Global Microcapsules Drug Delivery Market Opportunity Outlook 2022

  • ID: 4315513
  • Report
  • Region: Global
  • 140 Pages
  • Kuick Research
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“Global Microcapsules Drug Delivery Market Opportunity Outlook 2022” report gives comprehensive insight on various clinical and non-clinical aspects in the advancement and integration of microcapsule technologies in the ongoing drug delivery mechanism. As per report findings, microencapsulation has proven to be a valuable tool for the pharmaceutical industry from the past several years. Under the scientific revolutionizing arena, development of the microencapsulation turned out to be the favorable pioneering approach. Since then, dozens of encapsulation techniques and thousands of formulations form a wide range of combinations have been designed in command to solve most difficult formulation problems.

“Global Microcapsules Drug Delivery Market Opportunity Outlook 2022” report highlights:

  • Characterization & Engineering Technology of Microcapsules
  • Applicability of Microcapsules in Drug Delivery
  • Global Market Perspectives of Microcapsules
  • Global Microcapsule Market Dynamics
  • Future Indication of Microcapsules

The pharmaceuticals companies are trending towards the micro sized structures in biomedicine research due to its excellent isolation protection and controlled release characteristics have attracted attention. Researchers actively explored the application of microencapsulated cell transplantation and microencapsulated drugs in the treatment of diabetes, Parkinson’s disease, liver failure, tumor etc. In addition, pharmaceutical companies are increasingly adopting drug delivery technologies to differentiate their products in the highly competitive environment.

The commercial market for micro capsulated products have gained potential momentum and are on the surge of expanding their parameter for advanced drug delivery technologies. Indeed, advanced drug delivery systems are widely researched and developed to improve the delivery of pharmaceutical compounds and molecules. The last few decades have seen a marked growth of the field fueled by increased number of researchers, research funding, venture capital and the number of start-ups.

The advances in the microencapsulation technology will be further mounting with their role in the regenerative medicines and tissue engineering. Currently the regenerative market is dominated by the cell based products and cellular therapies and microcapsules are indeed incorporated into the regenerative medicines. As the microcapsule market will expand so will the regenerative market and vice versa. Apart from the regenerative medicines microcapsules will be elaborated through the diabetic segment as the advent of the bioartificial pancreas and oral insulin like innovations will be exploring the market potentials of diabetes. Furthermore, the cell transplantation and encapsulating technologies for diabetes will be reaching the new milestones in the commercial world.

The future emphasis will be on developing microencapsulated drug delivery systems for the brain that can deliver adequate amounts of drugs in a controlled manner and in response to the requirements. Some of these will be integrated with implantable devices such as microbiochips for drug delivery. Multifunctional microcapsules and microspheres will be developed as versatile tools; several formulations will serve both diagnostic and therapeutic functions. Even for the cancer treatment, microcapsules are promising for applications in cancer therapy due to their tumor homing ability and selectivity caused by the EPR effect.

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1. Indispensable Advent of Microcapsules
1.1 Trajectory of Microencapsulation
1.2 Why & wherefores for Microencapsulation

2. Characterization of Microcapsules
2.1 Composition of Microcapsules
2.2 Parameters Influencing Microcapsules

3. Engineering Technology of Microcapsules
3.1 Physical Manufacturing Technologies
3.2 Physicochemical & Chemical Technologies

4. Applicability of Microcapsules
4.1 Microcapsules in Pharmaceuticals
4.2 Microcapsules in Nutraceuticals

5. Delivering Controlled Drug Delivery
5.1 Microcapsules: Controlled Drug Delivery
5.2 Microcapsules: Drug Delivery Projects

6. Microcapsules Escalating Regeneration
6.1 Perception of Artificial Cell Therapeutics
6.2 Microcapsulated Artificial Cell Carriers

7. Microcapsules Broadening Transplantation
7.1 Microcapsules Overcoming Barriers
7.2 Microcapsules in Liver Transplantation

8. Microcapsules Managing Diabetes
8.1 Islets of Pancreas: Bioengineering Approach
8.2 Artificial Pancreas: Medical Device

9. Microcapsules in Pathobiology
9.1 Delivery of Live Bacteria
9.2 Microcapsules for Probiotics

10. Microcapsules in Oncological World
10.1 Microcapsulated Anticancer Targeted Carriage
10.2 Microcapsules towards Theranostics
10.3 Major Microcapsulated Cancer Projects

