Archives of Academic Emergency Medicine. 2019; 7 (1): e45

OR I G I N A L RE S E A RC H

Value of Ultrasonography in Detection of Diaphrag-
matic Injuries Following Thoracoabdominal Penetrating
Trauma; a Diagnostic Accuracy Study
Ali Sharifi1, Amir Kasraianfard1, Abdolhamid Chavoshi Khamneh2, Soheila Kanani3, Mohamedali Aldarraji4,
Mohammad Ali Seif-Rabiei5, Amir Derakhshanfar1∗

1. Department of General Surgery, Hamadan University of Medical Sciences, Hamadan, Iran.

2. Department of General Surgery, Iran University of Medical Sciences, Tehran, Iran.

3. Department of Emergency Medicine, Hamadan University of Medical Sciences, Hamadan, Iran.

4. General physician, Shahed Medical faculty, Tehran, Iran.

5. Department of Social Medicine, Hamadan University of Medical Sciences, Hamadan, Iran.

Received: May 2019; Accepted: July 2019; Published online: 18 August 2019

Abstract: Introduction: Diagnosis of diaphragmatic rupture following thoracoabdominal penetrating trauma is very chal-
lenging in asymptomatic patients with stable vital signs. This study aimed to evaluate the diagnostic accuracy of
focused assessment with sonography for trauma (FAST) in this regard. Methods: This cross-sectional study was
performed on patients referring to emergency department due to left thoracoabdominal stab wound during 2
years. All patients initially underwent ultrasonography and the screening performance characteristics of FAST
in detection of diaphragmatic injuries were calculated, considering the findings of diagnostic laparoscopy as the
gold standard test. Results: Twenty-four patients with the mean age of 33 ± 10.64 years (16-61 years) were stud-
ied (100% male). The mean chest wall laceration size was 2.7 ± 2.7 cm (1-10 cm) and the most frequent location
of wounds was posterior chest wall (42%) and in the 6th and 7th intercostal space (50%). Diaphragmatic rupture
was seen in 4 (16.7%) patients based on diagnostic laparoscopy. Sensitivity, specificity, positive and negative
predictive values, and positive and negative likelihood ratio of FAST in detection of diaphragmatic raptures were
50% (95% CI: 9.18 – 90.8), 100% (95% CI: 79.9 – 100.0), 100% (95% CI: 19.8 – 100.0), 9.1% (95% CI: 1.5 – 30.6),
Infinity, and 0.1 (95% CI: 0.02 – 0.37), respectively. The overall accuracy of FAST in this regard was 75.0% (95%
CI: 42.3 – 100.0). Conclusion: In patients with penetrating trauma to the left thoracoabdominal region, FAST
cannot be the definitive alternative to diagnostic laparoscopy to detect diaphragm rupture.

Keywords: Wounds, stab; diaphragm; wounds and injuries; focused assessment with sonography of trauma; laparoscopy

Cite this article as: Sharifi A, Kasraianfard A, Chavoshi Khamneh A, Kanani S, Aldarraji M, Seif-Rabiei M A, Derakhshanfar A. Value of Ultra-

sonography in Detection of Diaphragmatic Injuries Following Thoracoabdominal Penetrating Trauma; a Diagnostic Accuracy Study. Arch Acad

Emerg Med. 2019; 7(1): e45.

1. Introduction

Thoracoabdominal penetrating trauma is one of the com-

mon problems in surgical emergency centres. In patients

with a penetrating trauma and unstable hemodynamic sta-

tus, the primary and standard approach to diagnosis and

∗Corresponding Author: Amir Derakhshanfar; Department of General
Surgery, Faculty of Medicine, Hamadan University of Medical Sciences, Shahid
Fahmide Ave., Hamadan, Iran. Tel: +98 - 81 - 38380452, Fax: +98 - 81 -
38380208, E-mail: dramirderakhshanfar@gmail.com

treatment is surgical intervention, which can be explorative

laparotomy or thoracotomy based on clinical assessment (1).

Diagnosis of diaphragmatic rupture in patients with thora-

coabdominal penetrating trauma is controversial in those

who are hemodynamically stable and asymptomatic (2). In

some clinical centres, those with penetrating lacerations of

the thoracoabdominal area routinely undergo surgical explo-

rations (3). Using this method, all diaphragmatic ruptures

are detected, but a large number of patients undergo nega-

tive laparotomy, which leads to complications such as post-

surgical adhesion or surgery wound site infections.

This open-access article distributed under the terms of the Creative Commons Attribution NonCommercial 3.0 License (CC BY-NC 3.0).
Downloaded from: http://journals.sbmu.ac.ir/aaem



A. Sharifi et al. 2

In addition, this method is very time consuming and costly,

especially in the crowded trauma centres with a large num-

ber of visitors. Therefore, several diagnostic methods includ-

ing chest radiography, computed tomography (CT) scan and

diagnostic peritoneal lavage have been used to diagnose di-

aphragmatic rupture, but their diagnostic accuracies have

been reported as very poor in various studies (4).

