Benign Prostatic Hyperplasia (BPH) Procedures, 2013 - 2023

  • ID: 4426640
  • Report
  • 195 pages
  • P&S Market Research
1 of 4

FEATURED COMPANIES

  • Advin Urology,
  • Karl Storz GmbH & Co. KG,
  • Lumenis Ltd.,
  • Medtronic Plc.
  • NxThera, Inc.,
  • Olympus Corporation,
  • MORE

Increasing life expectancy and fall in the birth rates are the major reasons for rise in the aging population. The people in this category require extensive care, since they are more prone to illness due to low immunity levels and longer recovery time. Increase in the aging population in the U.S., Germany, China and India in the next few years, is expected to create high demand for BPH treatment devices, since the population aged 50 years and above is more prone to BPH, and therefore tend to opt for various treatments that involve the use of procedures such as TURP, prostate implants and laser based treatments. Thus, growing aging population acts as a strong driver supporting the increase in the number of BPH procedures performed.

According to the National Institute of Health, it has been estimated that around 14 million men in the U.S. had symptoms suggestive of BPH, which can affect 50% of men aged between 51 and 60 years of age, and up to 90% of men aged more than 80 years. With 50% of men getting affected with BPH, there is a consequent increase in the BPH procedures.

Insights on Procedure Segments:

As per the findings of the research, surgical procedure held the largest share in the global BPH procedures, primarily due to increasing prevalence of BPH disorders. The number of laser based procedure is expected to register fastest growth during the forecast period since these procedures are as effective as surgical procedures and reduce the hospital stay time. Hospitals held the largest share of the number of BPH procedures performed, based on the end user. Ambulatory surgical centers are expected to witness the highest inflow of BPH patients for treatment during the forecast period, due to development of technologically advanced BPH procedures and rising prevalence of BPH disorders leading to the growth in the number of patients treated in the ambulatory surgical centers.

Europe Accounts for Largest Number of BPH Procedures:

Geographically, Europe accounted for the largest number of BPH procedures done in 2016. Growing ageing population, lower cost of BPH treatment as compared to the U.S., high healthcare spending, and technological advancements in the field of urological procedures technology are some of the factors driving the growth of the BPH procedures in the Europe. France, Germany and the U.K. are expected to be the most promising countries for the growth in number of the BPH procedures. In June 2016, National Institute of Health and Care Excellence (NICE) approved GreenLight XPS laser treatment for the treatment of BPH. NICE added that the widespread adoption of the procedure could save the National Health Services (NHS) an estimated $4.3 million (£3 million) a year. Asia-Pacific is expected to witness the high number of BPH procedures performed during the forecast period, owing to the rising prevalence of BPH disorders, increasing disposable income, aging population, and growing efforts to increase awareness about advanced BPH treatment procedures.

High number of outpatient procedures leading to technological advancements in the BPH treatment is a key trend in BPH procedures

There has been an increase in the use of minimally invasive procedures such as TUIP, laser based treatments, due to which several technological advancements are being done in the field of urology. Various treatment methods, such as the use of Rezum system and pulsed electromagnetic field therapy (PEMF), are being developed for the treatment of BPH. Rezum system manufactured by NxThera is a device that utilizes radiofrequency energy to create thermal energy in the form of water vapor to destroy excessive prostatic tissue growth caused by BPH, to resolve patient symptoms through a minimally invasive procedure, with few or no side effects.

Additionally, another example of technologically advanced BPH treatment devices include Dr Allen’s device for prostate care and ProVerum, which is used to restore function of the urethra in BPH to allow patients with this condition to urinate normally, relieving their symptoms while not interfering with sexual function. Dr Allen’s device uses thermobalancing therapy, which is different from other heating treatments as it does not regulate localized temperature.

Key Players are Launching New Products for BPH Treatment Procedures:

Key players are in the process of introducing new advanced products for BPH treatment procedures. For instance, in May 2016, Olympus Corporation (Olympus), announced the launch of USFDA cleared Plasma-OvalButton, an addition to the company’s Plasma Loops and electrodes product portfolio that utilizes Olympus’ plasma technology for urologic procedures, including minimally invasive surgery to reduce benign prostate hyperplasia (BPH).

