Masonic Cancer Center

A comprehensive cancer center designated by the National Cancer Institute

Comparative Pathology

The Comparative Pathology Shared Resource (CPSR), led by Dr. Gerry O'Sullivan, provides pathology support and expertise to Masonic Cancer Center members who use laboratory animals in their research.

We are a full-service pathology laboratory in that we offer support from the initial stages of the experiment (study design and preparation of research grant) through to the final stages (assisting with manuscript preparation after the results have been analyzed). We offer technical support for tissue collection, processing, and preparation of histological sections, and we also offer pathology support for interpretation and imaging of the tissues.

Investigators may use our resource for all of these activities or for only one of them (e.g., preparation of histological sections from a tissue block that has been embedded in paraffin), depending on the resources in their own laboratories.

We strongly believe that we can add value to any project that includes pathology assessments. Our staff members have the experience to provide advice on study design, produce high quality tissue preparations, and provide accurate pathological interpretations and expert manuscript assistance to investigators who are using laboratory animals in their research projects.

Video On Services Provided by the Comparative Pathology Shared Resource

Histology 

Production of high quality tissue sections from frozen and fixed tissues.

  • Fixed tissue processing, embedding in paraffin, sectioning and staining
  • Frozen tissue sectioning and staining (with or without cryoprotection in sucrose gradient)
  • Decalcification, processing and sectioning of bones
  • Stains available:
    • Hematoxylin and eosin (HE)
    • Periodic Acid-Schiff (PAS)
    • Grocott's methamine silver (GMS)
    • Toluidine blue
    • Gomori trichrome
    • Alcian blue
    • Giemsa
    • Tartrate resistant acid phosphatase (TRAP)
    • Congo red
Immunohistochemistry (IHC)

Detection of cell antigens in frozen and fixed animal tissue sections. More than 50 protocols have been developed to work in mouse, rat, rabbit, monkey, and human tissues.The number of available IHC stains is continually increasing. Please contact us for the most current list, and prior to requesting a specific antigen immunostain. 

  • Immunohistochemical (IHC) staining for antigens in fixed and frozen tissues
  • Immunofluorescent (IF) staining for antigens in fixed and frozen tissues
  • Proliferating cell detection with BRDU labeling and Ki-67 staining
  • Apoptotic cell detection with TUNEL, cleaved caspase 3 staining, and In Situ cell death detection using TMR red fluorescence stain.
  • Development of new IHC protocols for detection of antigens in frozen or formalin fixed tissues.
  • One trial run includes 3 different types of antigen retrieval (for formalin fixed tissues) or 3 different fixatives (for frozen tissues) and 3 different concentrations of antibody.
Pathology
  • Description and interpretation of gross and microscopic lesions
  • Gross and microscopic imaging
  • Assistance with necropsies
  • Phenotypic characterization of transgenic mice
  • Semi quantitative lesion analysis
  • Evaluation of blood smears, tissue impression smears, and interpretation of CBC
  • Consultations on experimental design, sample collection, fixation, stains, and immunohistochemistry
  • Assistance or collaboration in manuscript preparation (lesion description, data summary and interpretation, publication quality image production)

To ensure timely completion of large projects (those involving analyses from >30 animals), please contact Dr. O'Sullivan approximately 3 months prior to sample submission to discuss the goals of pathologic analysis, research questions posed and types of analyses anticipated.

Acknowledgement

A pathologist whose input directly contributes to a scientific publication should be included as a co-author and laboratory support contributing to a scientific publication should be included in the acknowledgements section of the manuscript.

Publications

View a list of manuscripts (PDF) prepared with technical and pathology assistance of CPSR.

AHCMCC2 - Document - Comparative Pathology-histoVB-2093-A-proximal-cor.jpg

Coronal section of a normal mouse head; H&E stain

AHCMCC2 - Document - Comparative Pathology MLL-immunofluorescence

Mll expression (red) in nuclei (blue) of myeloid blast cells

AHCMCC2 - Document - Comparative Pathology Histopancreas

Pancreatic islet with double stain for BRDU (nuclear) and insulin (cytoplasmic).

