US Market Report for Anesthesia Delivery Units 2017 - MedCore

  • ID: 4328465
  • Report
  • Region: United States
  • 245 pages
  • iData Research
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FEATURED COMPANIES

  • Airgas
  • DeVilbiss
  • Global Medical Holdings
  • Massimo
  • Nidek
  • ResMed
  • MORE
General Report Contents
  • Market Analyses include: Unit Sales, ASPs, Market Value & Growth Trends
  • Market Drivers & Limiters for each chapter segment
  • Competitive Analysis for each chapter segment
  • Section on recent mergers & acquisitions
Anesthesia is drug that is administered in either a gas form or an injection to induce insensitivity to pain and lack of awareness typically prior to surgical operations. Nurse anesthetists are the primary providers of anesthesia care to patients in the United States and have been responsible for doing such for over 150 years. In order to administer anesthesia, a credential known as the CRNA (Certified Registered Nurse Anesthetist) is required. According to the American Association of Nurse Anesthetists (AANA) 2016 Practice Profile Survey, approximately 43 million patients received anesthesia in the United States on an annual basis. The type of anesthesia delivered varies but can be categorized as general, local or regional. General anesthesia is also further subdivided into intravenous (IV) and inhalation anesthesia.
Anesthesia delivery units, also known as anesthesia machines or ADUs, are used for the administration of general anesthesia through inhalation. Anesthesia machines are considered to be the most important piece of equipment used by anesthesiologists. They perform several functions, including mixing anesthetic gases and oxygen, ventilating the patient and vaporizing volatile anesthetic drugs. Pressurized gas cylinders or centralized hospital gas supply connections are used to deliver oxygen, nitrous oxide and other anesthetic gases at high pressures. The gas either is used to transport vaporized anesthetic agents like trilene, ether, halothane, fluorothane, desflurane, sevoflurane and others, or is sent directly to reservoir bags. Traditionally, the bags would be manually squeezed to pump the gas through a ventilation system into the patient’s lungs. In modern equipment, this process is typically automated.
The invention of the original ADU is typically credited to British anesthesiologist Dr. H.E.G. Boyle, who, along with fellow British anesthesiologist Dr. Geoffrey Marshall, designed the machine while treating casualties in World War I. As the use of the ADU (typically referred to as “Boyle’s Machine”) grew after the war, manual ventilation was eventually replaced with the integration of ventilators. Additional parameters were added as newer gases and anesthetic agents were developed. As a precaution to ensure safer anesthetic practices, anesthesia machines are typically equipped with various safety alarms and basic anesthesia agent detectors. ADUs offer significantly greater levels of sophistication, with current designs incorporating anesthesia, ventilation and gas monitoring units into an integrated anesthesia workstation. A critical feature for the future development of ADUs will be the integration of information management systems into anesthesia workstations, both in the operating room (OR) and hospital-wide.
ADUs are most commonly used in the OR in both hospitals and ambulatory surgery centers (ASCs), but they can also be used in the hospital outside of the OR, in obstetrics, magnetic resonance imaging (MRI), and other suites, such as the catheterization laboratory and computed tomography (CT) suites. These devices are often paired or, in some cases, integrated with gas disposal units and anesthesia monitors. In cases where they are integrated, a single unit is referred to as an anesthesia workstation.
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Note: Product cover images may vary from those shown
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FEATURED COMPANIES

  • Airgas
  • DeVilbiss
  • Global Medical Holdings
  • Massimo
  • Nidek
  • ResMed
  • MORE
Competitive Analysis
Market Trends
Market Developments
Procedure Codes Investigated
Markets Included
Key Report Updates
Version History

1. Research Methodology
1.1 Research Scope
9-Step Methodology
Step 1: Project Initiation & Team Selection
Step 2: Prepare Data Systems and Perform Secondary Research
Step 3: Preparation for Interviews & Questionnaire Design
Step 4: Performing Primary Research
Step 5: Research Analysis: Establishing Baseline Estimates
Step 6: Market Forecast and Analysis
Step 7: Identify Strategic Opportunities
Step 8: Final Review and Market Release
Step 9: Customer Feedback and Market Monitoring

