Conflict of Interest Declaration
The ILCOR Continuous Evidence Evaluation process is guided by a rigorous ILCOR Conflict of Interest policy. There were no declared conflicts of interest
Task Force Scoping Review Citation
Charlton NP, Goolsby C, Singletary EM, Zideman DA, on behalf of the International Liaison Committee on Resuscitation First Aid Task Force. Pediatric Tourniquet Designs for Life-threatening Extremity Hemorrhage Scoping Review and Task Force Insights [Internet] Brussels, Belgium: International Liaison Committee on Resuscitation (ILCOR) First Aid Task Force, December 27, 2019. Available from: http://ilcor.org
Methodological Preamble and Link to Published Scoping Review
Trauma is a major cause of morbidity and mortality throughout the world and, in the United States, is a leading cause of mortality from accidental injury for those age 1-17. As pediatric limb circumferences can be much smaller than those of adults, current tourniquet styles that were traditionally designed for military use, and consequently primarily for individuals ≥ 18 years of age, may not apply adequate circumferential pressure to halt distal blood flow in pediatric individuals. While tourniquets have gained wide-spread acceptance in the pre-hospital setting for life-threatening bleeding in adults, little data is available to guide the use of tourniquets in pediatrics. Although the principles of bleeding control remain the same in both adult and pediatric subjects, body size may limit the use of tourniquets in smaller limb circumferences. For instance, some tourniquets employ a rigid mechanical advantage system (e.g. windlass or ratchet) that precludes the ability to fit limb circumferences that are smaller than that of the mechanism. As tourniquets rely on the ability to tighten sufficiently to occlude distal blood flow, these circumference limitations may prevent successful use of certain tourniquets on the smaller limbs of pediatric subjects.
This scoping review aims to evaluate what literature is available regarding the use of tourniquets in the pediatric population for life threatening extremity hemorrhage. No prior scoping or systematic review has been published on this topic.
Scoping Review
Webmaster to insert the Scoping Review citation and link to PubMed using this format when/if it is available.
PICOST
PICOST | Description (with recommended text) |
Population | In children (<19 years of age) with severe, life-threatening bleeding from an extremity wound |
Intervention | commercial elastic wrap tourniquet or commercial ratcheting tourniquet |
Comparison | commercial windlass-type tourniquet |
Outcomes | Any clinical outcome. |
Study Design | Randomized controlled trials (RCTs) and non-randomized studies (non-randomized controlled trials, interrupted time series, controlled before-and-after studies, cohort studies) are eligible for inclusion. Case series and case reports will also be considered for inclusion, in addition to unpublished studies and reporting (e.g., conference abstracts, trial protocols, technical reports, incident reports, medical examiner and coroners’ reports). As it is anticipated that there will be insufficient studies from which to draw a conclusion, the minimum number of cases for a case series to be included has been reduced for the default of 5 to 1 by the TFSR team. |
Timeframe | New Scoping or Systematic Review search strategy: All years and all languages are included as long as there is an English abstract |
