Cardiovascular procedure volume growth (interventional and surgical)

Cardiovascular surgical and interventional procedures are performed to treat conditions causing inadequate blood flow and supply of oxygen and nutrients to organs and tissues of the body. These conditions include the obstruction or deformation of arterial and venous pathways, distortion in the electrical conducting and pacing activity of the heart, and impaired pumping function of the heart muscle, or some combination of circulatory, cardiac rhythm, and myocardial disorders. Specifically, these procedures are:

  • Coronary artery bypass graft (CABG) surgery;
  • Coronary angioplasty and stenting;
  • Lower extremity arterial bypass surgery;
  • Percutaneous transluminal angioplasty (PTA) with and without bare metal and drug-eluting stenting;
  • Peripheral drug-coated balloon angioplasty;
  • Peripheral atherectomy;
  • Surgical and endovascular aortic aneurysm repair;
  • Vena cava filter placement
  • Endovenous ablation;
  • Mechanical venous thrombectomy;
  • Venous angioplasty and stenting;
  • Carotid endarterectomy;
  • Carotid artery stenting;
  • Cerebral thrombectomy;
  • Cerebral aneurysm and AVM surgical clipping;
  • Cerebral aneurysm and AVM coiling & flow diversion;
  • Left Atrial Appendage closure;
  • Heart valve repair and replacement surgery;
  • Transcatheter valve repair and replacement;
  • Congenital heart defect repair;
  • Percutaneous and surgical placement of temporary and permanent mechanical cardiac support devices;
  • Pacemaker implantation;
  • Implantable cardioverter defibrillator placement;
  • Cardiac resynchronization therapy device placement;
  • Standard SVT & VT ablation; and
  • Transcatheter AFib ablation

For 2016 to 2022, the total worldwide volume of these cardiovascular procedures is forecast to expand on average by 3.7% per year to over 18.73 million corresponding surgeries and transcatheter interventions in the year 2022. The largest absolute gains can be expected in peripheral arterial interventions (thanks to explosive expansion in utilization of drug-coated balloons in all market geographies), followed by coronary revascularization (supported by continued strong growth in Chinese and Indian PCI utilization) and endovascular venous interventions (driven by grossly underserved patient caseloads within the same Chinese and Indian market geography).

Venous indications are also expected to register the fastest (5.1%) relative procedural growth, followed by peripheral revascularization (with 4.0% average annual advances) and aortic aneurysm repair (projected to show a 3.6% average annual expansion).

Source: MedMarket Diligence, LLC; “Global Dynamics of Surgical and Interventional Cardiovascular Procedures, 2015-2022,” (Report #C500).

Geographically, Asian-Pacific (APAC) market geography accounts for slightly larger share of the global CVD procedure volume than the U.S. (29.5% vs 29,3% of the total), followed by the largest Western European states (with 23.9%) and ROW geographies (with 17.3%). Because of the faster growth in all covered categories of CVD procedures, the share of APAC can be expected to increase to 33.5% of the total by the year 2022, mostly at the expense of the U.S. and Western Europe.

However, in relative per capita terms, covered APAC territories (e.g., China and India) are continuing to lag far behind developed Western states in utilization rates of therapeutic CVD interventions with roughly 1.57 procedures per million of population performed in 2015 for APAC region versus about 13.4 and 12.3 CVD interventions done per million of population in the U.S. and largest Western European countries.

Source: MedMarket Diligence, LLC; “Global Dynamics of Surgical and Interventional Cardiovascular Procedures, 2015-2022,” (Report #C500).


Global Cardiovascular Procedures report #C500 details the current and projected surgical and interventional therapeutic procedures commonly used in the management of acute and chronic conditions affecting myocardium and vascular system.

Coronary revascularization options evolve

The number of options that are in use or development for coronary revascularization or other treatment for ischemic heart disease is extraordinary. Given the mortality associated with coronary artery disease, it is unsurprising that it has been the focus of so much development.

Below are the options that have evolved for treatment of ischemic heart disease, inclusive of surgical, interventional, and other medical approaches.

Coronary Revascularization and Other
Ischemic Heart Treatment Options

Source: MedMarket Diligence, LLC

See also “Global Dynamics of Surgical and Interventional Cardiovascular Procedures, 2015-2022”, report #C500. Order online.

