Department of Hand Surgery, Khoula Hospital, Muscat, Oman
*Corresponding Author’s e-mail: doctrahul@yahoo.co.in

إعادة زراعة تسعة أصابع يف مريض
تقرير حالة

ر�هول كري�صنارو باتيل، جوبال مالهوتر�، �رصينيفا�صان فينوغوبال، عماد �صالح، عبد �لفتاح رم�صان

abstract: Amputation of multiple fingers of both hands is a rare and serious injury. We report a case of a 41-year-
old male patient who presented to Khoula Hospital, Muscat, Oman, in 2015 with the amputation of nine fingers 
due to a workplace injury. With two teams working in tandem, all the amputated fingers were re-attached. A total 
of seven fingers survived and the patient regained reasonable functionality of his hands. To the best of the authors’ 
knowledge, this is the first case of several finger amputations in Oman.

Keywords: Fingers; Traumatic Amputation; Crush Injuries; Replantation; Case Report; Oman.

امللخ�ص: برت �الأ�صابع �ملتعددة بكلتا �ليدين هو �إ�صابة نادرة وخطرية. هذ� تقرير عن حالة مري�س يبلغ من �لعمر 41 عاًما قدم �إىل م�صت�صفى خولة، 
م�صقط، ُعمان، يف عام 2015 ببرت ت�صعة �أ�صابع ب�صبب �إ�صابة يف مكان �لعمل. قام فريقني من �جلر�حني يعملون جنبا �إىل جنب بعمل �إعادة ربط كل 
�الأ�صابع �ملبتورة. جنا ما جمموعه �صبعة �أ�صابع و��صتعاد �ملري�س عمل يديه �لوظيفي بدرجة مقبولة. ح�صب علم �ملوؤلفني، هذه هي �حلالة �الأوىل 

لبرت �الأ�صابع يف عمان.
الكلمات املفتاحية: �أ�صابع؛ برت نتيجة �أ�صابة؛ �إ�صابات �صحق؛ �إعادة زرع؛ تقرير حالة؛ عمان.

Replantation of Nine Fingers in a Patient
A case report

*Rahul K. Patil, Gopal Malhotra, Srinivasan Venugopal, Emad Salah, Abdelfattah Ramadan

Sultan Qaboos University Med J, August 2019, Vol. 19, Iss. 3, pp. e248–252, Epub. 5 Nov 19
Submitted 11 Feb 19
Revision Req. 16 Apr 19; Revision Recd. 29 May 19
Accepted 19 Jun 19

Case Report

A 41-year-old male patient presented to Khoula Hospital, 
Muscat, Oman, in 2015 with nine amputated fingers. 
While operating a paper cutting machine, eight of the 
patient’s fingers were amputated through the proximal 
phalanges, while the right thumb was amputated through 
the distal phalanx [Figure 1]. The parts were well preserved 
and were reasonably clean cut. The patient was haemody- 
namically unstable with a blood pressure of 90/60 mmHg, 
most likely due to bleeding from the amputation sites. 
Further assessment ruled out any associated injury. 

The bleeding was controlled with pressure dressing 
and hand elevation and the patient was adequately 
returned to a normal haemodynamic state. Appropriate 
consent was obtained once the patient was stabilised. 
The total ischaemia time when the patient was received 
at the hospital was approximately two hours and 30 
minutes. X-ray images of the hands with amputated 
parts are shown in Figure 2. The amputated parts 
were transferred to the operation theatre to facilitate 
exploration of the structures while the patient was 
being prepared for replantation surgery.

Two separate teams began microscopic dissection 
of the amputated fingers. The procedure involved debr- 
idement and exploration through mid-lateral incisions 
for identification of the tendons, nerves and vessels of 

Indications for replantation have evolved since the possibility of replantation of an amput- ated finger became a reality in the late nineteenth 
century.1 Thumb, distal digital amputations, amputations 
in children and proximal amputations such as through 
the hand and distal forearm are currently considered 
indications for replantation.2 In addition, multi-finger 
amputation is an indication for replantation, although 
the incidence of such injuries is relatively low.3 The 
overall function of the hand improves following replant- 
ation of these parts and outweighs the risk associated 
with the stiffness of the replanted parts.4 

Single finger amputations with crush or avulsion 
type injuries and amputations proximal to the insertion 
of the superficialis tendon are relative contraindications 
for replantation. These fingers are unlikely to function 
well following replantation and may compromise the 
overall hand function.3

Multi-finger replantation is challenging even for 
experienced microsurgeons. It is time consuming and 
involves extensive planning. The access incisions and 
sequence of repair of structures requires careful appraisal 
depending upon the ischaemia time. Amputation of nine 
fingers in a single patient is quite rare; we report the first 
case of a nine-finger replantation in Oman. The proc- 
edure and functional outcome is presented three years 
after the replantation surgery.

