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Array ( [0] => {{Short description| [1] => Medical device for auscultation}} [2] => [[Image:Stethoscope-2.png|thumb|Modern stethoscope]] [3] => [4] => {{listen [5] => | filename = [6] => | title = Stethoscope Sounds [7] => | description = Recorded auscultation of a healthy 15 year old girl's heart, as heard with the stethoscope on the tricuspid valve area. [8] => | format = [[wav]] [9] => }} [10] => The '''stethoscope''' is a [[medicine|medical]] device for [[auscultation]], or listening to internal sounds of an animal or human body. It typically has a small disc-shaped resonator that is placed against the skin, with either one or two tubes connected to two earpieces. A stethoscope can be used to listen to the sounds made by the [[heart sounds|heart]], lungs or [[intestines]], as well as blood flow in [[artery|arteries]] and [[vein]]s. In combination with a manual [[sphygmomanometer]], it is commonly used when measuring [[blood pressure]]. [11] => [12] => Less commonly, "mechanic's stethoscopes", equipped with rod shaped chestpieces, are used to listen to internal sounds made by machines (for example, sounds and vibrations emitted by worn ball bearings), such as diagnosing a malfunctioning automobile engine by listening to the sounds of its internal parts. Stethoscopes can also be used to check scientific vacuum chambers for leaks and for various other small-scale acoustic monitoring tasks. [13] => [14] => A stethoscope that intensifies [[auscultation|auscultatory]] sounds is called a '''phonendoscope'''. [15] => [16] => ==History== [17] => {{Anchor|history}} [18] => [19] => [[File:Laennecs stethoscope, c 1820. (9660576833).jpg|thumb|This early stethoscope belonged to Laennec. ([[Science Museum, London]])]] [20] => [21] => [[Image:Hörrohr Stethoskop Meyers 1890.jpg|thumb|right|Early stethoscopes]] [22] => [23] => [[File:Toraube2.jpg|thumb|180px|right|A [[Ludwig Traube (physician)|Traube]]-type stethoscope in ivory]] [24] => [25] => The stethoscope was invented in [[France]] in 1816 by [[René Laennec]] at the [[Necker-Enfants Malades Hospital]] in [[Paris]].{{cite journal|last1=Wade|first1=Nicholas J.|last2=Deutsch|first2=Diana|title=Binaural Hearing – Before and After the Stethophone|journal=Acoustics Today|date=July 2008|volume=4|issue=3|pages=16–27|doi=10.1121/1.2994724|url=http://acousticstoday.org/wp-content/uploads/2017/07/Article_2of3_from_ATCODK_4_3.pdf}}{{cite book |last=Laennec |first=René |title=De l'auscultation médiate ou traité du diagnostic des maladies des poumon et du coeur |location=Paris |publisher=Brosson & Chaudé |year= 1819 |url=https://books.google.com/books?id=TtTTeKls2bUC&pg=PR5 }}'Laennec, R. T. H.; Forbes, John, Sir, ''[https://books.google.com/books?id=a1pBAQAAIAAJ&pg=PR1 A Treatise on the Diseases of the Chest and on Mediate Auscultation]'' (1835). New York : Samuel Wood & Sons; Philadelphia : Desilver, Thomas & Co. . It consisted of a wooden tube and was [[monaural]]. Laennec invented the stethoscope because he was not comfortable placing his ear directly onto a woman's chest in order to listen to her heart.{{cite journal|title=Rene Theophile Hyacinthe Laënnec (1781–1826): The Man Behind the Stethoscope|author=Roguin A|date=September 2006|pmc=1570491|pmid=17048358|volume=4|issue=3|pages=230–5|journal=Clin Med Res|doi=10.3121/cmr.4.3.230}}{{cite book|last1=Picard|first1=Liza|author-link1=Liza Picard|title=Victorian London: the life of a city, 1840–1870|date=2005|publisher=Weidenfeld & Nicolson|location=London|isbn=978-0297847335|language=En}}{{rp|186}} He observed that a rolled piece of paper, placed between the individual's chest and his ear, could amplify heart sounds without requiring physical contact.{{Cite book|title=Mending Bodies, Saving Souls|last=Risse|first=Guenter|publisher=Oxford University Press|year=1999|isbn=978-0-19-505523-8|location=Oxford|pages=316}} Laennec's device was similar to the common [[ear trumpet]], a historical form of hearing aid; indeed, his invention was almost indistinguishable in structure and function from the trumpet, which was commonly called a "microphone". Laennec called his device the "stethoscope"{{Citation |year=1820 |title=Laennec's new system of diagnosis |journal=The Quarterly Journal of Foreign Medicine and Surgery and of the Sciences Connected with Them |volume=2 |pages=51–68 |url=https://books.google.com/books?id=LNVLAAAAYAAJ&q=stethoscope&pg=PA58 |postscript=.