Gerry O'Sullivan, M.V.B., Ph.D., Diplomate A.C.V.P. & ECVP
Director, Comparative Pathology Shared Resource
Veterinary Anatomic Pathologist
Office: 385D Animal Science/Veterinary Medicine Building
612-625-3254
gos@umn.edu
Contact Dr. O'Sullivan for questions regarding experimental design and pathology analysis.

Cathy Carlson, D.V.M, Ph.D., Diplomate A.C.V.P.
Veterinary Anatomic Pathologist
Office: 435H Animal Science/Veterinary Medicine Building
612-625-7717
carls099@umn.edu

Ramesh Kovi, BVSc, Ph.D., Diplomate A.C.V.P.
Veterinary Anatomic Pathologist
Office: 261 Veterinary Diagnostic Laboratory
612-624-9620
rckovi@umn.edu

Tim O'Brien, D.V.M., Ph.D., Diplomate A.C.V.P.
Veterinary Anatomic Pathologist
Office: 254 Veterinary Diagnostic Laboratory
612-625-8175
obrie004@umn.edu

Leslie Sharkey, D.V.M., Ph.D., Diplomate A.C.V.P.
Veterinary Clinical Pathologist
Office: E332 Veterinary Diagnostic Laboratory
612-624-6171
shark009@umn.edu
Contact Dr. Sharkey for questions regarding clinical pathology (blood smear and CBC interpretation).

Josh Parker, Scientist
Administrator
Office: 495 Animal Science/Veterinary Medicine Building
612-625-9770
park0463@umn.edu

Paula Overn, Assistant Scientist
ASCP and QIHC Certified Histologist/Immunohistochemist
Office: 225 Animal Science/Veterinary Medicine BuildingÂ
612-624-2242
overn003@umn.edu
Contact Paula Overn for any technical questions regarding histology and immunohistochemistry.

Additional veterinary pathology expertise is provided by Dr. Roland Gunther.

Histology 
  • Tissue-Tek VIP tissue processor and Tissue-Tek TEC embedding station
  • 3 microtomes for cutting paraffin-embedded specimens
    • Leica RM2125
    • Microm HM315
    • Olympus 4060E
  • Leica polycut E heavy duty microtome
  • Cryostat for cutting frozen sections
    • Leica CM3050
  • Leica Automated Cassette Labeler
Immunohistochemistry 
  • Dako DC3400 automated immunostainer
Pathology
  • Nikon Eclipse E-800M bright field/fluorescence/dark field microscope equipped with a Nikon DXM1200 high resolution digital camera.
  • Nikon Coolpix® 995 and Nikon Coolpix® 5700 digital cameras for gross and subgross (dissecting microscope) images
  • Nikon Eclipse E-600W bright field microscope with SPOT Insight color digital camera
  • Olympus BX-40F bright field microscope with SPOT Insight color digital camera
  • Nikon SMZ1000 dissecting microscope
     

AHCMCC2 - Image - Comparative Pathology-Microtome

 

AHCMCC2 - Image - Comparative Pathology-IHC Stainer

Location

University of Minnesota St. Paul Campus
College of Veterinary Medicine
Animal Science/Veterinary Medicine Building, Room 224
1988 Fitch Ave.
St. Paul, MN 55108

Directions

From the Minneapolis campus via Campus Connector.
Get off at the intersection of the Transitway and Commonwealth Ave.
Follow Commonwealth Ave. west to Boyd Ave.
Proceed north to the Animal Science/Veterinary Medicine building.
Campus Connector Map

Driving directions
Directions are also available through Mapquest, Google Maps, or Yahoo Maps. The address for the Animal Science/Veterinary Medicine Building is 1988 Fitch Ave, St. Paul, 55108. The address for the Gortner Avenue Ramp is 1395 Gortner Avenue St Paul, MN 55108.

