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Mark Douglas Markel

from Middleton, WI
Age ~67
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Also known as:
Mark D Markel, Mark Markeo
Phone and address:
2141 Middleton Beach Rd, Madison, WI 53562
(608) 238-7981
Related to:
Omar Paris Stewart, 37Norman E Goehring, 72Melanie J Steinkamp, 61John A Zolck, 55Tyler F Markel, 30Lisa A Steinkamp, 65Frederick W Steinkamp, 92Cody S MarkelChristine M Steinkamp, 92
Connected to:
Allen F Markel, 57Barbara E Markel, 90Bradley C Markel, 53Christy M Markel, 48Danny A Markel, 71Darby L Markel, 54Dean R Markel, 53Earl G Markel, 67Edward W Markel, 53Gina M Markel, 49

Mark Markel Phones & Addresses

  • 2141 Middleton Beach Rd, Middleton, WI 53562 (608) 238-7981
  • 151 Kensington Dr, Madison, WI 53704 (608) 241-3641
  • Naples, FL
  • Chesterfield, MO
  • Dane, WI
  • Palo Alto, CA
  • 2141 Middleton Beach Rd, Middleton, WI 53562

Public records

Vehicle Records

Mark Markel

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Address:
2141 Middleton Bch Rd, Middleton, WI 53562
Phone:
(608) 238-7981
VIN:
WBAWL73507PX50983
Make:
BMW
Model:
3 SERIES
Year:
2007

Resumes

Resumes

Mark Markel Photo 1

Dean

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Location:
Madison, WI
Industry:
Higher Education
Work:
Association of American Veterinary Medical Colleges
President-Elect
University of Wisconsin-Madison
Dean
University of Wisconsin-Madison Jan 1996 - Aug 2012
Professor and Chair, Associate Dean
American College of Veterinary Surgeons Jan 1996 - Aug 2012
Diplomate
Education:
Mayo Clinic School of Health Sciences 1987 - 1990
Doctorates, Doctor of Philosophy, Biophysics, Physiology University of California, Davis 1979 - 1983
Doctorates, Doctor of Veterinary Medicine, Bachelors, Bachelor of Science, Medicine University of California, Davis 1975 - 1979
Skills:
Veterinary Medicine
Science
Animal Models
Research
Molecular Biology
Physiology
University Teaching
Clinical Research
Teaching
Veterinary
Public Speaking
Cell Culture
Life Sciences
Microscopy
Clinical Trials
Western Blotting
Immunohistochemistry
Animal Welfare
Mark Markel Photo 2

Mark Markel

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Publications

Us Patents

Method For Treating Tissue In Arthroscopic Environment Using Precooling And Apparatus For Same

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US Patent:
6544260, Apr 8, 2003
Filed:
Dec 31, 1999
Appl. No.:
09/476018
Inventors:
Mark Markel - Madison WI
Hugh R. Sharkey - Woodside CA
Gary S. Fanton - Portola Valley CA
Assignee:
Oratec Interventions, Inc. - Menlo Park CA
International Classification:
A61B 1818
US Classification:
606 41, 606 45, 606 49, 606 50, 607102
Abstract:
A thermal energy delivery apparatus has a probe including a distal end and a proximal end. A first electrode is positioned at the distal end of the probe. The first electrode is configured to deliver sufficient thermal energy to a fibrillated cartilage surface to reduce a level of fibrillation of the fibrillated cartilage surface. A cabling is coupled to the proximal end of the probe. A method for thermal protection of non-targeted tissues that may be exposed to thermal probes used during arthroscopic procedures includes a pre-procedural cooling Lavage. The pre-cooled tissues provide a convective buffer for tissues not intended for thermal intervention, thereby reducing collateral damage.

