all-endoscopic management of benign bone lesions; …...original article all-endoscopic management...
TRANSCRIPT
SICOT-J 2018, 4, 50© The Authors, published by EDP Sciences, 2018https://doi.org/10.1051/sicotj/2018041
Available online at:www.sicot-j.org
ORIGINAL ARTICLE
All-endoscopic management of benign bone lesions; a case seriesof 26 cases with minimum of 2 years follow-upHazem A. Farouk*, Mostafa Saladin, Wessam Abu Senna, and Walid Ebeid
Orthopedics & Trauma Surgery Department, Faculty of Medicine, Cairo University, Cairo, Egypt
Received 21 April 2018, Accepted 10 August 2018, Pu
*Correspon
This is anO
blished online 22 November 2018
Abstract -- Purpose: Assessment of the functional and oncologic outcomes regarding endoscopic curettage ofdifferent benign bone tumor types within variable anatomic locations.Patients and methods: During the period between February 2012 and December 2016, 26 patients withsymptomatic intra-osseous benign bony lesions were included. The age ranged from 3 up to 49 years (mean 20),of 14 females and 12 males. The follow-up duration ranged from 26 up to 58 months (mean 41). Functionalscoringwas done according to the RevisedMusculoskeletal Tumour Society Rating Scale. Anatomic locations ofthe lesions included: 6 cases in the proximal tibia, 6 cases in the distal femur, 4 cases in the calcaneus, 3 cases inthe proximal humerus, 3 cases in the distal tibia, 2 cases in the talus, 1 case in the proximal femur, and 1 case inthe distal fibula. The procedure used 4mm 30° scope for endoscopy, and high speed burrs 3.5–5mm for extendedcurettage. Autogenous bone grafting was done in 5 cases, and adjuvantmaterial (polymethylmethacrylate) wasneeded in 7 cases.Results: After exclusion of one case that was lost in the follow-up, the remaining 25 cases showed fullfunctional recovery at a period of 8–12 weeks, and improved mean functional scores from 20.2 to 28.6/30 post-operatively, with p value <0.001 which was considered as a statistically significant result. The oncologicoutcome showed 24 cases with adequate healing, while 1 case developed recurrence (aneurysmal bone cyst inthe proximal tibia) for which, an open revision surgery was performed. Intra-operative fracture occurredin another case with aneurysmal bone cyst of the proximal femur, which was fixed by flexible nails withcomplete healing.Conclusion: Endoscopic curettage of different types of intra-osseous benign bony lesions proved to be aneffective treatment modality with promising oncologic outcome, improved functional scores, and fastfunctional recovery.
Key words: Bone tumors, Giant cell tumors, Bone cysts, Endoscopic curettage.
Introduction
Benign bone lesions are of various types and mayoccur in different parts of the skeleton. Some types ofbenign bone tumors are aggressive in behavior leading tobreak of their cortical shell and sometimes soft tissueinvolvement. Thus, management of benign bone tumorsdiffers according to the type and their behavior rangingfrom non-operative management with observation of thelesion, intra-lesional injection or curettage with orwithout grafting, or adjuvant therapy. Finally, marginalor even wide resectionmay be needed in aggressive lesionswith soft tissue involvement. All forms of treatment aimat pain relief, promotion of healing, and prevention ofadverse complications like recurrence and pathologicalfractures [1].
ding author: [email protected]
penAccess article distributed under the terms of the CreativeComwhich permits unrestricted use, distribution, and reproduction i
Open surgical procedures often cause intraoperativebleeding, prolonged hospitalization, and wound-relatedcomplications. So, percutaneous measures have beendeveloped to facilitate the surgery and decrease suchundesirable complications. However, these sacrifice thepotential advantages of direct exposure needed foradequate surgical management particularly in aggressivelesions with higher risk of recurrence [2–4]. That is why,the use of endoscopy inmanagement of these lesions wouldbe of tremendous help to avoid the problems of opensurgery yet, having the advantage of a more accurateassessment of the extent of the lesion with the adequacy ofthe curettage [5].
The great success of arthroscopic-assisted techniquesin management of benign synovial and juxta-articularbone lesions [6–9] aroused the motivation for thedevelopment of the new era of endoscopic-aided treatmentof benign bone tumors. Thus, we hypothesize that
monsAttribution License (http://creativecommons.org/licenses/by/4.0),n any medium, provided the original work is properly cited.
2 H.A. Farouk et al.: SICOT-J 2018, 4, 50
management of benign bone lesions using all endoscopictechnique could avoid morbidities associated with openprocedures as stated above, yet successfully and efficientlymanaging the lesions with comparable success rates toopen classic techniques. Therefore, the purpose of thisstudy is to evaluate functional and radiological outcomesafter all endoscopic treatment of different benign bonelesions.