}} (''[[wikt:stetho-#Prefix|stetho-]]'' + ''[[wikt:-scope#Suffix|-scope]]'', "chest scope"), and he called its use "[[wikt:mediate#Adjective|mediate]] auscultation", because it was [[auscultation]] with a tool intermediate between the individual's body and the physician's ear. (Today the word ''auscultation'' denotes all such listening, mediate or not.) The first flexible stethoscope of any sort may have been a binaural instrument with articulated joints not very clearly described in 1829.Wilks, p. 490, cites Comins, "A flexible stethoscope", ''Lancet'' 29 August 1829. In 1840, [[Golding Bird]] described a stethoscope he had been using with a flexible tube. Bird was the first to publish a description of such a stethoscope, but he noted in his paper the prior existence of an earlier design (which he thought was of little utility) which he described as the snake ear trumpet. Bird's stethoscope had a single earpiece.Samuel Wilks, "Evolution of the stethoscope", ''Popular Science'', '''vol. 22''', no. 28, pp. 488–91, Feb 1883 {{ISSN|0161-7370}}.
Golding Bird, [https://books.google.com/books?id=9FXVoGcVJygC&pg=PA440 "Advantages presented by the employment of a stethoscope with a flexible tube"], ''London Medical Gazette'', '''vol. 1''', pp. 440–12, 11 December 1840. [26] => [27] => In 1851, Irish physician Arthur Leared invented a binaural stethoscope, and in 1852, George Philip Cammann perfected the design of the stethoscope instrument (that used both ears) for commercial production, which has become the standard ever since. Cammann also wrote a major treatise on diagnosis by auscultation, which the refined binaural stethoscope made possible. By 1873, there were descriptions of a differential stethoscope that could connect to slightly different locations to create a slight stereo effect, though this did not become a standard tool in clinical practice. [28] => [29] => [[Somerville Scott Alison]] described his invention of the '''stethophone''' at the Royal Society in 1858; the stethophone had two separate bells, allowing the user to hear and compare sounds derived from two discrete locations. This was used to do definitive studies on binaural hearing and [[auditory processing]] that advanced knowledge of [[sound localization]] and eventually led to an understanding of [[binaural fusion]]. [30] => [31] => The medical historian [[Jacalyn Duffin]] has argued that the invention of the stethoscope marked a major step in the redefinition of disease from being a bundle of symptoms, to the current sense of a disease as a problem with an anatomical system even if there are no observable symptoms. This re-conceptualization occurred in part, Duffin argues, because prior to stethoscopes, there were no non-lethal instruments for exploring internal anatomy.{{cite web|last=Duffin|first=Jacalyn|title=Big Ideas: Jacalyn Duffin on the History of the Stethoscope|url=http://ww3.tvo.org/video/182217/jacalyn-duffin-history-stethoscope|publisher=TVO|access-date=28 November 2012|archive-date=27 September 2013|archive-url=https://web.archive.org/web/20130927173037/http://ww3.tvo.org/video/182217/jacalyn-duffin-history-stethoscope|url-status=dead}} [32] => [33] => Rappaport and Sprague designed a new stethoscope in the 1940s, which became the standard by which other stethoscopes are measured, consisting of two sides, one of which is used for the respiratory system, the other for the cardiovascular system. The Rappaport-Sprague was later made by [[Hewlett-Packard]]. HP's medical products division was spun off as part of Agilent Technologies, Inc., where it became Agilent Healthcare. Agilent Healthcare was purchased by [[Philips]] which became Philips Medical Systems, before the walnut-boxed, $300, original Rappaport-Sprague stethoscope was finally abandoned ca. 2004, along with Philips' brand (manufactured by Andromed, of Montreal, Canada) electronic stethoscope model. The Rappaport-Sprague model stethoscope was heavy and short ({{convert|18|-|24|in|cm|abbr=on}}) with an antiquated appearance recognizable by their two large independent latex rubber tubes connecting an exposed leaf-spring-joined pair of opposing F-shaped chrome-plated brass binaural ear tubes with a dual-head chest piece. [34] => [[File:Early flexible stethoscopes.jpg|thumb|left|Early flexible tube stethoscopes. Golding Bird's instrument is on the left. The instrument on the right is the stethophone.]] [35] => Several other minor refinements were made to stethoscopes until, in the early 1960s, [[David Littmann]], a [[Harvard Medical School]] professor, created a new stethoscope that was lighter than previous models and had improved acoustics.