Aimed at tackling the compatibility issues arising from the drug reaction in intravenous infusion tube, we developed a simple, suitable and multi-function intravenous infusion tube for the special use for rescuing critical patients, the elderly, children etc. Each drug in a transfusion process can be filtered to realize quantitative packet and packet delivery. Thus, the drugs in the infusion tube are prevented from meeting with each other. No overlap, no particle pollution occurred. Stable performance and accurate dosage are maintained. As a result safety is ensured during drug delivery.
Drug Delivery Systems ; instrumentation ; Drug Packaging ; instrumentation ; Equipment Design ; Infusions, Intravenous ; instrumentation

With a microsystem or micropump, the release rate of drug delivery is able to be controlled easily to maintain the therapeutic efficacy. A piezoelectric membrane-valve micropump for implantable and carryhome drug delivery system is developed and tested. The influence elements of dynamic performance of the PZT actuator and valve were analyzed, and the calculation method of resonant frequency of the membrane valve was provided. Study results showed that the output performance of the micropump depended on the coupling effect of the actuator and valve. For a given actuator, the output value and the optimal frequency of a micropump could be enhanced only by valve design. Two micropumps with different valve dimensions were fabricated for comparing examination. The smaller -valve micropump obtained higher output values (the maximum flow rate and backpressure being 3.5 ml/min and 27 KPa, respectively) and two optimal frequencies (800 Hz and 3 000 Hz). The larger -valve micropump achieved lower output values (the maximum flow rate and backpressure being 3.0 ml/min and 9 KPa, respectively) and one optimal frequency (about 200 Hz). The test results suggest that the output values and optimal frequency of micropump can be improved by changing the valve dimension, and the viewpoint that checkvalve micropump works only with low acting frequency is wrong.
Drug Delivery Systems ; instrumentation ; Equipment Design ; Humans ; Infusion Pumps, Implantable ; Micro-Electrical-Mechanical Systems ; instrumentation

Drug-device combination product, which comprises at least a drug and a medical device, has been proved to effectively reduce the risk of complications accompanied with conventional medical devices implantation, and has a great clinical success especially in implantable therapeutics. Herein, we firstly elaborated the definitions and requirements of drug-device combination product in different countries, then summarized the market application and research development of typical drug-device combination products. Technical problems and the trend of future development had also been analyzed.
Drug Delivery Systems/instrumentation* ; Equipment Design ; Prostheses and Implants

The study aims to investigate the effect of the ratio of long axis to short axis (RLS) of upright polypropylene infusion bag on discharging process and to search the best RLS. Aiming at five different RLS (1. 5 : 1, 2 : 1, 3 : 1, 4 : 1 and 5 : 1, respectively) with the volume of 100 mL, 250 mL and 500 mL, respectively, based on finite element method, analyzing the variation of stress distribution, emptying rate, drugging space and steadiness coefficient, etc. For the bags of the same volume, emptying rate increased with increasing of RLS, but the steadiness coefficient decreased with increasing of RLS. The specific increasing amplitude of emptying rate and decreasing range of steadiness coefficient were as follows: 20% and 49% for 100 mL infusion bag, 9% and 51% for 250 mL infusion bag, and 11% and 46% for 500 mL infusion bag, respectibvely, when RLS increased from 1. 5 : 1 to 5 : 1. Comparatively speaking, the increasing amplitude of the emptying rate is remarkably less than the decreasing range of the steadiness coefficient. By comprehensive consideration of both emptying rate and steadiness coefficient, lower RLS is recommended for upright polypropylene infusion bag.
Drug Delivery Systems ; instrumentation ; Finite Element Analysis ; Polypropylenes

The development of automatic drug delivery is reviewed in this paper. The control-relevance of models, the relevant algorithm, the system running and the simulation effect are introduced. The value for clinical application of each case is assessed. The new advances and high-lights of researches are discussed.
Algorithms ; Drug Delivery Systems ; instrumentation ; Drug Therapy, Computer-Assisted ; instrumentation ; Humans ; Infusion Pumps ; Monitoring, Physiologic ; methods

It is very important to disrupt the stratum corneum structure and to create pathways allowing transport of macromolecules, as the traditional transdermal drug delivery has been severely limited by the skin barrier. With the development of the Micro Electro-Mechanical System (MEMS), it becomes possible for microneedles array to strengthen the transdermal drug delivery. In addition to the increase of the skin permeability, it can also be used to deliver drugs into skin, such as insulin and vaccine, providing a new direction for drug delivery systems. In this paper, we review the development and applications in transdermal drug delivery of microneedles' array. The commercial prospects and recommendations for the future research work are also represented.
Administration, Cutaneous ; Drug Delivery Systems ; instrumentation ; Equipment Design ; Micro-Electrical-Mechanical Systems ; Microinjections ; Needles

A novel double-chamber series piezoelectric pump has been presented and tested. The pump is a multi-layer circular planar structure, consisting of PMMA (polymethyl methacrylate) pump body, two PZT actuator membranes and three cantilever valves. The PZT actuators are driven at a phase difference of 180 degrees, which is equal to two one-chamber pumps running in series. The output performance depends on the geometrical parameters of the actuator membrane. The prototype pump, fabricated with the PZT membrane 0.18 mm in thickness and 50 mm in diameter of 50 mm, can deliver drug in either direct way (pumping liquid drug) or indirect way (pumping air to extrude liquid drug from a sealed container). The frequency-response characteristic of the two handling methods is of difference. The pump obtains optimum performance at low frequency for liquid as medium, and at high frequency for air as medium. For both the direct delivery and indirect delivery, the maximum flowrate achieved reached up to 220 ml/min and 35 ml/min, respectively; and the maximum backpressure obtained amounted to about 14 KPa and 21 KPa, respectively, at the applied voltage of 80 V with frequency of 20 Hz.
Drug Delivery Systems ; instrumentation ; Electricity ; Equipment Design ; Evaluation Studies as Topic ; Insulin Infusion Systems ; Models, Theoretical

The adverse reactions caused by the traditional Chinese medicine has become increasingly aroused great attention. Traditional Chinese medicine injection may produce insoluble particles in the process of production, preparation and infusion, which is one of the reasons caused some adverse drug reactions such as phlebitis, allergic reactions, so it is essential that how to control Chinese medicine injection of insoluble drug particles enter human clinical safety. The author retrieve a large number of paper, from the infusion of particles, analysis traditional Chinese medicine injection and insoluble particles in the liquid compatibility increased occurrence and cause, comparative advantages and disadvantages of the ordinary infusion and precision infusion, which found that using sophisticated filters infusion of traditional Chinese medicine injection control of traditional Chinese medicine injection of insoluble particles enter the blood vessels, thereby reducing the occurrence of adverse drug reactions part of the traditional Chinese medicine injection, is the best, most effective, most secure way of infusion.
Drug Delivery Systems ; instrumentation ; Drugs, Chinese Herbal ; administration & dosage ; adverse effects ; chemistry ; Humans ; Infusions, Parenteral ; instrumentation

Angioplasty, Balloon, Coronary ; instrumentation ; Drug Delivery Systems ; instrumentation ; Equipment Safety ; Follow-Up Studies ; Humans ; Stents

This text has introduces a new-type laser treatment device. It utilizes the ultrasound atomized gas passage as its optics and makes the laser beams together with the atomized medicine to be transmitted to the patient's respiratory track and lungs for treatment.
Drug Delivery Systems ; instrumentation ; Equipment Design ; Humans ; Laser Therapy ; instrumentation ; Nebulizers and Vaporizers ; Ultrasonics