Patents by Inventor Samuel Wickline

Samuel Wickline 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: 20240216520
    Abstract: The present disclosure provides nanoparticle compositions and their use in the treatment of viral infections.
    Type: Application
    Filed: April 6, 2022
    Publication date: July 4, 2024
    Inventors: Samuel WICKLINE, Hua PAN
  • Patent number: 11779544
    Abstract: The present disclosure is directed to antithrombotic nanoparticles and methods of treating necrotizing enterocolitis.
    Type: Grant
    Filed: March 29, 2021
    Date of Patent: October 10, 2023
    Assignee: University of South Florida
    Inventors: Akhil Maheshwari, Samuel Wickline, Kopperuncholan Namachivayam, Hua Pan
  • Publication number: 20230274562
    Abstract: Bootstrapped semantic preprocessing techniques for medical datasets such as whole slide histopathology image datasets can be used to more efficiently and effectively train artificial intelligence used for medical purposes. The bootstrapped semantic preprocessing techniques generally include deriving metrics from image features and adjusting images according to the metrics. This process can be repeated iteratively for unknown and unlabeled data using a bootstrapping technique to normalize unknown samples to the training dataset distribution.
    Type: Application
    Filed: February 27, 2023
    Publication date: August 31, 2023
    Inventors: Christopher Collazo, Lawrence Hall, Dmitry Goldgof, Samuel Wickline, Hua Pan
  • Patent number: 10987315
    Abstract: The present disclosure is directed to antithrombotic nanoparticles and methods of treating necrotizing enterocolitis.
    Type: Grant
    Filed: October 4, 2019
    Date of Patent: April 27, 2021
    Assignee: University of South Florida
    Inventors: Akhil Maheshwari, Samuel Wickline, Kopperuncholan Namachivayam, Hua Pan
  • Patent number: 8500644
    Abstract: A method for imaging a region of interest (ROI) within a body. The method includes applying ultrasound energy to the ROI, receiving ultrasound data for the ROI in response to the applied ultrasound energy, executing a moving window analysis on the received ultrasound data to generate a plurality of windows of information, applying a Renyi entropy signal receiver to each of the generated windows to generate Renyi entropy data, and presenting an image of the ROI based on the Renyi entropy data.
    Type: Grant
    Filed: October 28, 2009
    Date of Patent: August 6, 2013
    Assignee: Washington University
    Inventors: Michael S. Hughes, John McCarthy, Gregory Lanza, Mladen Victor Wickerhauser, Samuel Wickline
  • Publication number: 20110208058
    Abstract: A method for imaging a region of interest (ROI) within a body. The method includes applying ultrasound energy to the ROI, receiving ultrasound data for the ROI in response to the applied ultrasound energy, executing a moving window analysis on the received ultrasound data to generate a plurality of windows of information, applying a Renyi entropy signal receiver to each of the generated windows to generate Renyi entropy data, and presenting an image of the ROI based on the Renyi entropy data.
    Type: Application
    Filed: October 28, 2009
    Publication date: August 25, 2011
    Applicant: WASHINGTON UNIVERSITY IN ST. LOUIS
    Inventors: Michael S. Hughes, John McCarthy, Gregory Lanza, Mladen Victor Wickerhauser, Samuel Wickline
  • Publication number: 20070258908
    Abstract: Methods for high resolution imaging of a suspected target tissue are encompassed by the invention. Such methods include administering low resolution and high resolution contrast agents specific to targeted cells or tissues. The contrast agents are allowed to bind to the target cells or accumulate in a target tissue. A low resolution imaging technique is used to localize an accumulation of the low resolution contrast agent in a target tissue. A high resolution image of the target tissue is then obtained to localize an accumulation of the higher resolution contrast agent, allowing the generation of a higher resolution image than that obtained by the use of the low resolution contrast agent alone. These methods may utilize nanoparticles optionally in an emulsion as a contrast agent.
    Type: Application
    Filed: April 27, 2007
    Publication date: November 8, 2007
    Inventors: Gregory Lanza, Samuel Wickline
  • Publication number: 20070255117
    Abstract: Methods and devices for enhanced ultrasound detection based upon changing temperature and ultrasound reflectivity of a temperature-dependent contrast agent bound to an ultrasound target are disclosed. The methods and devices can be used for enhanced imaging alone or in conjunction with drug delivery, with therapeutic approaches such as hyperthermia or cryotherapy or with other imaging modalities.