In March 2016, Lumenis Ltd. (Lumenis), announced the expansion of its comprehensive Urology portfolio with the launch of Lumenis Pulse 30H, at the European Association of Urology Congress, in Munich.

Some of the other key players operating in the global BPH procedures include NxThera, Inc., Boston Scientific Corporation, Urologix, LLC., Karl Storz GmbH & Co. KG, Lumenis Ltd., Olympus Corporation, Advin Urology, Convergent Laser Technologies, Richard Wolf GmbH, Medtronic Plc.

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2 of 4

FEATURED COMPANIES

  • Advin Urology,
  • Karl Storz GmbH & Co. KG,
  • Lumenis Ltd.,
  • Medtronic Plc.
  • NxThera, Inc.,
  • Olympus Corporation,
  • MORE

1. Research Background
1.1 Research Objectives
1.2 Procedure Definition
1.3 Research Scope
1.3.1 Market Segmentation by Type
1.3.2 Market Segmentation by End User
1.3.3 Market Segmentation by Geography
1.3.4 Analysis Period
1.3.5 Procedures Data Reporting Unit
1.3.5.1 Volume
1.4 Key Stakeholders

2. Research Methodology
2.1 Secondary Research
2.2 Primary Research
2.2.1 Breakdown of Primary Research Respondents
2.2.1.1 By region
2.2.1.2 By industry participant
2.2.1.3 By company type
2.3 Procedures Estimation
2.4 Data Triangulation
2.5 Assumptions for the Study

3. Executive Summary

4. Introduction
4.1 Definition of Market Segments
4.1.1 By Product
4.1.1.1 Surgical procedure
4.1.1.1.1 Transurethral resection of the prostate (TURP)
4.1.1.1.2 Transurethral incision of the prostate (TUIP)
4.1.1.2 Laser based treatment
4.1.1.2.1 Holmium lasers
4.1.1.2.2 Green light lasers
4.1.1.2.3 Thulium lasers
4.1.1.2.4 Others
4.1.1.3 Other energy based treatment
4.1.1.3.1 Transurethral micROWave thermotherapy (TUMT)
4.1.1.3.2 Transurethral needle ablation (TUNA)
4.1.1.3.3 High-intensity focused ultrasound (HIFU) and water-induced thermotherapy
4.1.1.3.4 Others
4.1.2 By End User
4.1.2.1 Hospitals
4.1.2.2 Specialty clinics
4.1.2.3 Ambulatory surgery centers
4.2 Market Dynamics
4.2.1 Trends
4.2.1.1 High number of outpatient procedures leading to technological advancements in BPH treatment
4.2.2 Drivers
4.2.2.1 GROWing aging population
4.2.2.2 Rising prevalence of BPH disorders
4.2.2.3 Increase in the awareness for BPH disorders
4.2.2.4 Surge in the adoption of minimally invasive procedures
4.2.2.5 Impact analysis of drivers on market forecast
4.2.3 Restraints
4.2.3.1 Side effects associated with BPH treatment procedures
4.2.3.2 Unfavorable healthcare reforms in the U.S.
4.2.3.3 Impact analysis of restraints on market forecast
4.2.4 Opportunities
4.2.4.1 Reimbursement for BPH procedures
4.2.4.2 GROWing healthcare market in emerging countries

5. Global Procedures and Forecast
5.1 Global BPH Procedures
5.1.1 Global BPH Procedures, by Type
5.1.1.1 Global surgical BPH procedures, by type
5.1.1.2 Global laser based BPH procedures, by type
5.1.1.3 Global other energy based BPH procedures, by type
5.1.2 Global BPH Procedures, by End User
5.1.3 Global BPH Procedures, by Region

