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Emerging Orthopedic Implants: Technology Innovation and Growth Opportunities

Emerging Orthopedic Implants: Technology Innovation and Growth Opportunities

Enabling Personalized Orthopedic Care by Leveraging Embedded Sensor and Additive Manufacturing Technologies

RELEASE DATE
30-Nov-2021
REGION
North America
Research Code: DA25-01-00-00-00
SKU: HC03478-NA-TR_26017
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Description

Orthopedic implants replace or strengthen a damaged, painful, or deformed bone, cartilage, or joint and restore mobility and flexibility in patients with bone conditions. The demand for orthopedic implants is growing with the increasing number of orthopedic surgeries being performed every year. This is mainly due to the prevalence of musculoskeletal conditions and the expanding aging population (high risk of osteoporosis, low bone mass). The increased life expectancy, sedentary lifestyles with limited physical activity, and the rising incidence of obesity are also resulting in a growing number of orthopedic problems. Several parameters, including implant design, implant material, fabrication method, and patient compliance, influence the success of implantation surgery. The scientific community is continuously exploring new strategies to minimize the probability of failure of implants and enhance osseointegration for improved implant fixation. Orthopedic implant technology is advancing due to the introduction of new biomaterials that enhance osseointegration, innovative manufacturing technologies that enable customized implants, and embedded sensors that facilitate remote monitoring.
This Frost & Sullivan research service explores various emerging orthopedic implant technologies, their potential impact, and the companies to action. The orthopedic implants industry is assessed in terms of business and technology drivers and restraints. Key funding and acquisition activities over the past 3 years are also investigated. The growth opportunities offered by drug-eluting implant technology, wearables and implantable orthopedic sensors, robotics, and AI and AR have also been discussed. Strategic recommendations for key industry participants are also put forth in the study.

Table of Contents

1.1 The Strategic Imperative 8™Factors creating Pressure on Growth in the Orthopedic Implants Market

1.2 The Strategic Imperative 8™

1.3 The Impact of the Top Three Strategic Imperatives on the Orthopedic Implants Industry

1.4 About the Growth Pipeline Engine™

1.5 Growth Opportunities Fuel the Growth Pipeline Engine™

2.1 Research Scope: Key Questions the Research Will Answer

2.2 Research Methodology

2.2 Research Methodology (continued)

2.3 Key Findings

3.1 Orthopedic Implants Address Degenerative and Inflammatory Bone Diseases

3.2 Orthopedic Implant Products can be Classified based on their Functional Use

3.3 Metals, Polymers, and Ceramics are Conventional Orthopedic Implant Materials

3.4 Several Parameters Affect the Success of Orthopedic Implantation Procedures

3.5 Technology Segmentation based on Emerging Innovation that is Transforming the Orthopedic Implant Industry

3.6 Emerging Orthopedic Biomaterial Technologies Offer Bioactive and Biodegradable Properties

3.7 Implant Surface Modification Enhances Osteoconduction and Osseointegration

3.8 Implant Surface Coatings are the Most Commonly Explored Surface Modification Technique

3.9 Customized or Patient-specific Orthopedic Implants Enable Better Alignment and Stress Distribution

3.10 Smart Orthopedic Implants Enable Remote or Continuous Monitoring after Surgery

3.11 Pediatric Orthopedic Implants Provide a Wide Range of Options for Diverse Pediatric Conditions

3.12 Orthobiologics Enables Rapid and Better Healing of Musculoskeletal Injuries

3.13 Orthobiologics is Used to Treat Osteoarthritis and Degenerative Arthritis

3.14 The Orthopedic Implant Industry Has Been Slow to Adopt Smart Implant Technology

4.1 Impact Mapping of Growth Drivers for the Orthopedic Implant Industry

4.2 The Prevalence of Musculoskeletal Conditions Will Drive the Orthopedic Implant Industry

4.3 Technological Advancements in Embedded Sensors, Implant Materials, and Fabrication Techniques will Drive the Industry