Peripheral Stenting Worldwide: Arterial, Venous, BMS, DES, AAA, TAA

First introduced about two decades ago as a bailout technique for suboptimal or failed iliac angioplasty, peripheral vascular stenting gradually emerged as a valuable and versatile tool for a variety of primary and adjuvant applications outside the domain of coronary and cerebral vasculature.  Today, peripheral vascular stenting techniques are commonly employed in the management of the most prevalent occlusive circulatory disorders and other pathologies affecting the abdominal and thoracic aortic tree and lower extremity arterial bed. Stents are also increasingly used in the management of the debilitating conditions like venous outflow obstruction associated with deep venous thrombosis and chronic venous insufficiency.

Notwithstanding a relative maturity of the core technology platforms and somewhat problematic opportunities for conversion to value-adding peripheral drug-eluting systems, peripheral vascular stenting appears to have a significant room for qualitative and quantitative growth both in established and emerging peripheral indications.

A panoply of stenting systems are available for the management of occlusive disorders and other pathologies affecting peripheral arterial and venous vasculature. Systems include lower extremity bare metal and drug-eluting stents for treatment of symptomatic PAD and critical limb ischemia resulting from iliac, femoropopliteal and infrapopliteal occlusive disease; stent-grafting devices used in endovascular repair of abdominal and thoracic aortic aneurysms; as well as a subset of indication-specific and multipurpose peripheral stents used in recanalization of iliofemoral and iliocaval occlusions resulting in CVI.

In 2015, these peripheral stenting systems were employed in approximately 1.565 million revascularization procedures worldwide, of which the lower extremity arterial stenting accounted for almost 1.252 million interventions (or 80.9%), followed by AAA and TAA endovascular repairs with 162.4 thousand interventions (or 10.5%) and peripheral venous stenting used in an estimated 132.6 thousand patients (or 8.6% of the total).

The U.S. clinical practices performed almost 528 thousand covered peripheral arterial and venous procedures (or 34.1% of the worldwide total), followed by the largest Western European states with over 511 thousand interventions (or 33.1%), major Asian-Pacific states with close to 377 thousand interventions (or 24.4%), and the rest-of-the-world with about 131 thousand peripheral stent-based interventions (or 8.4%).

Below is illustrated the global market for peripheral stenting by region in 2016 and by segment from 2014 to 2020.

Source: MedMarket Diligence, LLC; Report #V201. Available online.

 

Source: MedMarket Diligence, LLC; Report #V201. Available online.

Cardiovascular Surgical and Interventional Procedures Worldwide, 2015-2022

In 2016, the cumulative worldwide volume of the the following CVD procedures is projected to approach 15.05 million surgical and transcatheter interventions:

  • roughly 4.73 million coronary revascularization procedures via CABG and PCI (or about 31.4% of the total),
  • close to 4 million percutaneous and surgical peripheral artery revascularization procedures (or 26.5% of the total);
  • about 2.12 million cardiac rhythm management procedures via implantable pulse generator placement and arrhythmia ablation (or 14.1% of the total);
  • over 1.65 million CVI, DVT, and PE targeting venous interventions (representing 11.0% of the total);
  • more than 992 thousand surgical and transcatheter heart defect repairs and valvular interventions (or 6.6% of the total);
  • close to 931 thousand acute stroke prophylaxis and treatment procedures (contributing 6.2% of the total);
  • over 374 thousand abdominal and thoracic aortic aneurysm endovascular and surgical repairs (or 2.5% of the total); and
  • almost 254 thousand placements of temporary and permanent mechanical cardiac support devices in bridge to recovery, bridge to transplant, and destination therapy indications (accounting for about 1.7% of total procedure volume).

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CABG: Coronary artery bypass graft; PCI: Percutaneous coronary intervention; AAA: Abdominal aortic aneurysm; TAA: Thoracic abdominal aneurysm; CVI: Chronic venous insufficiency; DVT: Deep vein thrombosis; PE: Pulmonary embolectomy.

