Toralf Bork scite author profile

Toralf Bork

5Publications

29Citation Statements Received

54Citation Statements Given

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Affiliations

Advanced Neural Dynamics (United States)

Publications

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A Telemetric Pressure Sensor System for Biomedical Applications

Ginggen¹,

Tardy²,

Crivelli³

et al. 2008

IEEE Trans. Biomed. Eng.

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A new implantable pressure sensor for long-term monitoring of intracranial pressure is presented. The sensor is powered by telemetry and can be interrogated wirelessly. A capacitive pressure transducer, whose capacitance is converted to a frequency-encoded signal by an application-specific integrated circuit (ASIC), senses the absolute pressure. The pressure-encoded signal, the ASIC input voltage, and onboard calibration parameters are transmitted to an external reading unit. The proposed novel packaging solution is designed for long-term stability and reliability of the sensor. The accuracy of sensor at body temperature is better than 2 mbar across a pressure range of 600-1200 mbar. The sensor is 13 mm in diameter and 4.5 mm in height.

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Development and in-vitro characterization of an implantable flow sensing transducer for hydrocephalus

Bork¹,

Hogg²,

Lempen

et al. 2010

Biomed Microdevices

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An implantable transducer for monitoring the flow of Cerebrospinal fluid (CSF) for the treatment of hydrocephalus has been developed which is based on measuring the heat dissipation of a local thermal source. The transducer uses passive telemetry at 13.56 MHz for power supply and read out of the measured flow rate. The in vitro performance of the transducer has been characterized using artificial Cerebrospinal Fluid (CSF) with increased protein concentration and artificial CSF with 10% fresh blood. After fresh blood was added to the artificial CSF a reduction of flow rate has been observed in case that the sensitive surface of the flow sensor is close to the sedimented erythrocytes. An increase of flow rate has been observed in case that the sensitive surface is in contact with the remaining plasma/artificial CSF mix above the sediment which can be explained by an asymmetric flow profile caused by the sedimentation of erythrocytes having increased viscosity compared to artificial CSF. After removal of blood from artificial CSF, no drift could be observed in the transducer measurement which could be associated to a deposition of proteins at the sensitive surface walls of the packaged flow transducer. The flow sensor specification requirement of +-10% for a flow range between 2 ml/h and 40 ml/h. could be confirmed at test conditions of 37 degrees C.

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Assessment of telemetry and fluidic control system used in the Medstream programmable infusion system: an in vivo and in vitro study

Bork¹,

Crivelli²,

Tardy³

et al. 2014

Biomed Microdevices

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The MedStream Programmable Infusion Pump, an intrathecal pump indicated for the treatment of chronic intractable pain and severe spasticity (CE-mark) or severe spasticity (US), has a highly accurate medication delivery (within 10% of the programmed flow rate) and is certified for use in 3-Tesla magnetic resonance imaging systems (conditional). Performance of the telemetric link between external control-unit and implanted pump was assessed in sheep (in vivo) up to 26 weeks, resulting in 1040 communication sessions. The telemetric communication envelope (communication distance and maximum antenna tilt angles) and communication duration were characterized in an in vitro test. Capacitance measurements of the piezoelectric actuator of the valve, valve flow rates, and leak rates were measured in an in vitro cyclic accelerated aging test to assess reliability of the valve over 6,200 k cycles. The pump was well tolerated in vivo; all communication sessions between control-unit and pump were successful (P = 6.889 × 10(-14)). Mean communication distance between pump and control-unit was 3.8 cm, with the maximum antenna tilt angles being 40° (θy) and 50° (θx) for all test cases; the maximum communication duration was 5.5 s. Capacitance measurements, flow rates, and leak rates were within ±10 % range up to 6,200 k cycles corresponding to approximately 10 times the valve cycles over the specified service life of the pump (8 years), except for one flow-rate value, which can be explained by the measurement setup. These results demonstrate the reliability of the telemetry link and piezoelectric valve system of the MedStream Programmable Infusion Pump.

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In Vivo Study of Flow-Rate Accuracy of the MedStream Programmable Infusion System

Venugopalan

Ginggen

Bork

et al. 2011

Neuromodulation: Technology at the Neural Interface

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In-vitro characterization of an implantable thermal flow sensor for hydrocephalus

Burger¹,

Bork²,

Hogg

et al. 2009

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Toralf Bork

A Telemetric Pressure Sensor System for Biomedical Applications

Development and in-vitro characterization of an implantable flow sensing transducer for hydrocephalus

Assessment of telemetry and fluidic control system used in the Medstream programmable infusion system: an in vivo and in vitro study

In Vivo Study of Flow-Rate Accuracy of the MedStream Programmable Infusion System

In-vitro characterization of an implantable thermal flow sensor for hydrocephalus

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