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Scott K Dhupar

from Windsor, CO
Age ~52
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Also known as:
Scott Kailash Dhupar, Scott A Dhupar, Scott C Dhupar, Scott K Dhuphar
Phone and address:
1816 Seashell Ct, Fort Collins, CO 80550
(970) 460-0581
Related to:
Shanti C Dhupar, 80
Connected to:
Shekhar V Dhupelia, 49Akshay A Dhuri, 33Arun Dhuri, 65Rahul Dhuria, 49Errol K Dhurpat, 58Douglas A Dhuse, 75Ryan P Dhuse, 45Sumeet B Dhutia, 47Diana L Dhuyvetter, 65Mary A Dhuyvetter, 61

Scott Dhupar Phones & Addresses

  • 1816 Seashell Ct, Windsor, CO 80550 (970) 460-0581
  • 6806 3Rd St, Greeley, CO 80634
  • Evans, CO
  • Boston, MA
  • Mahwah, NJ
  • Weldona, CO
  • Ann Arbor, MI
  • Livermore, CO
  • Burlington, MA

Work

Company: Northern Colorado Spine & Orthopedics Address: 6200 W 9Th St, Greeley, CO 80634

Education

School / High School: Umdnj--Robert Wood Johnson Medical School

Ranks

Certificate: American Board of Orthopaedic Surgery Certification in Orthopaedic Surgery

Images

Industries

Hospital & Health Care

Professional Records

License Records

Medical Doctor

Address:
6200 W 9 St UNIT #1B, Greeley, CO 80634
License #:
43465 - Active
Issued Date:
Apr 8, 2005
Renew Date:
May 1, 2015
Expiration Date:
Apr 30, 2017
Type:
Physician

Medicine Doctors

Scott Dhupar Photo 1

Dr. Scott K Dhupar - MD (Doctor of Medicine)

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Procedures:
Orthopedic Spine Surgery
Microdiscectomy
Trauma and Fracture Management
Spinal Fusion
Spinal Surgery
Hospitals:
Northern Colorado Spine & Orthopedics
6200 W 9Th St, Greeley, CO 80634

Poudre Valley Hospital
1024 South Lemay Avenue, Fort Collins, CO 80524

Medical Center of the Rockies
2500 Rocky Mountain Avenue, Loveland, CO 80538

North Colorado Medical Center
1801 16Th Street, Greeley, CO 80631

Wray Community District Hospital
1017 West 7Th Street, Wray, CO 80758

Yuma District Hospital
1000 West 8Th Avenue, Yuma, CO 80759
Philosophy:
Nonoperative and operative treatment of most cervical, thoracic, and lumbar spinal conditions. Focus on degenerative, deformity, trauma, tumor, revision, and reconstructive procedures. Board certified, fellowship trained.
Education:
Medical Schools
Umdnj--Robert Wood Johnson Medical School
Scott Dhupar Photo 2

Scott K. Dhupar

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Specialties:
Orthopaedic Surgery, Orthopaedic Surgery Of Spine
Work:
North Colorado Spine & Orthopedics
6200 W 9 St UNIT 1B, Greeley, CO 80634
(970) 353-5959 (phone), (970) 353-5967 (fax)
Education:
Medical School
UMDNJ Robert Wood Johnson Medical School
Graduated: 1999
Procedures:
Hip/Femur Fractures and Dislocations
Lower Leg Amputation
Occupational Therapy Evaluation
Spinal Cord Surgery
Spinal Fusion
Spinal Surgery
Arthrocentesis
Joint Arthroscopy
Lower Arm/Elbow/Wrist Fractures and Dislocations
Lower Leg/Ankle Fractures and Dislocations
Shoulder Surgery
Wound Care
Conditions:
Fractures, Dislocations, Derangement, and Sprains
Internal Derangement of Knee
Internal Derangement of Knee Cartilage
Intervertebral Disc Degeneration
Osteoarthritis
Languages:
English
Description:
Dr. Dhupar graduated from the UMDNJ Robert Wood Johnson Medical School in 1999. He works in Greeley, CO and specializes in Orthopaedic Surgery and Orthopaedic Surgery Of Spine. Dr. Dhupar is affiliated with Medical Center Of The Rockies and North Colorado Medical Center.
Scott Dhupar Photo 3

Scott K Dhupar, Greeley CO

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Specialties:
Orthopaedic Surgery
Orthopaedic Surgery of the Spine
Work:
Northern Colorado Spine & Orthopedics
6200 W 9Th St, Greeley, CO 80634
Education:
UMDNJ
New England Baptist Hospital (2005) *Orthopaedic Surgery of the Spine
Brigham and Women`s Hospital (2005) *Orthopaedic Surgery of the Spine
Scott Dhupar Photo 4

Scott Kailash Dhupar, Greeley CO

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Specialties:
Orthopedic Surgeon
Address:
1624 17Th Ave, Greeley, CO 80631
6200 W 9Th St, Greeley, CO 80634
Education:
Doctor of Medicine
Board certifications:
American Board of Orthopaedic Surgery Certification in Orthopaedic Surgery

