血行動態モニタリングシステムの世界市場（2021年～2028年）

当レポートでは、世界の血行動態モニタリングシステム市場について調査分析し、市場力学、業界分析、市場分析、競合情勢など、体系的な情報を提供しています。

目次

第1章 世界の血行動態モニタリングシステム市場の調査手法と範囲

• 調査手法
• 調査の目的と調査範囲

第2章 世界の血行動態モニタリングシステム市場－市場の定義と概要

第3章 世界の血行動態モニタリングシステム市場－エグゼクティブサマリー

• 市場の内訳：製品別
• 市場の内訳：タイプ別
• 市場の内訳：エンドユーザー別
• 市場の内訳：地域別

第4章 世界の血行動態モニタリングシステム市場－市場力学

• 市場に影響を与える要因
  • 促進要因
  • 抑制要因
  • 市場機会
  • 影響分析

第5章 世界の血行動態モニタリングシステム市場－業界分析

• ポーターのファイブフォース分析
• サプライチェーン分析
• 価格分析
• 規制分析
• 償還分析

第6章 世界の血行動態モニタリングシステム市場－COVID-19分析

• 市場のCOVID-19分析
  • COVID-19以前の市場シナリオ
  • 現在のCOVID-19の市場シナリオ
  • COVID-19以後の市場シナリオ/将来の市場シナリオ
• COVID-19における価格の力学
• 需要と供給のスペクトル
• パンデミック時の市場に関連する政府のイニシアチブ
• メーカーの戦略的イニシアチブ
• 結論

第7章 世界の血行動態モニタリングシステム市場：製品別

• イントロダクション
  • 市場規模分析、および前年比成長分析（％）：製品別
  • 市場魅力指数：製品別
• 使い捨て*
  • イントロダクション
  • 市場規模分析、100万米ドル（2018年～2028年）、および前年比成長分析（％）（2020年～2028年）
• モニター

第8章 世界の血行動態モニタリングシステム市場：タイプ別

• イントロダクション
  • 市場規模分析、および前年比成長分析（％）：タイプ別
  • 市場魅力指数：タイプ別
• 侵襲*
  • イントロダクション
  • 市場規模分析、100万米ドル（2018年～2028年）、および前年比成長分析（％）（2020年～2028年）
• 低侵襲
• 非侵襲

第9章 世界の血行動態モニタリングシステム市場：エンドユーザー別

• イントロダクション
  • 市場規模分析、および前年比成長分析（％）：エンドユーザー別
  • 市場魅力指数：エンドユーザー別
• 病院*
  • イントロダクション
  • 市場規模分析、100万米ドル（2018年～2028年）、および前年比成長分析（％）（2020年～2028年）
• クリニック
• 外来ケアセンター
• 在宅医療
• その他

第10章 世界の血行動態モニタリングシステム市場：地域別

• イントロダクション
  • 市場規模分析、100万米ドル（2018年～2028年）、および前年比成長分析（％）（2020年～2028年）：地域別
  • 市場魅力指数：地域別
• 北米
• 欧州
• 南米
• アジア太平洋
• 中東とアフリカ

第11章 世界の血行動態モニタリングシステム市場－競合情勢

• 主な開発と戦略
• 企業シェア分析
• 製品のベンチマーク
• 注目すべき主要企業

第12章 世界の血行動態モニタリングシステム市場－企業プロファイル概要

• Edwards Lifesciences Corporation*
  • 企業概要
  • 製品ポートフォリオおよび説明
  • 主要ハイライト
  • 財務概要
• Getinge AB
• Baxter International Inc
• Dragerwerk AG & Co.KGaA
• LiDO Group
• Osypka Medical GmbH
• Deltex Medical
• ICU Medical
• CN SYSTEMS MEDIZINTECHNIK GMBH
• NI Medical
• GE Healthcare
• Draeger Medical

第13章 世界の血行動態モニタリングシステム市場－DataM

• 付録
• 当社・サービスについて
• お問い合わせ

Market Overview

The global hemodynamic monitoring systems market size was valued US$ XX million in 2020 and is estimated to reach US$ XX million by 2028, growing at a CAGR of XX% during the forecast period (2021-2028).

The hemodynamic monitoring system measures blood pressure in veins, the heart, and arteries and blood flow and oxygen levels in the blood. A hemodynamic monitoring system is typically used for individuals with cardiovascular health conditions who need to be examined, such as those undergoing heart surgery. Furthermore, these tests detect changes in cardiac functions such as decreased urine production, gastrointestinal bleeding, cardiomyopathy, congestive heart failure, and myocardial infarction.