Source: MedMarket Diligence, LLC; Report #C500, “Global Dynamics of Surgical and Interventional Cardiovascular Procedures, 2015-2022.” (To request report excerpts, click here.)

The Evolution of Coronary Revascularization Markets

Coronary artery bypass grafting (CABG) is the most common type of cardiovascular surgical intervention, which “bypasses” acute or chronic coronary artery obstructions via a newly created vascular conduit and thus reinstate normal or sufficient blood flow to the ischemic but still viable areas of the myocardium.

The majority of CABG surgeries (up to 75%) are still performed on the fully arrested heart which is accessed via a foot-long incision over the sternum and completely separated patient’s rib cage. Following a full sternotomy, the CABG patient is typically placed on extracorporeal cardiopulmonary bypass (CPB) with a heart-lung machine, which allows the surgeon to operate on a still and bloodless field. Simultaneously, the patient’s greater saphenous vein or internal mammary artery, or both are harvested (mobilized) for use as a bypass conduit in the ongoing procedure. Depending on the location, character and number of the coronary artery occlusions, the surgery might involve between one and seven coronary bypasses.

Once the bypasses are completed, the heart is restarted and, if it functions normally, the patient is removed from the heart-lung machine and the chest is closed up, the sternum is stabilized with stainless steel wire, and the chest and leg wounds are closed with sutures or clips. Patient’s recovery from a routine uncomplicated CABG usually involves seven to ten days of hospital stay, including two to three days spent in the cardiac intensive care unit.

Less Invasive CABG

Over the past decade, several less-invasive versions of the CABG were developed with the view of reducing morbidity and potentially serious complications associated with extensive surgical trauma and the use of aortic clamping and CPB. The current arsenal of less-invasive coronary artery bypass techniques includes minimally-invasive direct CABG (MIDCAB), full-sternotomy “off-pump” CABG (OPCAB), port-access CABG (P-CAB) with peripheral cannulation and endoclamping of aorta, and endoscopic computer (robotics)-assisted CABG (C-CAB).

Designed to limit surgical trauma of conventional CABG, the MIDCAB procedure is best suited for patients with occluding lesions either in the left anterior descending (LAD) artery, or the right coronary artery (RCA). In contrast to conventional CABG, it is performed on a beating heart without the use of CPB. In MIDCAB surgery, access to targeted arteries is achieved through a limited left anterior thoracotomy in the case of occluded LAD, and right thoracotomy or limited lateral thoracotomy in cases involving diseased proximal RCA or circumflex artery. Because of the smaller surgical trauma and off-pump performance (without aorta clamping), the MIDCAB procedure typically results in fewer complications, lower morbidity and shorter hospital stays compared to conventional CABG. However, its utility is limited to a subset of patients with one or two coronary vascular targets, which constitute a small fraction (<3%) of the total caseloads referred for CABG.

The OPCAB procedure is performed on a beating heart after reduction of cardiac motion with a variety of pharmacological and mechanical devices. These include slowing the heart rate with ß-blockers and calcium channel blockers and the use of special mechanical devices intended to stabilize the myocardium and mobilize target vessels. The use of various retraction techniques allows to gain access to vessels on the lateral and inferior surfaces of the heart. Because the OPCAB technique also involves surgical access via median sternotomy, its primary benefit is the avoidance of complications resulting from the use of cardiopulmonary bypass, not surgical trauma.

Over the past decade, the OPCAB surgery emerged as the most popular form of less-invasive coronary artery bypass procedures in the U.S, and Western Europe. By the beginning of this decade, an estimated 25% of all CABGs performed in these geographies were done without the use of CPB. However, in recent years, the relative usage of OPCAB techniques remained largely unchanged. In the view of many cardiac surgeons, the latter was predicated by the increasing morphological complexity of cases referred for CABG (rather than PCI) and generally superior immediate and longer-term bypass graft patency and patient outcomes obtainable with technically less-demanding on-pump CABG surgery.

In contrast to that, the relative usage of “neurological complications sparing” OPCAB techniques is significantly higher in major Asia-Pacific states reaching over 60% of all CABG procedures in China, India, and Japan.