6. Europe Procedures and Forecast
6.1 Europe BPH Procedures
6.1.1 Europe BPH Procedures, by Type
6.1.1.1 Europe surgical BPH procedures, by type
6.1.1.2 Europe laser based BPH procedures, by type
6.1.1.3 Europe other energy based BPH procedures, by type
6.1.2 Europe BPH Procedures, by End User
6.1.3 Europe BPH Procedures, by Country
6.1.3.1 Germany BPH procedures
6.1.3.1.1 Germany BPH procedures, by type
6.1.3.1.1.1 Germany surgical BPH procedures, by type
6.1.3.1.1.2 Germany laser based BPH procedures, by type
6.1.3.1.1.3 Germany other energy based BPH procedures, by type
6.1.3.2 U.K. BPH procedures
6.1.3.2.1 U.K. BPH procedures, by type
6.1.3.2.1.1 U.K. surgical BPH procedures, by type
6.1.3.2.1.2 U.K. laser based BPH procedures, by type
6.1.3.2.1.3 U.K. other energy based BPH procedures, by type
6.1.3.3 France BPH procedures, by type
6.1.3.3.1 France BPH procedures, by type
6.1.3.3.1.1 France surgical BPH procedures, by type
6.1.3.3.1.2 France laser based BPH procedures, by type
6.1.3.3.1.3 France other energy based BPH procedures, by type
6.1.3.4 Italy BPH procedures
6.1.3.4.1 Italy BPH procedures, by type
6.1.3.4.1.1 Italy surgical BPH procedures, by type
6.1.3.4.1.2 Italy laser based BPH procedures, by type
6.1.3.4.1.3 Italy other energy based BPH procedures, by type
6.1.3.5 Spain BPH procedures
6.1.3.5.1 Spain BPH procedures, by type
6.1.3.5.2 Spain surgical BPH procedures, by type
6.1.3.5.2.1 Spain laser based BPH procedures, by type
6.1.3.5.2.2 Spain other energy based BPH procedures, by type

7. North America Procedures and Forecast
7.1 North America BPH Procedures
7.1.1 North America BPH Procedures, by Type
7.1.1.1 North America surgical BPH procedures, by type
7.1.1.2 North America laser based BPH procedures, by type
7.1.1.3 North America other energy based BPH procedures, by type
7.1.2 North America BPH Procedures, by End User
7.1.3 North America BPH Procedures, by Country
7.1.3.1 U.S. BPH procedures, by type
7.1.3.1.1 U.S. BPH procedures, by type
7.1.3.1.1.1 U.S. surgical BPH procedures, by type
7.1.3.1.1.2 U.S. laser based BPH procedures, by type
7.1.3.1.1.3 U.S. other energy based BPH procedures, by type
7.1.3.2 Canada BPH procedures, by type
7.1.3.2.1 Canada BPH procedures, by type
7.1.3.2.1.1 Canada surgical BPH procedures, by type
7.1.3.2.1.2 Canada laser based BPH procedures, by type
7.1.3.2.1.3 Canada other energy based BPH procedures, by type

8. Asia-Pacific (APAC) Procedures and Forecast
8.1 APAC BPH Procedures
8.1.1 APAC BPH Procedures, by Type
8.1.1.1 APAC surgical BPH procedures, by type
8.1.1.2 APAC laser based BPH procedures, by type
8.1.1.3 APAC other energy based BPH procedures, by type
8.1.2 APAC BPH Procedures, by End User
8.1.3 APAC BPH Procedures, by Country
8.1.3.1 Australia BPH procedures
8.1.3.1.1 Australia BPH procedures, by type
8.1.3.1.1.1 Australia surgical BPH procedures, by type
8.1.3.1.1.2 Australia laser based BPH procedures, by type
8.1.3.1.1.3 Australia other energy based BPH procedures, by type
8.1.3.2 Japan BPH procedures
8.1.3.2.1 Japan BPH procedures, by type
8.1.3.2.1.1 Japan surgical BPH procedures, by type
8.1.3.2.1.2 Japan laser based BPH procedures, by type
8.1.3.2.1.3 Japan other energy based BPH procedures, by type
8.1.3.3 South Korea BPH procedures
8.1.3.3.1 South Korea BPH procedures, by type
8.1.3.3.1.1 South Korea surgical BPH procedures, by type
8.1.3.3.1.2 South Korea laser based BPH procedures, by type
8.1.3.3.1.3 South Korea other energy based BPH procedures, by type