Market Dynamics

The development of technologically modern minimally invasive or non-invasive hemodynamic monitoring products has increased the system's sales in-home care settings and clinics. The minimally invasive monitoring systems aid in stroke volume tracking and provide dynamic information on fluid responsiveness. Some of the aid of the system in evaluating volumetric preload variables, while others use proprietary catheters to highlight the continuous volume of central venous saturation. These minimally invasive system variables improve hemodynamic monitoring The increasing number of critically ill geriatric cases, rising prevalence of cardiovascular disorders and diabetes, rising demand for home-based and non-invasive monitoring systems, and technological advancements in the hemodynamic monitoring system are driving the hemodynamic monitoring system market.

The increase in prevalance of cardiovascular diseases in the market will drive the market growth

The increasing prevalence of cardiovascular diseases has been the primary driving force behind the global hemodynamic monitoring systems market. Adopting unhealthy, sedentary lifestyles by an increasing demographic of urban users is a key factor in this. It has resulted in cardiovascular disease becoming a disease of the young and middle-aged rather than solely confined to the elderly. The unhealthy dietary habits of city dwellers have also contributed to the rising prevalence of cardiovascular diseases. They are thus expected to remain a significant indirect contributor to the global hemodynamic monitoring systems market.

Cardiovascular disease is the leading cause of death for men and women worldwide. According to the American College of Cardiology, a myocardial infarction occurs every 40 seconds in the United States. In 2017, an estimated 356,461 Americans witnessed an out-of-hospital cardiac arrest as determined by emergency medical services. In 52% of cases, emergency medical services were initiated. Diabetes, hypertension, and other lifestyle-related diseases are becoming more common. According to the WHO, an estimated 1.13 billion people worldwide suffer from hypertension. Furthermore, with an aging population and the need to be monitored regularly, an effective system for closely monitoring the heart is required.

In that context, the HMS is used to assess patients' quality of life, conduct a clinical examination of their cardiovascular health, and determine their prognosis following cardiac surgery. These measurable parameters are used in pressure transducers, electrical and photometric devices, and invasive and non-invasive devices. This system also includes several intravascular catheters used to assess a patient's cardiovascular health. The benefits of the hemodynamic monitoring system, which aids in treating cardiovascular disease and other lifestyle diseases, are driving the market growth.

Furthermore, several organizations are concentrating their efforts on making these hemodynamic monitoring systems more technologically advanced to meet rising product demand through mergers, acquisitions, and product launches. For example, in 2019, Baxter acquired Cheetah Medical, a non-invasive hemodynamic monitoring technologies provider, for a price that could exceed USD 200 million. Cheetah Medical's Starling SV system, designed to provide clinicians with fluid responsiveness measurements to maintain organ and tissue perfusion, will be acquired by Baxter as part of the transaction. This market development by these companies is expected to fuel the growth of the hemodynamic monitoring system market. This contributes to the growth of the global hemodynamic monitoring systems market.

Rise in risk of complications associated with invasive monitoring system is likely to hamper the market growth

Apart from the discomfort of invasive monitoring (primarily the insertion of the pulmonary artery catheter), there are several risks associated with this technique, including sepsis, bleeding, cardiac arrhythmias, decreased circulation to the distal limb, bleeding, nerve damage (during insertion), thrombosis, air embolism, and pulmonary capillary necrosis. These variables raise the risk of death during invasive hemodynamic procedures. As a result, invasive hemodynamic monitoring is only recommended for a limited number of indications, provided that the risks are exceeded by the benefits of obtaining the necessary data during the procedure. Furthermore, invasive hemodynamic monitoring systems are not advised for elderly or weak patients. Furthermore, invasive hemodynamic monitoring is prohibitively expensive and necessitates skilled professionals to insert catheters into patients. Although invasive hemodynamic monitoring provides accurate, comprehensive, and continuous data about a patient's hemodynamic state, the risks mentioned above limit its use. Other variables limiting healthcare-related costs include price controls, competitive pricing, coverage and payment policies, technological assessments, and comparative effectiveness of therapies. The regulatory authentication/validation process for developing providers is lengthy projected to limit hemodynamic monitoring system sales growth.

COVID-19 Impact Analysis

The impact of the COVID-19 pandemic has increased hemodynamic monitoring system sales. With the rising global prevalence of cardiovascular diseases and the associated high susceptibility to variations in cardiac output, demand for precise and less time-consuming hemodynamic monitoring devices has increased.

