Resection margin

(Redirected from Free margin)

A resection margin or surgical margin is the margin of apparently non-tumorous tissue around a tumor that has been surgically removed, called "resected", in surgical oncology. The resection is an attempt to remove a cancer tumor so that no portion of the malignant growth extends past the edges or margin of the removed tumor and surrounding tissue. These are retained after the surgery and examined microscopically by a pathologist to see if the margin is indeed free from tumor cells (called "negative"). If cancerous cells are found at the edges (called "positive") the operation is much less likely to achieve the desired results.[1]: sections 1-2 

Micrograph of a stained slide of a resected myopericytoma, the resection margin stained brown

The size of the margin is an important issue in areas that are functionally important (i.e., large vessels like the aorta or vital organs) or in areas for which the extent of surgery is minimized due to aesthetic concerns (i.e., melanoma of the face or squamous cell carcinoma of the penis).[2] The desired size of margin around the tumour can vary. In resections for breast cancer, there appears to be a difference between European and American radiation oncologists, with the former preferring larger margins of over 5 mm.[1]: section 2 

Micrograph showing a positive cauterized surgical margin in an adenocarcinoma (center-top of image). H&E stain.

Residual tumour at the primary site after treatment (it does not address the surgical margin as commonly believed) is classified by the pathologist as (AJCC 8th Edition):

  • R0 - no cancer cells seen microscopically at the primary tumour site.
  • R1 - cancer cells present microscopically at the primary tumour site.
  • R2 - Macroscopic residual tumour at primary cancer site or regional lymph nodes. It does not include metastatic disease identified but not sampled at the time of surgery.

The Margin Status following tumour resection (AJCC 8th Edition):

  • Negative margin: No tumour at the margin.
  • Microscopic positive margin: Tumour identified microscopically at the margin.
  • Macroscopic positive margin: Tumour identified grossly at the margin.
  • Margin not assessed.

Apart from traditional methods looking at stained "shaves" (thin slices of tissue removed from the edge of the margin) or smeared and stained imprints, more recent techniques used to assess margins include x-rays with compression, frozen specimens, and new techniques such as intraoperative fluorescence imaging, Raman spectroscopy, optical coherence tomography and quantitative diffuse reflectance spectroscopy.[3][1]: sections 5-6 

Definition

edit
 
Edges and margins for an intestinal tumor.

Surgical margin in a surgery report defines the visible margin or free edge of "normal" tissue seen by the surgeon with the naked eye. Surgical margin as read in a pathology report defines the histological measurement of normal or unaffected tissue surrounding the visible tumor under a microscope on a glass mounted histology section.[4][5] A "narrow" surgical margin implies that the tumor exists very close to the surgical margin, and a "wide" surgical margin implies the tumor exists far from the cut edge or the surgical margin. Narrow surgical margin using the bread loafing technique suggests that residual cancer might be left due to false negative error. A surgeon often will perform a second surgery if a narrow surgical margin is noted on a pathology report.

Associated errors and recurrence rate

edit

This determination is made with the full understanding of "false negative error" intrinsic in the bread loafing technique of histology (also known as POMA - a term used by the NCCN).[6] The higher the false negative error is, the higher the recurrence rate of a cancer or tumor at the surgical margin. This is due to the misreading of a pathology specimen as being clear of residual tumor when there is actually residual tumor left where the specimen was not cut and mounted on the histology slide. The "false negative error" is very low in the CCPDMA method of histology processing, and can be very high in the bread loafing (POMA) method of histology processing.[6] In the bread loafing method of processing, one will note a high false negative error rate with narrow surgical margin; and one will note a low false negative error with a wide surgical margin[7] Surgical margin has a much less significant effect on the false negative error rate of CCPDMA methods, allowing the surgeon to routinely use very narrow surgical margins (1 to 2 mm for non-melanoma skin cancer).[7] The worldwide extent of inadequate resection of the tumor is illustrated in following Table showing the percentage of positive surgical margins for the most common cancer types.

Percentage of positive surgical margins for the most common cancer types (estimated new cases worldwide, 2020) *Males and females combined [3]
Cancer type (solid tumours only) Estimated new cases * Incidence * Positive margins
Breast 2,261,419 12% 20–70%
Trachea, lung, and bronchus 2,206,771 11% 5–17%
Prostate 1,414,259 7% 7–75%
Colorectal 1,931,590 10% 12–58%
Urinary bladder 573,278 3% 0–25%
Kidney and renal pelvis 431,288 2% 7–11%
Uterine corpus 417,367 2% 4–17%
Pancreas 495,773 3% 18–85%
Thyroid 586,202 3% 10–11%
Lip, oral cavity 377,713 2% 5–43%

References

edit
  1. ^ a b c Emmadi R, Wiley EL (2012). "Evaluation of resection margins in breast conservation therapy: the pathology perspective-past, present, and future". International Journal of Surgical Oncology. 2012: 180259. doi:10.1155/2012/180259. PMC 3507155. PMID 23213495.
  2. ^ Sabatine M (2007). Sabatine's Essentials of Internal Medicine.
  3. ^ a b Lauwerends LJ, Abbasi H, Bakker Schut TC, Van Driel PB, Hardillo JA, Santos IP, et al. (June 2022). "The complementary value of intraoperative fluorescence imaging and Raman spectroscopy for cancer surgery: combining the incompatibles". European Journal of Nuclear Medicine and Molecular Imaging. 49 (7): 2364–2376. doi:10.1007/s00259-022-05705-z. PMC 9165240. PMID 35102436.
  4. ^ Maloney ME, Torres A, Hoffmann TJ, Helm KF (1999). Surgical Dermatopathology. Blackwell Science. pp. 107–121. ISBN 978-0-86542-299-5.
  5. ^ Maxwell JH, Thompson LD, Brandwein-Gensler MS, Weiss BG, Canis M, Purgina B, et al. (December 2015). "Early Oral Tongue Squamous Cell Carcinoma: Sampling of Margins From Tumor Bed and Worse Local Control". JAMA Otolaryngology–Head & Neck Surgery. 141 (12): 1104–1110. doi:10.1001/jamaoto.2015.1351. PMC 5242089. PMID 26225798.
  6. ^ a b "Tri-Service General Hospital" (PDF). Archived from the original (PDF) on 2019-09-27. Retrieved 2018-03-17.
  7. ^ a b Kimyai-Asadi A, Katz T, Goldberg LH, Ayala GB, Wang SQ, Vujevich JJ, Jih MH (December 2007). "Margin involvement after the excision of melanoma in situ: the need for complete en face examination of the surgical margins". Dermatologic Surgery. 33 (12): 1434–9, discussion 1439–41. doi:10.1111/j.1524-4725.2007.33313.x. PMID 18076608. S2CID 22275910.

Further reading

edit
  • Upile T, Fisher C, Jerjes W, El Maaytah M, Searle A, Archer D, et al. (April 2007). "The uncertainty of the surgical margin in the treatment of head and neck cancer". Oral Oncology. 43 (4): 321–326. doi:10.1016/j.oraloncology.2006.08.002. PMID 17112772.
edit