Patents by Inventor Kristian Solem

Kristian Solem has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Publication number: 20120283581
    Abstract: A monitoring device receives a measurement signal obtained by a pressure sensor in an extracorporeal fluid system, such as an extracorporeal blood circuit for a dialysis machine which is in contact with a vascular system of a subject via a fluid connection. The monitoring device processes the measurement signal to identify pressure data that represents pulses originating from a first physiological phenomenon in the subject, excluding the heart of the subject. The first physiological phenomenon may be any of reflexes, voluntary muscle contractions, non-voluntary muscle contractions, a breathing system of the subject, an autonomous system of the subject for blood pressure regulation, or an autonomous system of the subject for body temperature regulation. The monitoring device may detect, present, track or predict a disordered condition of the subject using the pressure data, or monitor the integrity of the fluid connection based on the pressure data.
    Type: Application
    Filed: June 24, 2010
    Publication date: November 8, 2012
    Applicant: GAMBRO LUNDIA AB
    Inventors: Bo Olde, Kristian Solem
  • Patent number: 8287725
    Abstract: The invention relates to prediction of a rapid symptomatic drop in a subject's blood pressure, e.g. during a medical treatment or when operating an aircraft. To this aim, a pulse shape parameter (Pps) with respect to a peripheral body part (105) of the subject (P) is registered by means of a pulse oximetry instrument (110) adapted to detect light response variations in blood vessels. An initial pulse magnitude measure is calculated based on a pulse shape parameter (Pps) received at a first instance. During a measurement period subsequent to the first instance, a respective pulse magnitude measure is calculated based on each of a number of received pulse shape parameters (Pps). It is further investigated, for each pulse magnitude measure in the measurement period, whether or not the measure fulfills a decision criterion relative to the initial pulse magnitude measure. An alarm triggering signal (?) is generated if the decision criterion is found to be fulfilled.
    Type: Grant
    Filed: June 4, 2007
    Date of Patent: October 16, 2012
    Assignee: Gambro Lundia AB
    Inventors: Leif Sörnmo, Kristian Solem, Bo Olde
  • Patent number: 8060190
    Abstract: The invention relates to cardiac-activity based prediction of a rapid drop in a patient's blood pressure during hemodialysis. A proposed alarm apparatus includes an input interface, primary and secondary analysis units and an alarm-generating unit. An electrocardiogram signal (HECG) of the patient is received via the input interface by the primary analysis unit, which in response thereto produces a heart-rate-variability signal (PHRV). The secondary analysis unit determines an intensity of ectopic beats (PEBC) based on the electrocardiogram signal (HECG). The alarm-generating unit investigates whether the intensity of ectopic beats (PEBC) is relatively low or relatively high. In case of a relatively low intensity, the unit triggers an alarm signal (?) indicative of an estimated rapid blood pressure decrease if the heart-rate-variability signal (PHRV) fulfills a first alarm criterion.
    Type: Grant
    Filed: September 12, 2005
    Date of Patent: November 15, 2011
    Assignee: Gambro Lundia AB
    Inventors: Leif Sörnmo, Kristian Solem
  • Publication number: 20110112595
    Abstract: A monitoring device is arranged to receive a time-dependent measurement signal from a pressure sensor in a fluid containing system, which is associated with a first pulse generator and a second pulse generator. The pressure sensor is arranged in the fluid containing system to detect a first pulse originating from the first pulse generator and a second pulse originating from the second pulse generator. The monitoring device is configured to process the measurement signal to remove the first pulse. In this process, the monitoring device receives the measurement signal, obtains a first pulse profile which is a predicted temporal signal profile of the first pulse, and filters the measurement signal in the time-domain, using the first pulse profile, to essentially eliminate the first pulse while retaining the second pulse. The fluid containing system may include an extracorporeal blood flow circuit and a blood circuit of a human patient.
    Type: Application
    Filed: June 26, 2009
    Publication date: May 12, 2011
    Inventors: Kristian Solem, Bo Olde
  • Publication number: 20110106466
    Abstract: A surveillance device monitors the integrity of a fluid connection between first and second fluid containing systems based on at least one time-dependent measurement signal from a pressure sensor in the first fluid containing system. The first fluid containing system comprises a first pulse generator, and the second fluid containing system comprises a second pulse generator. The pressure sensor is arranged to detect first pulses originating from the first pulse generator and second pulses originating from the second pulse generator. The integrity of the fluid connection is determined based on the presence of second pulses in the measurement signal. The second pulses may be detected by analysing the measurement signal in the time domain and/or by using timing information indicative of the timing of the second pulses in said at least one measurement signal. The analysis may be based on a parameter value that represents a distribution of signal values within a time window of the measurement signal.
