Unravelling the role of microneedles in drug delivery: Principle, perspectives, and practices

Molakpogu Ravindra Babu; Sukriti Vishwas; Rubiya Khursheed; Vancha Harish; Anne Boyina Sravani; Farhan Khan; Bader Alotaibi; Abdulkarim Binshaya; John Disouza; Popat S. Kumbhar; Vandana Patravale; Gaurav Gupta; Raimar Loebenberg; Mohammed Faiz Arshad; Archita Patel; Samir Patel; Kamal Dua; Sachin Kumar Singh

doi:10.1007/s13346-023-01475-9

Unravelling the role of microneedles in drug delivery: Principle, perspectives, and practices

Molakpogu Ravindra Babu
, Sukriti Vishwas
, Rubiya Khursheed
, Vancha Harish
, Anne Boyina Sravani
, Farhan Khan
, Bader Alotaibi
, Abdulkarim Binshaya
, John Disouza
, Popat S. Kumbhar
, Vandana Patravale
, Gaurav Gupta
, Raimar Loebenberg
, Mohammed Faiz Arshad
, Archita Patel
, Samir Patel
, Kamal Dua
, Sachin Kumar Singh

Lovely Professional University
Manipal Academy of Higher Education
Shaqra University
Prince Sattam Bin Abdulaziz University
Shivaji University
Institute of Chemical Technology
Saveetha Institute of Medical and Technical Sciences (Deemed to be University)
Graphic Era Hill University
Suresh Gyan Vihar University
University of Alberta
Isthmus Research and Publishing House
Charotar University of Science and Technology
University of Technology Sydney
Uttaranchal University

Research output: Contribution to journal › Review article › peer-review

33 Scopus citations

Abstract

In recent year, the research of transdermal drug delivery systems has got substantial attention towards the development of microneedles (MNs). This shift has occurred due to multifaceted advantages of MNs as they can be utilized to deliver the drug deeper to the skin with minimal invasion, offer successful delivery of drugs and biomolecules that are susceptible to degradation in gastrointestinal tract (GIT), act as biosensors, and help in monitoring the level of biomarkers in the body. These can be fabricated into different types based on their applications as well as material for fabrication. Some of their types include solid MNs, hollow MNs, coated MNs, hydrogel forming MNs, and dissolving MNs. These MNs deliver the therapeutics via microchannels deeper into the skin. The coated and hollow MNs have been found successful. However, they suffer from poor drug loading and blocking of pores. In contrast, dissolving MNs offer high drug loading. These MNs have also been utilized to deliver vaccines and biologicals. They have also been used in cosmetics. The current review covers the different types of MNs, materials used in their fabrication, properties of MNs, and various case studies related to their role in delivering therapeutics, monitoring level of biomarkers/hormones in body such as insulin. Various patents and clinical trials related to MNs are also covered. Covered are the major bottlenecks associated with their clinical translation and potential future perspectives. Graphical Abstract: (Figure presented.)

Original language	English
Pages (from-to)	1393-1431
Number of pages	39
Journal	Drug Delivery and Translational Research
Volume	14
Issue number	6
DOIs	https://doi.org/10.1007/s13346-023-01475-9
State	Published - Jun 2024
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

Biosensors
Cancer
Diabetes
Materials of fabrication
Microneedles
Rheumatoid arthritis
Transdermal drug delivery

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10.1007/s13346-023-01475-9

Cite this

Babu, M. R., Vishwas, S., Khursheed, R., Harish, V., Sravani, A. B., Khan, F., Alotaibi, B., Binshaya, A., Disouza, J., Kumbhar, P. S., Patravale, V., Gupta, G., Loebenberg, R., Arshad, M. F., Patel, A., Patel, S., Dua, K., & Singh, S. K. (2024). Unravelling the role of microneedles in drug delivery: Principle, perspectives, and practices. Drug Delivery and Translational Research, 14(6), 1393-1431. https://doi.org/10.1007/s13346-023-01475-9

@article{48a45d56c6a4425e8b966be33aa15ca2,

title = "Unravelling the role of microneedles in drug delivery: Principle, perspectives, and practices",

abstract = "In recent year, the research of transdermal drug delivery systems has got substantial attention towards the development of microneedles (MNs). This shift has occurred due to multifaceted advantages of MNs as they can be utilized to deliver the drug deeper to the skin with minimal invasion, offer successful delivery of drugs and biomolecules that are susceptible to degradation in gastrointestinal tract (GIT), act as biosensors, and help in monitoring the level of biomarkers in the body. These can be fabricated into different types based on their applications as well as material for fabrication. Some of their types include solid MNs, hollow MNs, coated MNs, hydrogel forming MNs, and dissolving MNs. These MNs deliver the therapeutics via microchannels deeper into the skin. The coated and hollow MNs have been found successful. However, they suffer from poor drug loading and blocking of pores. In contrast, dissolving MNs offer high drug loading. These MNs have also been utilized to deliver vaccines and biologicals. They have also been used in cosmetics. The current review covers the different types of MNs, materials used in their fabrication, properties of MNs, and various case studies related to their role in delivering therapeutics, monitoring level of biomarkers/hormones in body such as insulin. Various patents and clinical trials related to MNs are also covered. Covered are the major bottlenecks associated with their clinical translation and potential future perspectives. Graphical Abstract: (Figure presented.)",

keywords = "Biosensors, Cancer, Diabetes, Materials of fabrication, Microneedles, Rheumatoid arthritis, Transdermal drug delivery",