From the north of the Twin Cities metro:

Take Interstate 35W south to the Cleveland Ave exit. It is a left exit. Follow Cleveland Avenue south to the intersection of Larpenteur Avenue. Turn left or go east, to the first stoplight, Gortner Avenue. Turn right, or south, on Gortner. Go through 2 stop signs. The entrance to the Gortner Avenue ramp is located on your right-hand side before Fitch Avenue.

From south of the Twin Cities metro area:

Take Interstate 35W north to Interstate 94 East. Go 3 miles on 94 East to Highway 280. This is a left exit. Follow Highway 280 north to the Larpenteur Avenue exit. Turn right, or go east, for 1 1/2 miles to the Gortner Ave intersection. Turn right, or go south, on Gortner and go through 2 stop signs. The entrance to the Gortner Avenue ramp is located on your right-hand side before Fitch Avenue.

From west of the Twin Cities metro area:

Take Interstate 94 East to Highway 280. This is a left exit. Go north on 280 to the Larpenteur Avenue exit. Turn right, or go east, for approximately 1 1/2 miles to the Gortner Avenue intersection. Turn right, or go south, on Gortner Avenue and go through 2 stop signs. The entrance to the Gortner Arena ramp is located on your right-hand side before Fitch Avenue.

From east of the Twin Cities metro area:

Take Interstate 94 West to Highway 280. Go north on 280 to the Larpenteur Avenue exit. Go right, or east, for approximately 1 1/2 miles to the Gortner Avenue intersection. Turn right, or go south, onto Gortner Avenue and go through 2 stop signs. The entrance to the Gortner Avenue ramp is located on your right-hand side before Fitch Avenue.

Parking

Parking is available in the Gortner Avenue Ramp.

AHCMCC2 - Image - 220x140 - Comparative Pathology Location

Animal Science/Veterinary Medicine Building

What is comparative pathology?
Pathology is the study and diagnosis of disease through examination of organs, tissues, body fluids, and whole bodies. Comparative pathology involves the comparison of diseases in animals as they relate to those in humans, with the goal of better understanding human disease. Although many human diseases occur naturally in animals, disease in animals also may be induced to mimic human disease.

What role does comparative pathology play in cancer research?
Cancer occurs naturally in animals, with different types of cancers occurring more often in certain species, strains, or breeds of animals. There are many advantages to studying cancer in animals, including the ability to induce the development of tumors in animals. Mice are the most commonly studied species and offer a particular advantage in that tumors may be induced through genetic manipulations.

The developmental biology of tumors as well as methods to treat them may be studied in animals much more easily than in humans. Even with the very sophisticated imaging techniques that are currently available, examination of the tissues by a pathologist is the "gold standard" for the diagnosis of cancer in animals.

What services does the Comparative Pathology Shared Resource provide for researchers?
We are a full-service pathology laboratory in that we offer support from the initial stages of the experiment (study design and preparation of research grant) through to the final stages (assisting with manuscript preparation after the results have been analyzed). We offer technical support for tissue collection, processing, and preparation of histological sections, and we also offer pathology support for interpretation and imaging of the tissues.

Investigators may use our resource for all of these activities or for only one of them (e.g., preparation of histological sections from a tissue block that has been embedded in paraffin), depending on the resources in their own laboratories.

Watch a video about the Comparative Pathology Shared Resource and its services.

What is an example of a typical research project for which you provide services?
An example of a typical project might be one where an investigator has used an experimental treatment to reduce the number and size of tumors in the lungs of mice. Our services may be used to provide descriptive information, such as determination of the type of tumors and whether they are malignant or benign, as well as quantitative information regarding the number and size of the tumors.

What kinds of expertise and educational backgrounds do the people who work in the facility have?
Our technical staff members have bachelor's degrees and/or have completed a 2-year histotechnology training course and all have considerable experience in a histology laboratory. Our veterinary pathologists have completed college, a veterinary medical degree, and residency training in veterinary anatomic pathology.

