公开(公告)号：US20250025588A1

公开(公告)日：2025-01-23

申请号：US18775425

申请日：2024-07-17

Applicant: Robert E SANDSTROM

Inventor： Robert E SANDSTROM

IPC: A61L2/10

Abstract: Methods and apparatus for sanitizing and/or sterilizing a material, including placing a material to be sanitized and/or sterilized into a reaction chamber, and simultaneously exposing the material to be sanitized and/or sterilized to an ultraviolet light selected to decrease a number of living or viable microorganisms in or on the material, and to a magnetic field having a field strength selected to prolong a lifetime of a free radical entity generated by the ultraviolet light exposure for a time sufficient to prolong the lifetime of the free radical entity.

公开(公告)号：US20210145981A1

公开(公告)日：2021-05-20

申请号：US17140832

申请日：2021-01-04

Applicant: ROBERT E. SANDSTROM

Inventor： ROBERT E. SANDSTROM

IPC: A61K47/69 ,  A61K41/00 ,  A61K47/68 ,  A61K39/395 ,  A61P35/00 ,  A61K9/00 ,  A61N1/40

Abstract: A method of killing cells of a targeted cell type in a patient body that utilizes nanoparticles having a first portion, which when exposed to a target portion of a targeted cell type, binds to the target portion and a second portion, joined to the first portion, and comprised of a low resistivity material. The nanoparticles are introduced into a contact area where they contact cells of the targeted cell type. Contemporaneously, the contact area is exposed to a varying magnetic field of insufficient strength to increase the temperature of any part of the patient body by more than ten degrees Celsius, but which creates a current at the nanoparticles sufficient to disrupt function of the targeted cell type.

公开(公告)号：US20180154020A1

公开(公告)日：2018-06-07

申请号：US15576558

申请日：2016-08-18

Applicant: Robert E. SANDSTROM

Inventor： Robert E. Sandstrom

IPC: A61K47/69 ,  A61K39/395 ,  A61K41/00 ,  A61N1/40 ,  A61K9/00 ,  A61K47/68 ,  A61P35/00

Abstract: A method of killing cells of a targeted cell type in a patient body that utilizes nanoparticles (10) having a first portion (12), which when exposed to a target portion (14) of a targeted cell type (16), binds to the target portion and a second portion (10A), joined to the first portion, and comprised of a low resistivity material. The nanoparticles are introduced into a contact area where they contact cells of the targeted cell type. Contemporaneously, the contact area is exposed to a varying magnetic field of insufficient strength to increase the temperature of any part of the patient body by more than ten degrees Celsius, but which creates a current (20) at the nanoparticles sufficient to disrupt function of the targeted cell type.

公开(公告)号：US09789328B2

公开(公告)日：2017-10-17

申请号：US14642896

申请日：2015-03-10

Applicant: Robert E. Sandstrom

Inventor： Robert E. Sandstrom

IPC: A61N2/00 ,  A61N5/10 ,  A61N2/06 ,  A61N7/00 ,  A61N2/02 ,  A61B34/10

CPC classification number: A61N2/002 ,  A61B34/10 ,  A61B2034/101 ,  A61N2/02 ,  A61N2/06 ,  A61N5/10 ,  A61N7/00

Abstract: In the treatment of a tumor with radiation therapy is enhanced by a weak magnetic field, the field strength time sequence of exposure and shape and contour of the magnetic field are varied to achieve desired results. In one separate aspect, exposure to a magnetic field is continued after exposure to a free radical-creating therapy is ceased or diminished, thereby increasing the lifetimes of free radicals which have already been created. In another preferred embodiment a magnetic field is strategically placed to avoid extending the lives of free radicals in tissue through which a free radical-creating beam must pass, to reach a tumor. This application discloses quantitative parameters for field strength and exposure time to create concentrations and reactivity of free radicals, including long-lived free radicals and discloses the use of shaped, contoured, and designed electromagnetic fields. A treatment planning station is also disclosed.