Search Strategies
(See Figure 1)
A special Ovid search filter for ‘Children’ (broad) has been applied to the search. In full, it is:
exp adolescent/ or exp child/ or exp infant/ or (infant disease* or childhood disease*).ti,ab,kf. or (adolescen* or babies or baby or boy? or boyfriend or boyhood or girlfriend or girlhood or child* or girl? or infan* or juvenil* or kid? or minors or minors* or neonat* or neo-nat* or newborn* or new-born* or paediatric* or peadiatric* or pediatric* or perinat* or preschool* or puber* or pubescen* or school* or teen* or toddler? or underage? or under-age? or youth*).ti,ab,kf. or (pediatric* or paediatric* or infan* or child* or adolescen* or young).jn,jw or (pediatric* or paediatric* or infan* or child* or adolescen* or young).in
Databases Searched | Date of Search | Number of Results |
All Ovid Medline <1946 - present> | September 12, 2019 | 352 |
EBM Reviews - Cochrane Database of Systematic Reviews <2005 to September 11, 2019>, EBM Reviews - ACP Journal Club <1991 to August 2019>, EBM Reviews - Database of Abstracts of Reviews of Effects <1st Quarter 2016>, EBM Reviews - Cochrane Clinical Answers <August 2019>, EBM Reviews - Cochrane Central Register of Controlled Trials <August 2019>, EBM Reviews - Cochrane Methodology Register <3rd Quarter 2012>, EBM Reviews - Health Technology Assessment <4th Quarter 2016>, EBM Reviews - NHS Economic Evaluation Database <1st Quarter 2016> | September 12, 2019 | 187 |
Embase Classic+Embase <1947 to 2019 September 11> | September 12, 2019 | 365 |
Total | 904 | |
Total (After deduplication) | 713 |
Medline
1 exp Emergency Medical Services/ (132433)
2 Emergency Treatment/ (10388)
3 Emergencies/ (39415)
4 "Wounds and Injuries"/ (74755)
5 Amputation, Traumatic/ (4654)
6 Wounds, Penetrating/ (11447)
7 Wounds, Gunshot/ (14954)
8 Wounds, Stab/ (4353)
9 exp Arm Injuries/ (30071)
10 exp Leg Injuries/ (93066)
11 Hemorrhage/ (70599)
12 Exsanguination/ (334)
13 Shock, Hemorrhagic/ (11242)
14 (emergency or emergencies).tw,kf. (252303)
15 trauma*.tw,kf. (348234)
16 (wound or wounds).tw,kf. (201030)
17 (injury or injuries).tw,kf. (744340)
18 h?emorrhag*.tw,kf. (254548)
19 exsanguinat*.tw,kf. (2928)
20 bleed*.tw,kf. (198402)
21 blood loss*.tw,kf. (49530)
22 amputat*.tw,kf. (40133)
23 gunshot*.tw,kf. (9005)
24 1 or 2 or 3 or 4 or 5 or 6 or 7 or 8 or 9 or 10 or 11 or 12 or 13 or 14 or 15 or 16 or 17 or 18 or 19 or 20 or 21 or 22 or 23 (1881858)
25 Tourniquets/ (3729)
26 tourniquet*.tw,kf. (6119)
27 25 or 26 (7119)
28 24 and 27 (2918)
29 limit 28 to children (466)
30 limit 29 to yr="1966 -Current" (464)
31 hair.tw,kf. (68374)
32 30 not 31 (416)
33 Snake Bites/ (4458)
34 32 not 33 (391)
35 hypospadias.tw,kf. (5939)
36 34 not 35 (388)
37 arthroscop*.tw,kf. (29517)
38 36 not 37 (352)
All EBM Reviews (Cochrane)
1 exp Emergency Medical Services/ (3916)
2 Emergency Treatment/ (277)
3 Emergencies/ (1174)
4 "Wounds and Injuries"/ (2723)
5 Amputation, Traumatic/ (48)
6 Wounds, Penetrating/ (182)
7 Wounds, Gunshot/ (50)
8 Wounds, Stab/ (25)
9 exp Arm Injuries/ (1381)
10 exp Leg Injuries/ (3767)
11 Hemorrhage/ (3524)
12 Exsanguination/ (17)
13 Shock, Hemorrhagic/ (93)
14 (emergency or emergencies).ti,ab,hw. (25236)
15 trauma*.ti,ab,hw. (23975)
16 (wound or wounds).ti,ab,hw. (28392)
17 (injury or injuries).ti,ab,hw. (53976)
18 h?emorrhag*.ti,ab,hw. (32214)
19 exsanguinat*.ti,ab,hw. (130)
20 bleed*.ti,ab,hw. (42747)
21 blood loss*.ti,ab,hw. (12635)
22 amputat*.ti,ab,hw. (2801)