Resumes

Resumes

Scott Dhupar Photo 5

President

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Location:
Denver, CO
Industry:
Hospital & Health Care
Work:
North Colorado Spine
President

Business Records

Name / Title
Company / Classification
Phones & Addresses
Scott Dhupar
Medical Doctor, President, Principal, Surgery-Orthopedic
North Colorado Spine and Orthopaedics
Osteopathic Physician's Office Medical Doctor's Office
1624 17 Ave, Greeley, CO 80631
Scott Kailash Dhupar
Scott Dhupar MD
Orthopedics · Spine Doctor
1624 17 Ave, Greeley, CO 80631
(970) 353-5959

Publications

Us Patents

Expandable Spinal Implants

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US Patent:
20220323233, Oct 13, 2022
Filed:
Apr 28, 2022
Appl. No.:
17/731899
Inventors:
- Leesburg VA, US
Steven Ludwig - Baltimore MD, US
Scott Dhupar - Windsor CO, US
Sabatino Bianco - Arlington TX, US
International Classification:
A61F 2/44
A61F 2/30
Abstract:
A spinal implant has a proximal region and a distal region, and includes an upper body and a lower body each having inner surfaces disposed in opposed relation relative to each other. A proximal adjustment assembly is disposed between the upper and lower bodies at the proximal region of the spinal implant and is adjustably coupled to the upper and lower bodies, and a distal adjustment assembly is disposed between the upper and lower bodies at the distal region of the spinal implant and is adjustably coupled to the upper and lower bodies. The proximal and distal adjustment assemblies are independently movable with respect to each other to change a vertical height of at least one of the proximal region or the distal region of the spinal implant.

Expandable Spinal Implants

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US Patent:
20220296384, Sep 22, 2022
Filed:
Mar 30, 2022
Appl. No.:
17/708778
Inventors:
- Leesburg VA, US
Scott Dhupar - Windsor CO, US
Sabatino Bianco - Arlington TX, US
Khalid Abbed - West Hartford CT, US
Egon Doppenberg - Lake Bluff IL, US
Jennifer Anne Moore - Leesburg VA, US
John Donohoe - Morrisville NC, US
Scott A. Jones - Mcmurray PA, US
International Classification:
A61F 2/44
A61F 2/46
Abstract:
A spinal implant has proximal and distal regions, and includes upper and lower bodies. A proximal adjustment assembly is disposed between the upper and lower bodies in the proximal region of the spinal implant and is adjustably coupled to the upper and lower bodies, and a distal adjustment assembly is disposed between the upper and lower bodies in the distal region of the spinal implant and is adjustably coupled to the upper and lower bodies. The proximal and distal adjustment assemblies are independently movable with respect to each other, both concurrently and alternately, to change a vertical height of at least one of the proximal or distal regions of the spinal implant. A set screw is removably disposed within the proximal region of the spinal implant to lock the vertical height of the proximal and distal regions of the spinal implant.

Foot Switch And Related Methods

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US Patent:
20210204634, Jul 8, 2021
Filed:
May 29, 2019
Appl. No.:
17/059527
Inventors:
- Windsor CO, US
Scott DHUPAR - Windsor CO, US
International Classification:
A43B 3/00
Abstract:
A foot switch system has an actuating button and a communication mechanism responsive to a pressure on the actuating button, the communication mechanism configured to emit a wireless signal in response to the pressure on the actuating button. The system further has an attachment mechanism to removably attach the actuating button and communication mechanism to a user's first shoe. The communication mechanism is configured to control a power output of a medical device.

Expandable Spinal Implants

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US Patent:
20200085586, Mar 19, 2020
Filed:
Sep 20, 2019
Appl. No.:
16/577437
Inventors:
- Leesburg VA, US
Scott Dhupar - Windsor CO, US
Sabatino Bianco - Arlington TX, US
Khalid Abbed - New Haven CT, US
Egon Doppenberg - Lake Bluff IL, US
Jennifer Moore - Leesburg VA, US
John Donohoe - Morrisville NC, US
Scott A. Jones - Mcmurray PA, US
International Classification:
A61F 2/44
A61F 2/46
Abstract:
A spinal implant has proximal and distal regions, and includes upper and lower bodies. A proximal adjustment assembly is disposed between the upper and lower bodies in the proximal region of the spinal implant and is adjustably coupled to the upper and lower bodies, and a distal adjustment assembly is disposed between the upper and lower bodies in the distal region of the spinal implant and is adjustably coupled to the upper and lower bodies. The proximal and distal adjustment assemblies are independently movable with respect to each other, both concurrently and alternately, to change a vertical height of at least one of the proximal or distal regions of the spinal implant. A set screw is removably disposed within the proximal region of the spinal implant to lock the vertical height of the proximal and distal regions of the spinal implant.