{{cite web |title=History of Littmann Stethoscopes at a glance |publisher=3M.com |url= http://solutions.3m.com/wps/portal/3M/en_US/Littmann/stethoscope/products/history/ |access-date=2010-01-25}}{{US patent|3108652}} In the late 1970s, 3M-Littmann introduced the tunable diaphragm: a very hard (G-10) glass-epoxy resin diaphragm member with an overmolded silicone flexible acoustic surround which permitted increased excursion of the diaphragm member in a Z-axis with respect to the plane of the sound collecting area.{{US patent|3951230}} The left shift to a lower resonant frequency increases the volume of some low frequency sounds due to the longer waves propagated by the increased excursion of the hard diaphragm member suspended in the concentric accountic surround. Conversely, restricting excursion of the diaphragm by pressing the stethoscope diaphragm surface firmly against the anatomical area overlying the physiological sounds of interest, the acoustic surround could also be used to dampen excursion of the diaphragm in response to "z"-axis pressure against a concentric fret. This raises the frequency bias by shortening the wavelength to auscultate a higher range of physiological sounds. [36] => [37] => In 1999, Richard Deslauriers patented the first external noise reducing stethoscope, the DRG Puretone. It featured two parallel lumens containing two steel coils which dissipated infiltrating noise as inaudible heat energy. The steel coil "insulation" added .30 lb to each stethoscope. In 2005, DRG's diagnostics division was acquired by TRIMLINE Medical Products.{{cite web |url=http://www.trimline.us/ |title=TRIMLINE Medical Products |access-date=2010-01-25 |archive-date=2009-03-06 |archive-url=https://web.archive.org/web/20090306043019/http://www.trimline.us/ |url-status=dead }}{{Failed verification|date=February 2019}} [38] => [39] => ==Current practice== [40] => [41] => [[File:Standardized-Patient-Program-examining-t he-abdomen.jpg|thumb|A doctor using a stethoscope on a patient's abdomen to listen to [[stomach rumble|bowel sounds]]]] [42] => [43] => Stethoscopes are a symbol of healthcare professionals. Healthcare providers are often seen or depicted wearing a stethoscope around the neck. A 2012 research paper claimed that the stethoscope, when compared to other medical equipment, had the highest positive impact on the perceived trustworthiness of the practitioner seen with it.{{cite journal|title=Impact of the Presence of Medical Equipment in Images on Viewers' Perceptions of the Trustworthiness of an Individual On-Screen|volume=14|issue=4|pages=e100|journal=Journal of Medical Internet Research |doi=10.2196/jmir.1986|pmid=22782078|pmc=3409609|year=2012|last1=Jiwa|first1=Moyez|last2=Millett|first2=Stephan|last3=Meng|first3=Xingqiong|last4=Hewitt|first4=Vivien M. |doi-access=free }}{{Cite journal |last=McLoughlin |first=Mario J |date=30 October 2012 |title=Cardiac auscultation: preliminary findings of a pilot study using continuous Wave Doppler and comparison with classic auscultation |url=https://pubmed.ncbi.nlm.nih.gov/23117017/ |journal=International Journal of Cardiology|volume=167 |issue=2 |pages=590–591 |doi=10.1016/j.ijcard.2012.09.223 |pmid=23117017 }} [44] => [45] => Prevailing opinions on the utility of the stethoscope in current clinical practice vary depending on the medical specialty. Studies have shown that auscultation skill (i.e., the ability to make a diagnosis based on what is heard through a stethoscope) has been in decline for some time, such that some medical educators are working to re-establish it.