Furthermore, portable and disposable hemodynamic monitoring devices have resulted in greater accessibility in developing countries. The trend of hemodynamic monitoring adoption is expected to continue steadily over the forecast period, owing to rising mortality cases resulting from multiple organ failures.

Segment Analysis

The non invasive segment is expected to grow at the fastest CAGR during the forecast period (2021-2028)

There has been a growing preference for noninvasive technologies over previously accepted invasive techniques in recent years.Noninvasive HMS allows for painless diagnosis and reduces patients' risk of contracting blood-borne infections. Furthermore, unlike invasive systems, these systems are simpler to use and can be operated by a nurse without a specialist/doctor. Because of this advantage, the hemodynamic state of multiple patients can be monitored simultaneously, resulting in lower staff and treatment costs. These benefits are expected to drive an increase in the market for noninvasive systems in the coming years. Noninvasive hemodynamic monitoring entails continuously measuring blood pressure with finger cuffs and measuring the cardiac output with the pulse contour method in critically ill patients. The Caretaker 4 from Caretaker Medical, for example, measures continuous beat-by-beat blood pressure ("cNIBP"), heart rate, and other physiological parameters with a finger cuff. During the projected period, the hemodynamic monitoring systems market will be fueled by the growing utilization of non invasive technology.

Geographical Analysis

North America region holds the largest market share of global hemodynamic monitoring systems market

North America now dominates the hemodynamic monitoring systems market, likely to do so for a few more years. The United States dominates the global hemodynamic monitoring systems market. Because of large market competitors, technologically equipped hospitals, and an increasing number of critically ill patients being treated in hospitals in the region, the rise of the US hemodynamic monitoring market is the most notable. Cheetah Medical Inc. gained FDA approval for their non-invasive hemodynamic monitoring device, 'Starling SV,' in 2016. The US hemodynamic monitoring market is likely to rise during the forecast period, thanks to increased FDA approvals for monitoring devices and new product releases.

The Asia Pacific is a market where companies should consider expanding their presence. According to the American Diabetes Association, Asia is home to more than 60% of the world's diabetic population. India and China are both densely populated nations. For example, in August 2020, the Government of India announced the creation of a national health ID for every Indian to create a centralized mechanism for uniquely identifying every participating user in the National Health Stack. The Asia Pacific region's growth rate in the global hemodynamic monitoring systems market will be encouraging.

Competitive Landscape

The hemodynamic monitoring systems market is highly competitive with presence of local as well as global companies. Some of the key players which are contributing to the growth of the market include Edwards Lifesciences Corporation,Getinge AB, Baxter International Inc, Dragerwerk AG & Co.KGaA, LiDO Group ,Osypka Medical GmbH, Deltex Medical , ICU Medical, ICU Medical, CN SYSTEMS MEDIZIN TECHNIK GMBH, NI Medical, GE Healthcare, Draeger Medical. The major players are adopting several growth strategies such as product launches, acquisitions, and collaborations, which are contributing to the growth of the hemodynamic monitoring systems market globally. For instance December 2019, Nihon Kohden has introduced the Life Scope®, SVM-7200 Series vital signs monitor, intended for outpatient facilities and beds that are not often monitored continually. Masimo paid $40.1 million for Lidco, a manufacturer of advanced hemodynamic monitoring devices, in November 2020. The acquisition will help the company provide innovative and best-in-class monitoring solutions for improved patient safety and outcomes.

Key Developments

In March 2018, Acumen Hypotension Prediction Index (HPI) software was released by Edwards Lifesciences in the United States.

In Feb 2018, LiDCO Group signed a distribution agreement with Spacelabs Healthcare SAS to distribute LiDCO products in France.

In September 2019,Cheetah Medical has agreed to be acquired by Baxter International Inc. The partnership highlights Baxter's continued commitment to enhancing clinical outcomes by utilizing a well-established patient monitoring technology to inform and guide physicians' treatment decisions.

In April 2017,Edwards Lifesciences Corporation's HemoSphere enhanced monitoring platform, which offers clinicians extraordinary clarity on a patient's hemodynamics, has obtained FDA approval.

Ewards Lifesciences Corporation

Overview: Edwards Lifesciences Corporation makes heart valve systems and repair products used to replace or repair a patient's diseased or defective heart valve. The company focuses on patient-centered innovations for structural heart disease and critical care monitoring.