2. Product Assessment
2.1 Product Portfolios
2.1.1 Anesthesia Delivery Unit
2.2 Regulatory Issues And Recalls
2.2.1 Bd-Carefusion
2.2.1.1 Anesthesia Disposables Devices
2.2.1.2 Ventilator Devices
2.2.1.3 Respiratory Disposables
2.2.2 Draeger
2.2.2.1 Anesthesia Delivery
2.2.2.2 Ventilator Devices
2.2.2.3 Anesthesia Disposables
2.2.3 Drive-Devilbiss
2.2.3.1 Therapeutic Obstructive Sleep Apnea
2.2.4 GE Healthcare
2.2.4.1 Anesthesia Delivery Unit
2.2.4.2 Anesthesia Monitor
2.2.5 Invacare
2.2.5.1 Oxygen Therapy
2.2.6 Natus-Embla
2.2.6.1 Sleep Diagnostics
2.2.7 Philips Healthcare
2.2.7.1 Anesthesia Monitor
2.2.8 Resmed
2.2.8.1 Ventilators
2.2.9 Teleflex
2.2.9.1 Respiratory Disposables
2.3 Clinical Trials
2.3.1 Drive-Devilbiss
2.3.1.1 Cpap Devices
2.3.2 Fisher & Paykel
2.3.2.1 Therapeutic Obstructive Sleep Apnea Devices
2.3.3 Ge Healthcare
2.3.3.1 Anesthesia Information Management System
2.3.4 Resmed
2.3.4.1 Ventilators
2.3.4.2 Therapeutic Obstructive Sleep Apnea Devices
2.3.4.3 Sleep Diagnostic Devices
2.3.5 Teleflex
2.3.5.1 Oxygen Therapy

3. Anesthesia Delivery Unit Market
3.1 Introduction
3.1.1 Anesthesia Delivery Unit Classification
3.1.2 Anesthesia Delivery Unit Classification
3.2 Market Overview
3.3 Market Analysis And Forecast
3.3.1 Total Anesthesia Delivery Unit Market
3.3.1.1 Replacement Units and New Sales
3.3.2 Hospital OR Anesthesia Delivery Unit Market
3.3.2.1 High Complexity Hospital OR Anesthesia Delivery Unit Market
3.3.2.2 Low Complexity Hospital OR Anesthesia Delivery Unit Market
3.3.3 Other Hospital Suite (MRI, Obstetrics and Other/Alternate) ADU Market
3.3.3.1 MRI Anesthesia Delivery Unit Market
3.3.3.2 Obstetric Anesthesia Delivery Unit Market
3.3.3.3 Other/Alternate Suite Anesthesia Delivery Unit Market
3.3.4 Ambulatory Surgery Center Anesthesia Delivery Unit Market
3.3.4.1 New and Refurbished ADUs in the ASC
3.4 Drivers And Limiters
3.4.1 Market Drivers
3.4.2 Market Limiters
3.5 Competitive Market Share Analysis

Abbreviations
Appendix: Company Press Releases

List of Charts
Chart 1 1: Anesthesia, Respiratory and Sleep Management Market by Segment, U.S., 2013 - 2023
Chart 1 2: Anesthesia, Respiratory and Sleep Management Overview, U.S., 2016 & 2023
Chart 3 1: Anesthesia Delivery Unit Market by Segment, U.S., 2013 - 2023
Chart 3 2: Anesthesia Delivery Unit Market Breakdown, U.S., 2016
Chart 3 3: Anesthesia Delivery Unit Market Breakdown, U.S., 2023
Chart 3 4: Total Anesthesia Delivery Unit Market, U.S., 2023
Chart 3 5: Hospital OR Anesthesia Delivery Unit Market, U.S., 2013 - 2023
Chart 3 6: High Complexity Hospital OR Anesthesia Delivery Unit Market, U.S., 2013 - 2023
Chart 3 7: Low Complexity Hospital OR Anesthesia Delivery Unit Market, U.S., 2013 - 2023
Chart 3 8: Other Hospital Suite Anesthesia Delivery Unit Market, U.S., 2013 - 2023
Chart 3 9: MRI Anesthesia Delivery Unit Market, U.S., 2013 - 2023
Chart 3 10: Obstetric Anesthesia Delivery Unit Market, U.S., 2013 - 2023
Chart 3 11: Other/Alternate Suite Anesthesia Delivery Unit Market, U.S., 2013 - 2023
Chart 3 12: Ambulatory Surgery Center Anesthesia Delivery Unit Market, U.S., 2013 - 2023
Chart 3 13: Leading Competitors, Anesthesia Delivery Unit Market, U.S., 2016

