Electronically Controlled Drug Delivery

In 1998, the book "Electronically Controlled Drug delivery" was published, providing an overview of advances in drug delivery using electronics to regulate the delivery profile and optimize therapy.

Format: Paperback / softback
Length: 240 pages
Publication date: 05 January 2022
Publisher: Taylor & Francis Ltd

Published in 1998, "Electronically Controlled Drug Delivery" offers a comprehensive exploration of the groundbreaking advancements in drug delivery systems that harness the power of electronics to precisely regulate the release profile and enhance therapeutic outcomes. This seminal work provides a comprehensive overview of the emerging field, highlighting key developments, techniques, and applications that have revolutionized the way medications are administered.

The introduction of electronic control in drug delivery systems has opened up a vast array of possibilities for improving patient care. By leveraging advanced technologies such as microelectronics, sensors, and actuators, researchers and healthcare professionals can tailor the drug release profile to match the individual needs of patients, ensuring optimal therapeutic efficacy and minimizing side effects.

One of the key advantages of electronically controlled drug delivery is the ability to achieve precise and predictable drug release rates. This is particularly important in the treatment of chronic diseases, where maintaining a consistent level of medication in the bloodstream is crucial for effective management. Electronic systems can also be programmed to release drugs in a pulsatile or burst fashion, mimicking the natural release patterns of hormones or other biological substances.

Another important application of electronically controlled drug delivery is in the field of targeted drug delivery. By designing drug delivery systems that specifically target certain cells or tissues, researchers can increase the potency of medications while reducing their exposure to healthy tissues. This approach has the potential to improve treatment outcomes and reduce the risk of side effects associated with conventional drug therapies.

Electronic drug delivery systems also offer the potential for remote monitoring and control of drug delivery. This can be particularly useful in patients with chronic conditions or those who require long-term medication management. By using wireless technologies, healthcare professionals can monitor the drug release profile, adjust dosage levels, and ensure that patients receive the appropriate treatment at the right time.

Despite the many benefits of electronically controlled drug delivery, there are also challenges that need to be addressed. One of the main challenges is the development of robust and reliable electronic systems that can withstand the harsh environments of the human body. Additionally, there are concerns about the safety and efficacy of long-term drug delivery systems, particularly in the case of implanted devices.

To address these challenges, researchers and healthcare professionals are actively exploring new materials, technologies, and design approaches. For example, biodegradable materials are being used to develop drug delivery systems that can be safely degraded within the body, while microelectronic devices are being miniaturized to improve their durability and reliability.

In conclusion, "Electronically Controlled Drug Delivery" provides a comprehensive and insightful exploration of the emerging field of drug delivery systems that harness the power of electronics. By providing precise and predictable drug release rates, targeted drug delivery, remote monitoring, and control, electronic drug delivery systems have the potential to revolutionize the way medications are administered and improve patient care. While there are challenges that need to be addressed, ongoing research and development in this field are likely to lead to further advancements that will enhance the effectiveness and safety of drug delivery therapies.

Published in 1998, "Electronically Controlled Drug Delivery" offers a comprehensive exploration of the groundbreaking advancements in drug delivery systems that harness the power of electronics to precisely regulate the release profile and enhance therapeutic outcomes. This seminal work provides a comprehensive overview of the emerging field, highlighting key developments, techniques, and applications that have revolutionized the way medications are administered.

The introduction of electronic control in drug delivery systems has opened up a vast array of possibilities for improving patient care. By leveraging advanced technologies such as microelectronics, sensors, and actuators, researchers and healthcare professionals can tailor the drug release profile to match the individual needs of patients, ensuring optimal therapeutic efficacy and minimizing side effects.

One of the key advantages of electronically controlled drug delivery is the ability to achieve precise and predictable drug release rates. This is particularly important in the treatment of chronic diseases, where maintaining a consistent level of medication in the bloodstream. Electronic systems can also be programmed to release drugs in a pulsatile or burst fashion, mimicking the natural release patterns of hormones or other biological substances.

Another important application of electronically controlled drug delivery is in the field of targeted drug delivery. By designing drug delivery systems that specifically target certain cells or tissues, researchers can increase the potency of medications while reducing their exposure to healthy tissues. This approach has the potential to improve treatment outcomes and reduce the risk of side effects associated with conventional drug therapies.

Electronic drug delivery systems also offer the potential for remote monitoring and control of drug delivery. This can be particularly useful in patients with chronic conditions or those who require long-term medication management. By using wireless technologies, healthcare professionals can monitor the drug release profile, adjust dosage levels, and ensure that patients receive the appropriate treatment at the right time.

Despite the many benefits of electronically controlled drug delivery, there are also challenges that need to be addressed. One of the main challenges is the development of robust and reliable electronic systems that can withstand the harsh environments of the human body. Additionally, there are concerns about the safety and efficacy of long-term drug delivery systems, particularly in the case of implanted devices.

To address these challenges, researchers and healthcare professionals are actively exploring new materials, technologies, and design approaches. For example, biodegradable materials are being used to develop drug delivery systems that can be safely degraded within the body, while microelectronic devices are being miniaturized to improve their durability and reliability.

In conclusion, "Electronically Controlled Drug Delivery" provides a comprehensive and insightful exploration of the emerging field of drug delivery systems that harness the power of electronics. By providing precise and predictable drug release rates, targeted drug delivery, remote monitoring, and control, electronic drug delivery systems have the potential to revolutionize the way medications are administered and improve patient care. While there are challenges that need to be addressed, ongoing research and development in this field are likely to lead to further advancements that will enhance the effectiveness and safety of drug delivery therapies.

Dimension: 234 x 156 (mm)
ISBN-13: 9780367206772