Veterinary Goniometer For Testing Of Animal Leg Joints

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US Patent:
7337751, Mar 4, 2008
Filed:
Jul 29, 2004
Appl. No.:
10/903116
Inventors:
Mandi J. Lopez - McFarland WI, US
Orrin D. Lokken - Madison WI, US
Mark D. Markel - Middleton WI, US
William W. D. Hagquist - DeForest WI, US
Assignee:
Wisconsin Alumni Research Foundation - Madison WI
International Classification:
A01K 15/04
US Classification:
119755, 33512, 600592
Abstract:
A goniometer (also sometimes referred to as an arthrometer, fleximeter, or pronometer) for measuring the range of motion of an animal knee includes an anchor platform to which an animal's upper leg (femur) may be affixed, and a mobile platform to which the animal's lower leg (shin and tibia) may be affixed so that the upper and lower leg are situated along a common axis. The mobile platform is preferably movable in two degrees of freedom (translational and rotational) about the anchor platform so that the relative motion of the platforms causes the upper and lower leg to move about the intermediate knee joint. A force transducer (such as a spring scale) and/or a torque transducer (such as a common torque wrench) may be used to obtain measurements of the laxity of the knee joint.

Cartilage Treatment Probe

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US Patent:
7951142, May 31, 2011
Filed:
Jan 30, 2004
Appl. No.:
10/766894
Inventors:
Kobi Iki - San Carlos CA, US
William M. Ambrisco - Mountain View CA, US
Douglas M. Lorang - Ripon CA, US
Alan P. Gannon - Amesbury MA, US
Richard M. Ranalli - Berwick ME, US
Mathew E. Mitchell - Pelham NH, US
Mark Markel - Middleton WI, US
Assignee:
Smith & Nephew, Inc. - Memphis TN
International Classification:
A61B 18/14
US Classification:
606 41, 606 46
Abstract:
An electrosurgical instrument for ablating cartilage while limiting collateral damage includes a non-conducting head with a small electrically conductive surface. The head of the instrument is coupled to a shaft by a flexible portion. The flexible portion biases the electrically conductive surface towards a tissue surface. The head is pivotably coupled to the shaft such that the electrically conductive surface is oriented substantially parallel to the tissue surface as the head slides across the tissue surface. A method of performing electrosurgery includes positioning the electrically conductive surface adjacent to the tissue surface, and sliding the shaft across the tissue surface with the head pivoting such that the electrically conductive surface is oriented substantially parallel to the tissue surface.

Cartilage Treatment Probe

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US Patent:
8066700, Nov 29, 2011
Filed:
Nov 30, 2004
Appl. No.:
10/999230
Inventors:
Kobi Iki - San Carlos CA, US
William M. Ambrisco - Mountain View CA, US
Douglas M. Lorang - Ripon CA, US
Alan P. Gannon - Amesbury MA, US
Richard M. Ranalli - Berwick ME, US
Mathew E. Mitchell - Pelham NH, US
Marie Meyer - Lawrence MA, US
Mark Markel - Middleton WI, US
Yan Lu - Fitchburg WI, US
Assignee:
Smith & Nephew, Inc. - Memphis TN
International Classification:
A61B 18/14
US Classification:
606 41, 606 46
Abstract:
An electrosurgical instrument includes a shaft, a flexible portion, and a head coupled to the shaft through the flexible portion and pivotably coupled to the flexible portion. The head includes a non-conductive surface and an electrically conductive surface. The flexible portion is configured to bias the non-conductive surface and the electrically conductive surface towards a tissue surface, such as cartilage. The non-conductive surface may include a material having a thermal conductivity less than or equal to about 30 W/m*K and/or a volume resistivity greater than or equal to about 1×10ohm*cm. The non-conductive surface may include a ceramic such as Macor ceramic, ZTA ceramic, and/or 99. 5% alumina ceramic.

Controlled Release Of Biopharmaceutical Growth Factors From Hydroxyapatite Coating On Bioresorbable Interference Screws Used In Cruciate Ligament Reconstruction Surgery

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US Patent:
8075562, Dec 13, 2011
Filed:
Jun 25, 2008
Appl. No.:
12/145672
Inventors:
William L. Murphy - Madison WI, US
Mark D. Markel - Middleton WI, US
Ben K. Graf - Madison WI, US
Assignee:
Wisconsin Alumni Research Foundation - Madison WI
International Classification:
A61B 17/56
A61B 17/58
C07K 14/51
US Classification:
606 77, 606 53, 424484, 424486, 514 88
Abstract:
Controlled release of biopharmaceutical growth factors from a hydroxyapatite coating on a bioresorbable interference screw used in cruciate ligament reconstruction surgery on a human. Biologically active scaffolds, such as interference bone screws used for ligament fixation, made by growing calcium phosphate-based hydroxyapatite coatings on bioresorbable poly(α-hydroxy ester) scaffolds that provide controlled mineral dissolution and controlled release of bone morphogenetic protein-2. The biologically active scaffold provides improved bioavailability of BMP-2 growth factor that in turn provides enhanced graft-bone healing in the tibial bone tunnel. The coating method uses surface hydrolysis and modified simulated body fluid incubation which does not require solvent or heat and is conducted at room temperature.