The rarely used P-CAB procedure involves the use of cardiopulmonary bypass and cardioplegia of a globally arrested heart. Vascular access for CPB is achieved via the femoral artery and vein. Compared to the MIDCAB technique, the use of multiple ports allow access to different areas of the heart, thus facilitating more complete revascularization, and the motionless heart may allow a more accurate and reliable anastomosis. In distinction from conventional CABG, median sternotomy is avoided, which reduces trauma and complications. However, potential morbidity of the port-access operation includes multiple wounds at port sites, the limited thoracotomy, and the groin dissection for femoral-femoral bypass. The procedure is also technically difficult and time consuming and therefore has not achieved widespread popularity.

The Hybrid CABG-PCI procedure combines the use of surgical bypass (typically MIDCAB) and percutaneous coronary interventional techniques (angioplasty and stenting) for optimal management of multi-vessel coronary occlusions in high risk patients. The main rationale behind the utilization of hybrid procedure is to achieve maximally possible myocardial revascularization with minimally possible trauma and reduced probability of post-procedural complications. The most common variation of the hybrid revascularization involves MIDCAB-based radial anastomosis between the left anterior descending artery and left internal thoracic artery accompanied by the PTCA/stenting-based recanalization of less critical coronary artery occlusions.

CABG Utilization Trends and Procedure Volumes

Since the advent of coronary angioplasty in the late 1970s, the relative role and share of CABG procedures in myocardial revascularization have been steadily declining due to a continuing penetration of treated patient caseloads by a less invasive PTCA. This general trend was further expedited by the advent of coronary stents. At the very end of the past decade, the rate of transition towards percutaneous coronary interventions in myocardial revascularization started tapering off, primarily due to growing maturity of PTCA/stenting technology and nearly full coverage of patient caseloads with one- or uncomplicated two-vessel disease amendable through angioplasty and stenting. At the same time, a growing popularity of the less-invasive CABG regimens resulted in some additional influx into CABG caseloads from a no-option patient cohort. A less-invasive surgical coronary bypass also emerged as a preferred treatment option for some gray-area patients that were previously referred for sub-optimal PTCA and stenting to avoid potential complications of conventional CABG.

In 2006 – for the first time in about two decades – the U.S. and European volumes of CABG procedures experienced a visible increase, which was repeated in 2007 and reproduced on a smaller and diminishing scale in the following two years.

The cited unexpected reversal of a long established downward procedural trend reflected an acute (and, probably, somewhat overblown) end-users’ concern about long-term safety (AMI-prone late thrombosis) of drug-eluting stents (DES), which prompted a steep decline in utilization of DES in 2006, 2007, followed by a smaller and tapering decreases in 2008 and 2009 with corresponding migration of advanced CHD patients referred for radical intervention to bare metal stenting and CABG surgery.

In 2010 – 2015 the volume of CABG surgeries remained relatively unchanged, notwithstanding a visible decline in percutaneous coronary interventions and overall myocardial revascularization procedures.

In the forthcoming years, the cumulative global volume of CABG procedures is unlikely to experience any significant changes, while their relative share in coronary revascularization can be expected to decline from about 15.4% in 2015 to roughly 12.3% by the end of the forecast period (2022). The cited assertion is based on the expectation of eventual stabilization and renewal of nominal growth in utilization of PCI in the U.S. and Europe coupled with continuation of robust expansion in the usage of percutaneous revascularization techniques in Asia-Pacific (especially India and China, where PCI volumes were growing by 20% and 10% annually over the past half decade, according to local healthcare authorities).

In 2016, the worldwide volume of CABG surgeries leveled at approximately 702.5 thousand procedures, of which roughly 35.2% involved the use of less-invasive OPCAB techniques. During the forecast period, the global number of CABG procedures is projected to experience a nominal 0.1% average annual increase to about 705.9 corresponding surgical interventions in the year 2022. Within the same time frame, the relative share of less-invasive bypass surgeries is expected to register modest gains expanding to approximately 36.7% of the total in 2022.

Coronary Revascularization Procedures, 2015-2022 
(Figures in thousands)

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CABG and Primary PCI in Coronary Revascularization to 2022.