Expandable Spinal Implants

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US Patent:
20200008951, Jan 9, 2020
Filed:
Jul 19, 2019
Appl. No.:
16/516702
Inventors:
- Leesburg VA, US
Steven Ludwig - Baltimore MD, US
Scott Dhupar - Windsor CO, US
Sabatino Bianco - Arlington TX, US
International Classification:
A61F 2/44
A61F 2/30
Abstract:
A spinal implant has a proximal region and a distal region, and includes an upper body and a lower body each having inner surfaces disposed in opposed relation relative to each other. A proximal adjustment assembly is disposed between the upper and lower bodies at the proximal region of the spinal implant and is adjustably coupled to the upper and lower bodies, and a distal adjustment assembly is disposed between the upper and lower bodies at the distal region of the spinal implant and is adjustably coupled to the upper and lower bodies. The proximal and distal adjustment assemblies are independently movable with respect to each other to change a vertical height of at least one of the proximal region or the distal region of the spinal implant.

Devices For Inserting And Expanding Spinal Implants

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US Patent:
20190274845, Sep 12, 2019
Filed:
Mar 8, 2019
Appl. No.:
16/296697
Inventors:
- Leesburg VA, US
Scott Dhupar - Windsor CO, US
Sabatino Bianco - Arlington TX, US
Khalid Abbed - New Haven CT, US
Egon Doppenberg - Lake Bluff IL, US
Jennifer Moore - Leesburg VA, US
John Donohoe - Morrisville NC, US
Scott A. Jones - Mcmurray PA, US
Todd Wallenstein - Ashburn VA, US
Brad Vinckier - Leesburg VA, US
Jordan Floyd - Westlake OH, US
Gregory Lanford - Nashville TN, US
Brian O'Shaughnessy - Nashville TN, US
Thomas Morrison - Atlanta GA, US
International Classification:
A61F 2/46
Abstract:
A driving instrument for adjusting a spinal implant includes an outer shaft having a distal end configured to actuate a proximal adjustment assembly of a spinal implant, and an inner shaft having a distal end configured to actuate a distal adjustment assembly of the spinal implant. The inner shaft is disposed within the outer shaft, with a proximal end of the inner shaft extending proximally from the outer shaft. The proximal end is configured to be rotated such that rotation of the inner shaft results in simultaneous rotation of the inner and outer shafts, with rotation of the outer shaft ceasing at a first value of resistance associated with the proximal adjustment assembly and rotation of the inner shaft ceasing at a second value of resistance associated with the distal adjustment assembly such that cessation of rotation of the inner shaft is independent from cessation of rotation of the outer shaft.

Expandable Spinal Implants

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US Patent:
20190021868, Jan 24, 2019
Filed:
Jul 24, 2017
Appl. No.:
15/657796
Inventors:
- Leesburg VA, US
Scott Dhupar - Windsor CO, US
Sabatino Bianco - Arlington TX, US
Khalid Abbed - New Haven CT, US
Egon Doppenberg - Lake Bluff IL, US
Jennifer Moore - Leesburg VA, US
John Donohoe - Morrisville NC, US
Scott Jones - McMurray PA, US
International Classification:
A61F 2/44
A61F 2/46
Abstract:
A spinal implant has proximal and distal regions, and includes upper and lower bodies. A proximal adjustment assembly is disposed between the upper and lower bodies in the proximal region of the spinal implant and is adjustably coupled to the upper and lower bodies, and a distal adjustment assembly is disposed between the upper and lower bodies in the distal region of the spinal implant and is adjustably coupled to the upper and lower bodies. The proximal and distal adjustment assemblies are independently movable with respect to each other, both concurrently and alternately, to change a vertical height of at least one of the proximal or distal regions of the spinal implant. A set screw is removably disposed within the proximal region of the spinal implant to lock the vertical height of the proximal and distal regions of the spinal implant.

Surgical Implant Alignment Device

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US Patent:
20170112586, Apr 27, 2017
Filed:
Oct 21, 2016
Appl. No.:
15/331308
Inventors:
- Windsor CO, US
Scott Kailash Dhupar - Windsor CO, US
Assignee:
Straight Shot, LLC - Windsor CO
International Classification:
A61B 90/13
A61B 90/35
A61B 17/80
Abstract:
An alignment device for aligning an orthopedic plate with a bone attachment site includes one or more one light sources that are secured to an orthopedic plate holder with a mounting interface and in a location spaced from the orthopedic plate that is releasably secured to the distal end of the plate holder. The light sources are configured to project an illuminated indication pattern onto the plane the orthopedic plate and aligned with the primary axis of interest of the orthopedic plate, and which indication pattern extends a sufficient lateral distance away from the plate holder to allow the medical professional to align the axis of interest of the orthopedic plate with an out-of-view bone attachment site using at least one superficial anatomic landmark on the exterior of the patient and remote from the bone attachment site.
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Scott K Dhupar from Windsor, CO, age ~52 Get Report