Patients and methods
During the period between February 2012 andDecember 2016, 26 patients with benign bone lesionswere enrolled in a prospective case series study to assessthe efficacy of endoscopic curettage procedure. The ageranged from 3 up to 49 years with a mean of 18.4 years (SD11.45), for 14 females and 12 males, with a minimumfollow-up duration of 26 months and maximum of58 months with a mean of 41.1 months (SD 10.2). AllPatients with symptomatic benign bone lesions wereincluded in our study. Exclusion criteria included lesionswith extra osseous soft tissue extent, and lesions withprevious open surgical interventions.
Preoperatively, all patients were clinically and radio-logically evaluated and data were recorded. Functionalscoring was done according to the Revised Musculoskele-tal Tumour Society Rating Scale [10]. This score assessesthe pain, restriction to function, and level of satisfactionof the patient either in the upper or lower limbs. Specificassessment to either limbs is incorporated according tothe primary role of the limb (for example, gait, weightbearing and need for external support are items includedin assessment of the lower limb valuation while thehand position, ability to lift, and manual dexterity areincluded in upper limb assessment). Radiological evalua-tion was done using plain radiographs, while MRIevaluation was needed in cases with doubtful diagnosis.CT-guided core biopsy was required in 15 cases, in whichradiography was not conclusive for initial diagnosis.
All operative data were reported including themedications used, type of anesthesia, patient positioning,and the use of tourniquet. The surgical steps includedportals choice, the curettage procedure, and tissuematerial obtained for gross examination and histopatho-logical confirmation. The use of adjuvantmaterials, grafts,or implants. The need for blood transfusion or drains, theoperative time, and finally the overall duration of thehospital stay (Table 1).
The anatomic locations of the lesions included: 6 casesin the proximal tibia, 6 cases in the distal femur, 4 cases inthe calcaneus, 3 cases in the proximal humerus, 3 cases inthe distal tibia, 2 cases in the talus, 1 case in the proximalfemur, and 1 case in the distal fibula.
General anesthesia was performed in 11 cases whileregional anesthesia (spinal) was performed in 15 cases.Hypotensive measures were taken to minimize bleedingparticularly in cases where tourniquet application was notfeasible, also for better field visualization. The duration of
hospital stay was 3 days in 3 cases, 2 days in 7 cases, and1 day in 16 cases. The patient position varied according tothe anatomic location of the lesion, whether supine semi-sitting position in proximal humeral lesions. Supineposition with hip elevation in lesions of the proximalfemur, supine position with elevation and bending of theknee in lesions of the distal femur and proximal tibia,supine position with leg and ankle elevation in lesions ofthe distal tibia and fibula, and lateral position with healelevation in lesions of the calcaneus and talus.
Exsanguination and tourniquet application were cru-cial in our study in order to decrease the blood loss, andfor better clear operative field visualization. Tourniquetwas applied in 22 cases and not feasible in 3 cases in theproximal humerus and a case in the proximal femur.
Portals choice were dependent on the site of the lesionwithin the bone, the safe zones to avoid nearby neuro-vascular structures, and the feasibility of proper triangu-lation to ensure smooth easy movement of instrumentswithin the lesion for adequate visualization and propercurettage of tumor tissues.
Access into the lesions was done using blunt trocars(4mm in diameter) which were introduced either byT-handle or by pre-drilling the cortex with a 3.5mm drillbit. None of our lesions were small enough to necessitiesthe use of smaller sized trochars. This was followed bygross curettage using ordinary curved or straight curettes,together with punches and graspers of different sizes.Endoscopic visualization using 4mm 30° scope wasapplied. Motorized high speed burrs of different sizesranging from 3.5 to 5mmwere used for extended curettage(Figure 1).
Autogenous bone grafting was done in 5 cases. Whileadjuvant material (polymethylmethacrylate) was neededin 7 cases by injection through any of the portals.
The patients were followed up at 2 weeks for stitchesremoval, then at 6 and 12 weeks and every 3 monthsafterwards till the end of first year, then half yearlyafterwards. Functional evaluation using the same ratingscale was done; also the time of return to normal functionalactivities was reported. Also radiographic evaluation ofhealing or progression of lesions was done.
Results
The final functional scoring results according toRevised Musculoskeletal Society Rating Scale were score30 in 13 cases, score 29 in 3 cases, score 28 in 5 cases, score27 in 2 cases, score 26 in 1case, score 20 in 1 case, and 1 casewas lost follow-up with the mean score (28.6).
Statistical analysis of the functional scoring resultsafter excluding the missed follow-up case using pairedT-Test described in (Figure 2) as the following.
The pre-operative mean functional score was (20.2)with 1.89 standard deviation. The post-operative meanfunctional score was (28.6) with 2.25 standard deviationwith p value<0.001which was considered as a statisticallysignificant result.
Tab
le1.
Operative
details.