In, “Global Dynamics of Surgical and Interventional Cardiovascular Procedures, 2015-2022”, Report #C500, we forecast cardiovascular procedure utilization, caseload, technology trends, and device market impacts, for the U.S., Western Europe, Asia/Pacific, and Rest of World.

Cerebral thrombectomy procedures worldwide

In 2014, approximately 33.7 thousand cerebral thrombectomy procedures were performed worldwide, of which United States and largest European states accounted for roughly 46% and 37%, largest Asian states contributed 10.4% and the rest of the world added remaining 6.5%.

The 2014 global cerebral thrombectomy system sales were estimated at approximately $166 million, of which the United States accounted for about $79.1 million (or ~47.7%), followed by the largest Western European states with $59.4 million (or 35.8%), major Asian states with $17 million (or 10.2%) and the rest-of-the-world with $10.5 million (or 6.3% of the total).

In the view of the industry insiders and practicing neurointerventional radiologists, relatively modest volume of life-saving cerebral thrombectomy procedures and corresponding product sales appear to reflect still insufficient body of favorable clinical data and inhibiting impact of the published dubious findings from the major IMS-III study.

The latter compared first-generation cerebral thrombectomy techniques with standard medical (and tPA) therapy and asserted that endovascular clot retrieval interventions did not result in visible improvement in patient outcomes. The cited conclusions clearly contradict results of numerous randomized trials with available second-generation cerebral revascularization systems, which appear to documented superiority of the latter system in management of acute ischemic stroke caseloads.

It is generally assumed that the situation with end-user adoption is likely to improve dramatically in two-three years from now, when results of the ongoing major U.S. and international trials with novel cerebral thrombectomy devices become available.

Based on these assumptions, the cumulative worldwide volume of cerebral thrombectomy procedures is projected to experience accelerated growth to the end of the forecast period resulting in 10.8% overall average annual expansion of corresponding interventions in the forthcoming five years to an estimated 56.2 thousand total procedures worldwide in 2019.

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From: “Emerging Global Market for Neurointerventional Technologies in Stroke, 2014-2019”, Report #C310.

The worldwide market for cerebral clot retrieval systems is forecast to grow at a slightly slower pace expanding on average 10.1% per annum to about $268.4 million in the year 2019. Price pressure will keep sales growth lower than procedure volume gains.

The largest absolute dollar gains can be expected in the U.S. market (which is projected to add $55.9 million in corresponding device revenues), followed by the West European marketplace (+ $30.6 million), major Asian state business (+ $11.2 million) and the rest-of-the-world (+ $4.7 million).

Requirements for acceptance of new peripheral stents in clinical practice

Stents are implantable devices designed as endoluminal scaffolds to maintain patency following recanalization of occluded or structurally compromised vascular (and non-vascular) circulatory conduits that enable energy supply and metabolic exchange in various organs and tissues of the human body. Palliative stenting has been routinely used for decades in the management of acute and chronic obstructions of gastro-intestinal, pulmonary and urinary tracts secondary to benign or malignant neoplasms or other cite-specific or systemic pathologies. However, a real explosion in utilization of stents was triggered in the early 1990s by the advent of vascular stenting devices, which allowed radically improved clinical outcomes of balloon angioplasty and supported its emergence as the first choice treatment modality for occlusive peripheral and coronary artery disease (PAD and CAD). By the end of 2014, more than three quarters of patients with acute and chronic arterial occlusions warranting intervention were referred for angioplasty-based therapy, which entailed placement of stenting devices in over 80% of commonly performed peripheral revascularization procedures.

To be accepted in clinical practices, stenting implants should satisfy a number of general and application-specific requirements relating to device biocompatibility, functional performance, and end-user and patient friendliness which are summarized in the exhibit below. In very general terms, stenting device biocompatibility refers to minimization of hostile immune responses (and other local and systemic adverse reactions) that are inevitably triggered by a direct contact of any implantable medical device with living tissues and bodily fluids in situ. For understandable reasons, biocompatibility depends primarily on the implant surface material, including such characteristics as chemical inertness and stability, corrosion resistance, etc. The stenting device biocompatibility can also be effected somewhat by the duration of its presence in situ and specifics of the deployment site and occlusion causing pathology.