{{Cite journal |last=Wann |first=Samuel L |date=21 September 2022 |title=The Traditional Stethoscope May Be Obsolete but the Need for Human Connection Is Not |url=https://www.ajconline.org/article/S0002-9149(22)00900-6/fulltext |journal=The American Journal of Cardiology |volume=184 |pages=147–148|doi=10.1016/j.amjcard.2022.08.020 |pmid=36153180 |s2cid=252493231 }}{{Citation |last=Murphy |first=R |year=2005 |title=The stethoscope – obsolescence or marriage? |journal=Respir Care |volume=50 |issue=5 |pages=660–661 |url=http://rc.rcjournal.com/content/50/5/660.full.pdf+html |pmid= 15912626|postscript=.}}{{Citation |last=Bernstein |first=Lenny |date=2016-01-02 |title=Heart doctors are listening for clues to the future of their stethoscopes |newspaper=Washington Post |url=https://www.washingtonpost.com/national/health-science/heart-doctors-are-listening-for-clues-to-the-future-of-their-stethoscopes/2016/01/02/bd73b000-a98d-11e5-8058-480b572b4aae_story.html |postscript=.}} [46] => [47] => In general practice, traditional blood pressure measurement using a mechanical [[sphygmomanometer]] with inflatable cuff and stethoscope is gradually being replaced with automated blood pressure monitors.{{Citation |last1=Roerecke |first1=M |last2=Kaczorowski |first2=J |last3=Myers |first3=MG |year=2019 |title=Comparing automated office blood pressure readings with other methods of blood pressure measurement for identifying patients with possible hypertension: a systematic review and meta-analysis |journal=JAMA Intern Med |volume= 179|issue= 3|pages=351–362 |pmid=30715088 |doi=10.1001/jamainternmed.2018.6551 |postscript=. |pmc=6439707}} [48] => [49] => ==Types== [50] => [51] => ===Acoustic=== [52] => [[File:Stethoscope.svg|thumb|Parts of a binaural stethoscope]] [53] => [[Image:Stethoscope pink.JPG|thumb|150px|right|Acoustic stethoscope, with the ''bell'' upwards]] [54] => [55] => Acoustic stethoscopes operate on the transmission of sound from the chest piece, via air-filled hollow tubes, to the listener's ears. The chestpiece usually consists of two sides that can be placed against the patient for sensing sound: a diaphragm (plastic disc) or bell (hollow cup). If the diaphragm is placed on the patient, body sounds vibrate the diaphragm, creating acoustic pressure waves which travel up the tubing to the listener's ears. If the bell is placed on the patient, the vibrations of the skin directly produce acoustic pressure waves traveling up to the listener's ears. The bell transmits low frequency sounds, while the diaphragm transmits higher frequency sounds. To deliver the acoustic energy primarily to either the bell or diaphragm, the tube connecting into the chamber between bell and diaphragm is open on only one side and can rotate. The opening is visible when connected into the bell. Rotating the tube 180 degrees in the head connects it to the diaphragm. This two-sided stethoscope was invented by Rappaport and Sprague in the early part of the 20th century.{{citation needed|date=June 2019}} [56] => [57] => ===Electronic{{anchor|Digital Stethoscope|Electronic Stethoschope}}=== [58] => [[File:Electronic stethoscope.jpg|thumb|Electronic stethoscope]]An electronic stethoscope (or '''stethophone''') overcomes the low sound levels by electronically amplifying body sounds. However, amplification of stethoscope contact artifacts, and component cutoffs (frequency response thresholds of electronic stethoscope microphones, pre-amps, amps, and speakers) limit electronically amplified stethoscopes' overall utility by amplifying mid-range sounds, while simultaneously attenuating high- and low- frequency range sounds. Currently, a number of companies offer electronic stethoscopes. Electronic stethoscopes require conversion of acoustic sound waves to electrical signals which can then be amplified and processed for optimal listening. Unlike acoustic stethoscopes, which are all based on the same physics, transducers in electronic stethoscopes vary widely. The simplest and least effective method of sound detection is achieved by placing a microphone in the chestpiece. This method suffers from ambient noise interference and has fallen out of favor. Another method, used in Welch-Allyn's Meditron stethoscope, comprises placement of a piezoelectric crystal at the head of a metal shaft, the bottom of the shaft making contact with a diaphragm. 