Munsterman
Brian Andrew Munsterman, Coon Rapids, MN US
Patent application number | Description | Published |
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20110019937 | HEAVY-DUTY QUAD SEAL PLASTIC BAG WITH SIDE HANDLE HOLES - A heavy-duty plastic bag is comprised of a flat front panel, a back panel and gusseted longitudinal side panels. One of the gusseted longitudinal side panels has extended opposed gusseted side walls to form bag carrying end panels. The bag carrying end panels are sealed with one another and are each provided with three spaced-apart handle holes for ease of carrying the bag by one or both ends of a person with the bag disposed horizontally to facilitate manipulation in carrying of the bag. The bag carrying end panels provide for reinforced hand holes and comfort to the hands of a user person. The gusseted side panels and front and back panels provide a heavy-duty plastic bag with four display panels. | 01-27-2011 |
David Munsterman, Shelbyville, KY US
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20150274378 | RESEALABLE CONTAINER AND CLOSURE PACKAGE - A resealable container and closure package includes a container and a closure cap. The container has a longitudinal center axis, and a finish. The finish includes an external thread, an annular lip, and a sealing surface. The external thread includes 1.5 turns of a complete thread having symmetrical flank angles of about 13 degrees. The lip extends radially inwardly from a neck at an angle from about 0 degrees to about 5 degrees from a plane orthogonal to the center axis. The sealing surface is on an exterior surface of the lip. The closure cap includes an end wall defining a circumferential edge, an annular skirt projecting from the end wall, and an internal thread defined on an inner surface of the annular skirt. The internal thread is threadingly engageable with the external thread. The internal thread has an “M” style cross section for an SP 400 Finish. | 10-01-2015 |
Erwin Hunh Munsterman, Amsterdam NL
Patent application number | Description | Published |
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20100133143 | COMPOSITIONS PRODUCED USING AN IN SITU HEAT TREATMENT PROCESS - Methods for treating a subsurface formation and compositions produced therefrom are described herein. At least one method for producing hydrocarbons from a subsurface formation includes providing heat to the subsurface formation using an in situ heat treatment process. One or more formation particles may be formed during heating of the subsurface formation. Fluid that includes hydrocarbons and the formation particles may be produced from the subsurface formation. The formation particles in the produced fluid may include cenospheres and have an average particle size of at least 0.5 micrometers. | 06-03-2010 |
Matthew D. Munsterman, Warsaw, IN US
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20120226283 | PATIENT-SPECIFIC ACETABULAR GUIDES AND ASSOCIATED INSTRUMENTS - A patient-specific acetabular guide can be used for preparing an acetabulum of a patient to receive an acetabular implant. The acetabular guide includes a patient-specific engagement surface designed to be complementary and mateable with a corresponding surface of the patient's pelvic anatomy. The acetabular guide is designed during a pre-operative plan for the patient by a three-dimensional reconstruction of the anatomy of the patient using two-dimensional medical images. The patient-specific engagement surface has a first portion mateable with a portion of the acetabulum of the patient. The acetabular guide includes a guiding element that extends from the acetabular guide opposite to the first portion of engagement surface. The guiding element defines a bore designed to be oriented along an alignment axis for an acetabular implant when the acetabular guide is engaged to the acetabulum. | 09-06-2012 |
20130204254 | Limited Use Acetabular Reamer - A limited use acetabular reamer can be used to perform selected procedures. The limited use reamer can be formed of low cost materials and be assembled in a limited number of steps. For example, a cutting portion can be formed or a metal and a body portion can be formed of a polymer. | 08-08-2013 |
Nathan Munsterman, Andover, MN US
Patent application number | Description | Published |
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20100030289 | PRE-QUALIFICATION OF AN ALTERNATE SENSING CONFIGURATION - Multiple sensing configurations may be qualified based on one induced tachyarrhythmia, e.g., ventricular fibrillation, or other qualification event during an implantation procedure. Each sensing configuration comprises a different combination of two or more electrodes used for sensing electrical signals of the heart of the patient. In some examples, an implantable medical device or other device generates qualification information for each sensing configuration, which may indicate whether the sensing configuration is qualified for subsequent cardiac event detection based on an accuracy of the cardiac event detection for the sensing configuration during the qualification event. One of the qualified configurations may initially be selected as a primary sensing configuration for subsequent cardiac event detection. Switching to an alternate sensing configuration, e.g., upon identification of any sensing integrity condition of the primary sensing configuration, may be expedited by the previous collection of qualification data for at least one other sensing configuration. | 02-04-2010 |
Nathan P. Munsterman, Andover, MN US
Patent application number | Description | Published |
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20130030489 | SAMPLING INTRINSIC AV CONDUCTION TIME - Methods and/or devices for sampling a patient's intrinsic AV conduction time during cardiac therapy that may, e.g., change the AV delays to values based on the AV delays themselves, previously-sampled intrinsic AV conduction times, and/or one or more other parameters directly related to AV delays to provide a time period during which to measure the patient's intrinsic AV conduction time. | 01-31-2013 |
20140343618 | SAMPLING INTRINSIC AV CONDUCTION TIME - Methods and/or devices for sampling a patient's intrinsic AV conduction time during cardiac therapy that may, e.g., change the AV delays to values based on the AV delays themselves, previously-sampled intrinsic AV conduction times, and/or one or more other parameters directly related to AV delays to provide a time period during which to measure the patient's intrinsic AV conduction time. | 11-20-2014 |