Product Portfolio:

ClearSight system: The ClearSight system provides noninvasive access to automatically calculated, beat-to-beat hemodynamic information for a broader patient population, including those who would not ordinarily have an arterial line implanted. Your patient's finger is connected to the ClearSight system. The finger cuff can be used and reapplied on one patient for up to 72 hours after starting a measurement. After eight hours of continuous monitoring on a single finger, the finger cuff should be reapplied to another finger. Two ClearSight finger cuffs can be connected simultaneously to alternate the measurement between two fingers for added comfort. This allows for continuous monitoring for up to 72 hours.

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Visualize the composition of the global hemodynamic monitoring system market segmentation by product, type, end user, and region highlighting the key commercial assets and players.

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Excel data sheet with thousands of data points of global hemodynamic monitoring system market- level 4/5 segmentation.

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Target Audience

Service Providers/ Buyers

Industry Investors/Investment Bankers

Education & Research Institutes

Research Professionals

Emerging Companies

Manufacturers

Market Segmentation

Global Hemodynamic Monitoring Systems Market- By Product

Disposables

Monitors

Global Hemodynamic Monitoring Systems Market- By Type

Invasive

Minimally Invasive

Non- Invasive

Global Hemodynamic Monitoring Systems Market- By End User

Hospitals

Clinics

Ambulatory Care Center

Home Care Setting

Others

Global Hemodynamic Monitoring Systems Market- By Region

North America

Europe

Asia-Pacific

Middle East & Africa

South America

Table of Contents

1. Global Hemodynamic Monitoring Systems Market Methodology and Scope

• 1.1. Research Methodology
• 1.2. Research Objective and Scope of the Report

2. Global Hemodynamic Monitoring Systems Market- Market Definition and Overview

3. Global Hemodynamic Monitoring Systems Market- Executive Summary

• 3.1. Market Snippet by Product
• 3.2. Market snippet by Type
• 3.3. Market snippet by End User
• 3.4. Market Snippet by Region

4. Global Hemodynamic Monitoring Systems Market- Market Dynamics

• 4.1. Market Impacting Factors
  • 4.1.1. Drivers
    • 4.1.1.1. Increasing critically ill geriatric population.
    • 4.1.1.2. Rise in the prevalence of cardiovascular disorders and diabetes.
    • 4.1.1.3. Increasing demand for home-based and non-invasive monitoring systems.
    • 4.1.1.4. Advances in technology due to funding by private players and government bodies
    • 4.1.1.5. Increase in people suffering from hypertension.
  • 4.1.2. Restraints:
    • 4.1.2.1. Increasing incidences of complications associated with invasive monitoring system.
    • 4.1.2.2. Stringent FDA guidelines for approval of new system.
    • 4.1.2.3. Precision of CO determinations adversely affected under low flow conditions.
  • 4.1.3. Opportunity
  • 4.1.4. Impact Analysis

5. Global Hemodynamic Monitoring Systems Market- Industry Analysis

• 5.1. Porter's Five Forces Analysis
• 5.2. Supply Chain Analysis
• 5.3. Pricing Analysis
• 5.4. Regulatory Analysis
• 5.5. Reimbursement Analysis

6. Global Hemodynamic Monitoring Systems Market- COVID-19 Analysis

• 6.1. Analysis of Covid-19 on the Market
  • 6.1.1. Before COVID-19 Market Scenario
  • 6.1.2. Present COVID-19 Market Scenario
  • 6.1.3. After COVID-19 or Future Scenario
• 6.2. Pricing Dynamics Amid Covid-19
• 6.3. Demand-Supply Spectrum
• 6.4. Government Initiatives Related to the Market During Pandemic
• 6.5. Manufacturers Strategic Initiatives
• 6.6. Conclusion

7. Global Hemodynamic Monitoring Systems Market- By Technology

• 7.1. Introduction
  • 7.1.1. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Product Segment
  • 7.1.2. Market Attractiveness Index, By Product Segment
• 7.2. Disposables*
  • 7.2.1. Introduction
  • 7.2.2. Market Size Analysis, US$ Million, 2018-2028 and Y-o-Y Growth Analysis (%), 2020-2028
• 7.3. Monitors

8. Global Hemodynamic Monitoring Systems Market- By Type

• 8.1. Introduction
  • 8.1.1. Market Size Analysis, and Y-o-Y Growth Analysis (%),By Type
  • 8.1.2. Market Attractiveness Index, By Type
• 8.2. Invasive*
  • 8.2.1. Introduction
  • 8.2.2. Market Size Analysis, US$ Million, 2018-2028 and Y-o-Y Growth Analysis (%), 2020-2028
• 8.3. Minimally Invasive
• 8.4. Non-Invasive

