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A CLINICAL REPORT OF TREATMENT OF A PATIENT WITH EXTENSIVE TRAUMATIC DETACHMENT OF SOFT TISSUES
Petrov Yu.L., Korostelev M.Yu., Shikhaleva N.G.
City Clinical Hospital
No.8, Chelyabinsk, Russia,
Russian Ilizarov
Scientific Center for Traumatology and Orthopaedics, Kurgan, Russia
Extensive soft tissue detachment is a common serious
surgical abnormality, which is characterized by detachment of the skin and
subcutaneous fat from subjacent muscles and fascia as result of a sudden shift,
which is applied to the skin surface [1, 2].
The main locations of extensive skin detachment are
the lower extremities, the body, the scalp, and the face [3-6]. Detachments can
be classified as closed/internal or opened/external lesions [7, 8, 9]. Such
injury can lead to complete necrosis of detached tissues owing to disordered
blood flow [10]. Moreover, the infectious process and necrotic fasciitis often
develop under the detached skin due to incorrect management of wounds in
patients with extensive crushing injuries. It often results in more severe
condition and to the lethal outcome [7, 11].
However, the difference between vital and non-vital
tissues is associated with some difficulties in early management of ESTD for
both types of injuries [7]. It is difficult to develop the appropriate
algorithm for decision making since each injury is unique according to variety
of lesions. Therefore, the outcome of ESTD is often underestimated [1, 6]. The
treatment outcomes are influenced by multiple factors: location, square and depth
of tissue injuries, concurrent injuries and abnormalities, selection of
treatment techniques, quality of primary surgical management of tissues, primary
application of sutures, primary conservative management, subsequent staged
removal of crushed tissues, VAC, Krasovitov’s primary plasty [12, 13, 14]. A
technique of extremity fixation is also important for such injuries. Ilizarov’s
transosseous fixation is the most optimal method for creation of favorable
conditions for wound healing [15, 16].
One should note the presence of some organizational and medical
problems, considering the difficulties relating to coding of this abnormality
in ICD 10. The code T04.3 (crushing injury of several parts of lower extremity
(ies)) is appropriate for lower extremity injuries. This type of the injury is
not marked separately in the list of nosologies of compulsory medical
insurance. Therefore, medical records of such patients are registered with use
of other codes: the best variant – polytrauma, the worst one – degloving injury. There are not any confirmed range
of examination of soft tissues, required management techniques, and criteria
for realization of the standard for this pathology. There are not any clinical
recommendations and standards of treatment (confirmed by Russian Health
Ministry) for patients with this pathology.
CLINICAL CASE
The study was conducted in compliance with Helsinki
Declare – Ethical Principles for Medical Research with Human Subjects, 2013,
and the Rules for Clinical Practice in the Russian Federation confirmed by the
Order by Health Ministry of Russia on 19 June, 2003, No.266. The patient gave the
informed consent for surgical intervention and for publishing the data without personal
identification.
The clinical case was presented by the patient K.,
female, age of 55. On April, 17, 2012, she was injured in a road traffic
accident. While getting the bus, she fell to the ground. The bus crossed her
left lower extremity. The emergency medical team transferred her to the
admission unit of City Clinical Hospital No.8. Her condition was severe and was
determined by traumatic shock of degree 2 and by ongoing bleeding. The diagnosis
was: “Polytrauma, hemorrhagic shock of degree 2 (table), extensive opened
detachment of soft tissues of left lower extremity (foot, leg, hip), ongoing
bleeding from left inguinal region”.
After admission, the anamnesis data were collected, clinical
and laboratory examinations were carried out, and X-ray examination of the left
lower extremity and the pelvis was conducted. After admission, at the
background of infusion, the arterial pressure was 90/60 mm Hg, pulse – 80 per
minute, respiratory rate – 20 per minute. The total square of identified
detached tissues was 19 % of body surface. An opened non-displaced fracture of
the proximal phalanx of the left toe was identified. Injury Severity Score
(ISS) (Baker S. P. et al.,
1974) showed severe degree of the injury. Trauma Index (Kirkpatric J. R., Youmans
R. L., 1971) was 12 (severe injury) [17, 18]. According to classification by
Arnez Z.M. et al. (2009), the trauma was classified as the second group
(non-circular wound; the injury site was limited by one layer (usually, between
the deep fascia and subcutaneous fat)) [19].
At the background of anti-shock therapy, the
traumatologist-orthopedists performed the surgery: primary surgical preparation
of the left lower extremity, arrest of bleeding in the left inguinal region.
The wounds of the left lower extremity were revised. A skin detachment
(semi-circular pattern) with subcutaneous fat from superficial femoral and leg
fascia was identified, a detachment in the knee joint – along posterior semi-circumference,
circular pattern – on the foot.
The pulse was weak and rhythmical on the dorsal artery
of the foot and on the posterior tibial artery. There were not any disorders of
sensitivity in the toes. The sensitivity was low on the detached skin flaps.