    Type: Application
    Filed: February 20, 2007
    Publication date: November 1, 2007
    Applicant: Barnes-Jewish Hospital
    Inventors: Gregory Lanza, Samuel Wickline, Christopher Hall
  • Publication number: 20070237721
    Abstract: MRI contrast agents that employ paramagnetic agents and chemical exchange saturation transfer (paraCEST) and which are coupled to targeted particulate delivery vehicles provide sufficient concentration of the paraCEST contrast agents to obtain useful images of target tissues or organs. In addition, the image contrast may be switched on or off with a presaturation radio frequency pulse, avoiding the necessity obtaining pre-injection and post-injection images.
    Type: Application
    Filed: March 29, 2007
    Publication date: October 11, 2007
    Inventors: Gregory LANZA, Samuel Wickline, Garry Kiefer, Phillip Athey
  • Publication number: 20070202040
    Abstract: Emulsions comprising nanoparticles formed from high boiling perfluorochemical substances, said particles coated with a lipid/surfactant coating are made target-specific by directly coupling said nanoparticles to a targeting ligand. The nanoparticles may further include biologically active agents, radionuclides, and/or other imaging agents.
    Type: Application
    Filed: April 25, 2007
    Publication date: August 30, 2007
    Applicant: Barnes-Jewish Hospital
    Inventors: Gregory Lanza, Samuel Wickline
  • Publication number: 20070140965
    Abstract: Methods for inhibiting restenosis in blood vessels expanded by angioplasty are described. The method comprises administering blood vessel wall-targeted emulsion containing an anti-restenotic agent.
    Type: Application
    Filed: December 1, 2006
    Publication date: June 21, 2007
    Applicant: Barnes-Jewish Hospital
    Inventors: Gregory Lanza, Samuel Wickline
  • Publication number: 20070010577
    Abstract: This invention relates generally to methods for ameliorating at least one symptom or aspect of atherosclerosis. The methods include administration of targeted carrier compositions comprising a therapeutic agent effective in ameliorating at least one aspect of atherosclerosis coupled to a targeting ligand effective is targeting the therapeutic agent to tissue associated with atherosclerotic plaque.
    Type: Application
    Filed: January 16, 2004
    Publication date: January 11, 2007
    Applicant: BARNES-JEWISH HOSPITAL
    Inventors: Gregory Lanza, Samuel Wickline
  • Publication number: 20060239919
    Abstract: Disclosed herein is a medical imaging technique that uses a fluorinated nanoparticle contrast agent for imaging of an interior portion of a body. The fluorinated nanoparticles preferably comprise nontargeted intravascular fluorocarbon or perfluorocarbon nanoparticles. The interior body portion may be a patient's vasculature, and the medical imaging is preferably noninvasive MR angiography, which may encompass (either for 2D imaging or 3D imaging) MR coronary angiography, MR carotid angiography, MR peripheral angiography, MR cerebral angiography, MR arterial angiography, and MR venous angiography. Coils tuned to match to the 19F signal can be used, or dual tuned coils for 19F and 1H imaging can be used. Clinical field strengths (e.g. 1.5 T) and clinical doses may be used while still providing effective images.
    Type: Application
    Filed: March 3, 2006
    Publication date: October 26, 2006
    Inventors: Samuel Wickline, Gregory Lanza
  • Publication number: 20060147380
    Abstract: Emulsions preferably of nanoparticles formed from high boiling liquid perfluorochemical substances, said particles coated with a lipid/surfactant coating are made specific to regions of activated endothelial cells by coupling said nanoparticles to a ligand specific for ?v?3 integrin, other than an antibody. The nanoparticles may further include biologically active agents, radionuclides, or other imaging agents.
    Type: Application
    Filed: December 16, 2005
    Publication date: July 6, 2006
    Inventors: Gregory Lanza, Samuel Wickline, Tom Harris
  • Publication number: 20050175541
    Abstract: The invention is directed to methods for the delivery of a therapeutic agent using lipid-encapsulated particles containing the therapeutic agent and ultrasound energy. For example, it particularly relates to the use of ultrasound with a lipid-encapsulated emulsion comprising an oil where the emulsion is coupled a targeting ligand and comprises a therapeutic agent.
    Type: Application
    Filed: November 19, 2004
    Publication date: August 11, 2005
    Inventors: Gregory Lanza, Samuel Wickline
  • Publication number: 20050079131
    Abstract: Emulsions preferably of nanoparticles formed from oil compounds coupled to a high Z number atom, said particles coated with a lipid/surfactant coating. The nanoparticles are made specific to targeted cells or tissues by coupling said nanoparticles to a ligand specific for the target cells or tissues. The nanoparticles may further include biologically active agents, radionuclides and/or other imaging agents.
    Type: Application
    Filed: August 6, 2004
    Publication date: April 14, 2005
    Inventors: Gregory Lanza, Samuel Wickline