Case
Diagn
osis
Anesthesia
Position
Tou
rniquet
Pum
pPortals
Adjuv
ant
Grafts/Im
plan
ts&
Drain
Operative
time
Hospital
stay
1Giant
celltumou
rprox
imal
tibia
Spinal
Supine
withkn
eeelevation
andbend
ing
Yes
Yes
(80mmhg
)Antero-lateralpo
rtal
just
lateralto
thepa
tella
rtend
onnear
totheup
perendof
thelesion
Antero-medialpo
rtal
throug
hthemedialsurfaceof
the
lesion
near
toitslower
endusingim
ageintensifier
Hyd
rogenperoxide
Bon
ecement(P
MMA)
drain
120minutes
Three
days
2ABC
prox
imal
tibia
Spinal
Supine
withkn
eeelevation
andbend
ing
Yes
Yes
(80mmhg
)Antero-lateralpo
rtal
just
lateralto
thepa
tella
rtend
onnear
totheup
perendof
thelesion
Antero-medialpo
rtal
throug
hthemedialsurfaceof
the
lesion
near
toitslower
endusingim
ageintensifier
Hyd
rogenperoxide
Bon
ecement(P
MMA)
drain
120minutes
days
3Giant
celltumou
rdistal
femur
Spinal
Supine
withkn
eeelevation
andbend
ing
Yes
Yes
(80mmhg
)Opp
osingan
tero-m
edialan
dan
tero-lateral
portalson
both
sidesof
theup
perendof
thepa
tella
oneither
sides
ofthelesion
usingim
ageintensifier
Hyd
rogenperoxide
Bon
ecement(P
MMA)
Nodrain
90minutes
Three
days
4ABC
Calcaneus
Spinal
Lateral
withfoot
elevation
andsuspension
Yes
Yes
(60mmhg
)Twoop
posing
portalsat
both
medialan
dlateralsurfaces
ofthecalcan
eususingim
ageintensifier.
Hyd
rogenperoxide
Bon
ecement(P
MMA)
Nodrain
70minutes
One
day
5UBC
distal
femur
General
Supine
withthighelevation
andkn
eebend
ing
Yes
Yes
(100
mmhg
)Opp
osingan
tero-m
edialan
dan
tero-lateral
portalson
both
sidesof
theup
perendof
thepa
tella
oneither
sidesof
thelesion
usingim
ageintensifier.
No
30minutes
One
day
6Calcaneal
lipom
aSp
inal
Lateral
withfoot
elevation
andsuspension
Yes
Yes
(60mmhg
)Twoop
posing
portalsat
both
medialan
dlateral
surfaces
ofthecalcan
eususingim
ageintensifier.
Hyd
rogenperoxide
Bon
ecement(P
MMA)
Nodrain
45minutes
One
day
7Calcaneal
lipom
aSp
inal
Lateral
withfoot
elevation
andsuspension
Yes
Yes
(60mmhg
)Twoop
posing
portalsat
both
medialan
dlateral
surfaces
ofthecalcan
eususingim
ageintensifier.
Hyd
rogenperoxide
Bon
ecement(P
MMA)
Nodrain
40minutes
One
day
8UBC
distal
tibia
General
Supine
withlegelevation
Yes
Yes
(60mmhg
)Anteriorpo
rtal
throug
hthean
terior
aspect
ofthe
lesion
near
toitsup
perend
Postero-m
edialpo
rtal
atthepo
steriorbo
rder
ofmedial
surfaceof
thelesion
near
toitslower
endusingim
age
intensifier.
Drain
45minutes
One
day
9ABC
prox
imal
humerus
General
Hyp
otensive
measures
Supine
semisetting
No
Yes
(100
mmhg
)Twopo
rtalsthroug
hthean
terior
fibers
ofthedeltoid
just
lateralto
thelong
head
ofbiceps
atbo
thup
per
andlower
ends
ofthelesion
usingim
ageintensifier.
Drain
90minutes
Twoda
ys
10Cysticfibrou
sdy
splasia
prox
imal
tibia
Spinal
Supine
withlegelevation
andkn
eebend
ing
Yes
Yes
(60mmhg
)Antero-lateralpo
rtal
just
lateralto
thepa
tella
rtend
onnear
totheup
perendof
thelesion
Antero-medialpo
rtal
throug
hthemedialsurfaceof
the
lesion
near
toitslower
endusingim
ageintensifier.
Drain
30minutes
One
day
11Cho
ndroblastoma
prox
imal
tibia
Spinal
Supine
withkn
eebend
ing
andelevation
Yes
Yes
(80mmhg
)Anteriorpo
rtal
medialto
thepa
tella
rtend
onMedialpo
rtal
throug
hthemedialsurfaceof
thelesion
usingim
ageintensifier.
Hyd
rogenperoxide
Autogenou
siliac
bone
grafts
Nodrain
60minutes
Twoda
ys
12UBC
distal
femur
Spinal
Supine
withthighelevation
andkn
eebend
ing
Yes
Yes
(80mmhg
)Opp
osingan
tero-m
edialan
dan
tero-lateral
portalson
both
sidesof
theup
perendof
thepa
tella
oneither
sides
ofthelesion
usingim
ageintensifier.
