloth rebreather bag and leather facemask attachedHandwritten in pencil: EMBLEY'S / 9448clover inhaler, inhaler, ether, anaesthesia, medical history, anaesthetic history

This vaporiser is enclosed in a portable black cylindrical bakelite carry case with moulded handle, woven fabric strap and single steel latch. The item comprises a three-chambered vaporiser, an assortment of attachments including black ribbed rubber tubing, light brown rubber rebreather bag, facemask, black rubber mask harness, Connell pharyngeal airway with connector, an attachment for an endotracheal or nasal tube, as well as spare thermometer and other parts.Stencilled in white paint on the outside top lid is 'THIS SIDE UP / WITH CARE / SEE INSTRUCTIONS / INSIDE LID'. Serial number is inscribed on metal plate inside the lid and printed in white on the inside lid is 'IMPORTANT / The Oxford Vaporiser is a scientific apparatus'vaporiser, oxford, anaesthetic, portable, bakelite, connell pharyngeal airway, heated vapor, endotracheal, nasal, rebreather bag, thermometer, facemask

Colour slide mounted in white cardboard slide case. Image depicts modified Clover Inhaler with glass chamber, cloth rebreather bag and metal facemask. Handwritten in pencil: EMBLEY'S / 9448clover, joseph, inhaler, ether, chloroform

Colour slide mounted in white slide case. Image depicts modified Clover Inhaler with glass chamber, cloth rebreather bag and metal facemask against a green background.Handwritten in pencil: EMBLEY'S / 9448clover inhaler, ether, anaesthesia, anaesthetic, anaesthetic history, medical history

When Hewitt introduced his regulating stopcock in 1887, attempts were made to dilute the nitrous oxide with air and so obviate the element of asphyxiation. The method was to be seen in London, mainly in dentistry and minor surgery, so late as 1930. It was not very successful. To give even 10% of oxygen (which is not enough) the gas-mixture must contain 55% of air and 45% of nitrous oxide. The latter is thus so diluted by atmospheric nitrogen as to be incapable of producing anaesthesia except by asphyxiation. "Gas-air" was confined to analgesia, for example in midwifery. (Source: Penn catalogue)Brown leather facemask attached to metal inhaler and stopcock device that has been sectioned to reveal its inner workings. The various exposed channels have been painted either green, red, blue or purple.Engraved into side of stopcock: HEWITT'S / N20-02 / 1895 / G. Kaye sect. 1952. •Stamped into other side of stopcock: [indecipherable] BARTH & CO. / SOLE MAKERS / 54. POLAND STREET LONDON.W.frederic hewitt, stopcock, nitrous oxide, oxygen, gas-air

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

Dr. Joseph Clover (1825-1882), an English physician, first described his Portable Regulating Ether Inhaler on Jan. 20, 1877. Clover was an especially sought after anesthesiologist and early pioneer in the specialty. This was the best-known of many inhalers that Clover designed. The dome-shaped reservoir was turned to points on a control dial to gradually increase or decrease the percentage of the air that passed over the ether. Several inventors based new inhalers on this, while the original continued to be manufactured as late as the beginning of WWII. Clover, to spare the patient the unpleasantness of induction with his "closed" inhaler (1877), suggested the "mitigated-ether" technique. The inhaler was fitted with a bypass tap for the reception of N2O. The bag was filled with the gas and anaesthesia was inducted a combination of N2O and asphyxiation. Ether was then admitted gradually by rotation of the bowl of the inhaler. When the patient had been duly "weaned over" to ether, the mask was lifted, the N2O allowed to escape, the bag refilled with exhaled air, and normal anaesthesia "a la Clover's inhaler" was continued.Metal domed chamber with a bulb attachment for rebreather bag, including a tap mechanism. Remnants of the paper rebreather bag are attached to the bulb. At the other end is a yellow facemask made of plastic (probably celluloid). The manufacturer's logo has been moulded into the dome of the chamber.Manufacturer's logo: THE HOLBORN / SURGICAL INSTRUMENT CO. LTD. / LONDON •Blue sticker with white writing: O.2.4.joseph clover, mitigated-ether, nitrous oxide, n2o, closed method

In 1896 Robert James Probyn-Williams was appointed first honorary anaesthetist to the London Hospital and joined a select band of fulltime anaesthetists (26) in Great Britain. The Probyn Williams inhaler was a further modification of the Clover inhaler with narrow airways and rebreathing. The metal inhaler is ovoid shaped. The rotating gauge has a series of numbers engraved onto the inhaler for measurement. There is an elbow joint leading to a connector for attaching a re-breather bag, and at the other end is tap-style mechanism. There is a small glass bulb encased in a metal housing. The facemask is completely made of metal as well.Stamped into handle of tap: COEXTER & SONjoseph clover, frederick hewitt, robert probyn williams

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

Dr Geoffrey Kaye was a clinical anaesthetist at a time when very few full time anaesthetists existed. He was passionate about the training of future anaesthetists and would often section anaesthetic equipment to reveal its inner workings and show those to students. This Probyn Williams Inhaler is one apparatus which has been sectioned and the various elements of the inhaler have been painted to highlight the differences in function.Oval shaped metal inhaler with attached metal facemask. The inhaler has been sectioned to reveal its inner workings and the ether chamber has been painted black while the air-channel has been painted red. The manufacturer's logo, stamped into the inhaler, has been sectioned as well, leaving only half the information available.Engraved on dome side of inhaler: PROBYN WILLIAMS / G.K. sect. 1939 •Stamped into dome side of inhaler MAYER & / LONanaesthesia, anaesthetist, inhaler, ether, medical history

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

Black and white photograph of a Boyle's anaesthetic machine. The light-coloured metal frame on castors has a metal top with a flowmeter attached to the top, and there is one drawer at the bottom of the trolley. One side of the trolley has two vaporisers connected to two corrugated tubes with a facemask. An oxygen cylinder and two nitrous oxide cylinders are on the other side of the machine along with a small cyclopropane cylinder.anaesthetic equipment, boyle's machine, anaesthetic machine, nitrous oxide, oxygen, flowmeter

The object was donated by Ramsay Surgical Limited in 1944. Cylindrical metal face mask with a high neck that is open at both ends. The larger opening was placed over the patient's mouth while the smaller opening, comprising a sponge to absorb the anaesthetic and a hinged perforated lid, was used to administer the anaesthetic.waring's cone, facemask, metal, sponge, anaesthetic, ether, ramsay surgical limited, cone

Black and white photograph of anaesthetic apparatus inside a portable case which is standing upright and open. Inside the right half of the case is a flowmeter connected to several rubber tubes and a small Vinyl Ether vaporiser with a lever switched to ON. The left half of the case has four shelves with equipment on each shelf. The top shelf has an oropharyngeal airway tube. The second shelf has a metal facemask inhaler and a glass vaporiser. The third and fourth shelves hold metal cylindrical inhalers. In front of the case is a metal inhaler with face mask, attached to a rebreathing bag.Handwritten in grey pencil on reverse: Fig 17 new bookanaesthetic equipment, portable case, flowmeter, inhaler, vinyl ether

Black and white photograph of anaesthetic apparatus inside a portable case which is standing upright and open. Inside the right half of the case is a flowmeter connected to several rubber tubes and a small Vinyl Ether vaporiser with a lever switched to OFF. The left half of the case has four shelves with equipment on each shelf. The top shelf has an oropharyngeal airway tube. The second shelf has two metal facemask inhalers. The third and fourth shelves hold metal cylindrical inhalers. The photograph shows the letters A - J with arrows, pointing to the different parts of the equipment.anaesthetic equipment, portable case, flowmeter, inhaler

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