4.4 Impact Mapping of Growth Restraints for the Orthopedic Implant Industry

4.5 The High Cost of Orthopedic Surgeries and the Poor Reimbursement Policies are Major Restraints to Industry Growth

4.6 Technical Difficulties in the Design and the Fabrication of Emerging Implant Types Restrain Industry Growth

4.7 A Value-based Healthcare System and the Growing Demand for Minimally Invasive Surgeries Drive Innovation

5.1.1 Bioresorbable Magnesium Alloy Compression Screw Implants

5.1.2 Compression Screws that Enable Early Bone Attachment and Stronger Implant Fixation

5.1.3 Absorbable Nasal Implants that Reduce Nasal Airway Obstruction Symptoms

5.1.4 Collagen-based Implants for Anterior Cruciate Ligament Regeneration

5.2.1 Porous-coated Total Shoulder System with Improved Fit and Fixation

5.2.2 Joint Mobility Restoring Total Wrist Arthroplasty System with Porous Bone-contacting Surfaces

5.2.3 3D-printed Porous Titanium Anterior Lumbar Interbody Fusion Implant

5.2.4 Additively Manufactured Construct for Vertebral Body Replacement

5.3.1 Sensor-assisted Total Knee Arthroplasty

5.4.1 Customized Craniomaxillofacial Implants to Address Facial Deformities Caused by Black Fungus

5.5.1 A Cannulated Screw System to Address Slipped Capital Femoral Epiphysis in Pediatric Patients

5.6.1 Bioactive Bone Graft with a High Level of Osteoblast Differentiation

6.1 Recent Key M&As in the Orthopedic Implants Industry

6.1 Recent Key M&As in the Orthopedic Implants Industry (continued)

6.1 Recent Key M&As in the Orthopedic Implants Industry (continued)

6.2 Notable Funding Activities in the Orthopedic Implants Industry

7.1 Key IP Activity Innovation Themes Include Surface Modification Technologies and Antimicrobial Coatings

7.2 Key Patents

7.2 Key Patents (continued)

7.2 Key Patents (continued)

8.1 Growth Opportunity 1: Drug-eluting Orthopedic Implants for Improved Clinical Outcomes

8.1 Growth Opportunity 1: Drug-eluting Orthopedic Implants for Improved Clinical Outcomes (continued)

8.2 Growth Opportunity 2: Wearable and Implantable Orthopedic Sensors for Post-operative Patient Monitoring

8.2 Growth Opportunity 2: Wearable and Implantable Orthopedic Sensors for Post-operative Patient Monitoring (continued)

8.3 Growth Opportunity 3: Robotics, AR, and AI for Accurate Implant Positioning and Design

8.3 Growth Opportunity 3: Robotics, AR, and AI for Accurate Implant Positioning and Design (continued)

8.4 Growth Opportunity 4: Additive Manufacturing Technologies for Complex and Personalized Implants

8.4 Growth Opportunity 4: Additive Manufacturing Technologies for Complex and Personalized Implants (continued)

8.5 Key Conclusions and Strategic Recommendations

9.1 Database of Key Industry Participants

10.1 Reference for Technology Readiness level

11.1 Your Next Steps

11.2 Why Frost, Why Now?

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Orthopedic implants replace or strengthen a damaged, painful, or deformed bone, cartilage, or joint and restore mobility and flexibility in patients with bone conditions. The demand for orthopedic implants is growing with the increasing number of orthopedic surgeries being performed every year. This is mainly due to the prevalence of musculoskeletal conditions and the expanding aging population (high risk of osteoporosis, low bone mass). The increased life expectancy, sedentary lifestyles with limited physical activity, and the rising incidence of obesity are also resulting in a growing number of orthopedic problems. Several parameters, including implant design, implant material, fabrication method, and patient compliance, influence the success of implantation surgery. The scientific community is continuously exploring new strategies to minimize the probability of failure of implants and enhance osseointegration for improved implant fixation. Orthopedic implant technology is advancing due to the introduction of new biomaterials that enhance osseointegration, innovative manufacturing technologies that enable customized implants, and embedded sensors that facilitate remote monitoring. This Frost & Sullivan research service explores various emerging orthopedic implant technologies, their potential impact, and the companies to action. The orthopedic implants industry is assessed in terms of business and technology drivers and restraints. Key funding and acquisition activities over the past 3 years are also investigated. The growth opportunities offered by drug-eluting implant technology, wearables and implantable orthopedic sensors, robotics, and AI and AR have also been discussed. Strategic recommendations for key industry participants are also put forth in the study.--BEGIN PROMO--

Orthopedic implants replace or strengthen a damaged, painful or deformed bone, cartilage or a joint, and restore mobility and flexibility in patients with bone conditions. Prevalence of musculoskeletal conditions is increasing globally, as the aging population with high risk of osteoporosis and low bone mass is increasing. The demand for orthopedic implants is growing with the increase in the number of orthopedic surgeries performed per year. An effective osseointegration is crucial for the success of the implantation surgery, and it depends on the design, mechanical properties and biomaterial or chemical composition of the implant as well as the morphology and chemistry of the implant surface. New strategies are being investigated to minimize the probability of failure of implants and the need for revision surgeries. New orthopedic biomaterials with bioactive and biodegradable properties and advanced surface modification technologies are being explored to enhance osseointegration. The orthopedic implant technology is also advancing with new manufacturing technologies that enable customized patient-specific implants and embedded sensors that enable remote monitoring. 

The report explores the various emerging orthopedic implant technologies, the potential impact and the companies to action. The orthopedic implant industry is assessed with respect to the technology and market drivers and challenges. Key funding and acquisition activities in the last 3 years are also investigated. Growth opportunities offered by drug-eluting implant technology, wearable and implantable orthopedic sensors, robotics, AI and AR have also been discussed. Strategic recommendations for key participants in the industry are also put forth in the report. This research service also offers insights on the IP landscape and key patents in the last 5 years.

 

More Information
No Index No
Podcast No
Author Sneha Maria Mariawilliam
Industries Healthcare
WIP Number DA25-01-00-00-00
Keyword 1 Orthopedic Implants Market
Keyword 2 Emerging Healthcare
Keyword 3 Emerging Technologies
Is Prebook No