11. Microcapsules for Central Nervous System
11.1 Crossing Blood Brain Barrier
11.2 Microcapsules Dealing with Brain Tumors

12. Microcapsules Improving Cardiovascular Health
12.1 Embedding Therapies to Cardiovascular System
12.2 Applications Using Microcapsules

13. Global Market Perspectives of Microcapsules
13.1 Current Market Insights of Microcapsules
13.2 Microcapsules Market by Industrial Application

14. Global Market of Encapsulating Materials
14.1 Market Trends in Biopolymeric Market
14.2 Upcoming Market Trends of Smart Polymers

15. Global Microcapsule Market Dynamics
15.1 Accelerative Parameters
15.2 Challenges to Overcome

16. Future Indication of Microcapsules

17. Competitive Landscape

List of Figures:
Figure 1-1: Representation of the Morphology of a Microcapsule
Figure 1-2: Several Reasons to Consider Microencapsulation Technology
Figure 1-3: Layout of Characteristics of Microcapsules
Figure 2-1: Difference between Microcapsules & Microspheres
Figure 2-2: The Complete Composition of the Microcapsule Structurally
Figure 2-3: Morphological Classification of the Microcapsules
Figure 2-4: Parameters of High Concentration Affecting the Efficiency of the Microcapsules
Figure 2-5: Factors Influencing Encapsulation Efficiency
Figure 3-1: The Physical Methods Used for the Manufacturing of Microcapsules
Figure 3-2: Production of Microcapsules from Coacervation Phase Separation
Figure 3-3: Chemical Methods used for Microcapsule Production
Figure 4-1: Applications of Microcapsules in Pharmaceuticals
Figure 5-1: Mechanism of Controlled Drug Delivery System by Microcapsules
Figure 5-2: Microcapsule - Ultrasound Targeted Microbubble Destruction
Figure 5-3: Poly-electrolyte Gold Microcapsule Drug Delivery System
Figure 6-1: Differentiation between Typical & Non-Typical Artificial Cells
Figure 6-2: Approaches for the Design & Construction of Artificial Cells
Figure 7-1: Principle of Immunoisolation by Microcapsule
Figure 7-2: Methods of Regenerative Medicine for Therapy of Liver Disease
Figure 7-3: Microcapsule: Role in Liver Transplantation
Figure 8-1: Representation of Immunoisolation Device or Bioartificial Pancreas
Figure 8-2: Bihormonal Closed-Loop Insulin & Glucagon Delivery System
Figure 9-1: Mechanism of Delivery of Live Bacterial Cells via Microcapsules
Figure 10-1: Impact of Varied Stimuli over Drug Release Kinetics of Microcapsules
Figure 10-2: Theranostic Applications of Multicompartment Polyelectrolyte Multilayer Microcapsules
Figure 12-1: Global - Percentage of Leading Causes of Deaths
Figure 13-1: Global - Microcapsule Market Opportunity (US$ Billion), 2017 - 2022
Figure 13-2: Global - Regenerative Medicine Market Trends (US$ Billion), 2017 - 2022
Figure 13-3: Global - Microcapsule Market by Application, 2022
Figure 13-4: Global - Probiotic Market Evaluation (US$ Billion), 2017 - 2022
Figure 14-1: Global - Phase Change Material Market Opportunity (US$ Million), 2017 - 2022
Figure 14-2: Global - Smart Polymer Market Opportunity (US$ Million), 2017 - 2022
Figure 15-1: Accelerative Parameters of Microcapsule Market
Figure 15-2: Major Challenges being faced by the Microcapsule Industry

List of Tables:
Table 2-1: Few Examples of Forms of Core Material & Their Characteristics
Table 2-2: Varied Types of Coating Material for Microencapsulation
Table 2-3: Illustrations of Coating Materials Based on Resins
Table 3-1: Varied Manufacturing Technologies for Microcapsules
Table 8-1: Microencapsulated Islets Transplantation for Type 1 Diabetes
Table 9-1: Potential Therapies Based over Oral Delivery of Live Bacterial Cells
Table 9-2: Different Microcapsulated Probiotic Strains by Extrusion & Emulsion Technique
Table 11-1: Varied Strategies Used for Drug Delivery into CNS

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