9. Rest of the World (ROW) Procedures and Forecast
9.1 ROW BPH Procedures
9.1.1 ROW BPH Procedures, by Type
9.1.1.1 ROW surgical BPH procedures, by type
9.1.1.2 ROW laser based BPH procedures, by type
9.1.1.3 ROW other energy based BPH procedures, by type
9.1.2 ROW BPH Procedures, by End User

10. Competitive Landscape
10.1 Product Benchmarking of Key Players
10.2 Global Strategic Developments of Key Players
10.2.1 Product Launch
10.2.2 Geographic Expansion
10.2.3 Client Win

11. Company Profiles
11.1 NeoTract, Inc.
11.1.1 Business Overview
11.1.2 Product and Service Offerings
11.2 NxThera, Inc.
11.2.1 Business Overview
11.2.2 Product and Service Offerings
11.3 Boston Scientific Corporation
11.3.1 Business Overview
11.3.2 Product and Service Offerings
11.3.3 Key Financial Summary
11.3.4 Strategic Growth Plans11.4 Urologix, LLC
11.4.1 Business Overview
11.4.2 Product and Service Offerings
11.5 Karl Storz GmbH & Co. KG
11.5.1 Business Overview
11.5.2 Product and Service Offerings
11.6 Lumenis Ltd.
11.6.1 Business overview
11.6.2 Product and service offerings
11.7 Olympus Corporation
11.7.1 Business overview
11.7.2 Product and service offerings
11.7.3 Key Financial Summary
11.7.4 Strategic Growth Plans
11.8 Advin Urology
11.8.1 Business overview
11.8.2 Product and service offerings
11.9 Convergent Laser Technologies
11.9.1 Business overview
11.9.2 Product and service offerings
11.1 Richard Wolf GmbH
11.10.1 Business overview
11.10.2 Product and service offerings
11.11 Medtronic PLC
11.11.1 Business Overview
11.11.2 Product and Service Offerings
11.11.3 Key Financial Summary
11.11.4 Strategic Growth Plans

12. Appendix
12.1 Abbreviations

List of Tables:

