Document Type : Original Article
Authors
1 Plastic & Reconstructive surgery, faculty of medicine for girls, Al-Azhar university.
2 Plastic & Reconstructive surgery, faculty of medicine for girls, Al-azhar university.
3 Plastic & Reconstructive surgery department, faculty of medicine for girls, Al-azhar university
4 Plastic & Reconstructive surgery, faculty of medicine for girls, Al-azhar university.
Abstract
Keywords
INTRODUCTION
One of thecommon problems in flap surgery is venous congestion. The literature contains a plethora of alternative procedures to surgical revision for dealing with this issue. Leech therapy is one of these procedures. When all other options for venous outflow establishment have been exhausted, this treatment should be used as a last resort whether the venous compromise was due to mechanical or iatrogenic causes. Leeches are parasitic invertebrates that live in fresh water and are members of the phylum Annelida.1 The Food and Drug Administration (FDA) approved leeches as a medical tool in the field of plastic and reconstructive surgery in July 2004 for assisting venous drainage of congested tissues like flaps.8 There are over 100 bioactive substances in the saliva of the Hirudo Medicinalis leech, including coagulation inhibitors, platelet aggregation inhibitors, vasodilators, anaesthetizing agents, antimicrobial agents, and anti-inflammatory agents. Hirudin is the most important ingredient which is a highly effective anti-coagulant compound.6As a result of the fact that the tyrosine residue of hirudin is not sulfated, it is the most potent naturally occurring specific inhibitor of thrombin available. Therefore, hirudin is more efficient than heparin.9
The aim of this study is to spotlight on the efficacy of leech therapy in salvage of venous congested flaps.
PATIENTS AND METHODS
A prospective clinical study was carried out on 20 patients with post-operative venous congested fascio-cutaneous flaps, treated by leech therapy at Al-Zahraa University Hospital and Al- Mataria Teaching Hospital during the period between May 2020 and April 2021.
Inclusion Criteria: All patients with venous congested flaps regardless their age or gender.
Exclusion Criteria: Patients with blood coagulopathy or receiving anticoagulant, anemia, hypotension, immunosuppressed patients and Patients refusing leech therapy.
Ethical consideration: An informed consent was taken from all patients who agreed to participate in this study after explanation the details of the procedure.
Methods: All the participants were subjected to the following:
Full history taking including time of the previous operation &duration of flap venous congestion. Full clinical examination generally & locally. Hematological evaluation: CBC and Partial Thromboplastin time were performed every 4 hours.
N.B: Patients receives blood transfusion when their Hb level is lower than 8 g/dl.
Flap monitoring was done before and after each treatment session clinically and with medical photography.
All patients received prophylactic antibiotic (levofloxacin) for the aeromonas hydrophila bacteria, which are symbionts of leeches to avoid any complications.
Before application, leeches were thoroughly rinsed with deionized water and the congested areas were cleaned with sterile distilled water and cleaned from any antiseptic or antibiotic cream.
A plastic adhesive membrane or a thick layer of gauze was applied around the leech(es) to prevent detached leeches from attaching themselves to other areas as under the flap, fall inside the dressing or on the bed.
The flap was then pricked with a needle and the leech was applied with their mouth opening directed to the congested area. The duration of each leech therapy session was recorded and sessions were repeated every 4 hours (Fig. 1-2-3).
Fig. 1: Congested posterior interosseous atery flap just before initiation of leech therapy.
Fig. 2: The pricked congested posterior interosseous artery flap with Hirudo Medicinalis just applied.
Fig. 3: The congested posterior interosseous artery flap during the leech therapy session showing Hirudo Medicinalis swelling up after the blood meal.
The decision to discontinue the leeches was made according to the clinical response for the treatment (Fig.4-5-6-7).
Fig. 4: The posterior interosseous artery flap at the 2nd day of leech therapy showing less congestion with less violaceos color.
Fig. 5: The posterior interosseous artery flap at the 3rd day of leech therapy showing less congestion with less violaceous color and brighter blood from the pricks.
Fig. 6: The posterior interosseous artery flap at the 4th day of leech therapy showing less congestion with less violaceous color and brighter blood from the pricks.
Fig. 7: The posterior interosseous artery flap after the end of leech therapy sessions with almost normal capillary refill time.
Finally, the used leeches were sacrificed after each session in ethanol solution and should not be stored with unused ones to prevent cross-contamination.
Duration and percentage of flap congestion before the start of leech therapy.
Number of leeches used in each session, frequency of sessions and total duration of leech therapy. The final outcome was estimated by the percentage of flap survival through the color of the flap and capillary refill.
RESULTS
This prospective clinical study was conducted on 20 patients (16 males (80%) and 4 females (20%) treated by leech therapy at Al-Zahraa University Hospital and Al-Mataria Teaching Hospital. Their ages ranged between 10 and 50 years with a mean of 30.9 ± 11.7 years.
As regard the starting time for leech therapy after flap congestion, it was in the 1st day of congestion in 9 patients (45%), in the 2nd day of congestion in 9 patients (45%) and in the 3rd day of congestion in 2 patients (10%) with a mean of (1.65 day) as shown in table (1).
|
|
Studied patients (N = 20) |
||
|
The starting day for leech therapy after flap congestion (mean 1.65 day). |
1st day of congestion |
9 |
45% |
|
2nd day of congestion |
9 |
45% |
|
|
3rd day of congestion |
2 |
10% |
|
Table 1: The starting day for leech therapy in all studied patients.