3M also uses a piezo-electric crystal placed within foam behind a thick rubber-like diaphragm. The Thinklabs' Rhythm 32 uses an [[electromagnetic diaphragm]] with a conductive inner surface to form a capacitive sensor. This diaphragm responds to sound waves, with changes in an electric field replacing changes in air pressure. The Eko Core enables wireless transmission of heart sounds to a smartphone or tablet. The Eko Duo can take [[Electrocardiography|electrocardiograms]] as well as echocardiograms. This enables clinicians to screen for conditions such as [[heart failure]], which would not be possible with a traditional stethoscope.{{Cite journal |title=Smart stethoscope uses artificial intelligence to screen for heart failure |url=https://evidence.nihr.ac.uk/alert/smart-stethoscope-artificial-intelligence-screen-heart-failure/ |journal=NIHR Evidence|date=18 January 2023 |doi=10.3310/nihrevidence_56245 |s2cid=257852883 }}{{Cite journal |last1=Bachtiger |first1=Patrik |last2=Petri |first2=Camille F |last3=Scott |first3=Francesca E |last4=Ri Park |first4=Se |last5=Kelshiker |first5=Mihir A |last6=Sahemey |first6=Harpreet K |last7=Dumea |first7=Bianca |last8=Alquero |first8=Regine |last9=Padam |first9=Pritpal S |last10=Hatrick |first10=Isobel R |last11=Ali |first11=Alfa |last12=Ribeiro |first12=Maria |last13=Cheung |first13=Wing-See |last14=Bual |first14=Nina |last15=Rana |first15=Bushra |date=2022-02-01 |title=Point-of-care screening for heart failure with reduced ejection fraction using artificial intelligence during ECG-enabled stethoscope examination in London, UK: a prospective, observational, multicentre study |journal=The Lancet Digital Health |language=en |volume=4 |issue=2 |pages=e117–e125 |doi=10.1016/S2589-7500(21)00256-9 |pmc=8789562 |pmid=34998740}} [59] => [60] => Because the sounds are transmitted electronically, an electronic stethoscope can be a [[wireless]] device, can be a recording device, and can provide noise reduction, signal enhancement, and both visual and audio output. Around 2001, Stethographics introduced PC-based software which enabled a phonocardiograph, graphic representation of cardiologic and pulmonologic sounds to be generated, and interpreted according to related algorithms. All of these features are helpful for purposes of [[telemedicine]] (remote diagnosis) and teaching.{{citation needed|date=May 2023}} [61] => [62] => Electronic stethoscopes are also used with [[Computer-aided Auscultation|computer-aided auscultation]] programs to analyze the recorded heart sounds pathological or innocent heart murmurs. [63] => [64] => ====Recording==== [65] => [66] => Some electronic stethoscopes feature direct audio output that can be used with an external recording device, such as a [[notebook computer|laptop]] or [[MP3]] recorder. The same connection can be used to listen to the previously recorded [[auscultation]] through the stethoscope headphones, allowing for more detailed study for general research as well as evaluation and consultation regarding a particular patient's condition and [[telemedicine]], or remote diagnosis.Palaniappan R, Sundaraj K, Ahamed NU, Arjunan A, Sundaraj S. Computer-based Respiratory Sound Analysis: A Systematic Review. IETE Tech Rev 2013;30:248–56 [67] => [68] => There are some [[smartphone]] apps that can use the phone as a stethoscope.Bianca K. Chung, Brad Tritle, "The power of mobile devices and patient engagement", [https://books.google.com/books?id=7YMsAgAAQBAJ&pg=PA93 p. 93], chapter 8 in Jan Oldenburg (ed), ''Engage! Transforming Healthcare Through Digital Patient Engagement'', Himss Books, 2012 {{ISBN|1938904397}}. At least one uses the phone's own microphone to amplify sound, produce a visualization, and e-mail the results. These apps may be used for training purposes or as novelties, but have not yet gained acceptance for professional medical use.William Hanson, ''Smart Medicine: How the Changing Role of Doctors Will Revolutionize Health Care'', [https://books.google.com/books?id=FKlKjUgduP0C&pg=PA22 pp. 20–22], Macmillan, 2011 {{ISBN|0230120938}}. [69] => [70] => The first stethoscope that could work with a smartphone application was introduced in 2015 Matt McFarland, "Eko's