Table 1 Analysis Period Of The Study
Table 2 Global BPH Procedures Snapshot
Table 3 Drivers For The Market: Impact Analysis
Table 4 Restraints For The Market: Impact Analysis
Table 5 Global BPH Procedures, By Type (2013-2016)
Table 6 Global BPH Procedures, By Type (2017-2023)
Table 7 Global Surgical BPH Procedures, By Type (2013-2016)
Table 8 Global Surgical BPH Procedures, By Type (2017-2023)
Table 9 Global Laser Based BPH Procedures, By Type (2013-2016)
Table 10 Global Laser Based BPH Procedures, By Type (2017-2023)
Table 11 Global Other Energy Based BPH Procedures, By Type (2013-2016)
Table 12 Global Other Energy Based BPH Procedures, By Type (2017-2023)
Table 13 Global BPH Procedures, By End User (2013-2016)
Table 14 Global BPH Procedures, By End User (2017-2023)
Table 15 Global BPH Procedures, By Region (2013-2016)
Table 16 Global BPH Procedures, By Region (2017-2023)
Table 17 Europe BPH Procedures, By Type (2013-2016)
Table 18 Europe BPH Procedures, By Type (2017-2023)
Table 19 Europe Surgical BPH Procedures, By Type (2013-2016)
Table 20 Europe Surgical BPH Procedures, By Type (2017-2023)
Table 21 Europe Laser Based BPH Procedures, By Type (2013-2016)
Table 22 Europe Laser Based BPH Procedures, By Type (2017-2023)
Table 23 Europe Other Energy Based BPH Procedures, By Type (2013-2016)
Table 24 Europe Other Energy Based BPH Procedures, By Type (2017-2023)
Table 25 Europe BPH Procedures, By End User (2013-2016)
Table 26 Europe BPH Procedures, By End User (2017-2023)
Table 27 Europe BPH Procedures, By Country (2013-2016)
Table 28 Europe BPH Procedures, By Country (2017-2023)
Table 29 Germany BPH Procedures, By Type (2013-2016)
Table 30 Germany BPH Procedures, By Type (2017-2023)
Table 31 Germany Surgical BPH Procedures, By Type (2013-2016)
Table 32 Germany Surgical BPH Procedures, By Type (2017-2023)
Table 33 Germany Laser Based BPH Procedures, By Type (2013-2016)
Table 34 Germany Laser Based BPH Procedures, By Type (2017-2023)
Table 35 Germany Other Energy Based BPH Procedures, By Type (2013-2016)
Table 36 Germany Other Energy Based BPH Procedures, By Type (2017-2023)
Table 37 U.K. BPH Procedures, By Type (2013-2016)
Table 38 U.K. BPH Procedures, By Type (2017-2023)
Table 39 U.K. Surgical BPH Procedures, By Type (2013-2016)
Table 40 U.K. Surgical BPH Procedures, By Type (2017-2023)
Table 41 U.K. Laser Based BPH Procedures, By Type (2013-2016)
Table 42 U.K. Laser Based BPH Procedures, By Type (2017-2023)
Table 43 U.K. Other Energy Based BPH Procedures, By Type (2013-2016)
Table 44 U.K. Other Energy Based BPH Procedures, By Type (2017-2023)
Table 45 France BPH Procedures, By Type (2013-2016)
Table 46 France BPH Procedures, By Type (2017-2023)
Table 47 France Surgical BPH Procedures, By Type (2013-2016)
Table 48 France Surgical BPH Procedures, By Type (2017-2023)
Table 49 France Laser Based BPH Procedures, By Type (2013-2016)
Table 50 France Laser Based BPH Procedures, By Type (2017-2023)
Table 51 France Other Energy Based BPH Procedures, By Type (2013-2016)
Table 52 France Other Energy Based BPH Procedures, By Type (2017-2023)
