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Mohs
Micrographic Surgery, an advanced treatment procedure for
skin cancer, offers the highest potential for recovery—even
if the skin cancer has been previously treated. This procedure
is state-of-the-art treatment in which the physician serves
as surgeon, pathologist and reconstructive surgeon. It relies
on the accuracy of a microscope to trace and ensure removal
of skin cancer down to its roots. This procedure allows
dermatologists, trained in Mohs Surgery, to see beyond the
visible disease, and to precisely identify and remove the
entire tumor, leaving healthy tissue unharmed. This procedure
is most often used in treating two of the most common forms
of skin cancer: basal cell carcinoma and squamous cell carcinoma.
The
cure rate for Mohs Micrographic Surgery is the highest of
all treatments for skin cancer—up to 99 percent even
if other forms of treatment have failed. This procedure,
the most exact and precise method of tumor removal, minimizes
the chance of regrowth and lessens the potential for scarring
or disfigurement.
History
Developed by Frederic E. Mohs, M.D. in the 1930s, the Mohs
Micrographic Surgical procedure has been refined and perfected
for more than half a century. Initially, Dr. Mohs removed
tumors with a chemosurgical technique. Thin layers of tissue
were excised and frozen before being pathologically examined.
He developed a unique technique of color-coding excised
specimens and created a mapping process to accurately identify
the location of remaining cancerous cells.
As the
process evolved, surgeons refined the technique and now
excise the tumor, remove layers of tissue and examine the
fresh tissue immediately. The chemosurgical technique developed
by Dr. Mohs is no longer used. This reduces the normal treatment
time to one visit and allows for immediate reconstruction
of the wound. The heart of the procedure—the color-coded
mapping of excised specimens and their thorough microscopic
examination—remains the definitive part of the Mohs
Micrographic Surgical procedure.
Effectiveness
Clinical studies have shown that Mohs Micrographic Surgery
has a five-year cure rate up to 99 percent in the treatment
of basal cell and squamous cell carcinomas.
Treatment
Issues
Common treatment procedures often prove ineffective because
they rely on the human eye to determine the extent of the
cancer. In an effort to preserve healthy tissue, too little
tissue may be removed resulting in recurrence of the cancer.
If the surgeon is overcautious, more healthy tissue than
necessary may be removed causing excessive scarring.
Some
tumors do not respond to common treatments, including those
greater than two centimeters in diameter, those in difficult
locations and tumors complicated by previous treatment.
Removing a recurring skin cancer is more complicated because
scar tissue makes it difficult to differentiate between
cancerous and healthy tissue.
Indications
Mohs Micrographic Surgery is primarily used to treat basal
and squamous cell carcinomas, but can be used to treat less
common tumors including melanoma. Mohs Surgery is indicated
when:
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the
cancer was treated previously and recurred |
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scar
tissue exists in the area of the cancer |
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the
cancer is in an area where it is important to preserve
healthy tissue for maximum functional and cosmetic result,
such as eyelids, nose, ears, lips |
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the
cancer is large |
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the
edges of the cancer cannot be clearly defined |
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the
cancer grows rapidly or uncontrollably |
Procedure
The Mohs process includes a specific sequence of surgery
and pathological investigation. Mohs surgeons examine the
removed tissue for evidence of extended cancer roots. Once
the visible tumor is removed, Mohs surgeons trace the paths
of the tumor using two key tools:
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a
map of the surgical site |
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a
microscope |
Once the obvious
tumor is removed, the Mohs surgeon:
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removes
an additional, thin layer of tissue from the tumor site |
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creates
a "map" or drawing of the removed tissue to
be used as a guide to the precise location of any remaining
cancer cells |
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microscopically
examines the removed tissue thoroughly to check for
evidence of remaining cancer cells |
If any of the
sections contain cancer cells, the Mohs surgeon:
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returns
to the specific area of the tumor site as indicated
by the map |
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removes
another thin layer of tissue only from the specific
area within each section where cancer cells were detected
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microscopically
examines the newly removed tissue for additional cancer
cells |
If microscopic
analysis still shows evidence of disease, the process continues
layer-by-layer until the cancer is completely gone.
This selective
removal of only diseased tissue allows preservation of much
of the surrounding normal tissue. Because this systematic
microscopic search reveals the roots of the skin cancer,
Mohs Surgery offers the highest chance for complete removal
of the cancer while sparing the normal tissue. Cure rates
exceed 99 percent for new cancers, and 95 percent for recurrent
cancers.
Reconstruction
The best method of managing the wound resulting from surgery
is determined after the cancer is completely removed. When
the final defect is known, management is individualized
to achieve the best results and to preserve functional capabilities
and maximize aesthetics. The Mohs surgeon is also trained
in reconstructive procedures and often will perform the
reconstructive procedure necessary to repair the wound.
A small wound may be allowed to heal on its own, or the
wound may be closed with stitches, a skin graft or a flap.
If a tumor is larger than initially anticipated, another
surgical specialist with unique skills may complete the
reconstruction.
Cost
Effectiveness
Besides its high cure rate, Mohs Micrographic Surgery also
has shown to be cost effective. In a study of costs of various
types of skin cancer removal, the Mohs process was found
to be comparable when compared to the cost of other procedures,
such as electrodesiccation and curettage, cryosurgery, excision
or radiation therapy. Mohs Micrographic Surgery preserves
the maximum amount of normal skin and results smaller scars.
Repairs are more often simple and involve fewer complicated
reconstructive procedures.
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