author = "Babu, \{Molakpogu Ravindra\} and Sukriti Vishwas and Rubiya Khursheed and Vancha Harish and Sravani, \{Anne Boyina\} and Farhan Khan and Bader Alotaibi and Abdulkarim Binshaya and John Disouza and Kumbhar, \{Popat S.\} and Vandana Patravale and Gaurav Gupta and Raimar Loebenberg and Arshad, \{Mohammed Faiz\} and Archita Patel and Samir Patel and Kamal Dua and Singh, \{Sachin Kumar\}",

note = "Publisher Copyright: {\textcopyright} Controlled Release Society 2023.",

year = "2024",

month = jun,

doi = "10.1007/s13346-023-01475-9",

language = "English",

volume = "14",

pages = "1393--1431",

journal = "Drug Delivery and Translational Research",

issn = "2190-393X",

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Babu, MR, Vishwas, S, Khursheed, R, Harish, V, Sravani, AB, Khan, F, Alotaibi, B, Binshaya, A, Disouza, J, Kumbhar, PS, Patravale, V, Gupta, G, Loebenberg, R, Arshad, MF, Patel, A, Patel, S, Dua, K & Singh, SK 2024, 'Unravelling the role of microneedles in drug delivery: Principle, perspectives, and practices', Drug Delivery and Translational Research, vol. 14, no. 6, pp. 1393-1431. https://doi.org/10.1007/s13346-023-01475-9

TY - JOUR

T1 - Unravelling the role of microneedles in drug delivery

T2 - Principle, perspectives, and practices

AU - Babu, Molakpogu Ravindra

AU - Vishwas, Sukriti

AU - Khursheed, Rubiya

AU - Harish, Vancha

AU - Sravani, Anne Boyina

AU - Khan, Farhan

AU - Alotaibi, Bader

AU - Binshaya, Abdulkarim

AU - Disouza, John

AU - Kumbhar, Popat S.

AU - Patravale, Vandana

AU - Gupta, Gaurav

AU - Loebenberg, Raimar

AU - Arshad, Mohammed Faiz

AU - Patel, Archita

AU - Patel, Samir

AU - Dua, Kamal

AU - Singh, Sachin Kumar

PY - 2024/6

Y1 - 2024/6

N2 - In recent year, the research of transdermal drug delivery systems has got substantial attention towards the development of microneedles (MNs). This shift has occurred due to multifaceted advantages of MNs as they can be utilized to deliver the drug deeper to the skin with minimal invasion, offer successful delivery of drugs and biomolecules that are susceptible to degradation in gastrointestinal tract (GIT), act as biosensors, and help in monitoring the level of biomarkers in the body. These can be fabricated into different types based on their applications as well as material for fabrication. Some of their types include solid MNs, hollow MNs, coated MNs, hydrogel forming MNs, and dissolving MNs. These MNs deliver the therapeutics via microchannels deeper into the skin. The coated and hollow MNs have been found successful. However, they suffer from poor drug loading and blocking of pores. In contrast, dissolving MNs offer high drug loading. These MNs have also been utilized to deliver vaccines and biologicals. They have also been used in cosmetics. The current review covers the different types of MNs, materials used in their fabrication, properties of MNs, and various case studies related to their role in delivering therapeutics, monitoring level of biomarkers/hormones in body such as insulin. Various patents and clinical trials related to MNs are also covered. Covered are the major bottlenecks associated with their clinical translation and potential future perspectives. Graphical Abstract: (Figure presented.)

AB - In recent year, the research of transdermal drug delivery systems has got substantial attention towards the development of microneedles (MNs). This shift has occurred due to multifaceted advantages of MNs as they can be utilized to deliver the drug deeper to the skin with minimal invasion, offer successful delivery of drugs and biomolecules that are susceptible to degradation in gastrointestinal tract (GIT), act as biosensors, and help in monitoring the level of biomarkers in the body. These can be fabricated into different types based on their applications as well as material for fabrication. Some of their types include solid MNs, hollow MNs, coated MNs, hydrogel forming MNs, and dissolving MNs. These MNs deliver the therapeutics via microchannels deeper into the skin. The coated and hollow MNs have been found successful. However, they suffer from poor drug loading and blocking of pores. In contrast, dissolving MNs offer high drug loading. These MNs have also been utilized to deliver vaccines and biologicals. They have also been used in cosmetics. The current review covers the different types of MNs, materials used in their fabrication, properties of MNs, and various case studies related to their role in delivering therapeutics, monitoring level of biomarkers/hormones in body such as insulin. Various patents and clinical trials related to MNs are also covered. Covered are the major bottlenecks associated with their clinical translation and potential future perspectives. Graphical Abstract: (Figure presented.)

KW - Biosensors

KW - Cancer

KW - Diabetes

KW - Materials of fabrication

KW - Microneedles

KW - Rheumatoid arthritis

KW - Transdermal drug delivery

UR - https://www.scopus.com/pages/publications/85178213051

U2 - 10.1007/s13346-023-01475-9

DO - 10.1007/s13346-023-01475-9

M3 - Review article

C2 - 38036849

AN - SCOPUS:85178213051

SN - 2190-393X

VL - 14

SP - 1393

EP - 1431

JO - Drug Delivery and Translational Research

JF - Drug Delivery and Translational Research

IS - 6

ER -

Unravelling the role of microneedles in drug delivery: Principle, perspectives, and practices

Abstract

UN SDGs

Keywords

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