Table 53 Italy BPH Procedures, By Type (2013-2016)
Table 54 Italy BPH Procedures, By Type (2017-2023)
Table 55 Italy Surgical BPH Procedures, By Type (2013-2016)
Table 56 Italy Surgical BPH Procedures, By Type (2017-2023)
Table 57 Italy Laser Based BPH Procedures, By Type (2013-2016)
Table 58 Italy Laser Based BPH Procedures, By Type (2017-2023)
Table 59 Italy Other Energy Based BPH Procedures, By Type (2013-2016)
Table 60 Italy Other Energy Based BPH Procedures, By Type (2017-2023)
Table 61 Spain BPH Procedures, By Type (2013-2016)
Table 62 Spain BPH Procedures, By Type (2017-2023)
Table 63 Spain Surgical BPH Procedures, By Type (2013-2016)
Table 64 Spain Surgical BPH Procedures, By Type (2017-2023)
Table 65 Spain Laser Based BPH Procedures, By Type (2013-2016)
Table 66 Spain Laser Based BPH Procedures, By Type (2017-2023)
Table 67 Spain Other Energy Based BPH Procedures, By Type (2013-2016)
Table 68 Spain Other Energy Based BPH Procedures, By Type (2017-2023)
Table 69 North America BPH Procedures, By Type (2013-2016)
Table 70 North America BPH Procedures, By Type (2017-2023)
Table 71 North America Surgical BPH Procedures, By Type (2013-2016)
Table 72 North America Surgical BPH Procedures, By Type (2017-2023)
Table 73 North America Laser Based BPH Procedures, By Type (2013-2016)
Table 74 North America Laser Based BPH Procedures, By Type (2017-2023)
Table 75 North America Other Energy Based BPH Procedures, By Type (2013-2016)
Table 76 North America Other Energy Based BPH Procedures, By Type (2017-2023)
Table 77 North America BPH Procedures, By End User (2013-2016)
Table 78 North America BPH Procedures, By End User (2017-2023)
Table 79 North America BPH Procedures, By Country (2013-2016)
Table 80 North America BPH Procedures, By Country (2017-2023)
Table 81 U.S. BPH Procedures, By Type (2013-2016)
Table 82 U.S. BPH Procedures, By Type (2017-2023)
Table 83 U.S. Surgical BPH Procedures, By Type (2013-2016)
Table 84 U.S. Surgical BPH Procedures, By Type (2017-2023)
Table 85 U.S. Laser Based BPH Procedures, By Type (2013-2016)
Table 86 U.S. Laser Based BPH Procedures, By Type (2017-2023)
Table 87 U.S. Other Energy Based BPH Procedures, By Type (2013-2016)
Table 88 U.S. Other Energy Based BPH Procedures, By Type (2017-2023)
Table 89 Canada BPH Procedures, By Type (2013-2016)
Table 90 Canada BPH Procedures, By Type (2017-2023)
Table 91 Canada Surgical BPH Procedures, By Type (2013-2016)
Table 92 Canada Surgical BPH Procedures, By Type (2017-2023)
Table 93 Canada Laser Based BPH Procedures, By Type (2013-2016)
Table 94 Canada Laser Based BPH Procedures, By Type (2017-2023)
Table 95 Canada Other Energy Based BPH Procedures, By Type (2013-2016)
Table 96 Canada Other Energy Based BPH Procedures, By Type (2017-2023)
Table 97 APAC BPH Procedures, By Type (2013-2016)
Table 98 APAC BPH Procedures, By Type (2017-2023)
Table 99 APAC Surgical BPH Procedures, By Type (2013-2016)
Table 100 APAC Surgical BPH Procedures, By Type (2017-2023)
Table 101 APAC Laser Based BPH Procedures, By Type (2013-2016)
