The Panomat® P-10 micro-volumetric infusion pump is suitable for continuous drug administration at minimal flow rates

Neff, Thomas; Fellmann, Claudia; Fuechslin, Rudolf M.; Gerber, Andri; Weiß, Markus

doi:10.1007/bf03017900

Cited by 7 publications

(6 citation statements)

References 10 publications

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“…In addition, based on these experimental results, a more realistic control firmware that supports various flow rate adjustments and bolus modes will be developed in a further study. (6,7). In contrast, in an implantable device, the altitude difference is relatively small and does not change steeply after implantation.…”

Section: Won Nam Et Almentioning

confidence: 92%

In Vitro Evaluation of Hydraulic Characteristics of Prototype Implantable Intrathecal Infusion Pump

et al. 2010

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The use of the intrathecal infusion pump for therapeutic treatment and pain management is increasing. For example, one such application is the pain treatment of cancer patients suffering from severe chronic pain, where all other treatment methods have failed. This method is gaining popularity because of its high cure effect with low dosage. In this study, we developed a prototype implantable intrathecal infusion pump and evaluated its mechanical and hydraulic characteristics in vitro to determine how its performance varied under different environmental conditions. The data are reported as means (standard deviations). In the experiments, the prototype pump could control the micro-scale infusion amount, and its performance was affected by ambient temperature and pressure conditions. In a temperature change test, at a constant pressure of 1.0 atm, the minimal amounts of a bolus were 4.44 (1.07), 5.06 (1.17), and 5.54 (0.90) uL for the temperature of 27.5, 36.5, and 42°C, respectively. In a pressure change test, at a constant temperature of 36.5°C, the minimal amounts of a bolus were 5.06 (1.17), 5.94 (0.67), and 6.13 (0.39) uL for pressures of 1.0, 0.9 and 0.8 atm, respectively. These experimental results demonstrate the possibility of using the prototype pump as an implantable microvolumetric infusion device. However, this prototype pump will have to undergo further design enhancement before being clinically feasible for such an application.

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Section: Won Nam Et Almentioning

confidence: 92%

In Vitro Evaluation of Hydraulic Characteristics of Prototype Implantable Intrathecal Infusion Pump

et al. 2010

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“…To determine the effects of the vertical altitude difference between the drug chamber and the distal end of the outlet catheter, the target injection rate was set at 0.5, 1.0, 1.5, and 2.0 ml/h, respectively, the drug chamber was abruptly dropped 50 cm under the catheter-attached needle, and the retrograde aspiration volume (RAV), zero-drug delivery time (ZDDT), and time to re-establish a 95 per cent steady-state flow were measured. The drug chamber was then abruptly raised 50 cm upwards and the release of an infusion bolus (IB) and the pattern of the actual flowrate in the same operation modes were measured [5, 7]. A patient monitor (DS-5300W; Fukuda Denshi Co. Ltd, Tokyo, Japan) and a data acquisition board (NI-USB 6250; National Instruments Corp., Austin, Texas, USA) were used to extract the information on the internal pressure of the drug chamber.…”

Section: Methodsmentioning

confidence: 99%

Development and in vitro evaluation of a flow-adjustable elastic drug infusion pump

Choi

Kang

Kim

et al. 2011

Proc Inst Mech Eng H

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Passive-type drug infusion pumps have several advantages over active-type pumps including a simple drug chamber structure and relatively high operational stability. However, conventional passive-type infusion pumps also have several limitations compared to active ejection pumps, such as a fixed flowrate and monotonic flow pattern. To enhance the clinical feasibility of using passive-type drug infusion pumps, flow readjustment and flow regulation abilities are needed. This paper proposes a new portable elastic drug infusion pump that integrates the advantages of active and passive infusion pumps to improve clinical feasibility. The proposed infusion pump incorporates a passively driven drug chamber and an actively adjusted flow controller, which can adjust and regulate various target flowrates and adjust the flow pattern in accordance with the patient's time-varying physiological status. The proposed infusion pump uses the contraction force of an expanded elastic membrane to extract the drug from the drug chamber for delivery into the patient's body through an outlet catheter. It also utilizes a flow sensor, a flow resistor, and a motor-driven flow restrictor that can monitor the real-time flowrate through the outlet catheter and automatically regulate the actual flow-rate around the target value. Experiments on the proposed system resulted in actual injection rates of 0.49 +/- 0.03 (mean +/- standard deviation), 0.98 +/- 0.03, 1.49 +/- 0.04, and 1.99 +/- 0.03 ml/h when the target injection rate was set to 0.5, 1.0, 1.5, and 2.0 ml/h, respectively. During the entire period of operation from the fully filled state to the totally empty state, an inner-chamber pressure of >100 mmHg was maintained, which shows that the proposed infusion pump can stably maintain its target flowrate as the amount of drug remaining to be injected decreases. It appears that the proposed drug infusion pump can be applied to a wide variety of patient treatments that require short-term, accurate, and stable drug delivery.

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“…12 Neff et al reported a reduced gravimetric influence of the Panomat® P-10 (Disetronic Medical Systems AG, Burgdorf, Switzerland) micro-volumetric infusion pump during vertical pump displacement, which was designed especially for microinfusion. 13 Although 50-mL syringes are commonly used when administering catecholamines, we chose 20-mL syringes, which are of relatively low compliance. We use 20-mL syringes in caring for neonates to improve accuracy of drug delivery when infusing catecholamines.…”

Section: Methodsmentioning

confidence: 99%

Syringe pump displacement alters line internal pressure and flow

Igarashi

Obata

Nakajima

et al. 2005

Can J Anesth/J Can Anesth

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The Panomat® P-10 micro-volumetric infusion pump is suitable for continuous drug administration at minimal flow rates

Cited by 7 publications

References 10 publications

In Vitro Evaluation of Hydraulic Characteristics of Prototype Implantable Intrathecal Infusion Pump

In Vitro Evaluation of Hydraulic Characteristics of Prototype Implantable Intrathecal Infusion Pump

Development and in vitro evaluation of a flow-adjustable elastic drug infusion pump

Syringe pump displacement alters line internal pressure and flow

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