23 gunshot*.ti,ab,hw. (135)
24 1 or 2 or 3 or 4 or 5 or 6 or 7 or 8 or 9 or 10 or 11 or 12 or 13 or 14 or 15 or 16 or 17 or 18 or 19 or 20 or 21 or 22 or 23 (172265)
25 Tourniquets/ (490)
26 tourniquet*.ti,ab,hw. (1854)
27 25 or 26 (1854)
28 24 and 27 (783)
29 exp adolescent/ (102625)
30 exp child/ (55074)
31 exp infant/ (31466)
32 (infant disease* or childhood disease*).ti,ab,hw. (1480)
33 (adolescen* or babies or baby or boy? or boyfriend or boyhood or girlfriend or girlhood or child* or girl? or infan* or juvenil* or kid? or minors or minors* or neonat* or neo-nat* or newborn* or new-born* or paediatric* or peadiatric* or pediatric* or perinat* or preschool* or puber* or pubescen* or school* or teen* or toddler? or underage? or under-age? or youth*).ti,ab,kf. or (pediatric* or paediatric* or infan* or child* or adolescen* or young).jn,jw. (467677)
34 (pediatric* or paediatric* or infan* or child* or adolescen* or young).in. (34983)
35 29 or 30 or 31 or 32 or 33 or 34 (536747)
36 24 and 27 and 35 (211)
37 limit 36 to yr="1966 -Current" [Limit not valid in DARE; records were retained] (210)
38 hair.ti,ab,hw. (3270)
39 37 not 38 (210)
40 Snake Bites/ (76)
41 39 not 40 (210)
42 hypospadias.ti,ab,hw. (324)
43 41 not 42 (208)
44 arthroscop*.ti,ab,hw. (4386)
45 43 not 44 (187)
Embase
1 emergency health service/ (94885)
2 emergency treatment/ (17282)
3 emergency/ (59915)
4 injury/ (378899)
5 battle injury/ (5069)
6 exp limb injury/ (213827)
7 traumatic amputation/ (2173)
8 wound/ (38235)
9 gunshot injury/ (19139)
10 knife cut/ (793)
11 stab wound/ (5439)
12 wound hemorrhage/ (229)
13 bleeding/ (315546)
14 exsanguination/ (961)
15 hemorrhagic shock/ (17975)
16 (emergency or emergencies).tw,kw. (381443)
17 trauma*.tw,kw. (494947)
18 (wound or wounds).tw,kw. (261520)
19 (injury or injuries).tw,kw. (1000554)
20 h?emorrhag*.tw,kw. (382607)
21 exsanguinat*.tw,kw. (4140)
22 bleed*.tw,kw. (337696)
23 blood loss*.tw,kw. (82612)
24 amputat*.tw,kw. (57257)
25 gunshot*.tw,kw. (10152)
26 1 or 2 or 3 or 4 or 5 or 6 or 7 or 8 or 9 or 10 or 11 or 12 or 13 or 14 or 15 or 16 or 17 or 18 or 19 or 20 or 21 or 22 or 23 or 24 or 25 (2796821)
27 exp tourniquet/ (7502)
28 tourniquet*.tw,kw. (8503)
29 27 or 28 (10350)
30 26 and 29 (4744)
31 limit 30 to children (760)
32 limit 31 to yr="1966 -Current" (713)
33 hair.tw,kw. (94836)
34 32 not 33 (644)
35 snakebite/ (6449)
36 34 not 35 (620)
37 hypospadias.tw,kw. (8118)
38 36 not 37 (611)
39 arthroscop*.tw,kw. (37488)
40 38 not 39 (561)
41 limit 40 to embase (365)
Grey Literature
Google search terms executed on December 11, 2019
- Pediatric AND tourniquet
First 100 Results reviewed
16 included for full website review
9 found to be duplicates or editorials of previously selected articles
3 had no pediatric specific data
4 included for review:
https://www.jems.com/2018/11/01/pediatric-extremity-hemorrhage-and-tourniquet-use/3
https://vector.childrenshospital.org/2013/05/tourniquets-go-from-combat-to-kids/
https://www.stopthebleed.com.au/2017/08/16/tourniquets-for-kids/
https://pediatrictraumasociety.org/meeting/abstracts/2018/68.cgi
Inclusion and Exclusion criteria
Inclusion / exclusion criteria:
Inclusion: <19 years of age, life-threatening hemorrhage of an extremity in the out of hospital or in hospital setting. Studies using child-sized models or manikins may be included.
Exclusion: Studies of tourniquets applied solely to maintain a bloodless surgical field or those relating only to education will be excluded.