The stent’s functional performance (or ability to maintain adequate scaffolding support and lumen patency for a desired period of time) represents a complex function of the device design/architecture and the relative static and dynamic strength of its base material. The chosen stenting device’s architecture and structural material predetermine it radial strength, longitudinal flexibility, conformability and foreshortening, as well as relative lesion coverage, fatigue and kinking resistance, circulatory flow obstruction, etc.

Finally, the stent’s end-user and patient friendliness are predicated both by the design concept of the delivery system and stenting device and refers to procedural convenience, predictability, safety, morbidity, availability of bail-out options, etc. The commonly acknowledged stenting system characteristics relating to the end-user/patient friendliness include low profile, flexibility, traceability, high radiopacity, compatibility with established transcatheter tools and techniques, ease of use and short learning curve, simplicity of retrieval in case of procedural failure, possibility of emergent /elective conversion to surgery, etc.

Selected Biomedical, Clinical and Technical Requirements
for Stenting Implants

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Source: MedMarket Diligence, LLC; Report #V201.

Coronary and venous interventions show inevitable Asia/Pacific dominance

Coronary revascularization, whether by bypass graft or percutaneous coronary intervention, drives an enormous amount of medtech business. Angioplasty catheters, guidewires, and the plethora of devices in cardiothoracic surgery represent many millions in sales annually. Manufacturers pursuing growth in these areas will see big, but slowing growth rates in the U.S., while markets in Asia/Pacific reflect the growing demand for cardio technologies. Already, these markets are surpassing western markets:

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Source: Report #C500.

While coronary applications have a long history, venous interventions have less, and procedure data shows that patient populations have not been fully tapped in any geographic region. Already, Asia/Pacific markets would appear to be on course to eclipse western markets, but not until after 2022, and will eclipse Western Europe markets before challenging the U.S.

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Source: Report #C500.

Coronary and Peripheral Vascular Dominate Global Cardiovascular Procedure Volumes

In 2016, the cumulative worldwide volume of the cardiovascular device procedures is projected to approach 15.05 million surgical and transcatheter interventions. This will include:

  • roughly 4.73 million coronary revascularization procedures via CABG and PCI (or about 31.4% of the total),
  • close to 4 million percutaneous and surgical peripheral artery revascularization procedures (or 26.5% of the total);
  • about 2.12 million cardiac rhythm management procedures via implantable pulse generator placement and arrhythmia ablation (or 14.1% of the total);
  • over 1.65 million CVI, DVT, and PE targeting venous interventions (representing 11.0% of the total);
  • more than 992 thousand surgical and transcatheter heart defect repairs and valvular interventions (or 6.6% of the total);
  • close to 931 thousand acute stroke prophylaxis and treatment procedures (contributing 6.2% of the total);
  • over 374 thousand abdominal and thoracic aortic aneurysm endovascular and surgical repairs (or 2.5% of the total); and
  • almost 254 thousand placements of temporary and permanent mechanical cardiac support devices in bridge to recovery, bridge to transplant, and destination therapy indications (accounting for about 1.7% of total procedure volume).

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Source: Global Dynamics of Surgical and Interventional Cardiovascular Procedures, 2015-2022.

Global and Regional Cardiovascular Surgical and Interventional Procedures Forecast; Reveals Cardio Tech Outlook

With few exceptions, cardiovascular technologies no longer command big premiums (like many other medtech sectors) and mature Western markets for cardio devices have already captured most of the readily available patient caseloads. The lines between different markets (device, drugs, materials) are blurring, while surgical specialists seek to slow the caseload migration to interventionalists. The epicenter of growth in utilization of advanced cardiovascular technologies and techniques is gradually shifting to emerging Asia-Pacific markets away from the increasingly stagnant U.S. and Western European marketplace. The latter reflects the sheer size of underserved patient caseloads, availability of funding, and increasing reliance on economical domestically reproduced sophisticated endovascular devices.

“In order to be successful, manufacturers, investors, healthcare providers, advisors, and others in cardiac surgery and endovascular fields need to understand the real dynamics and asymmetrical development pattern of different cardiovascular device markets in different geographies,” says Patrick Driscoll of MedMarket Diligence. “At the root of understanding the market is accurately and realistically gauging the current and future demand for, and likely usage of, specific medical and surgical technologies and procedures.”