The left toe was pale and cool. Other toes were of body color, warm, but cooler
than the toes of the healthy foot. Under general anesthesia, the tissues of the
left lower extremity were washed with antiseptic solutions, the bleeding was
arrested, the covering tissues were positioned correctly and were sutured. The active
drains were installed. Considering the extension of soft tissue injuries, the
limb was fixed with Ilizarov’s apparatus. Owing to severe condition, the
patient was admitted to the intensive care unit.
On April, 19, 2012, tracheostomy was performed.
Despite of the performed manipulations, the bleeding was persistent. Within the
following day, about 400 ml of hemorrhagic discharge (from posterior region of
the knee joint) was removed through the drains. As result, on the second day
after the injury, the patient was transferred to the surgery room, where recurrent
surgical preparation was performed. An attempt to find the injured magistral vessels
was unsuccessful. The intervention was completed with installment of drains and
with wound suturing.
The patient’s condition was severe in the postsurgical
period. Within the following 10 days, the patient remained in ICU with purpose
of dressings. The general condition was worsening gradually according to
clinical signs of local and general status, with data of instrumental and
laboratory examinations. Severe condition was determined by the events of
previous traumatic and hemorrhagic shock, unfavorable course of extensive wound
process, and toxicosis after products of tissue degradation entering the
microcirculatory bed. The temperature was hectic.
On 11th day after the injury, cerebral, respiratory
and cardiovascular insufficiency was identified, as well as acute hepatic and
nutritive insufficiency. Glasgow Coma Scale was 10, RASS – 2. The local signs
showed an increase in volume of the extremity, skin redness, extensive necrosis
of the skin and subcutaneous fat. The sutures were removed. The wounds were
opened, and turbid serous discharge was received. The blood analysis showed the
intense change in the leukogram, hypovolemia, and positive procalcitonin test
(the table). The results of the clinical and laboratory examination showed
early posttraumatic sepsis. SOFA was 6, APACHE – 22. The wound inoculation
included Pseudomonas aeruginosa (105), Acinetobacter baumannii (106), Aeromonas (106),
Klebsiella pneumonia (106); the blood inoculation – Enterococcus faecium (104)
and
Acinetobacter baumannii (102).
During the cooperative concilium with
participation of the plasty surgeon from the Chelyabinsk burn center (May, 3,
2012) it was decided to conduct the recurrent urgent surgical management of
wounds with their revision, and removal of non-vital tissues. The patient had septic shock.
Another revision of the wounds showed
a non-diagnosed extensive detachment of covering tissues in the left lower
extremity, but also in left gluteal region, and in anterior abdominal wall in
iliac, inguinal and left lateral regions (Fig. 1, 2). Under injured skin
surfaces, tense hematomas were found (total volume – 300 ml). As result, the
total square of injuries was 30 % of body surface. The revision of the wounds
identified a laceration of gluteus maximus muscle. The laceration was covered
by frayed wide fascia of the right hip (Fig. 3). Also some muscle of the leg
and the hip were crushed. Such tissue injuries (necrobiosis) inevitably caused
the endogenic intoxication and development of purulent septic
complications.
Figure 1. A picture of the left lower extremity of the patient K., age of 55, on
15th day after the injury before revision of detached tissues. There are some
developing regions of necrosis of covering tissues of the left hip, gray
subcutaneous fat of the wound, of the knee and of the foot, with bleedings into
covering tissues proximal of the wound
Figure 2. A picture of the left foot of the patient K., age of 55, on 15th day
after the injury. There are some injured covering tissues. It is difficult to
estimate characteristics and severity of the injury due to a common surgical error.
The covering tissues around the wound are widely and densely colored with the brilliant
green, and it is difficult to estimate the features of skin surface (cyanosis,
necrosis, hyperemia)
Figure 3. A picture of the patient K., age of 55. Hip wound revision showed a
detachment of covering tissues between superficial femoral fascia and
subcutaneous fat, reaching the pubic symphysis and omphalus line
During surgery, the wide opening of
“the pockets” was done, and necrotic and ischemic tissues were incised. The
total square of incised covering tissues was 15 % of body surface. However, a
half of removed skin was prepared with Krasovitov’s technique and was arranged
for subsequent replantation (Fig. 4). The active drains were installed, and the
apposition sutures for fixation of flaps were applied. In the end of surgery,
the wounds were partially closed with layer-by-layer skin autografts. The
vacuum dressing VivanoMed with variable uncharging (Paul Hartmann AG; Paul-Hartmann-Str.12, 89522, Heidenheim, Germany; FSZ
2012/12770; the date of state registration of medical item: 20.08.2012;
validity of marketing authorization: permanently) was applied to the deep wound
of anterior surface of the right hip.
After surgery, the patient was
treated in ICU. The patient’s condition stabilized within three days. Dressings
and surgical preparation with general anesthesia, and general infusion and
antibacterial therapy were regular in the postsurgical period. The time course
of procalcitonin test shows the correction of systemic inflammatory response of
the body (the table).