Additional limits - language, publication type, study design, date limits:
All study types, English language only, no date exclusion
Information sources: Searches will be conducted in Medline, Embase, and Cochrane (OVID interface)
Suggested search terms/keywords: first aid, pediatric, hemorrhage, bleeding, tourniquet
Data tables
Article | Study Design | Key Results |
Bobko J, Lai TT, Smith ER, Shapiro GL, Baldridge RT, Callaway DW. Tactical emergency casualty care - pediatric appendix: novel guidelines for the care of the pediatric casualty in the high-threat, prehospital environment. J Spec Oper Med. 2013 Winter;13(4):94-107. | In 2013 the Committee for Tactical Emergency Casualty Care assembled a Pediatric Working Group to recommend principles for pediatric care for traumatic injuries. The working group used adult tactical emergency casualty care guidelines as a framework and reviewed the pediatric literature pertinent to the treatment of pediatric traumatic injury. Draft guidelines were presented and adopted at a full committee semi-annual meeting. | Tourniquets are recommended for life-threatening extremity hemorrhage as first line therapy in both direct threat care (care under fire) and indirect threat care. In the evacuation phase, tourniquets or pressure dressings with deep wound packing are recommended to control life-threatening treatment, tourniquets are recommended for all traumatic amputations. It is recommended that tourniquets are only applied for up to two hours if possible. |
Callaway DW, Puciaty A, Robertson J, Hannon T, Fabiano SE. Case Report: Life Saving Application of Commercial Tourniquet in Pediatric Extremity Hemorrhage. Prehosp Emerg Care. 2017 Nov-Dec;21(6):786-788. doi: 10.1080/10903127.2017.1332126. Epub 2017 Jun 28. | Case report detailing a 7-year-old boy who was struck in the leg with an object expelled from a lawn mower. Case report of a tourniquet placement for a possible life-threatening extremity bleed in a child. | EMS applied a Combat Application tourniquet (Generation not listed) to the proximal thigh. Hemorrhage from a femoral artery laceration was noted to be controlled by the tourniquet. |
Cunningham A, Auerbach M, Cicero M, Jafri M. Tourniquet usage in prehospital care and resuscitation of pediatric trauma patients-Pediatric Trauma Society position statement. J Trauma Acute Care Surg. 2018 Oct;85(4):665-667. doi: 10.1097/TA.0000000000001839. | Position statement published in 2017 regarding tourniquet use in the prehospital care of pediatric trauma patients. To gather evidence for this the authors conducted a systematic review that included prehospital literature and multiple pediatric operating room studies. | Recommended the use of tourniquets in the prehospital setting and during resuscitation of children with exsanguinating hemorrhage if direct pressure had failed to control exsanguinating hemorrhage or if attempting direct pressure would be too resource intensive. This recommendation was based on grade C/D quality of evidence (Oxford Center for Evidence Based Medicine – case-series, case control studies, expert opinion). |
El-Sherif N, Lowndes B, Franz W, Hallbeck MS, Belau S, Sztajnkrycer MD Sweating the Little Things: Tourniquet Application Efficacy in Two Models of Pediatric Limb Circumference. Mil Med. 2019 Mar 1;184(Supplement_1):361-366. doi: 10.1093/milmed/usy283. | Simulation study evaluating the use multiple tourniquets on four commercially available pediatric resuscitation manikins representing an infant, 1-year old child and two 5-year old children were used as models. Additionally, six sections of PVC pipe with an external circumference of 10.8-41.9 cm were used as models. Successful application was determined by inability to slip more than one finger under the tightened tourniquet and ability to tighten and secure the windlass. All tourniquets applied by the researcher. Studies the use of multiple tourniquets in both manikin and PVC models. | In the infant and 1-year old model, windlass tourniquets were only able to be appropriately used on the thigh. In the infant model while the SWAT-T and ETD were able to be appropriately tightened, they were deemed failures as their width made it impossible to isolate a specific location on the limb. In the 5-year-old manikin models, tourniquets were able to be successfully placed on the proximal femur and mid-thigh; windless tightening allowed for success in the mid-biceps area, whereas there were failures in the forearm area. PVC model results varied depending on the circumference of the simulated extremity but in general the windlass tourniquets were unsuccessful when applied to PVC with an average limb circumference of ≤ 14.6 cm, which is equivalent to the average upper arm circumference of a 2-year-old child. |