For the Number of leeches used in each session, 1 leech was used in 8 patients (40%), 2 leeches were used in 8 patients (40%) and 3 leeches were used in 4 patients (20%) with a mean of 1.8 leech per session as shown in table (2).
|
|
Studied patients (N = 20) |
||
|
Number of leeches used in each session (mean 1.8 leeches/session). |
1 leech |
8 |
40% |
|
2 leeches |
8 |
40% |
|
|
3 leeches |
4 |
20% |
|
Table 2: Number of leeches used in each session for all studied patients.
Regarding the duration of each leech therapy session, it was ranged from 30 to 60 minutes with a mean of 45 minutes and sessions were repeated every 4 hours. The passive oozing of blood through bite wounds after leech removal was ranger between 30 to 60 ml blood (mean 40 ml.).
As regard the total period of leech therapy in our study, Leech therapy was used for 3 days in 1 patient (5%), 4 days in 1 patient (5%) and 5 days in 18 patients (90%) with a mean of (4.85 days) as shown in table (3).
|
|
Studied patients (N = 20) |
||
|
Total period of leech therapy (mean 4.85 days). |
3 days |
1 |
5% |
|
4 days |
1 |
5% |
|
|
5 days |
18 |
90% |
|
Table 3: Total period of leech therapy in all studied patients .
Regarding the final outcome of congested flaps after leech therapy in all studied patients, it was 100% survival in 7 patients (35%), 95% survival in 1 patient (5%), 90% survival in 5 patients (25%), 80% survival in 4 patients (20%), 70% survival in 2 patients (10%) and 60% survival in 1 patient (5%) with a mean survival rate (88.25%) as shown in table (4).
|
|
Studied patients (N = 20) |
||
|
The final outcome (mean survival rate 88.25%). |
100% survival |
7 |
35% |
|
95% survival |
1 |
5% |
|
|
90% survival |
5 |
25% |
|
|
80% survival |
4 |
20% |
|
|
70% survival |
2 |
10% |
|
|
60% survival |
1 |
5% |
|
Table 4: The final outcome in all studied cases.
There were no cases under the study showed no response to leech therapy. At least 60% to 100% improvement in congestion and subsequently the mean flap survival rate was 88.25%.
The results of leech therapy in dealing with congested flaps are presented in figures (8-9-10-11).
Before After
Fig. 8: Female patient 30 years old with 100% congested Rt supraclavicular artery perforator flap one day after surgery (before). After leech therapy, there is 100% survival of the flap.
Before After
Fig. 9: Male patient 40 years old with congested posterior interosseus artery flap (before). After leech therapy, there is 60% survival of the flap.
Before After
Fig. 10: Male patient 25 years old with pre-expanded 100% congested forehead flap (before). After leech therapy, there is 100% of congestion relief and total flap survival.
Before After
Fig. 11: Male patient 32 years old with 30% congested reversed sural artery flap . After leech therapy, there is 80% survival of the flap.
DISCUSSION
Flap venous congestion can be distinguished by the dusky purple color of the flap tissues. For example, medicinal leeches are applied to congested flaps where surgical microvascular revision has failed in order to treat this condition and temporarily restore blood perfusion within the flap for a limited time period.2
Leech therapy works by simultaneously lowering tissue capillary pressure and increasing local anticoagulation via three distinct mechanisms: active suction, secretion of vasoactive substances such as hirudin, and passive blood oozing through bite wounds following leech removal.5
Within 30 to 90 minutes, each applied leech can expect to consume 5 to 15 mL of blood during a feeding session, and each wound can be expected to ooze extra 50 to 150 mL of blood over the course of a 24-hour period.10-11In our study, the passive oozing of blood through bite wounds after leech removal was ranged between 30 to 60 ml (mean 40 ml.) and the duration of each leech therapy session was ranged from 30 to 60 minutes with a mean of 45 minutes.
As regards the starting day, number of leeches used in each session and total sessions of leech, in our study, leech therapy was started in an average of 1.65 days following surgical interventions or trauma. In average, 1.8 leeches were applied to the congested flap with a mean of 7 treatment sessions per patient. The total survival rate was 88.25% and this corelates with the controlled study done by Riede et al.7 on 23 patients with congested skin flaps and hematomas. Following surgical interventions, leech therapy was initiated on average 2.6 days after the procedure. It was found that on average, 2.6 leeches were applied to patients' wounds, and that each patient received an average of 1.7 treatment sessions. According to the authors, 87 percent of these patients (20/23) had restitution and integration of their skin flaps after undergoing the procedure. After an average of 1.1 days, clinical improvement could be observed.
Regarding the efficacy of leech therapy in dealing with congested flaps, in our study, there is high rate of success in relieving congestion and flap survival. The mean survival rate was 88.25% in the 20 cases under the study, while Cornejo et al.4 showed a slightly lower rate of salvage (about 60.9%), considering success as there was no flap loss or partial flap loss requiring further reconstructive procedures. On the other hand, Whitaker et al.12 showed that medical leeches salvaged the reconstructed congested flaps in 216 of the 279 cases (77.4%) and in congested free flaps, it salvaged 61 of 74 cases (82.4%).
Regarding the need for blood transfusion during leech therapy, in our study, there was no need for blood transfusion as the lowest hemoglobin level was 9.2 g., while Chepeha et al.3transfused blood to 6 out of 108 cases treated with leech therapy.
CONCLUSION
The use of leech therapy has proved its efficacy in significantly relieving flap venous congestion and subsequently increases flap survival rate. Leech therapy should be started as early as possible after other means of venous outflow establishment are exhausted. Guidelines should be strictly fulfilled to avoid biohazards of leech therapy.
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