Drain
30minutes
Twoda
ys
13UBC
distal
tibia
General
Supine
withlegelevation
Yes
Yes
(60mmhg
)Anteriorpo
rtal
throug
hthean
terior
aspect
ofthelesion
near
toitsup
perend
Postero-m
edialpo
rtal
atthepo
steriorbo
rder
ofmedial
surfaceof
thelesion
near
toitslower
endusingim
age
intensifier.
Drain
20minutes
Twoda
ys
H.A. Farouk et al.: SICOT-J 2018, 4, 50 3
Tab
le1.
(con
tinu
ed).
Case
Diagn
osis
Anesthesia
Position
Tou
rniquet
Pum
pPortals
Adjuv
ant
Grafts/Im
plan
ts&
Drain
Operative
time
Hospital
stay
14UBC
prox
imal
humerus
General
Hyp
otensive
measures
Supine
semisetting
No
Yes
(100
mmhg
)Twopo
rtalsthroug
hthean
terior
fibers
ofthe
deltoidjust
lateralto
thelong
head
ofbiceps
atbo
thup
peran
dlower
ends
ofthelesion
usingim
ageintensifier.
Drain
40minutes
Twoda
ys
15ABC
distal
tibia
General
Supine
withlegelevation
Yes
Yes
(60mmhg
)Antero-medialpo
rtal
throug
hthemedialsurfaceof
thelesion
Antero-lateralpo
rtal
throug
hthelateralsurfaceof
thelesion
usingim
ageintensifier.
Drain
30minutes
Twoda
ys
16ABC
prox
imal
tibia
General
Supine
withkn
eeelevation
Yes
Yes
(80mmhg
)Antero-medialpo
rtal
throug
hthemedialsurfaceof
thelesion
near
toitsup
perend
Antero-lateralpo
rtal
throug
hthelateralsurfaceof
thelesion
near
toitslower
endusingim
ageintensifier.
Abo
vekn
eecast
Nodrain
30minutes
One
day
17ABC
prox
imal
femur
General
Hyp
otensive
measures
Supine
withhipflexionan
dthighelevation
No
Yes
(100
mmhg
)Anteriorpo
rtal
throug
hthequ
adriceps
atthean
terior
border
ofthelesion
near
toitsup
perend.
Postero-lateral
portal
throug
hva
stus
lateralis
near
toitslower
endusingim
ageintensifier.
Twointra-medullary
flexible
nails
Nodrain
60minutes
Twoda
ys
18Lipom
ahead
oftalus
General
Supine
withfoot
elevation
yes
Yes
(60mmhg
)Antero-medialpo
rtal
ofthean
klejust
below
the
anterior
tipof
medialmalleolus
adjacent
tothetibialis
anterior
tend
onAntero-lateralpo
rtal
ofthean
kleat
sinu
starsian
terior
totheperoneal
tend
onsop
posing
totheotherpo
rtal
usingim
ageintensifier.
Autogenou
siliac
bone
grafts
Nodrain
45minutes
One
day
19ABC
distal
fibu
laSp
inal
Supine
withlegelevation
yes
Yes
(80mmhg
)Twopo
rtalsdirect
onthedistal
fibu
laOne
atthe
upperendof
lesion
adjacent
toitsan
terior
border
The
otheron
eat
thelower
endof
the
lesion
adjacent
toitspo
steriorbo
rder.
No
45minutes
One
day
20Calcaneal
lipom
aSp
inal
Lateral
withfoot
elevation
andsuspension
yes
Yes
(60mmhg
)Twoop
posing
portalsat
both
medialan
dlateral
surfaces
ofthecalcan
eususingim
ageintensifier.
No
15minutes
One
day
21Cho
ndroblastoma
distal
femur
Spinal
Supine
withkn
eeelevation
yes
Yes
(80mmhg
)Antero-medialpo
rtal
adjacent
tothemedial
border
ofthepa
tella
near
totheup
perendof
thelesion
.Postero-m
edialpo
rtal
adjacent
tothepo
sterior
aspect
ofthemedialfemoral
cond
ylenear
tothe
lower
endof
thelesion
usingim
ageintensifier.
Hyd
rogenperoxide
Autogenou
siliac
bone
grafts
Nodrain
60minutes
One
day
22Giant
celltumou
rdistal
femur
Spinal
Supine
withkn
eeelevation
yes
Yes
(80mmhg
)Antero-medialpo
rtal
adjacent
tothemedialbo
rder
ofthepa
tella
near
totheup
perendof
thelesion
.Postero-m
edialpo
rtal
adjacent
tothepo
sterior
aspect
ofthemedialfemoral
cond
ylenear
tothe
lower
endof
thelesion
usingim
ageintensifier.
Hyd
rogenperoxide
Bon
ecement(P
MMA)
Nodrain
60minutes
One
day
23UBC
prox
imal
humerus
General
Hyp
otensive
measures
Supine
Semisetting
No
Yes
(100
mmhg
)Twopo
rtalsthroug
hthean
terior
fibers
ofthe
deltoidjust
lateralto
thelong
head
ofbiceps
atbo
thup
peran
dlower
ends
ofthelesion
using
imageintensifier.