MedMarket Diligence has published a comprehensive resource available to manufacturers, investors, and others with interest in cardiovascular technologies. “Global Dynamics of Surgical and Interventional Cardiovascular Procedures, 2015-2022,” is a worldwide competitive analysis and forecast of existing and emerging cardiovascular technologies and procedures coupled with identification and assessment of the most promising and sizable device markets.

The report covers surgical and interventional therapeutic procedures commonly used in the management of acute and chronic conditions affecting the myocardium and vascular system. The latter include ischemic heart disease (and its life threatening manifestations like AMI, cardiogenic shock, etc.); heart failure; structural heart disorders (valvular abnormalities and congenital heart defects); peripheral artery disease (and limb and life threatening critical limb ischemia); aortic disorders (AAA, TAA and aortic dissections); acute and chronic venous conditions (such as deep venous thrombosis, pulmonary embolism and chronic venous insufficiency); neurovascular pathologies associated with high risk of hemorrhagic and ischemic stroke (such as cerebral aneurysms and AVMs, and high-grade carotid/intracranial stenosis); and cardiac rhythm disorders (requiring correction with implantable pulse generators/IPG or arrhythmia ablation).

The report offers epidemiology and mortality data for the major cardiovascular conditions along with current assessment and projected procedural dynamics (2015 to 2022) for primary market geographies (e.g., United States, Largest Western European Countries, and Major Asian States) as well as the rest of the world.

Methodology. The MedMarket Diligence procedural assessments and forecasts are based on the systematic analysis of a multiplicity of sources including (but not limited to):

  • Latest and historic company SEC filings, corporate presentations, and interviews with product management and marketing staffers;

  • Data released by authoritative international institutions (such as OECD and WHO), and national healthcare authorities;

  • Statistical updates and clinical practice guidelines from professional medical associations (like AHA, ACC, European Society of Cardiology, Chinese, Indian, and Japanese Societies of Cardiology, etc.);

  • Specialty presentations at major professional conferences (e.g., TCT, AHA Scientific Sessions, EuroPCR, etc.);

  • Publications in major medical journals (JAMA, NEJM, British Medical Journal, Lancet, etc.) and specialty magazines (CathLab Digest, Endovascular Today, EPLab Digest, etc.);

  • Findings from relevant clinical trials;

  • Feedback from leading clinicians (end-users) in the field on device/procedure utilization trends and preferences; and

  • Policy papers by major medical insurance carriers on uses of particular surgical and interventional tools and techniques, their medical necessity and reimbursement.

AAAandTAA

Surgical and Interventional Procedures Covered:

  • Coronary artery bypass graft (CABG) surgery;

  • Coronary angioplasty and stenting;

  • Lower extremity arterial bypass surgery;

  • Percutaneous transluminal angioplasty (PTA) with and without bare metal and drug-eluting stenting;

  • Peripheral drug-coated balloon angioplasty;

  • Peripheral atherectomy;

  • Surgical and endovascular aortic aneurysm repair;

  • Vena cava filter placement;

  • Endovenous ablation;

  • Mechanical venous thrombectomy;

  • Venous angioplasty and stenting;

  • Carotid endarterectomy;

  • Carotid artery stenting;

  • Cerebral thrombectomy;

  • Cerebral aneurysm and AVM surgical clipping;

  • Cerebral aneurysm and AVM coiling & flow diversion;

  • Left Atrial Appendage Closure;

  • Heart valve repair and replacement surgery;

  • Transcatheter valve repair and replacement;

  • Congenital heart defect repair;

  • Percutaneous and surgical placement of temporary and permanent mechanical cardiac support devices;

  • Pacemaker implantation;

  • Implantable cardioverter defibrillator placement;

  • Cardiac resynchronization therapy device placement;

  • Standard SVT/VT ablation; and

  • Transcatheter AFib ablation

Report #C500, “Global Dynamics of Surgical and Interventional Cardiovascular Procedures, 2015-2022”, is described in full at link. The report may be purchased for download at link.

For information, contact Patrick Driscoll, +1.949.891.1753 or reports@mediligence.com.