This work is licensed under a Creative Commons Attribution-NoDerivatives 4.0 International License.

https://doi.org/10.18295/squmj.2019.19.03.012

case report

https://creativecommons.org/licenses/by-nd/4.0/


Rahul K. Patil, Gopal Malhotra, Srinivasan Venugopal, Emad Salah and Abdelfattah Ramadan

Case Report | e249

the amputated parts. Adequate length of these structures 
was exposed for later repair and replantation. The bone 
of each amputated finger was prepared by passing 1.2 
mm Kirschner wires in a retrograde manner through 
the distal parts for later skeletal stabilisation. The 
patient was put under general anaesthesia and his 
hands were prepared for the procedure which was 
performed on both hands simultaneously. 

Through mid-lateral incisions on the radial and 
ulnar side of the stumps of each finger, the structures 
including bone, tendons, vessels and nerves were 
identified and prepared. Healthy vessels were found 
at the bases of all fingers distal to the bifurcation of 
common digital vessels. Proximal phalanges were 
adequately shortened in each of the finger stumps to 
achieve primary soft tissue closure without tension. 
The amputated fingers were then aligned with the 
stumps and the prefixed wires were driven into the 
proximal stumps to achieve skeletal stabilisation. The 
flexor digitorum profundus tendons in all fingers were 
repaired. Repair of the radial and ulnar digital nerves 
followed the tendon repair with 9-0 nylon sutures. 

After appropriate preparation, the radial and 
ulnar digital arteries for each finger were repaired. 
Following the repair of the arteries, 5,000 international 
units of intravenous heparin was administered and the 
arterial clamps were released. Extensor tendon repair 
was done on the dorsal aspect of the fingers and two 
dorsal subcutaneous veins were repaired for each of 
the involved fingers. The right thumb pulp was de-
fattened and replaced by a full thickness graft. After the 
initial two and a half hours to reach the hospital (cold 
ischaemia time), there was further delay of six hours 
(warm ischaemia time) until the arterial clamps were 
released. The entire procedure took approximately 14 
hours to complete.

The fingers perfused immediately following 
replantation. There was a significant amount of blood 
loss during the latter part of the operation, possibly 
due to the heparin injection given when the arterial 
clamps were released. The wounds continued to 
ooze postoperatively and the patient was monitored 
in the intensive care unit (ICU) for the following 
48 hours where he received a total of eight units of 
blood transfusion including the intraoperative and 
postoperative period. His coagulation parameters 
were monitored throughout this period. All the fingers 
were perfusing well until the fourth postoperative day, 
when the ring and little fingers on the right hand 
gradually became congested. By the time the patient 
had to leave the country, the perfusion of these two 
fingers was doubtful.

The patient was subsequently treated at a medical 
college hospital in India, where the little and ring 

 
Figure 1: Photograph of multiple finger amputations of 
a 41-year-old male patient following a workplace injury 
showing the amputations on the (A) left hand and (B) right 
hand. 

 
Figure 2: X-ray images of multi-finger amputations on the 
(A) left and (B) right hand of a 41-year-old male patient 
showing the levels of amputation through the proximal 
phalanges.

 
Figure 3: Photographs of both hands of a 41-year-old male 
patient showing (A) the palmar aspect and (B) the dorsal 
aspect three years after the replantation surgery. 



Replantation of Nine Fingers in a Patient 
A case report

e250 | SQU Medical Journal, August 2019, Volume 19, Issue 3

fingers of the right hand were terminalised. The left 
index finger developed a similar congestion followed 
by skin loss over the volar aspect of the middle 
phalanx. However, debridement and skin grafts were 
done to cover the exposed area.

Follow-up was done with the same institute in 
India and all his wounds have healed well [Figure 3]. 
He had reasonable functionality of his hands and was 
able to manage daily tasks [Figure 4]. Additionally, he 
began working four months following the replantation 
procedure and was engaged in a meaningful job and 
was able to support himself and his family during 
the writing of this report. Three years following the 
surgery, he was satisfied with the outcome of the 
procedure. His activities of daily living (ADL) score 
was 6/6 and instrumental ADL score was 8/8. Overall, 
he was able to perform all activities reasonably well, 
with an average total active motion (TAM) for the 
replanted fingers of approximately 120 degrees. He 
has good protective sensations with an average static 2 
point discrimination of 8–9 mm at the fingertips. His 
range of movement can be improved by tenolysis and 
arthrolysis, as was suggested to him from time to time. 
However, the patient refused further interventions 
as he was the sole source of financial support for his 
family.