No
30minutes
One
day
24Non
ossifying
fibrom
aprox
imal
tibia
Spinal
Supine
withkn
eeelevation
yes
Yes
(60mmhg
)Twopo
rtalsdirect
onthemedialsurfaceof
prox
imal
tibial
metap
hysisat
both
upperan
dlower
ends
ofthe
lesion
usingim
ageintensifier.
No
30minutes
One
day
4 H.A. Farouk et al.: SICOT-J 2018, 4, 50
Tab
le1.
(con
tinu
ed).
Case
Diagn
osis
Anesthesia
Position
Tou
rniquet
Pum
pPortals
Adjuv
ant
Grafts/Im
plan
ts&
Drain
Operative
time
Hospital
stay
25ABC
Bod
yof
talus
Spinal
Supine
WithFootexternal
rotation
yes
Yes
(60mmhg
)Antero-medialto
thean
klejust
below
the
anterior
tipof
themedialmalleolus
adjacent
tothetibialis
anterior
tend
on.
Postro-medialto
thean
klejust
anterior
tothe
medialbo
rder
oftheAchilles
tend
onat
the
samelevelop
posite
totheotherpo
rtal.
Hyd
rogenperoxide
Autogenou
siliac
bone
grafts
Nodrain
45minutes
One
day
26Cho
ndroblastoma
Distalfemur
General
Supine
WithKneeelevation
yes
Yes
(60mmhg
)Sing
lepo
rtal
direct
onmedialfemoral
cond
yle
usingim
ageintensifier.
Ethan
olAutogenou
siliac
bone
GraftsNodrain
45minutes
One
day
UBC=un
icam
eral
bone
cyst,A
BC=an
eurysm
albo
necyst.
H.A. Farouk et al.: SICOT-J 2018, 4, 50 5
One case with calcaneal lipoma had been lost in thefollow-up, and the remaining 25 cases were followed up forthe time they return to full function which ranged from 8up to 12 weeks.
The radiological outcome of the lesions showed 24 caseswith adequate healing, while 1 case developed recurrence(ABC in theproximal tibia), and1 case (CalcanealLipoma)had lost follow-up (Figures 3–5).
The final post-operative histopathologic diagnosis wasas following: 8 cases of aneurysmal bone cyst, 6 cases ofunicameral bone cyst, 4 cases of intra-osseous lipoma,3 cases of giant cell tumour, 3 cases of chondroblastoma, acase of fibrous dysplasia, and finally a case of non-ossifyingfibroma (Table 2).
Complications in our study included one case of localrecurrence that was associated with lower limb varusmalalignment. Another complication encountered wasintra-operative fracture during the endoscopic procedurein one case. No reported scope related complicationsincluding: Portal track infection, fluid leakage withcompartment syndrome, and thromboembolic complica-tions. No reported neuro-vascular injury.
Local recurrence developed in 11 years old femalepatient with an expansile aneurysmal bone cyst in theproximal tibia (case 16). Endoscopic curettage withoutgrafting was carried out. Follow-up serial radiographsshowed proper healing and cortical thickening, soassisted weight bearing started at 8 weeks, and fullweight bearing at 10 weeks post-operatively. At a periodof 4 months she experienced gradual progressive painwhich was aggravated by weight bearing, and aconcomitant night pain. Also she developed an associatedlower limb varus malalignment. The follow-up plainradiograph showed lysis in previously healed areas withcortical expansion (signs of recurrence) as shownpreviously (Figure 5). Further MRI study and CT-guided core biopsy had confirmed the diagnosis ofrecurrence. Finally open extended curettage with iliaccrest grafting and internal fixation using plate and screwswas done (Figure 6). The revision surgery operative timewas 120 minutes, blood loss was around 1500mL where 2units of blood were given, and the overall duration ofhospital stay was 4 days.
Another case encountered an intra-operative fracturein 10 years old female patient with an aneurysmal bonecyst in the proximal femur (case 17). Endoscopic curettagewas carried out without grafting, together with intra-operative fixation of the fracture by intramedullaryflexible nails. Then she was splinted in hip spica cast for8 weeks till the start of healing and union. After which fullweight bearing was allowed at time of nails removal(12 weeks). Full bony union and complete healing of thelesion were achieved.
Discussion
This pilot study serves to throw more light on theresults of using endoscopy in different benign bone tumors.The question was could we do safe endoscopic treatment
Figure 1. Serial pictures of endoscopic curettage procedure of an ABC (case 7) showing: first pic (top left) the lesion from inside afteraccessing it through its bony cortex with a trocar. Another portal was created to introduce a 3.5 blade of a motorized shaver followedby a blunt curette (top right). The curettage procedure ends when a healthy bony walls of the lesion (bottom) is clearly visualized fromall angles.
Mean functional scores
0
7.5
15
22.5
30
Pre-operative Post-operative
Figure 2. A column chart demonstrating the statistical analysis of the functional scoring results.