公开(公告)号：US20160359448A1

公开(公告)日：2016-12-08

申请号：US15240587

申请日：2016-08-18

Applicant: Robert E. Sandstrom

Inventor： Robert E. Sandstrom

IPC: H02S40/30 ,  H02S50/10 ,  H02J3/38 ,  H01L31/077 ,  H01L31/042

CPC classification number: H02S40/30 ,  H01L31/0264 ,  H01L31/042 ,  H01L31/077 ,  H01L51/4213 ,  H02J3/383 ,  H02S40/00 ,  H02S50/10 ,  Y02E10/549

Abstract: A method of generating electricity from light, that uses a photovoltaic array, that includes a junction between an inorganic electron-donating layer and an inorganic electron-accepting layer. The electron-donating layer includes moieties which after photon activation have unpaired electrons, and wherein some of the electrons are freed when light strikes the electron-donating layer, thereby transforming the moieties into free radicals or equivalents but many of the freed electrons recombine. Also, many of the free radicals or equivalents in the triplet state are optimally responsive to a selective magnetic field that has been determined to optimally increase the lifetime of the triplet state of the free radicals and thereby forestall recombination of the freed electrons into the free radicals. A magnetic field of substantially the optimal strength that is substantially unvarying over the electron donating layer is created as the array is being exposed to light.

公开(公告)号：US08781201B2

公开(公告)日：2014-07-15

申请号：US13550910

申请日：2012-07-17

Applicant: Robert E. Sandstrom ,  Lawrence A. Crum

Inventor： Robert E. Sandstrom ,  Lawrence A. Crum

IPC: G06K9/00

CPC classification number: G01N29/0672 ,  A61B8/08 ,  A61B2017/3409 ,  A61B2017/3413 ,  A61B2090/3987 ,  G01N29/225 ,  G01N2291/02475 ,  G01N2291/106 ,  G01S15/8938 ,  G01S15/8952 ,  G01S15/8956 ,  G01S15/8993

Abstract: A method of operating a pathology laboratory, which utilizes an ultrasound imaging device, adapted to automatically image tissue specimens, in the laboratory. Resected tissue specimens are received into the laboratory and the ultrasound imaging device is used to image some of the received tissue specimens, thereby creating 3-dimensional tissue specimen images of imaged tissue specimens. Locations on the imaged tissue specimens to take tissue sample, in order to make microscope slides, are determined in reliance on the tissue specimen images and the tissue samples are taken from the locations determined and the microscope slides are produced.

Abstract translation: 一种在实验室中操作病理学实验室的方法，其利用适于自动成像组织标本的超声成像装置。 将切除的组织样本接收到实验室中，并且使用超声成像装置对一些接收到的组织标本进行成像，从而创建成像组织标本的3维组织标本图像。 根据组织样本图像确定成像组织样本上取出组织样本的位置，以便制作显微镜载玻片，并从所确定的位置取出组织样本，并制作显微镜载玻片。

公开(公告)号：US20120302884A1

公开(公告)日：2012-11-29

申请号：US13550910

申请日：2012-07-17

Applicant: Robert E. Sandstrom ,  Lawrence A. Crum

Inventor： Robert E. Sandstrom ,  Lawrence A. Crum

IPC: A61B8/00 ,  G01N1/36 ,  G01N1/30 ,  G03B42/06

CPC classification number: G01N29/0672 ,  A61B8/08 ,  A61B2017/3409 ,  A61B2017/3413 ,  A61B2090/3987 ,  G01N29/225 ,  G01N2291/02475 ,  G01N2291/106 ,  G01S15/8938 ,  G01S15/8952 ,  G01S15/8956 ,  G01S15/8993

Abstract: A method of operating a pathology laboratory, which utilizes an ultrasound imaging device, adapted to automatically image tissue specimens, in the laboratory. Resected tissue specimens are received into the laboratory and the ultrasound imaging device is used to image some of the received tissue specimens, thereby creating 3-dimensional tissue specimen images of imaged tissue specimens. Locations on the imaged tissue specimens to take tissue sample, in order to make microscope slides, are determined in reliance on the tissue specimen images and the tissue samples are taken from the locations determined and the microscope slides are produced.