Harcke HT, Lawrence LL, Gripp EW, Kecskemethy HH, Kruse RW, Murphy SG. Adult Tourniquet for Use in School-Age Emergencies. Pediatrics. 2019 Jun;143(6). pii: e20183447. doi: 10.1542/peds.2018-3447. Epub 2019 May 7. | Observational study of 60 healthy pediatric patients aged 6-16 years presenting to a clinic. All tourniquets applied by researchers. Success was abolishing distal pulses within 3 windlass turns. Studies the use of the CAT Gen 7 tourniquet in a pediatric population down to age 6 years with a minimum limb circumference of 16 cm | The CAT was successful in occluding arterial flow in 100% (60/60) of upper extremities and 93% (56/60) lower extremities. One participant withdrew due to pain and 3 applications failed to occlude pulses after 3 tourniquet turns. Upper extremity circumferences ranged from 16-37 cm, while lower extremity circumferences ranged from 26.0-55.5 cm. |
Kelly J, Levy M, Reyes J, Anders J. Description of Penetrating Trauma in Children by Age and Location: A National Trauma Database Review. Special Operations Medical Association Scientific Conference. May 2019 | Observational study of 13 patients undergoing elective orthopedic surgery. All tourniquets were applied by researchers. Success was abolishing distal pulses. Studies the use of a CAT Gen 7 tourniquet in a pediatric population down to age 2 and with a limb diameter of 13 cm. | Tourniquets were placed on 24 limbs (11 upper extremities and 13 lower extremities) with a 100% success rate in occluding distal pulses. |
Kragh JF Jr, Wright-Aldossari B, Aden JK 3rd, Dubick MA.J Ease of Use of Emergency Tourniquets on Simulated Limbs of Infants: Deliberate Practice. Spec Oper Med. 2019 Summer;19(2):41-47. | Observational study to evaluate the lower limits of limb circumference for the CAT Gen 7 tourniquet. A handrail with a 5.25 in circumference was used for the main study. Two investigators, one designated a competent user and one an expert user, each performed 100 iterations of tourniquet application to the handrail. | Application times shortened on average with repeated application. The expert user has an initial time of application that was 42% faster than the competent user, however, the data sets homologized over time. The expert user was, on average, faster (27–108 seconds) and had easier use (range, 4–5). The time the competent user took varied more widely (32–140 seconds; ease-of-use scores, 2–5). In general, as number of applications occurred ease of use scores went up and time to apply went down. Raw data not given. |
Kragh JF Jr, Cooper A, Aden JK, Dubick MA, Baer DG, Wade CE, Blackbourne LH. Survey of trauma registry data on tourniquet use in pediatric war casualties. Pediatr Emerg Care. 2012 Dec;28(12):1361-5. doi: 10.1097/PEC.0b013e318276c260. | Retrospective chart review from the Joint Trauma System’s Joint Theater Trauma Registry examining the use of tourniquets in pediatric trauma care (less than 18 years of age). During the study period of May 17, 2003 to December 25, 2009. | 88 patients were identified in which a tourniquet was applied, with an average age of 11 years. Explosions accounted for 64% of injuries, followed by gunshot wounds (30%), machinery accidents (3%), knife wounds (1%) and motor vehicle crashes (1%). The overall survival rate was 93% (74/81) which was similar to historic data from published tourniquet studies of adult patients (87%) |
Sokol KK, Black GE, Azarow KS, Long W, Martin MJ, Eckert MJ. Prehospital interventions in severely injured pediatric patients: Rethinking the ABCs. J Trauma Acute Care Surg. 2015 Dec;79(6):983-9; discussion 989-90. doi: 10.1097/TA.0000000000000706. | Retrospective chart from the Department of Defense Trauma Registry of pediatric injuries (less than or equal to 18 years of age) treated at Camp Bastion Afghanistan from 2004-2012. | 125 patients had significant extremity injuries that were determined to be amenable to a tourniquet however only 47 received a prehospital tourniquet. There was no difference in mortality when corrected for injury severity. Lower extremity amputations treated with a prehospital tourniquet required less intravenous fluids [2.4 (3.2) L vs 4.2 (4.0) L, p = 0.032], however there was no statistical difference in blood product requirements, nor in intravenous fluids or blood product requirements on upper extremity amputations. |
Vretis, J. Comparison of commercial tourniquets in a pediatric trauma patient model. Prehosp Emerg Care. 2017 Oct 5:1-50. doi: 10.1080/10903127.2017.1377791. Abstracts for the 2018 NAEMSP Scientific Assembly. 2018;22:101-150. | Simulation study that evaluated the efficacy of nine commercial tourniquets on PVC pipe with rubber tubing models of 6 different diameters. Study investigators were unblinded. Success was determined by the ability to stop the flow of water distally. Studies the use of multiple tourniquets in both manikin and PVC models. | The SWAT, RATS and CRMT were successful stopping the flow of water on all sized mannequins (down to 3.81 cm diameter, 11.9 cm circumference). The MAT failed on PVC sizes 7.62 cm diameter (23.9 cm circumference) and smaller. The TMT and SOFTTW started failing on diameters 6.35 cm (19.9 cm circumference) and smaller. The CAT, SAMXT, TMT, and SOFTTW failed on the 5.08 cm diameter (16.0 cm circumference) models |
Task Force Insights
Why this topic was reviewed.