Table 102 APAC Laser Based BPH Procedures, By Type (2017-2023)
Table 103 APAC Other Energy Based BPH Procedures, By Type (2013-2016)
Table 104 APAC Other Energy Based BPH Procedures, By Type (2017-2023)
Table 105 APAC BPH Procedures, By End User (2013-2016)
Table 106 APAC BPH Procedures, By End User (2017-2023)
Table 107 APAC BPH Procedures, By Country (2013-2016)
Table 108 APAC BPH Procedures, By Country (2017-2023)
Table 109 Australia BPH Procedures, By Type (2013-2016)
Table 110 Australia BPH Procedures, By Type (2017-2023)
Table 111 Australia Surgical BPH Procedures, By Type (2013-2016)
Table 112 Australia Surgical BPH Procedures, By Type (2017-2023)
Table 113 Australia Laser Based BPH Procedures, By Type (2013-2016)
Table 114 Australia Laser Based BPH Procedures, By Type (2017-2023)
Table 115 Australia Other Energy Based BPH Procedures, By Type (2013-2016)
Table 116 Australia Other Energy Based BPH Procedures, By Type (2017-2023)
Table 117 Japan BPH Procedures, By Type (2013-2016)
Table 118 Japan BPH Procedures, By Type (2017-2023)
Table 119 Japan Surgical BPH Procedures, By Type (2013-2016)
Table 120 Japan Surgical BPH Procedures, By Type (2017-2023)
Table 121 Japan Laser Based BPH Procedures, By Type (2013-2016)
Table 122 Japan Laser Based BPH Procedures, By Type (2017-2023)
Table 123 Japan Other Energy Based BPH Procedures, By Type (2013-2016)
Table 124 Japan Other Energy Based BPH Procedures, By Type (2017-2023)
Table 125 South Korea BPH Procedures, By Type (2013-2016)
Table 126 South Korea BPH Procedures, By Type (2017-2023)
Table 127 South Korea Surgical BPH Procedures, By Type (2013-2016)
Table 128 South Korea Surgical BPH Procedures, By Type (2017-2023)
Table 129 South Korea Laser Based BPH Procedures, By Type (2013-2016)
Table 130 South Korea Laser Based BPH Procedures, By Type (2017-2023)
Table 131 South Korea Other Energy Based BPH Procedures, By Type (2013-2016)
Table 132 South Korea Other Energy Based BPH Procedures, By Type (2017-2023)
Table 133 ROW BPH Procedures, By Type (2013-2016)
Table 134 ROW BPH Procedures, By Type (2017-2023)
Table 135 ROW Surgical BPH Procedures, By Type (2013-2016)
Table 136 ROW Surgical BPH Procedures, By Type (2017-2023)
Table 137 ROW Laser Based BPH Procedures, By Type (2013-2016)
Table 138 ROW Laser Based BPH Procedures, By Type (2017-2023)
Table 139 ROW Other Energy Based BPH Procedures, By Type (2013-2016)
Table 140 ROW Other Energy Based BPH Procedures, By Type (2017-2023)
Table 141 ROW BPH Procedures, By End User (2013-2016)
Table 142 ROW BPH Procedures, By End User (2017-2023)
Table 143 Neotract, Inc - At A Glance
Table 144 Nxthera, Inc - At A Glance
Table 145 Boston Scientific Corporatio - At A Glance
Table 146 Urologix, Ll - At A Glance
Table 147 Karl Storz Gmbh & Co. K - At A Glance
Table 148 Lumenis Ltd - At A Glance
Table 149 Olympus Corporatio - At A Glance
Table 150 Advin Urolog - At A Glance
Table 151 Convergent Laser Technologies - At A Glance
Table 152 Richard Wolf Gmb - At A Glance
Table 153 Medtronic Pl - At A Glance