9. Global Hemodynamic Monitoring Systems Market- By End User

• 9.1. Introduction
  • 9.1.1. Market Size Analysis, and Y-o-Y Growth Analysis (%), By End User
  • 9.1.2. Market Attractiveness Index, By End User Segment
• 9.2. Hospitals*
  • 9.2.1. Introduction
  • 9.2.2. Market Size Analysis, US$ Million, 2018-2028 and Y-o-Y Growth Analysis (%), 2020-2028
• 9.3. Clinics
• 9.4. Ambulatory Care Center
• 9.5. Home Care Setting
• 9.6. Others

10. Global Hemodynamic Monitoring Systems Market- By Region

• 10.1. Introduction
  • 10.1.1. Market Size Analysis, US$ Million, 2018-2028 and Y-o-Y Growth Analysis (%), 2020-2028, By Region
  • 10.1.2. Market Attractiveness Index, By Region
• 10.2. North America
  • 10.2.1. Introduction
  • 10.2.2. Key Region-Specific Dynamics
  • 10.2.3. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Product
  • 10.2.4. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Type
  • 10.2.5. Market Size Analysis ,and Y-o-Y Growth Analysis (%), By End User
  • 10.2.6. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Country
    • 10.2.6.1. U.S.
    • 10.2.6.2. Canada
    • 10.2.6.3. Mexico
• 10.3. Europe
  • 10.3.1. Introduction
  • 10.3.2. Key Region-Specific Dynamics
  • 10.3.3. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Product
  • 10.3.4. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Type
  • 10.3.5. Market Size Analysis, and Y-o-Y Growth Analysis (%),By End User
  • 10.3.6. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Country
    • 10.3.6.1. Germany
    • 10.3.6.2. U.K.
    • 10.3.6.3. France
    • 10.3.6.4. Italy
    • 10.3.6.5. Spain
    • 10.3.6.6. Rest of Europe
• 10.4. South America
  • 10.4.1. Introduction
  • 10.4.2. Key Region-Specific Dynamics
  • 10.4.3. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Product
  • 10.4.4. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Type
  • 10.4.5. Market Size Analysis, and Y-o-Y Growth Analysis (%), By End User
  • 10.4.6. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Country
    • 10.4.6.1. Brazil
    • 10.4.6.2. Argentina
    • 10.4.6.3. Rest of South America
• 10.5. Asia Pacific
  • 10.5.1. Introduction
  • 10.5.2. Key Region-Specific Dynamics
  • 10.5.3. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Product
  • 10.5.4. Market Size Analysis, and Y-o-Y Growth Analysis (%),By Type
  • 10.5.5. Market Size Analysis, and Y-o-Y Growth Analysis (%), By End User
  • 10.5.6. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Country
    • 10.5.6.1. China
    • 10.5.6.2. India
    • 10.5.6.3. Japan
    • 10.5.6.4. Australia
    • 10.5.6.5. Rest of Asia Pacific
• 10.6. Middle East and Africa
  • 10.6.1. Introduction
  • 10.6.2. Key Region-Specific Dynamics
  • 10.6.3. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Product
  • 10.6.4. Market Size Analysis, and Y-o-Y Growth Analysis (%), By Type
  • 10.6.5. Market Size Analysis, and Y-o-Y Growth Analysis (%), By End User

11. Global Hemodynamic Monitoring Systems Market- Competitive Landscape

• 11.1. Key Developments and Strategies
• 11.2. Company Share Analysis
• 11.3. Product Benchmarking
• 11.4. Key Companies to Watch

12. Global Hemodynamic Monitoring Systems Market- Company Profiles

• 12.1. Edwards Lifesciences Corporation*
  • 12.1.1. Company Overview
  • 12.1.2. Product Portfolio and Description
  • 12.1.3. Key Highlights
  • 12.1.4. Financial Overview
• 12.2. Getinge AB
• 12.3. Baxter International Inc
• 12.4. Dragerwerk AG & Co.KGaA
• 12.5. LiDO Group
• 12.6. Osypka Medical GmbH
• 12.7. Deltex Medical
• 12.8. ICU Medical
• 12.9. CN SYSTEMS MEDIZINTECHNIK GMBH
• 12.10. NI Medical
• 12.11. GE Healthcare
• 12.12. Draeger Medical

LIST NOT EXHAUSTIVE

13. Global Hemodynamic Monitoring Systems Market- DataM

• 13.1. Appendix
• 13.2. About Us and Services
• 13.3. Contact Us