In 2017 ILCOR commissioned a Mega-PICO on the Control of Life-Threatening Bleeding. This Mega-PICO searched for evidence of bleeding control modalities for “Adults and children with severe, life-threatening external bleeding in out-of-hospital settings.” While human adult data was found for the use of direct pressure, hemostatic dressings and tourniquets in the adult population, there was very little literature found pertaining to the management of severe life-threatening external bleeding in the pediatric population. Although the use of direct manual pressure and hemostatic gauzes can be more easily extrapolated to the pediatric population, tourniquets often employ a rigid mechanism to apply a mechanical advantage in order to successfully stop blood flow. There is a concern that the smaller limb circumferences in children may limit the successful use of tourniquets, many of which are designed for use in adults. As the Control of Life-Threatening Bleeding Mega-PICO did not find enough data to answer this question, this Scoping Review was initiated to evaluate all available literature on tourniquet use in the pediatric population.
Narrative summary of evidence identified
A literature search identified 10 studies (two found in grey literature) and three websites for inclusion (See Data Table):
- Two articles were position statements from national pediatric trauma organizations
- Two studies were epidemiologic studies of tourniquet use in the pediatric population in conflict zones
- Three studies used models of pediatric limb circumferences to test the application of multiple different tourniquet modes
- Two studies were observational trials using healthy pediatric volunteers
- There was one case report of tourniquet use in a child.
Of the 3 additional websites included, all summarized pre-existing data or expert opinion pertaining to pediatric tourniquet use and did not add any significant data to the studies already identified (data not in table).
The two observational studies enrolling pediatric participants only tested the Combat Application Tourniquet Generation 7 (C-A-T® GEN7), which is a strap and windlass model. One observational study (Harcke 2019 e20183447) enrolled healthy volunteers, 6-16 years of age, presenting to an outpatient clinic. The success rate in eliminating distal pulses was 100% (60/60) in the upper extremities and 93% (56/60) in the lower extremities. A second observational study (Kelly 2019 pending) enrolling children 2-7 years of age undergoing elective orthopedic surgery demonstrated successful application of the C-A-T® GEN7 in all 24 children (11 upper extremities and 13 lower extremities) with a 100% success rate in occluding distal pulses down to a minimal limb circumference of 13 cm.
Studies in manikin and PVC models generally demonstrate that the tested windlass and ratcheting tourniquets have increasing failure rates as the model’s circumference diminish.
In one study (Vretis 2018 101) using PVC pipe as a model, the Stretch Wrap and Tuck Tourniquet (SWAT-T) (an elastic band model), Rapid Application Tourniquet System (RATS) (an elastic band model) and Child Ratcheting Medical Tourniquet (CRMT) (a ratcheting model) were successfully applied down to the smallest model of 11.9 cm circumference. In that same study the Mechanical Advantage Tourniquet (MAT) (a ratcheting model) failed on model sizes 23.9 cm circumference and smaller. The Tactical Mechanical Tourniquet (TMTä) (a strap and windlass model) and Special Operations Forces Tactical Tourniquet Wide (SOFTT-W) (a strap and windlass model) started failing on models with a 19.9 cm circumference and smaller. The C-A-T®, SAM Extremity Tourniquet (SAMXT) (a strap and windlass model), TMT, and SOFTT-W failed on models with a 16.0 cm circumference.
A separate study (El Sherif 2019 361), using different sized manikin models, found that windlass tourniquets (C-A-T® GEN6, C-A-T® GEN7, SOFTT, SOFTT-W) were only able to be successfully applied to the thigh in the infant model. While the SWAT-T was able to be properly tightened in both upper and lower extremities of the infant model, it was deemed a failure as the tourniquet width made it impossible to isolate a specific location on the limb. In the 1-year old child manikin, all tourniquets were successfully applied in the thigh area, however all windlass designs were unsuccessful in the mid-biceps or forearm. The SWAT-T was successfully applied in all areas tested. In the 5-year-old manikin, windlass tourniquets were successfully applied to lower extremities but there was varying success in upper extremities on the same manikin.
Altogether, in these two studies, elastic type tourniquets (SWAT-T and RATS) and pediatric-specific ratcheting tourniquets were the tourniquet designs that were able to be successfully tightened on the smallest models. The smallest model circumference was 11.9 cm for the CRMT and RATS and 10.8 cm for the SWAT-T (See Data Table).
