Wounds Clinical Trial
Official title:
Comparison of the Blister Fluid Components of Second Degree Burned Patients With the Blister Fluid Components Following Intralesional Cryosurgery of Keloid Scars - A Feasibility Study.
It is well documented that following thermal burns injury the development of hypertrophic
scars and keloid (HSK) ranges between 40 to 90%. on the other hand It is well documented
that cryosurgery wounds generally heal with minimal tissue contraction, resulting in good
cosmetic results and with minimal complications.
The Aim of the study is To specify the burn and cryosurgery blister fluid for proteins,
cytokines and cells and To compare between the above data regarding possible proteins,
cytokines and cells, in regard to their possible effect on scarring and wound healing.
Also to Identify those components which are present only in the cryosurgery blister and
which might have an anti-scarring effect and to characterize them biochemically.
Skin is the most frequently injured tissue, and millions of people worldwide acquire scars
every year. Clinical experience shows that patients want less noticeable scars, with color
and texture that closely resemble their normal skin.
Few humans reach adulthood without experiencing a wound to the skin that result in a scar.
Scars range from fine lines to raised, hard, red, pruritic and painful hypertrophic or
keloid scars, which are severely disfiguring and cause significant morbidity. In addition to
physical complications, the appearance of scars can be a major concern for both physicians
and their patients. Published literature shows that wide demographic groups, across gender,
age, ethnicity and geographical region, have similar concerns about scarring and that
patients, in particular, value even small improvements in scarring. It is well established
that severe and disfiguring scarring can be associated with significant psychological stress
and impairment of quality of life .
It is well documented that following thermal burns injury the development of hypertrophic
scars and keloid (HSK) ranges between 40 to 90%.
In the second degree burn the exudate accumulates locally between the epidermis and the
dermis of skin, forming blisters. Burn exudate (blister) forms as a result of changed
capillary permeability when the damaging agent locally affects the capillaries, as it
generally does in inflammatory reactions.
The chemical composition of exudate is very like that of plasma, the protein concentration
depending on the degree of damage in capillaries. Further, exudate contains material from
damaged and disintegrated cells such as protein degradation products, enzymes etc. By
puncturing blisters it should be possible to follow the changes in their content during the
healing process.
Only few studies were published in the medical literature in which the blister fluid
composition was evaluated following a second degree burn. Nanto and Viljanto at 1962 were
the first to publish the chemical composition of blister fluid. They have demonstrated that
the albumin-globulin ratio, the phosphorus content and the quantity of purines and
pyrimidine derivatives in the blister fluid can be indicators of the local severity of
second degree burn.
Heggers et al in 1980 have found that blister fluid, following burn, contained all
substances found in the body, including parenterally administered penicillin. In addition
the elevation of potassium and the cation to anion imbalance is primarily due to the Na/K
cellular pump malfunction, and the destruction of the permeability of the cell membrane is
most likely a direct result of complement and other cellular enzymes, which include
prostaglandins and thromboxane. Elevated SGOT, CPK, and LDH enzymes indicate severe trauma
to the cells. The presence of immunoglobulins indicate that high molecular-weight proteins
diffuse equally well during this edematous phase.
In 1986 Deitch et al. studied early protein alteration in the blister fluid and serum
associated with burn injury. It was found that local changes in the blister fluid may
adversely affect local immunity and predispose the patient to burn wound sepsis.
Lately, a significant improvement in protein identification employing proteomic profiling
technology has been documented. The model which is used is the suction blister fluid which
is compared with protein expression in pathological skin conditions such as psoriasis and
toxic epidermal necrolysis.
However, the evaluation of the blister fluid components on cutaneous scarring has not been
investigated.
In 1982, Shepherd and Dawber were the first to apply cryosurgery as a monotherapy regimen
for treating Hypertrophic scars and keloids (HSK). Mende, Zouboulis and Orfanos and others
showed that repeated surface/spray cryosurgical sessions can have a beneficial effect on HSK
(between 68% - 81% remission), with almost no recurrence (2%).
Recently, an intralesional cryosurgery technology has been developed to treat HSK
(CryoShape, Etgar Group International Ltd., Kefar Saba, Israel approved by the Israel
ministry of Health) (14-21). A specially designed cryoneedle is inserted into the core of
the HSK so as to maximize the volume of the HSK to be frozen. The cryoneedle is connected by
an adaptor to a cryogun filled with liquid nitrogen, which is introduced into the cryoprobe
thereby freezing the HSK. After the HSK is completely frozen, the cryoprobe defrosts and is
withdrawn.
Following the cryotreatment a blister is formed. It has been demonstrated that an average of
51 % of scar volume reduction was achieved following a single intralesional cryosurgery
treatment. Specifically, for auricular and lobular HSK the average volume reduction was 67%
and for upper back and shoulders HSK 60%. These obtained clinical results are significant
superior to any other treatment modalities which exist now-days to treat HSK.
Scientific studies which have been executed following the intralesional cryosurgery
treatment have demonstrated rejuvenation of the treated scars, i.e., parallelization, and a
more organized architecture of the collagen fibers when compared to the pre-treated scars.
In addition, histological analysis revealed that after intralesional cryosurgery the
collagen bundles lost their swirl structure, the thickness of the collagen layer decreased,
and the bundles became more compact with less space between the fibers. A clear distinct
transition zone separated the treated from the unaffected area. The frozen tissue was devoid
of proliferating cells and of mast cells whereas the number of blood vessels remained
unaltered. Most of the fibroblasts expressed all tested myofibroblast markers although some
of them exclusively expressed one and not the other. Almost no mast cells were found
following the cryo-treatment. Thus, Intralesional cryosurgery treatment resulted in major
changes in collagen structure and organization. In addition, the treatment reduced the
numbers of proliferated cells in general and myofibroblasts and of mast cells in particular.
It is well documented that cryosurgery wounds generally heal with minimal tissue
contraction, resulting in good cosmetic results and with minimal complications.
However, following an extensive medical literature search it has been evident that the
evaluation of the blister fluid components following skin cryosurgery for the treatment of
HSK has not yet been studied as well as the specific evaluation of post-cryosurgery blister
components on cutaneous scarring/anti-scarring effect.
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