6 H.A. Farouk et al.: SICOT-J 2018, 4, 50
for different benign bone lesion types in variableanatomical locations? Adequacy was assessed throughevaluating the oncological and functional outcome. Safetyof the procedure was assessed by evaluating the associatedcomplications. Most of the reported clinical trials in theliterature showed successful oncological results (Table 3).The only exception was Choi et al. [5] who reported 4 casesof recurrences (simple bone cyst, fibrous dysplasia,aneurysmal bone cyst, and osteoblastoma) out of 32 cases.
Endoscopic surgical treatment maintains the structuralintegrity and the periosteal sleeve of the affected bones,withminimal cortical breakdown by small sized portals, sofaster bone healing could be achieved. It has aminimal riskfor local soft tissue injury and hence faster healing andbetter functional recovery. None of the related clinicaltrials in the literature up to our knowledge used a scoringsystem for functional evaluation of their cases and did notmeasure the time needed for recovery. Moreover, in the
Figure 3. Serial plain radiographs (A) 11 years old patient withABC lesion in the proximal humerus (case 9), (B) 4 weeks follow-up after endoscopic curettage without grafting showed newbone formation, and (C) complete healing and remodeling after24 months.
Figure 4. Serial plain radiographs (A) 18 years old patient withGCT in the distal femur (case 3), (B) 30 months last follow-upafter endoscopic curettage and percutaneous bone cementapplication with no radiologic evidence of recurrence.
Figure 5. Serial radiographs of (A) 11 years old patient withABC in the proximal tibia (case 16), (B) 3 months follow-upshowed proper healing and cortical thickening, and (C) 5monthsfollow-up showed lysis in previously healed areas and boneexpansion (signs of recurrence).
Figure 6. (A) Plain radiograph showed varus mal-alignment ofrecurrentABC in the proximal tibia (case 16), (B) post-operativeradiograph after revision surgery, and (c) last follow-up radio-graph 32 months post-operative showed complete healing.
H.A. Farouk et al.: SICOT-J 2018, 4, 50 7
current study apart from the patient lost to follow up andthe patient who developed local recurrence, all patientsreached normal full functional activities at a period of8–12 weeks post-operatively.
To our knowledge this study is considered as thesecond largest clinical trial after Choi et al. [5] inendoscopic management of benign bone tumors; regardingthe number of cases included, and the variability of theanatomical locations and the pathological types of thetreated lesions. Also the current study would be consid-ered as the first clinical trial in endoscopic management ofgiant cell tumor of the bone (cases 1, 3, 22).
Complications in our study included 2 cases only;a case of local recurrence with lower limb varus
malalignment, and a case with intra-operative fracture.This is compared to Choi et al. [5] study which is the onlystudy to report complications.
Comparison of the study results to other reportedcommon clinical trials in the literature is described in(Table 3).
Our experience at the end of the study would suggestthat variable pathologic types of contained intraosseousbenign bone lesions within variable anatomical sitescould be managed safely and effectively by endoscopictechniques. However technical difficulties varied fromone lesion to another according to different variables.First, less visual field clarity was found with lesions of theproximal humerus (cases 9, 14, 23), and the proximal
Q2
Table 2. A comparison of different clinical trials to the current study.
Study Numberof cases
Anatomicalsites
Pathological types Functional result Oncologicalresult
Complications
Stricker1995 [11]
3 Femoral head Chondroblastoma Good Healed .........
Bonnel et al.1999 [12]
1 Calcaneus UBC Good Healed .........
Otsuka et al.2001 [13]
4 PatellaProximal humerusProximal tibiaCalcaneus
Atypical ABC noaneurysmaldilatation
Good Healed .........
Otsuka et al.2002 [14]
1 Calcaneus Chondroblastoma Good Healed .........
Dietz et al.2007 [15]
2 Hand Enchondroma Good Healed .........
Yildirim et al.2010 [16]
1 Calcaneus UBC Good Healed .........
Innami et al.2011 [17]
13 Calcaneus UBC Good Healed .........
Yildirim et al.2011 [18]
13 Calcaneus UBC Good Healed .........
Choi et al.2014 [5]
32 Not included 9 UBC6 Fibrous dysplasia5 Enchondroma4 NOF3 Bone infarcts1 ABC1 Chondroblastoma1 Osteoblastoma1 Lipoma1 Brodie abscess
Not included 21 Excellent6 Good1 Poor4 Recurrence
4 Recurrence1 Fracture1 Infection
Current study 26 6 Proximal tibia6 Distal femur4 Calcaneus3 Proximal humerus3 Distal tibia1 Proximal femur1 Fibula2 Talus
8 ABC6 UBC4 Lipoma3 GCT3 Chondroblastoma1 Fibrous dysplasia1 NOF
Except cases(7,16)All cases reachedfull recoverywithin 8 to 12 weeks
24 Healed
1 Recurrence
1 Lost follow-up
1 Recurrence andVarus lowerlimb deformity1 Fracture
1 Lost follow-up
UBC=unicameral bone cyst, ABC=aneurysmal bone cyst, NOF=non-ossifying fibroma, GCT=giant cell tumour, BFH=benignfibrous histocytosis.