Kragh (Kragh 2019 41) evaluated the ease of use of a single windlass tourniquet (C-A-T® GEN7) for two trained users in a pediatric model. No study in this review specifically evaluated ease of use for lay providers in the pediatric population.
Narrative Reporting of the Task Force discussions
The Task Force considered the position statements from both the Pediatric Trauma Society and the Committee for Tactical Emergency Casualty Care Pediatric Working Group, both recommending tourniquets for life-threatening extremity hemorrhage in the pediatric population (Bobko 2013 94, Cunningham 2018 665).
The First Aid Task Force acknowledged the positive results from two human pediatric studies that suggested that the use of a windless design of tourniquet (specifically the C-A-T® GEN7) can abolish distal pulses in both the upper and lower extremities in children as young as 2 years of age with a minimum limb circumference of 13 cm.
In manikin and PVC pipe models the overall trend was that the smaller the circumference of the model, the less likely the tourniquet was to be successfully applied. However, the overall results were inconsistent, and the Task Force believes the evidence provided by the studies using models is of lower certainty than that from human studies.
The Task Force recognized the importance of the early control of severe life-threatening bleeding in children under the age of 2 years, especially considering their relatively small blood volume. In the absence of evidence for the effective use of tourniquets in this age group the Task Force discussed using direct pressure to control life threatening bleeding. It agreed that more research is needed into the design and use of tourniquets, particularly for children less than 2 years of age.
Although evidence for tourniquet design and use in children is limited and of low or very low certainty (based on study design alone), the topic of tourniquet design and their use in children warrants a potential future systematic review.
Knowledge Gaps
- There is an urgent need for additional human studies in the prehospital setting to determine which tourniquet designs are able to be used successfully in the pediatric population
- Human studies are needed to determine the lower age and size limits to which these tourniquets can be successfully applied in both upper and lower extremities
- Human studies are needed to determine the ease of application of tourniquets on children
- Studies are needed to further define complications of tourniquet use in children
References
Bobko J, Lai TT, Smith ER, Shapiro GL, Baldridge RT, Callaway DW. Tactical emergency casualty care - pediatric appendix: novel guidelines for the care of the pediatric casualty in the high-threat, prehospital environment. J Spec Oper Med. 2013 Winter;13(4):94-107.
Callaway DW, Puciaty A, Robertson J, Hannon T, Fabiano SE. Case Report: Life Saving Application of Commercial Tourniquet in Pediatric Extremity Hemorrhage. Prehosp Emerg Care. 2017 Nov-Dec;21(6):786-788. doi: 10.1080/10903127.2017.1332126. Epub 2017 Jun 28.
Cunningham A, Auerbach M, Cicero M, Jafri M. Tourniquet usage in prehospital care and resuscitation of pediatric trauma patients-Pediatric Trauma Society position statement. J Trauma Acute Care Surg. 2018 Oct;85(4):665-667. doi: 10.1097/TA.0000000000001839.
El-Sherif N, Lowndes B, Franz W, Hallbeck MS, Belau S, Sztajnkrycer MD Sweating the Little Things: Tourniquet Application Efficacy in Two Models of Pediatric Limb Circumference. Mil Med. 2019 Mar 1;184(Supplement_1):361-366. doi: 10.1093/milmed/usy283.
Harcke HT, Lawrence LL, Gripp EW, Kecskemethy HH, Kruse RW, Murphy SG. Adult Tourniquet for Use in School-Age Emergencies.
Pediatrics. 2019 Jun;143(6). pii: e20183447. doi: 10.1542/peds.2018-3447. Epub 2019 May 7.
Howe S. Tourniquets go from combat to kids. Vector: Boston Children’s Hospital science and linical innovation blog. 2013; May 8. Available at: https://vector.childrenshospital.org/2013/05/tourniquets-go-from-combat-to-kids/ Accessed December 20, 2019.
Kelly J, Levy M, Reyes J, Anders J. Description of Penetrating Trauma in Children by Age and Location: A National Trauma Database Review. Special Operations Medical Association Scientific Conference. May 2019
Kragh JF Jr, Cooper A, Aden JK, Dubick MA, Baer DG, Wade CE, Blackbourne LH. Survey of trauma registry data on tourniquet use in pediatric war casualties. Pediatr Emerg Care. 2012 Dec;28(12):1361-5. doi: 10.1097/PEC.0b013e318276c260.
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Figure 1. FA-New-Prisma