Cartilage Treatment Probe

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US Patent:
8377058, Feb 19, 2013
Filed:
May 27, 2011
Appl. No.:
13/117800
Inventors:
Kobi Iki - San Carlos CA, US
William M. Ambrisco - Mountain View CA, US
Douglas M. Lorang - Ripon CA, US
Alan P. Gannon - Amesbury MA, US
Richard M. Ranalli - Berwick ME, US
Mathew E. Mitchell - Pelham NH, US
Mark Markel - Middleton WI, US
Assignee:
Smith & Nephew, Inc. - Memphis TN
International Classification:
A61B 18/14
US Classification:
606 41, 606 46
Abstract:
An electrosurgical instrument for ablating cartilage while limiting collateral damage includes a non-conducting head with a small electrically conductive surface. The head of the instrument is coupled to a shaft by a flexible portion. The flexible portion biases the electrically conductive surface towards a tissue surface. The head is pivotably coupled to the shaft such that the electrically conductive surface is oriented substantially parallel to the tissue surface as the head slides across the tissue surface. A method of performing electrosurgery includes positioning the electrically conductive surface adjacent to the tissue surface, and sliding the shaft across the tissue surface with the head pivoting such that the electrically conductive surface is oriented substantially parallel to the tissue surface.

Decorating Hydroxyapatite Biomaterials With Modular Biologically Active Molecules

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US Patent:
8420774, Apr 16, 2013
Filed:
Dec 1, 2009
Appl. No.:
12/628666
Inventors:
William L. Murphy - Madison WI, US
Jae Sung Lee - Madison WI, US
Mark D. Markel - Middleton WI, US
Ben K. Graf - Madison WI, US
Assignee:
Wisconsin Alumni Research Foundation - Madison WI
International Classification:
C07K 2/00
C07K 14/00
C07K 9/00
US Classification:
530300, 530326, 530350, 435 697
Abstract:
A modular peptide design strategy wherein the modular peptide has two functional units separated by a spacer portion is disclosed. More particularly, the design strategy combines a hydroxyapatite-binding portion and a biomolecule-derived portion. The modular peptides have improved non-covalent binding to the surface of the HA-based materials, and are capable of initiating osteogenesis, angiogenesis, and/or osteogenic differentiation.

Cartilage Treatment Probe

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US Patent:
8500734, Aug 6, 2013
Filed:
Sep 14, 2012
Appl. No.:
13/616504
Inventors:
Kobi Iki - San Carlos CA, US
William M. Ambrisco - Mountain View CA, US
Douglas M. Lorang - Ripon CA, US
Alan P. Gannon - Amesbury MA, US
Richard M. Ranalli - Berwick ME, US
Matthew E. Mitchell - Pelham NH, US
Mark Markel - Middleton WI, US
Assignee:
Smith & Nephew, Inc. - Memphis TN
International Classification:
A61B 18/14
US Classification:
606 41, 606 46
Abstract:
An electrosurgical instrument for ablating cartilage while limiting collateral damage includes a non-conducting head with a small electrically conductive surface. The head of the instrument is coupled to a shaft by a flexible portion. The flexible portion biases the electrically conductive surface towards a tissue surface. The head is pivotably coupled to the shaft such that the electrically conductive surface is oriented substantially parallel to the tissue surface as the head slides across the tissue surface. A method of performing electrosurgery includes positioning the electrically conductive surface adjacent to the tissue surface, and sliding the shaft across the tissue surface with the head pivoting such that the electrically conductive surface is oriented substantially parallel to the tissue surface.
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Mark Douglas Markel from Middleton, WI, age ~67 Get Report