    Type: Application
    Filed: June 26, 2009
    Publication date: May 5, 2011
    Inventors: Martin Furmanski, Anders Roslund, Bo Olde, Kristian Solem, Thomas Hertz, Jan Sternby
  • Publication number: 20110040502
    Abstract: A device is provided for monitoring the integrity of a flow circuit in fluid communication with a receptacle. The flow circuit comprises a pumping device for transferring fluid through the flow circuit. The device operates according to a monitoring method in which a pressure signal is received from a pressure sensor, the pressure signal being indicative of fluid pressure in the receptacle or the flow circuit. The pressure signal is then processed for detection of a beating signal. The beating signal manifests itself as an amplitude modulation of the pressure signal and is formed by interference between pressure waves generated by a pulse generator associated with the receptacle and pressure waves generated by the pumping device. The integrity of the flow circuit is determined based at least partly on the presence or absence of the beating signal. The device and the flow circuit may be part of an apparatus for extracorporeal blood treatment, and the method may be implemented as a computer program product.
    Type: Application
    Filed: April 16, 2009
    Publication date: February 17, 2011
    Inventors: Martin Furmanski, Andres Roslund, Bo Olde, Kristian Solem
  • Publication number: 20100094158
    Abstract: The invention relates to estimation of a patient's propensity to suffer from symptomatic hypotension during extracorporeal blood treatment. An electromagnetic test signal, which is applied over a thoracic region of the patient via at least one transmitter electrode. A result signal produced in response to the test signal is received via at least one receiver electrode on the patient. A test parameter is derived based on the result signal. The test parameter expresses a fluid status of the thoracic region of the patient, and it is determined whether the test parameter fulfills an alarm criterion. If the test parameter fulfills an alarm criteria, an alarm signal is generated. This signal indicates that the patient is hypotension prone, and that appropriate measures should be taken.
    Type: Application
    Filed: September 6, 2007
    Publication date: April 15, 2010
    Inventors: Kristian Solem, Bo Olde
  • Publication number: 20090272678
    Abstract: The invention relates to prediction of a rapid symptomatic drop in a subject's blood pressure, e.g. during a medical treatment or when operating an aircraft. To this aim, a pulse shape parameter (Pps) with respect to a peripheral body part (105) of the subject (P) is registered by means of a pulse oximetry instrument (110) adapted to detect light response variations in blood vessels. An initial pulse magnitude measure is calculated based on a pulse shape parameter (Pps) received at a first instance. During a measurement period subsequent to the first instance, a respective pulse magnitude measure is calculated based on each of a number of received pulse shape parameters (Pps). It is further investigated, for each pulse magnitude measure in the measurement period, whether or not the measure fulfils a decision criterion relative to the initial pulse magnitude measure. An alarm triggering signal (?) is generated if the decision criterion is found to be fulfilled.
    Type: Application
    Filed: June 4, 2007
    Publication date: November 5, 2009
    Applicant: GAMBRO LUNDIA AB
    Inventors: Leif Sornmo, Kristian Solem, Bo Olde
  • Publication number: 20090082684
    Abstract: The invention relates to cardiac-activity based prediction of a rapid drop in a patient's blood pressure during hemodialysis. A proposed alarm apparatus includes an input interface, primary and secondary analysis units and an alarm-generating unit. An electrocardiogram signal (HECG) of the patient is received via the input interface by the primary analysis unit, which in response thereto produces a heart-rate-variability signal (PHRV). The secondary analysis unit determines an intensity of ectopic beats (PEBC) based on the electrocardiogram signal (HECG). The alarm-generating unit investigates whether the intensity of ectopic beats (PEBC) is relatively low or relatively high. In case of a relatively low intensity, the unit triggers an alarm signal (?) indicative of an estimated rapid blood pressure decrease if the heart-rate-variability signal (PHRV) fulfills a first alarm criterion.
    Type: Application
    Filed: September 12, 2005
    Publication date: March 26, 2009
    Applicant: GAMBRO LUNDIA AB
    Inventors: Leif Sornmo, Kristian Solem
  • Publication number: 20080319332
    Abstract: The invention relates to cardiac-activity based prediction of a rapid drop in a patient's blood pressure during extracorporeal blood treatment. A proposed alarm apparatus (100) includes a primary beat morphology analysis unit (120), a bank of secondary analysis units (B2) and an alarm generating unit (158). The primary beat morphology analysis unit (120) discriminates heart beats in a received basic electrocardiogram signal (HECG), classifies each beat into one out of at least two different beat categories, and associates each segment of the signal (HECG) with relevant event-type data. The event-type data and the basic electrocardiogram signal (HECG) together form an enhanced electrocardiogram signal (ECGCL), based upon which the primary beat morphology analysis unit (120) determines whether one or more secondary signal analyses should be performed.
    Type: Application
    Filed: August 10, 2006
    Publication date: December 25, 2008
    Inventors: Leif Sornmo, Kristian Solem