Table. Time course of laboratory values of the patient K., age of 55
|
Values |
Date |
||||||||
|
17/04 |
23/04 |
27/04 |
03/05 |
06/05 |
08/05 |
12/05 |
18/05 |
20/05 |
|
|
Red blood cells, ×1012/L |
3.03 |
3.09 |
3.24 |
3.72 |
3.64 |
3.55 |
2.82 |
2.8 |
3.2 |
|
Leukocytes, ×109/L |
1.2 |
16.6 |
18.8 |
20.7 |
17.2 |
12.4 |
13 |
17.4 |
13.2 |
|
Lymphocytes |
35 |
32 |
24 |
18 |
18.2 |
14.2 |
9 |
13.2 |
11 |
|
Hemoglobin, g/L |
87 |
92 |
110 |
119 |
110 |
103 |
80 |
77 |
96 |
|
Hematocrit, % |
27.3 |
29.1 |
31.1 |
32.5 |
32.4 |
32.1 |
25.7 |
25.8 |
28.4 |
|
Platelets (109/l) |
434 |
462 |
453 |
194 |
204 |
225 |
415 |
516 |
562 |
|
Total protein, g/l |
67.2 |
65.5 |
61.4 |
50.2 |
51.6 |
63.2 |
60.2 |
61.0 |
65.2 |
|
Glucose, mmol/l |
6.9 |
6.7 |
7.8 |
8.2 |
7.1 |
6.6 |
6.9 |
6.8 |
6.5 |
|
Creatinine, mcmol/l |
45.4 |
48.0 |
52.0 |
74.4 |
71.3 |
70.7 |
70.0 |
66.0 |
47.0 |
|
Procalcitonin test, ng/ml |
- |
1.85 |
4.57 |
3.85 |
- |
- |
3.65 |
- |
0.18 |
|
Albumins, g/l |
- |
- |
- |
28 |
- |
- |
30.9 |
- |
32 |
|
Alanine aminotransferase, U/l |
105 |
289 |
144 |
134 |
38 |
- |
57 |
89 |
33 |
|
Aspartate aminotransferase, U/l |
114 |
203 |
121 |
158 |
42 |
- |
41 |
50 |
60 |
|
Total bilirubin, mcmol/l |
9.2 |
10.8 |
9.1 |
65.3 |
18 |
15.7 |
11.6 |
11.5 |
10.1 |
|
Direct bilirubin, mcmol/l |
7.1 |
8.9 |
6.5 |
28 |
- |
9.1 |
9.5 |
- |
7.8 |
Figure 4. A picture of the left lower extremity of the
patient K., age of 55, during surgery on 55th day after trauma
On May, 11, 21, 25, the stagednecrectomy and plasty for wounds of the left lower extremity with use of split skin grafts (Fig. 5) were conducted. On May, 22, 2015, the patient was extubated. On May, 25, 2012, she was transferred to the general room to continue drug therapy and dressings. Beginning from May, 28, 2012, the patient could stand up, with gradual increase in physical load. On May, 30, 2012, the patient was transferred from the surgical center to the rehabilitation unit. The period of treatment of acute trauma was 33 days.
Figure 5. The stage of reconstructive treatment of the
patient K., age of 55, 1 month after trauma
At the moment of discharge, the
favorable healing of all wounds was noted. Mosaic hypesthesia of the skin was
in regions of detachment. During rehabilitation period, the patient achieved
the ability of vertical position and walking.
After hospital discharge, the patient received the
rehabilitation course in outpatient conditions. She could walk independently
after two months from the injury. Two years later, she returned to her
professional activity as lecturer at physical culture department. Six years
after the injury, the control examination did not find any complains. There
were not any wounds and trophic ulcers. She engaged in sports activities. The footwear was usual
(Fig. 6).
Figure 6. The long term result of treatment of the patient
K., age of 55, after 6 years
CONCLUSION
The reviewed clinical case showed the following moments:
1. In absence of serious injuries to
internal organs, and in case of minimal skeletal injury at the background of
extensive detachment of soft tissues, a life-threatening state develops, which
requires for long term intensive care and urgent surgical interventions.
2. The early use of modern diagnostic
techniques (ultrasonic examination, contrast CT, MRI for the left lower
extremity, anterior abdominal wall and gluteal region) would allow earlier and
more precise diagnosing, determining the severity of tissue injuries and
selecting more correct surgical management).
3. Timely participation of the plasty surgeon is
required for confirmation of diagnosis, for arrangement of specialized medical
care for extensive detachment of covering tissues.
4. Preparation of skin with the brilliant green (or
with other coloring antiseptics) hinders the visual estimation of covering
tissues, and it should be excluded from the range of medical procedures.
5.
The initial organizational and tactical errors are common for medical care for
patients with such injuries. As result, it is necessary to conduct the great
informational and organizational activity for development and implementation of
the algorithm for management of patients with soft tissue detachment.
Information on financing and conflict of interests
The study was conducted without sponsorship. The authors declare the absence of any clear or potential conflicts of interest relating to publication of this article.
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