8 H.A. Farouk et al.: SICOT-J 2018, 4, 50
femur (case 17). This was related to lack of tourniquetapplication, so we recommend hypotensive anesthesia,proper patient positioning, and using a pump system.Second, considerable difficulty in portals planning for theproximal femur lesion (case 17) was noted due to narrowsafe zone, which made the process of triangulation moredifficult. Thus, excessive manipulation (torsionalstresses) was necessary during surgery, which leaded toan intraoperative fracture. Third, endoscopic manage-ment would be considered as the option of choice inlesions of the distal tibia and the foot as they have poorsoft tissue envelope with more risk of open wound-relatedcomplications. Thus, it would be associated with lowermorbidity and better outcome. Fourth, benign bonelesions with solid components (such as giant cell tumorand chondroblastoma), and cystic lesions with abundanttissue and high vascularity (aneurysmal bone cyst) weremore technically demanding, regarding a longer
operative time needed for percutaneous gross tissueremoval. Lastly, no major variation was found regardingthe size of different bone lesions. However, massive lesionwould be expected to take longer operative time. Alsosmall-sized lesions would need an additional equipmentset (scopes 2.5 or even 1.9mm) to deal with properly.
The weaknesses of the current study include lack ofcomparison to other conventional operative techniquesdue to the attenuated sample size. Moreover, we could notcompare the results of endoscopic treatment of differenttypes of benign bone tumors as this would need larger-sized patient groups for each type. Lastly, we could claimthat the follow-up period was not long.
Our future recommendation is to use larger sample sizeand a longer follow-up period. Randomized control clinicaltrials are needed to compare the results of endoscopicsurgery to that of other conventional types of treatmentmodalities. Also more trials will be needed to compare the
Table 3. Summary of the study results.
Case Age,Sex
Core-biopsyresult
Definitive diagnosis Procedure Follow-upperiod
FunctionalscoringPre\Post
Radiologicresults
Complications
1 18F
ABC GCT of proximaltibia
Endo curettageand cement
58 months 2028
Healed .............
2 36F
ABC ABC of proximaltibia
Endo curettageand cement
58 months 1827
Healed .............
3 18F
GCT GCT of distalfemur
Endo curettageand cement
57 months 2028
Healed .............
4 21M
ABC ABC calcaneus Endo curettageand cement
54months 1828
Healed .............
5 6M
Inconclusive UBC distal femur Endo curettageNo graft
54 months 2230
Healed .............
6 45M
–––– Calcaneal lipoma Endo curettageand cement
52 months 2427
Healed –––––––-
7 37F
––––––- Calcaneal lipoma Endo curettageand cement
50 months 22–––-
Lost Lost follow-up
8 3F
Inconclusive UBC distal tibia Endo curettageNo graft, slab
49months 1930
Healed .............
9 11F
ABC ABC proximalhumerus
Endo curettageNo graft
49 months 2028
Healed .............
10 16M
––––- F.D proximal tibia Endo curettageNo graft
45 months 2230
Healed .............
11 19M
Chondroblastoma ChondroblastomaProximal tibia
Endo curettageand grafting
45 months 1930
Healed .............
12 23F
–––– UBC distal femur Endo curettageNo graft
39 months 2230
Healed .............
13 14F
––––- UBC distal tibia Endo curettageNo graft
36 months 2028
Healed .............
14 15M
–––– UBC proximalhumerus
Endo curettageNo graft
36 months 2230
Healed .............
15 9F
––––- ABC distal tibia Endo curettageNo graft
35 months 1930
Healed .............
16 11F
UBC ABC proximal tibia Endo curettageNo graft, slab
35 months 1620
Recurrent RecurrenceVarus deformity
17 10F
ABC ABC proximal femur Endo curettageNo graft, I.Mnails spica
35 months 1829
Healed Fracture
18 11M
Lipoma Lipoma head of talus Endo curettageand graft, slab
34 months 2230
Healed .............
19 43F
ABC ABC distal fibula Endo curettageNo graft
34 months 2029
Healed .............
20 49M
––––– Calcaneal lipoma Endo curettageNo graft
33 months 2226
Healed .............
21 19M
Chondroblastoma Chondroblastomadistal femur
Endo curettageand graft
32 months 2030
Healed .............
22 22F
GCT GCT distal femur Endo curettageand cement
32 months 1830
Healed .............
23 12F
–––––- UBC proximalhumerus
Endo curettageNo graft
32 months 2230
Healed .............
24 16M
NOF NOF proximal tibia Endo curettageNo graft
31 months 2030
Healed .............
25 23M
………………. ABC body Talus Endo curettageAnd graft
28 months 2229
Healed ……………
26 12M
…………… Chondroblastomadistal femur
Endo curettageAnd graft
26 months 2230
Healed …………...
M=male, F= female, Endo= endoscopic, I.M= intramedullary, F.D= fibrous dysplasia, UBC=unicameral bone cyst, ABC=aneurysmal bone cyst, NOF=non-ossifying fibroma, GCT=giant cell tumour.