Currently, all of our pathologists have Ph.D. degrees and are board certified in veterinary anatomic pathology. Most have been principal investigators on NIH grants and have an excellent understanding of the challenges that are faced by investigators.

How do you work with researchers as they prepare studies for publication in scientific journals?
Ideally we first meet face-to-face with the researcher to determine his/her goals for the publication. We then take responsibility for writing up the methods and results for the pathology portion of the manuscript and also provide publication quality images and figure legends. If the manuscript reviewers have questions regarding the pathology section of the manuscript, we assist in addressing those concerns.

What types of tissue samples do you typically work with?
Although we work with a wide variety of tissues from a variety of animal species, most commonly we work with soft tissues (vs. bone and cartilage) such as lung, liver, heart, and kidney from mice. These usually are fixed in formalin and embedded in paraffin for sectioning. We also work with samples of frozen tissue.

How and in what form are tissue samples sent to you?
For some studies we assist with tissue sampling and evaluation at the time of necropsy; however, most investigators send fixed tissues to our laboratory in formalin. Some investigators process their own tissues into blocks and send the blocks to our laboratory for sectioning. Learn more about sample submission.

What are the necessary steps in a typical project?

  1. First, the investigator should contact one of our pathologists as early in the project as possible, ideally when studies are being planned and grants are being submitted, to explain the goals of the project and to ensure that the study design is appropriate and that there is a plan to correctly collect, fix, and process the appropriate tissues.
  2. When tissues from the project become available, the investigator fills out a request form (Excel document) to submit electronically to our laboratory. This form contains information regarding the number and type of tissues that will be submitted, the type of technical work that is requested (e.g., routine H&E stains, immunohistochemistry preparations, special stains, etc.), and whether or not pathology interpretation is needed.
  3. Then the tissues are submitted to our laboratory, either by being delivered by someone from the investigator's laboratory or by being left at our drop off site in room 580 of the Masonic Cancer Research Building.
  4. The technical work generally is completed in 2-3 weeks, depending on the size of the project.
  5. The pathology assessments occur after the technical work has been completed and the time required for these also varies depending on the size of the project.

How do you help researchers analyze the samples you prepare?
Depending on the goals of the project, our pathologists examine the tissue sections under a microscope and describe the changes that are present. Examples would include determination of whether or not there is tumor tissue present, the type of tumor and its features, and whether the tumor cells are extending into sites other than the primary site.

For definitive diagnosis of some tumor types or to detect specific molecular markers that are characteristic of particular cellular events such as proliferation or cell death, immunostaining of the tissues is required. This involves incubating the tissue section with an antibody that is directed against a specific tissue antigen. Visualizing an antibody-antigen interaction can be accomplished in a number of ways. One way is to conjugate the antibody to an enzyme that can catalyze a color-producing reaction.

How do communicate with researchers about results?
Although we are happy to meet in person with investigators or talk with them by phone, the majority of our communications are done electronically. When technical work is completed, the investigator is notified by e-mail and the blocks/sections are delivered to the Masonic Cancer Center drop off site. When pathology evaluations are completed, the investigator would be contacted by the responsible pathologist. Data tables, images, slide descriptions, etc., are shared electronically.

Is your work published often in journals?
We encourage investigators to include pathologists as co-authors on manuscripts. This ensures that the highest quality work is published, provides appropriate credit to the pathologist on the project, and ensures that reviewer critiques will be addressed by a person with the appropriate background and knowledge.

Why is it important for researchers to take advantage of the services the Comparative Pathology Shared Resource provides?
We strongly believe that we can add value to any project that includes pathology assessments. Our staff members have the experience to provide advice on study design, produce high quality tissue preparations, and provide accurate pathological interpretations and expert manuscript assistance to investigators who are using laboratory animals in their research projects.

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  • Last modified on March 12, 2014