Discussion

The field of microsurgery and replantation has been 
expanding in recent years. With advances in magnif- 
ication, instrumentation, sutures and growing experience, 
more distal amputations are being attempted. While 
the replantation success rates are improving in some 
regions, trends in the USA suggest otherwise.6–8 There 
has been a steady decline in replantation attempts due 
to the fact that fingertip amputations are no longer 
considered indications for replantation at many 
centres.8 Although, some Asian studies have reported 
excellent results following replantation for zone 1 
amputations, the technical and decision-making aspects 

of finger replantation are still being discussed.8–12 
Bilateral multi-finger amputations are fortunately rare 
and only a few cases have been reported.13–15

Ischaemia time is a major concern when dealing 
with cases of multi-finger amputation.16 There should 
be good communication between the referring team 
and the receiving team with an emphasis on appropriate 
preservation of amputated parts, resuscitation of the 
patient and immediate transfer, which at times may 
require transport by air. The initial assessment at 
the receiving centre should be completed by the 
most experienced team member and should include 
assessment of the tissue injury both clinically and 
radiologically. The parts that are functionally important 
such as the thumb or those that have the best chance 
of recovery (i.e. minimally crushed fingers and injuries 
away from joints) should be given priority. If a digit 
that has a vital function (such as the thumb) is severely 
damaged, the team should consider replacing it with 
one of the available amputated fingers with minimal 
trauma.2,17,18 

There are two ways to approach a multi-finger 
replantation where the fingers have been amputated 
at a similar level and have a similar amount of tissue 
damage, as is in the present case. First, a “digit by digit” 
replantation approach can be taken where each finger 
is reattached one at a time. This approach saves some 
critical ischaemia time and possibly avoids some blood 
loss; however, a negative aspect of this approach is 
that the repaired finger is handled and manipulated 
repeatedly. Surgeons using this approach must decide 
the sequence as per the functional importance of a 
digit and the extent of damage.

Second, a “structure by structure” approach can 
be used where the surgeon stabilises all fingers followed 
by repairing the flexor tendons, nerves and then the 
arteries. Following repair of the volar structures, the 
hand is turned and the dorsal structures such as the 
vein and extensor tendons are repaired. This method 
saves time and avoids manipulation of the digits after 
replantation, however, it increases ischaemia time as 

 
Figure 4: Photographs of both hands of a 41-year-old male patient three years after the replantation surgery showing the 
functionality of his hands. 



Rahul K. Patil, Gopal Malhotra, Srinivasan Venugopal, Emad Salah and Abdelfattah Ramadan

Case Report | e251

all fingers are exposed to warm ischaemia until the 
revascularisation is complete; there is also the possib- 
ility of increased blood loss.1,19

Bilateral multi-finger amputation is a rare injury 
and fortunately adequate resources were available for 
a simultaneous bilateral surgery. In the current case, 
a “structure by structure” method was chosen as the 
patient presented soon after the injury. However, the 
patient had a significant amount of blood loss which 
could have been prevented by replanting fewer digits at 
functionally important positions as a ‘damage control 
measure’; this would have also reduced the total surgical 
time. Repairing veins before arteries also could have 
reduced the blood loss that later resulted in haemo- 
dynamic instability and an ICU stay. 

The patient’s bleeding tendency was possibly 
multifactorial as it may have been caused by the 
multiple wounds, hypothermia and the lengthy surgery 
along with multiple blood transfusions. The decline 
in the perfusion of the fingers, after the fourth post- 
operative day, may have been due to the patient’s 
coagulation abnormalities and frequent manipulations 
to change the soaked dressings which may have 
contributed to the delayed blockage of veins causing 
congestion and non-survival of two fingers on the 
right hand.

The functional outcome should be the main 
criteria for assessing the results of a replantation, 
not the survival of the fingers. Although the current 
patient returned to almost normal activity levels and 
was satisfied with the outcome, the range of motion at 
the interphalangeal (IP) joints was restricted (average 
TAM: 120 degrees). The axial Kirschner wires immob- 
ilising the IP joints, which was used to achieve quick and 
stable fixation, may have contributed to the stiffness. 
Additionally, the patient’s inability to attend the physio- 
therapy clinics and unwillingness for further inter- 
ventions are also possible causes of residual stiffness. 

While attempting salvage procedures following 
such injuries, patients’ expectations should be ascert- 
ained. The possible functional outcome and the time-
frame for recovery should be clearly discussed with 
the patient. In addition, it is essential that an informed 
consent be obtained before proceeding with any proc- 
edure to avoid any liability.19

Conclusion

Multi-finger amputation is an important indication for 
replantation as salvaged fingers can contribute towards 
improving the overall hand function. Close observ- 
ation of patients’ vitals and coagulation parameters is 

important during the intra- and postoperative periods. 
Multiple teams of trained surgeons with experience in 
digital level replantation should be available to help 
overcome fatigue and improve overall efficiency and 
success of the procedure, which would ultimately 
improve the outcome for the patient.

a c k n o w l e d g e m e n t

The authors would like to acknowledge Dr J. Satish 
Kumar, Senior Consultant at the Sri Ramachandra 
Medical College, Chennai, India, for following-up 
the patient, recording the necessary clinical data and 
providing his feedback.

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