stethoscope shows the potential of digital technology to reinvent health care", [https://www.washingtonpost.com/news/innovations/wp/2015/09/02/ekos-stethoscope-shows-the-potential-of-digital-technology-to-reinvent-health-care/], Washington Post [71] => [72] => ===Fetal=== [73] => [[File:Pinard horn Uganda US Army nurse.jpg|150px|right|thumb|A [[Pinard horn]] used by a U.S. Army Reserve nurse in Uganda]] [74] => {{main|Pinard horn}} [75] => [76] => A ''fetal stethoscope'' or ''fetoscope'' is an acoustic stethoscope shaped like a listening trumpet. It is placed against the [[abdomen]] of a [[pregnancy|pregnant]] woman to listen to the heart sounds of the [[fetus]].{{cite book|author=Arup Kumar Majhi|title=Bedside Clinics In Obstetrics|url=https://books.google.com/books?id=-7zfDAAAQBAJ&pg=PA47|date=2016-08-16|publisher=Academic Publishers|isbn=978-93-83420-87-2|pages=47–}} The fetal stethoscope is also known as a [[Pinard horn]] after French [[obstetrician]] [[Adolphe Pinard]] (1844–1934). [77] => [78] => ===Doppler=== [79] => [80] => A Doppler stethoscope is an electronic device that measures the [[Doppler effect]] of [[ultrasound]] waves reflected from organs within the body. Motion is detected by the change in frequency, due to the Doppler effect, of the reflected waves. Hence the Doppler stethoscope is particularly suited to deal with moving objects such as a beating heart.S. Ananthi, ''A Textbook of Medical Instruments'', pp. 290–96, New Age International, 2006 {{ISBN|8122415725}}. [81] => It was recently demonstrated that continuous Doppler enables the auscultation of valvular movements and blood flow sounds that are undetected during cardiac examination with a stethoscope in adults. The Doppler auscultation presented a sensitivity of 84% for the detection of aortic regurgitations while classic stethoscope auscultation presented a sensitivity of 58%. Moreover, Doppler auscultation was superior in the detection of impaired ventricular relaxation. Since the physics of Doppler auscultation and classic auscultation are different, it has been suggested that both methods could complement each other.Mc Loughlin MJ and Mc Loughlin S. Cardiac auscultation: Preliminary findings of a pilot study using continuous Wave Doppler and comparison with classic auscultation Int J Cardiol. 2013 Jul 31; 167(2):5 90–91{{cite book|url=https://www.amazon.com/Cardiac-Auscultation-Continuous-Stethoscope-ebook/dp/B00AXFB2IG/|title=Amazon.com: Cardiac Auscultation With Continuous Wave Doppler Stethoscope: A new method 200 years after Laennec's invention eBook: Mario Jorge Mc Loughlin, Santiago Mc Loughlin: Kindle Store|date=5 January 2013|publisher=Mario J Mc Loughlin |access-date=24 September 2015}} [82] => A military noise-immune Doppler based stethoscope has recently been developed for auscultation of patients in loud sound environments (up to 110 dB). [83] => [84] => ===3D-printed=== [85] => [[File:StethoscopebyTarek.jpg|thumb|A 3D-printed stethoscope]] [86] => A '''3D-printed stethoscope''' is an open-source medical device meant for [[auscultation]] and manufactured via means of [[3D printing]].[https://github.com/GliaX/Stethoscope Official project site] at GitHub The 3D stethoscope was developed by Dr. Tarek Loubani and a team of medical and technology specialists. The 3D-stethoscope was developed as part of the Glia project, and its design is open source from the outset. The stethoscope gained widespread media coverage in Summer 2015. [87] => [88] => The need for a 3D-stethoscope was borne out of a lack of stethoscopes and other vital medical equipment because of the [[blockade of the Gaza Strip]], where Loubani, a Palestinian-Canadian, worked as an emergency physician during [[Operation Pillar of Defense|the 2012 conflict in Gaza]]. The 1960s-era ''[[David Littmann|Littmann Cardiology 3]]'' stethoscope became the basis for the 3D-printed stethoscope developed by Loubani.{{cite web |last=Pauli |first=Darren |title=Gazan medico team 3D-prints world-leading stethoscope for 30c |website=The Register |location=United Kingdom |date=2015-08-14 |url=https://www.theregister.co.uk/2015/08/14/printed_stethoscope_cccamp/ |access-date=2015-08-17}} [89] => [90] => ===Esophageal=== [91] => Prior to the 1960s, the esophageal stethoscope was a part of the routine intraoperative monitoring.