List of Figures

Fig 1 Research Scope
Fig 2 Research Methodology
Fig 3 Regional Split Of Primary And Secondary Research
Fig 4 Breakdown Of Primary Research By Region
Fig 5 Breakdown Of Primary Research By Industry Participant
Fig 6 Breakdown Of Primary Research By Company Type
Fig 7 Data Triangulation Approach
Fig 8 Aging Population As A Percentage Of Total Population
Fig 9 Global BPH Procedures Snapshot
Fig 10 Global BPH Procedures, By Type (2013-2023)
Fig 11 Global Surgical BPH Procedures, By Type (2013-2023)
Fig 12 Global Laser Based BPH Procedures, By Type (2013-2023)
Fig 13 Global Other Energy Based BPH Procedures, By Type (2013-2023)
Fig 14 Global BPH Procedures, By End User (2013-2023)
Fig 15 Global BPH Procedures, By Region (2013-2023)
Fig 16 Europe BPH Procedures Snapshot
Fig 17 Europe BPH Procedures, By Type (2013-2023)
Fig 18 Europe Surgical BPH Procedures, By Type (2013-2023)
Fig 19 Europe Laser Based BPH Procedures, By Type (2013-2023)
Fig 20 Europe Other Energy Based BPH Procedures, By Type (2013-2023)
Fig 21 Europe BPH Procedures, By End User (2013-2023)
Fig 22 Europe BPH Procedures, By Country (2013-2023)
Fig 23 Germany BPH Procedures, By Type (2013-2023)
Fig 24 Germany Surgical BPH Procedures, By Type (2013-2023)
Fig 25 Germany Laser Based BPH Procedures, By Type (2013-2023)
Fig 26 Germany Other Energy Based BPH Procedures, By Type (2013-2023)
Fig 27 U.K. BPH Procedures, By Type (2013-2023)
Fig 28 U.K. Surgical BPH Procedures, By Type (2013-2023)
Fig 29 U.K. Laser Based BPH Procedures, By Type (2013-2023)
Fig 30 U.K. Other Energy Based BPH Procedures, By Type (2013-2023)
Fig 31 France BPH Procedures, By Type (2013-2023)
Fig 32 France Surgical BPH Procedures, By Type (2013-2023)
Fig 33 France Laser Based BPH Procedures, By Type (2013-2023)
Fig 34 France Other Energy Based BPH Procedures, By Type (2013-2023)
Fig 35 Italy BPH Procedures, By Type (2013-2023)
Fig 36 Italy Surgical BPH Procedures, By Type (2013-2023)
Fig 37 Italy Laser Based BPH Procedures, By Type (2013-2023)
Fig 38 Italy Other Energy Based BPH Procedures, By Type (2013-2023)
Fig 39 Spain BPH Procedures, By Type (2013-2023)
Fig 40 Spain Surgical BPH Procedures, By Type (2013-2023)
Fig 41 Spain Laser Based BPH Procedures, By Type (2013-2023)
Fig 42 Spain Other Energy Based BPH Procedures, By Type (2013-2023)
Fig 43 North America BPH Procedures, By Type (2013-2023)
Fig 44 North America BPH Procedures, By Type (2013-2023)
Fig 45 North America Surgical BPH Procedures, By Type (2013-2023)
Fig 46 North America Laser Based BPH Procedures, By Type (2013-2023)
Fig 47 North America Other Energy Based BPH Procedures, By Type (2013-2023)
Fig 48 North America BPH Procedures, By End User (2013-2023)
Fig 49 North America BPH Procedures, By Country (2013-2023)
Fig 50 U.S. BPH Procedures, By Type (2013-2023)
Fig 51 U.S. Surgical BPH Procedures, By Type (2013-2023)
Fig 52 U.S. Laser Based BPH Procedures, By Type (2013-2023)
Fig 53 U.S. Other Energy Based BPH Procedures, By Type (2013-2023)
Fig 54 Canada BPH Procedures, By Type (2013-2023)
Fig 55 Canada Surgical BPH Procedures, By Type (2013-2023)
Fig 56 Canada Laser Based BPH Procedures, By Type (2013-2023)
Fig 57 Canada Other Energy Based BPH Procedures, By Type (2013-2023)
Fig 58 APAC BPH Procedures Snapshot
Fig 59 APAC BPH Procedures, By Type (2013-2023)
Fig 60 APAC Surgical BPH Procedures, By Type (2013-2023)
Fig 61 APAC Laser Based BPH Procedures, By Type (2013-2023)
Fig 62 APAC Other Energy Based BPH Procedures, By Type (2013-2023)
Fig 63 APAC BPH Procedures, By End User (2013-2023)
Fig 64 APAC BPH Procedures, By Country (2013-2023)
Fig 65 Australia BPH Procedures, By Type (2013-2023)
Fig 66 Australia Surgical BPH Procedures, By Type (2013-2023)
Fig 67 Australia Laser Based BPH Procedures, By Type (2013-2023)
Fig 68 Australia Other Energy Based BPH Procedures, By Type (2013-2023)
Fig 69 Japan BPH Procedures, By Type (2013-2023)
Fig 70 Japan Surgical BPH Procedures, By Type (2013-2023)
Fig 71 Japan Laser Based BPH Procedures, By Type (2013-2023)
Fig 72 Japan Other Energy Based BPH Procedures, By Type (2013-2023)
Fig 73 South Korea BPH Procedures, By Type (2013-2023)
Fig 74 South Korea Surgical BPH Procedures, By Type (2013-2023)
Fig 75 South Korea Laser Based BPH Procedures, By Type (2013-2023)
Fig 76 South Korea Other Energy Based BPH Procedures, By Type (2013-2023)
Fig 77 ROW BPH Procedures Snapshot
Fig 78 ROW BPH Procedures, By Type (2013-2023)
Fig 79 ROW Surgical BPH Procedures, By Type (2013-2023)
Fig 80 ROW Laser Based BPH Procedures, By Type (2013-2023)
Fig 81 ROW Other Energy Based BPH Procedures, By Type (2013-2023)
Fig 82 ROW BPH Procedures, By End User (2013-2023)
Fig 83 Product Benchmarking Of Key Players
Fig 84 Revenue Split By Segment And Geography (2016)
Fig 85 Revenue Split By Segment And Geography (2016)
Fig 86 Revenue Split By Segment And Geography (2016)

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  • Advin Urology,
  • Boston Scientific Corporation,
  • Convergent Laser Technologies,
  • Karl Storz GmbH & Co. KG,
  • Lumenis Ltd.,
  • Medtronic Plc.
  • NxThera, Inc.,
  • Olympus Corporation,
  • Richard Wolf GmbH,
  • Urologix,
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