List of Figures
Figure 1 1: Anesthesia, Respiratory and Sleep Management Competitor Market Share Ranking by Segment, U.S., 2016 (1 of 2)
Figure 1 2: Anesthesia, Respiratory and Sleep Management Competitor Market Share Ranking by Segment, U.S., 2016 (2 of 2)
Figure 1 3: Companies Researched in this Report, U.S., 2016
Figure 1 4: Factors Impacting the Anesthesia, Respiratory and Sleep Management Market by Segment, U.S. (1 of 2)
Figure 1 5: Factors Impacting the Anesthesia, Respiratory and Sleep Management Market by Segment, U.S. (2 of 2)
Figure 1 6: Recent Events in the Anesthesia, Respiratory and Sleep Management Market, U.S., 2013 - 2016
Figure 1 7: Procedure Codes Investigated, U.S., 2016
Figure 1 8: Anesthesia, Respiratory and Sleep Management Markets Covered, U.S., 2016 (1 of 4)
Figure 1 9: Anesthesia, Respiratory and Sleep Management Markets Covered, U.S., 2016 (2 of 4)
Figure 1 10: Anesthesia, Respiratory and Sleep Management Markets Covered, U.S., 2016 (3 of 4)
Figure 1 11: Anesthesia, Respiratory and Sleep Management Markets Covered, U.S., 2016 (4 of 4)
Figure 1 12: Key Report Updates
Figure 1 13: Version History
Figure 2 1: Anesthesia Delivery Unit Devices by Company
Figure 2 2: Class 2 Device Recall BD-Carefusion
Figure 2 3: Class 2 Device Recall BD-Carefusion
Figure 2 4: Class 2 Device Recall BD-CareFusion
Figure 2 5: Class 1 Device Recall BD-CareFusion
Figure 2 6: Class 1 Device RecallBD-CareFusion
Figure 2 7: Class 1 Device Recall BD-CareFusion
Figure 2 8: Class 1 Device Recall BD-CareFusion
Figure 2 9: Class 2 Device Recall BD-CareFusion
Figure 2 10: Class 2 Device Recall Draeger
Figure 2 11: Class 1 Device Recall Draeger
Figure 2 12: Class 2 Device Recall Draeger
Figure 2 13: Class 2 Device Recall Draeger
Figure 2 14: Class 1 Device Recall Draeger
Figure 2 15: Class 1 Device Recall Draeger
Figure 2 16: Class 1 Device Recall Draeger
Figure 2 17: Class 1 Device Recall Draeger
Figure 2 18: Class 2 Device Recall Draeger
Figure 2 19: Class 2 Device Recall Draeger
Figure 2 20: Class 2 Device Recall Draeger
Figure 2 21: Class 3 Device Recall DeVilbiss
Figure 2 22: Class 2 Device Recall GE Healthcare
Figure 2 23: Class 2 Device Recall GE Healthcare
Figure 2 24: Class 2 Device Recall GE Healthcare
Figure 2 25: Class 2 Device Recall GE Healthcare
Figure 2 26: Class 2 Device Recall GE Healthcare
Figure 2 27: Class 2 Device Recall GE Healthcare
Figure 2 28: Class 2 Device Recall GE Healthcare
Figure 2 29: Class 2 Device Recall GE Healthcare
Figure 2 30: Class 2 Device Recall GE Healthcare
Figure 2 31: Class 2 Device Recall GE Healthcare
Figure 2 32: Class 2 Device Recall GE Healthcare
Figure 2 33: Class 2 Device Recall GE Healthcare
Figure 2 34: Class 2 Device Recall GE Healthcare
Figure 2 35: Class 2 Device Recall GE Healthcare
Figure 2 36: Class 2 Device Recall GE Healthcare
Figure 2 37: Class 2 Device Recall GE Healthcare
Figure 2 38: Class 2 Device Recall GE Healthcare
Figure 2 39: Class 2 Device Recall Invacare
Figure 2 40: Class 2 Device Recall Invacare
Figure 2 41: Class 2 Device Recall Natus-Embla
Figure 2 42: Class 2 Device Recall Philips Healthcare
Figure 2 43: Class 2 Device Recall ResMed
Figure 2 44: Class 2 Device Recall ResMed
Figure 2 45: Class 1 Device Recall Teleflex
Figure 2 46: Class 1 Device Recall Teleflex
Figure 2 47: Class 2 Device Recall Teleflex
Figure 2 48: Revised Algorithm for Next Generation DeVilbiss Healthcare CPAP
Figure 2 49: Laboratory Assessment of Pilairo Q CPAP Mask Performance and Ease of Use
Figure 2 50: CPAP In-home Assessment NZ
Figure 2 51: CPAP In-home Assessment Australia
Figure 2 52: CPAP In-home Assessment Australia