{{cite journal |last1=Brodsky |first1=J |last2=Lemmens |first2=H |title=The history of anesthesia for thoracic surgery |journal=Minerva Anestesiologica |volume=73 |issue=10 |pages=513–24 |date=2007 |pmid=17380101 }} [92] => [93] => ==Earpieces== [94] => [95] => Stethoscopes usually have rubber earpieces, which aid comfort and create a seal with the ear, improving the acoustic function of the device. Stethoscopes can be modified by replacing the standard earpieces with moulded versions, which improve comfort and transmission of sound. Moulded earpieces can be cast by an audiologist or made by the stethoscope user from a kit. [96] => [97] => ==See also== [98] => [99] => {{Portal|Medicine}} [100] => * [[Doppler fetal monitor]] [101] => * [[Speaking tube]] [102] => [103] => ==References== [104] => {{Reflist}} [105] => [106] => ==External links== [107] => [108] => {{wikimedia|collapsible=true}} [109] => * [http://www.med.ucla.edu/wilkes/intro.html The Auscultation Assistant], provides heart sounds, heart murmurs, and breath sounds in order to help medical students and others improve their physical diagnosis skills [110] => * [http://depts.washington.edu/physdx/heart/demo.html Demonstrations: Heart Sounds & Murmurs] University of Washington School of Medicine [111] => * [http://dig.library.vcu.edu/cdm/search/collection/mar/searchterm/stethoscopes/field/subjec/mode/all/conn/and/order/title VCU Libraries Medical Artifacts Collection: Stethoscopes] {{Webarchive|url=https://web.archive.org/web/20130929030331/http://dig.library.vcu.edu/cdm/search/collection/mar/searchterm/stethoscopes/field/subjec/mode/all/conn/and/order/title |date=2013-09-29 }} [112] => * "The invention of the stethoscope: A milestone in cardiology", analysis of Laennec's text (1819) on ''[http://www.bibnum.education.fr/sciencesdelavie/medecine-clinique/de-l-auscultation-mediate BibNum]'' [click 'à télécharger' for English version]. [113] => [114] => {{Health care}} [115] => {{Respiratory system symptoms and signs}} [116] => {{Medical instruments and implants |state=expanded}} [117] => {{Authority control}} [118] => [119] => [[Category:French inventions]] [120] => [[Category:Medical equipment]] [121] => [[Category:Medical testing equipment]] [122] => [[Category:Medical tests]] [123] => [[Category:Sound technology]] [124] => [[Category:1816 introductions]] [] => )

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Stethoscope

A stethoscope is a medical instrument used by healthcare professionals to listen to sounds within the body. The device consists of a chest piece, which is placed against the patient's skin, and a tube that transmits sound waves to the listener's ears.

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The device consists of a chest piece, which is placed against the patient's skin, and a tube that transmits sound waves to the listener's ears. The chest piece usually has a diaphragm for high-frequency sounds and a bell for low-frequency sounds. A stethoscope is commonly used to listen to the heart, lungs, and other internal organs to diagnose medical conditions. The invention of the stethoscope is credited to French physician René Laennec in the early 19th century, and it has since become an essential tool in the practice of medicine. The Wikipedia page on stethoscopes provides detailed information about their history, design, types, and uses. It also explores the advances in technology that have improved stethoscope functionality over time. Additionally, the page touches on the potential limitations of stethoscopes in certain medical scenarios and discusses alternative methods for auscultation.

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France is a country located in Western Europe.

Medicine

The Wikipedia page on medicine provides an overview of the field of medicine, covering various aspects such as its history, branches, education, research, practice, and ethics.

Paris

Paris is the capital city of France and one of the most famous and influential cities in the world.

Ultrasound

Ultrasound is a medical imaging technique that uses high-frequency sound waves to produce images of the inside of the body.