H.A. Farouk et al.: SICOT-J 2018, 4, 50 9
10 H.A. Farouk et al.: SICOT-J 2018, 4, 50
effectiveness of endoscopic surgery within differentgroups of benign bone lesion types in variable anatomicallocations.
4
Conclusion
Endoscopic-assisted surgical technique proves to be aneffective method in management of symptomatic caseswith contained intra-osseous benign bony lesions ofdifferent pathologic types in different anatomic locations.Also as being a percutaneous minimally invasive tech-nique, it has the potential advantages of keeping thestructural integrity and the periosteal continuity of theaffected bone, with better healing potentials and fasterrecovery. Finally it provides proper direct exposure of theentire lesion with careful assessment of the adequacy ofcurettage, and thus, a lower risk of recurrence.
Conflict of interest
The authors declare that they have no conflicts ofinterest in relation to this article.
References
1. Steffner R (2014) Benign bone tumors. Cancer Treat Res162, 31–63.
2. Mik G, Arkader A,Manteghi A, Dormans JP (2009) Resultsof a minimally invasive technique for treatment ofunicameral bone cysts. Clin Orthop Relat Res 467(11),2949–2954.
3. Hou HY, Wang CT, Chang SM, Lin WH, Yang RS (2011)Treatment of unicameral bone cyst: surgical technique. JBone Joint Surg Am 93(Suppl 1), 92–9.
4. Glanzmann MC, Campos L (2007) Flexible intramedul-lary nailing for unicameral cysts in children’s longbones: level of evidence: lV, case series. J Child Orthop1(2), 97–100.
5. Choi Y, Kwak JM, Chung SH, Jung GH, Kim JD (2014)Tumor treated by endoscopy. Clin Orthop Surg 6(1),72–79.
6. Ogilvie-Harris DJ, Saleh K (1994) Generalized synovialchondromatosis of the knee: a comparison of removal of
the loose bodies alone with arthroscopic synovectomy.Arthroscopy 10(2), 166–170.
7. Lee JB, Kang C, Lee CH, Kim PS, Hwang DS (2012)Arthroscopic treatment of synovial chondromatosis of thehip. Am J Sports Med 40(6), 1412–1418.
8. Schmoyer S, Ciullo JV (2001) Arthroscopic resection ofan osteochondroma of the knee. Arthroscopy 17(7),765–767.
9. Chang BK, Ha YC, Lee YK, Hwang DS, Koo KH (2010)Arthroscopic excision of osteoid osteoma in the poster-oinferior portion of the acetabulum. Knee Surg SportsTraumatol Arthrosc 18(12), 1685–1687.
10. Enneking WF, Dunham W, Gebhardt MC, Malawar M,Pritchard DJ (1993) A system for the functional evaluationof reconstructive procedures after surgical treatment oftumors of the musculoskeletal system. Clin Orthop RelatRes (286), 241–246.
11. Stricker SJ (1995) Extraarticular endoscopic excision offemoral headchondroblastoma Q. J Pediatr Orthop 15(5),578–581.
12. Bonnel F, Canovas F, Faure P (1999) Treatment of a simplebone cyst of the calcaneus by endoscopic curettagewith cancellous bone injection. Acta Orthop Belg 65(4),528–531.
13. Otsuka T, Kobayashi M, Sekiya I, YonezawaM, KamiyamaF, Matsushita Y, Matsui N (2001) A new treatment ofaneurysmal bone cyst by endoscopic curettage without bonegrafting. Arthroscopy 17(7), E28.
14. Otsuka T, Kobayashi M, Yonezawa M, Kamiyama F,Matsushita Y Matsui N (2002) Treatment of chondroblas-toma of the calcaneus with a secondary aneurysmal bonecyst using endoscopic curettage without bone grafting.Arthroscopy 18(4), 430–435.
15. Dietz JF, Kachar SM, Nagle DJ (2007) Endoscopicallyassisted excision of digital enchondroma. Arthroscopy23(6), 678 e1–4.
16. YildirimC,MahirogullariM,KuskucuM,Akmaz I, KeklikciK (2010) Treatment of a unicameral bone cyst of calcaneuswith endoscopic curettage and percutaneous filling withcorticocancellous allograft. J Foot Ankle Surg 49(1),93–97.
17. Innami K, Takao M, Miyamoto W, Abe S, Nishi H,Matsushita T (2011) Endoscopic surgery for young athleteswith symptomatic unicameral bone cyst of the calcaneus.Am J Sports Med 39(3), 575–581.
18. Yildirim C, Akmaz I, S ahin O, Keklikci K (2011) Simplecalcaneal bone cysts: a pilot study comparing openversus endoscopic curettage and grafting. J Bone JointSurg Br 93(12), 1626–1631.
Cite this article as: FaroukHA, SaladinM, SennaWA,EbeidW (2018)All-endoscopicmanagement of benign bone lesions; a caseseries of 26 cases with minimum of 2 years follow-up. SICOT-J, 4, 50.