Figure 2 53: Investigative Headgear With CPAP Mask
Figure 2 54: Evaluation of APAP With SensAwake in OSA and Insomnia Patients
Figure 2 55: Pilairo Lab Market Research
Figure 2 56: A Comparison of CPAP With and Without Humidification: A Pilot Study
Figure 2 57: Comparison Study of the ICON™ CPAP Series With and Without SensAwake™
Figure 2 58: Airway Pressure During Nasal High Flow and CPAP in Neonates
Figure 2 59: Airway Pressure During Nasal High Flow and CPAP in Neonates
Figure 2 60: The Evaluation of a Gender-based Sizing Model for Full Face Masks
Figure 2 61: Measurement of NonInvasive Blood Pressure
Figure 2 62: Intelligent Volume Assured Pressure Support to Improve Sleep Quality and Respiratory Events
Figure 2 63: Adaptive Servo Ventilation (ASV) in Heart Failure
Figure 2 64: Assessment of the Effect of PAP on Energy and Vitality in Mild OSA Patients
Figure 2 65: AutoSet for Her Quality of Life Clinical Trial (FEM-PAP)
Figure 2 66: CPAP vs ASV for Insomnia (P2P)
Figure 2 67: Comparison of Auto-Adjusting Positive Airway Pressure Devices
Figure 2 68: Pilot Study Evaluating Feasibility and Benefits of Telemonitored NIV Treatment
Figure 2 69: Positive Airway Pressure Therapy Study in Sleep Apnea
Figure 2 70: The Evaluation of a New Sleep Algorithm
Figure 2 71: Efficacy of Telemonitoring on CPAP Treatment
Figure 2 72: Evaluation and Control of WAG in PACU Within Patient and Caregiver Breathing Zone
Figure 3 1: Anesthesia Delivery Unit Market by Segment, U.S., 2013 - 2023
Figure 3 2: Total Anesthesia Delivery Unit Market, U.S., 2013 - 2023
Figure 3 3: Replacement Units and New Sales, Total Anesthesia Delivery Unit Market, U.S., 2012 - 2022
Figure 3 4: Hospital OR Anesthesia Delivery Unit Market, U.S., 2013 - 2023
Figure 3 5: High Complexity Hospital OR Anesthesia Delivery Unit Market, U.S., 2013 - 2023
Figure 3 6: Low Complexity Hospital OR Anesthesia Delivery Unit Market, U.S., 2013 - 2023
Figure 3 7: Other Hospital Suite Anesthesia Delivery Unit Market, U.S., 2013 - 2023
Figure 3 8: MRI Anesthesia Delivery Unit Market, U.S., 2013 - 2023
Figure 3 9: Obstetric Anesthesia Delivery Unit Market, U.S., 2013 - 2023
Figure 3 10: Other/Alternate Suite Anesthesia Delivery Unit Market, U.S., 2013 - 2023
Figure 3 11: Ambulatory Surgery Center Anesthesia Delivery Unit Market, U.S., 2013 - 2023
Figure 3 12: New and Refurbished Units, Ambulatory Surgery Center Anesthesia Delivery Unit Market, U.S., 2016
Figure 3 13: Drivers and Limiters, Anesthesia Delivery Unit Market, U.S., 2016
Figure 3 14: Leading Competitors, Anesthesia Delivery Unit Market, U.S., 2016
Note: Product cover images may vary from those shown
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  • Airgas
  • Ambu
  • BD-CareFusion
  • Becton Dickinson
  • CAIRE Inc.
  • Covidien
  • Cramer Decker
  • DeVilbiss
  • eVent
  • Fisher & Paykel
  • Flexicare
  • Flotec
  • Fukuda Denshi
  • GE Healthcare
  • Global Medical Holdings
  • Graham Field
  • Inogen
  • Intersurgical
  • Invacare
  • Mada Medical
  • Maquet
  • Massimo
  • Medis
  • Mercury Medical
  • Metal Impact
  • Mindray
  • Natus Medical
  • Nellcor
  • Nidek
  • O2 Concepts
  • Omron
  • Oxlife
  • Penlon
  • Percussionaire
  • Philips Respironics
  • ResMed
  • Sechrist
  • Smiths Medical
  • Somnostar
  • Spacelabs
  • SunMed
  • Teleflex
  • Ventlab
  • VisionAire
  • Welch Allyn
  • Westmed
  • Zoll
Note: Product cover images may vary from those shown
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Note: Product cover images may vary from those shown
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