Abstract translation: 一种在实验室中操作病理学实验室的方法，其利用适于自动成像组织标本的超声成像装置。 将切除的组织样本接收到实验室中，并且使用超声成像装置对一些接收到的组织标本进行成像，从而创建成像组织标本的3维组织标本图像。 根据组织样本图像确定成像组织样本上取出组织样本的位置，以便制作显微镜载玻片，并从所确定的位置取出组织样本，并制作显微镜载玻片。

公开(公告)号：US07469651B2

公开(公告)日：2008-12-30

申请号：US11630356

申请日：2005-06-28

Applicant: Robert E. Sandstrom ,  Tin Woo Yung

Inventor： Robert E. Sandstrom ,  Tin Woo Yung

IPC: B63B25/08 ,  B63B43/10

CPC classification number: F17C1/002 ,  F17C3/025 ,  F17C13/004 ,  F17C13/082 ,  F17C2201/0157 ,  F17C2201/052 ,  F17C2201/054 ,  F17C2203/0358 ,  F17C2203/0619 ,  F17C2203/0639 ,  F17C2203/0643 ,  F17C2203/0651 ,  F17C2221/033 ,  F17C2223/0161 ,  F17C2223/033 ,  F17C2260/016 ,  F17C2270/0102 ,  F17C2270/0105 ,  F17C2270/0107 ,  F17C2270/0113 ,  F17C2270/0134

Abstract: A tank is provided that reduces sloshing pressures in the corner sections of a tank, such as an LNG membrane tank. The tank includes a sloshing impact reduction system placed in selected corner sections within the tank. The system serves as a slosh attenuation system, and reduces the severity of the corner geometry and improves the flow of fluids into the tank corner. In one embodiment, an impermeable structure is disposed in an internal corner section of the tank. The impermeable structure may be a triangular planar surface, or a non-planar structural surface. The non-planar structural surface may be a concave surface or other curved surface. In another arrangement, a permeable structure is placed in an internal corner section of the tank. Such a permeable structure would enable fluid to pass through the device, but would reduce the fluid velocities and accelerations via friction or eddies. The permeable structure may be either rigid or flexible.

Abstract translation: 提供了一个罐，可以减少诸如LNG膜箱之类的罐的拐角部分的晃动压力。 油箱包括放置在油箱内选定角落部分的晃动减震系统。 该系统用作晃动衰减系统，并减少角几何形状的严重性，并改善流体进入油罐角落的流量。 在一个实施例中，不透水结构设置在罐的内角部。 不透水结构可以是三角形平面表面或非平面结构表面。 非平面结构表面可以是凹面或其它弯曲表面。 在另一种布置中，可渗透结构被放置在罐的内角部。 这种可渗透结构将使流体能够通过该装置，但是将通过摩擦或涡流来减小流体速度和加速度。 可渗透结构可以是刚性的或柔性的。

公开(公告)号：US06926659B1

公开(公告)日：2005-08-09

申请号：US10760646

申请日：2004-01-20

Applicant: Robert E. Sandstrom

Inventor： Robert E. Sandstrom

IPC: A61N1/40 ,  A61N2/00 ,  A61N2/04 ,  A61N5/10 ,  A61B17/52

CPC classification number: A61N1/406 ,  A61N2/002 ,  A61N5/10

Abstract: A method of treating a tumor, comprising creating an elevated concentration of free radicals in said tumor and creating a magnetic field that traverses said tumor and that inhibits the recombination of said free radicals in said tumor, thereby increasing the rate of apoptosis of cancerous cells. A magnetic field of 0.1 mTesla to 10 mTesla is generally used for this purpose.

Abstract translation: 一种治疗肿瘤的方法，包括在所述肿瘤中产生升高的自由基浓度并产生穿过所述肿瘤的磁场并抑制所述肿瘤中所述自由基的重组，从而增加癌细胞凋亡的速率。 为此目的通常使用0.1 mTesla至10 mTesla的磁场。

公开(公告)号：US20200368366A1

公开(公告)日：2020-11-26

申请号：US16991352

申请日：2020-08-12

Applicant: ROBERT E. SANDSTROM

Inventor： ROBERT E. SANDSTROM

IPC: A61K47/69 ,  A61K9/00 ,  A61K39/395 ,  A61K41/00 ,  A61K47/68 ,  A61N1/40 ,  A61P35/00

Abstract: A method of killing cells of a targeted cell type in a patient body that utilizes nanoparticles having a first portion, which when exposed to a target portion of a targeted cell type, binds to the target portion and a second portion, joined to the first portion, and comprised of a low resistivity material. The nanoparticles are introduced into a contact area where they contact cells of the targeted cell type. Contemporaneously, the contact area is exposed to a varying magnetic field of insufficient strength to increase the temperature of any part of the patient body by more than ten degrees Celsius, but which creates a current at the nanoparticles sufficient to disrupt function of the targeted cell type.