Responsive Drug Delivery System Presenter Bo He 121003

Responsive Drug Delivery System Presenter: Bo He 12/10/03

Outline Traditional drug dosing & introduction to responsive drug delivery systems l Commercially available sensors & drug delivery systems l Responsive drug delivery systems under development l Challenge & perspective l

Traditional Drug Dosing l l l Medicine or injections Each person responds uniquely Noticeable symptoms are not sufficient to support timely and accurate dosing Examples- diabetes, cardiovascular disease, acute pain Controlled release – frequent exposure, side effects, tolerance

Responsive Drug Delivery Systems l l l Combination of Biosensors & controlled release system Revolutionized medicine by enabling individualized therapy Sense continuously to manage unpredictable condition Immediate respond with appropriate countermeasure Give the patients more flexibility and less disruption of the daily life

Example: Insulin Pumps l l l An insulin reservoir (like a regular syringe) A small battery operated pump A computer chip for control Infusion set- a thin plastic tube to deliver insulin to the body Pump therapy – A basal rate & bolus insulin Combination with Glucose sensors

The Importance of Control l l Programmed release controlled by microchips More flexibility & less pain Reduced the risk of side effects More than 200, 000 people in the US wear insulin pumps

Ideal Responsive Drug Delivery l Disadvantages of available systems – – – l Not automatic, the user has to decide the dose The results are not always reliable Sensors and controlled drug delivery systems are not combined Ideal systems – – Sense minute amounts of marker molecules Immediate response In vivo detection and delivery Small, biocompatible, accurate and reproducible

Type of Drug Delivery Noninvasive reverse iontophoresis devices Commercially available Implantable fusion pumps Duros implant technology controlled release Closed loop Responsive Smart polymers

Biosensors, e. g. Glucowatch l l l Biographer: non-invasive, watch-like device that measures glucose Auto. Sensor: a plastic part that snaps into the Biographer and sticks to the skin. Noninvasive & automatic reading every 10 mins up to 13 h

Comparison of Glucose Readings

How does Glucowatch work? l l l Based on reverse iontophoresis A low electric current pulls glucose through the skin. Glucose is accumulated in two gel collection discs in the Auto. Sensor. Another electrode in the Auto. Sensor measures the glucose.

Enzymatic pathway l l l Glucose oxidase catalyze oxidization of glucose in hydrogel Hydrogen peroxide reacts on the platinum electrode, providing electrons Current is proportional to glucose

Controlled-release device l Affecting factors – – – Compositions of osmotic agent Thickness of semipermeable membrane Surface area

Responsive drug delivery systems l Smart polymer – l Antigen-antibody interaction Closed loop systems – Sensing and delivery combo system

Antigen-antibody interaction smart polymers A semi-interpenetrating polyacrylamide (PAAm) hydrogel Antigen—rabbit immunoglobulin G( rabbit Ig. G) Antibody—goat anti-rabbit Ig. G (GAR Ig. G) Takashi Miyata et al. , Nature, vol 399 , 766

Antigen-antibody interaction smart polymers Effect of free antigen concentration on the hydrogen swelling ration Antigen recognition by antigenantibody semi-IPN hydrogel

Antigen-antibody interaction smart polymers • Reversible swelling changes • Antigen-responsive permeation (a model protein drug haemoglobin through a membrane fabricated from hydrogel )

Schematic of Self Regulating Responsive Therapeutic System

Challenge l Commercially available systems – – – l Expensive yet not always reliable Not automatically responsive Not completely in vivo Systems under development – – – Short lifetime and hard to reproduce Slow response time Biocompatibility (coating)

References l l l l l Sapna K. Deo; et al. Analytical Chem. 2003, 206 A-213 A. www. minimed. com www. glucowatch. com R. T. Kurnik et al. Electrochem. Soc. 1998, 145, 4119 -4125 Miyata, T. et al. Nature 1999, 399, 766– 769. Zhang, K. ; Wu, X. Y. J. Controlled Release 2002, 80, 169– 178. Tanihara, M. et al. J. Pharm. Sci. 1999, 88, 510– 514. www. chiprx. com www. acs. ohio-state. edu/unit/research/archive/muscles. htm Metzger, M. et al. Diabetes Care 2002, 25, 1185– 1191.

Thank You