Focused assessment with sonography for trauma (FAST) is

a very suitable diagnostic method for patients with trauma,

which is very easy to use and does not require general anaes-

thesia and is not likely to cause any harm to the patient (5-

7). Using ultrasound has a sensitivity of 94%, specificity of

98% and approximate accuracy of 95% for detecting intra-

abdominal bleeding and visceral injury (8). In this study, we

aimed to determine the accuracy of FAST in detecting di-

aphragmatic rupture in patients with stab wound of sharp

objects in thoracoabdominal region and to compare the re-

sults with diagnostic laparoscopy.

2. Methods

2.1. Study design and setting

This was a cross-sectional (diagnostic accuracy) study con-

ducted on all patients who were referred to the emergency

department of Besat Hospital, Hamadan, Iran, following tho-

racoabdominal penetrating trauma, from 2016 to 2018. The

screening performance characteristics of FAST sonography

in detection of diaphragmatic injuries were calculated, con-

sidering the findings of diagnostic laparoscopy as the gold

standard test. The study protocol was approved by the

Ethics committee of Hamadan University of Medical Sci-

ences (Ethics code: IR.UMSHA.REC.1397.169).

A written informed consent was obtained from patients. The

research team was aware of all the provisions of the Helsinki

declaration on the Ethics of medical research including hu-

man cases, and fully committed to its observance.

2.2. Participants

All patients referring to the emergency department of the

mentioned hospital following injury by a sharp object to the

thoracoabdominal area in the upper boundary of the fourth

intercostal space (anterior), the sixth intercostal space (lat-

eral), the eighth intercostal space (posterior) and the lower

edge of the ribs, during two years of study, were enrolled.

Patients who presented with unstable vital signs, had pre-

vious history of unrepaired diaphragmatic rupture, were

stabbed with a sharp object located outside the thoracoab-

dominal area, had no evidence of hemothorax or pneumoth-

orax in chest CT scan, had laparoscopy contraindications in-

cluding history of obstructive pulmonary and cardiovascular

diseases, and had generalized peritonitis were excluded.

2.3. Study protocol

All patients underwent chest CT scan on admission to the

emergency department as a triage tool for penetrating tho-

racoabdominal trauma. Patients with negative CT scan were

excluded from further investigation. In the presence of

hemothorax or pneumothorax in the CT scan, patients were

subjected to FAST, in which 3 spaces inside the abdomen in-

cluding Morrison space (between the liver and the right kid-

ney), splenorenal space (between the spleen and the left kid-

ney) and the pelvis were examined for the presence of free

fluid by a radiologist using a deep probe (2.5-3.5 MHz) of

the Affiniti 50 ultrasound (Phillips, Netherlands). Presence

of fluid in each of these spaces was considered as a positive

result of ultrasound. Then, all patients underwent a diagnos-

tic laparoscopy in the operating room under general anesthe-

sia. For this purpose, a 10-mm trocar entered the abdomen 1

cm above the umbilicus. After insufflation using 5 liters of

carbon dioxide gas, a laparoscopic camera was introduced

through the trocar, and all the spaces inside the abdomen

and both the diaphragms were examined with direct vision.

2.4. Data gathering

A questionnaire including information about age, gender,

time to reach the emergency department, chest wall lacer-

ation length, chest wall laceration location, CT scan result,

volume of chest tube fluid, and FAST and laparoscopy find-

ings was filled for all enrolled patients.

Research staff and Faculty were responsible for data gather-

ing.

2.5. Statistical Analysis

For reporting qualitative and quantitative data, frequency

and percentages and mean ± standard deviation were used,
respectively. Finally, the non-parametric Mann-Whitney U

test was used to compare the means and the Fisher’s exact

test was used to compare the qualitative data in SPSS soft-

ware version 21. P value of 0.05 or less was considered statis-

tically significant.

3. Results

3.1. Baseline characteristics of the studied pa-
tients

Twenty-four patients with the mean age of 33 ± 10.64 years
(16-61 years) were studied (100% male). Table 1 shows base-

line characteristics of the studied patients based on the pres-

ence or absence of diaphragmatic injury. The mean chest

wall laceration size was 2.7 ± 2.7 cm (1-10 cm) and the most
frequent location of wounds was posterior chest wall (42%)

and in the 6th and 7thintercostal space (50%). Chest tube was

inserted for all patients, 11 (46%) patients had hemothorax, 7

This open-access article distributed under the terms of the Creative Commons Attribution NonCommercial 3.0 License (CC BY-NC 3.0).
Downloaded from: http://journals.sbmu.ac.ir/aaem



3 Archives of Academic Emergency Medicine. 2019; 7 (1): e45

(30%) patients had pneumothorax and 6 (24%) patients had

hemopneumothorax. The average blood volume discharged

from thorax at the time of chest tube insertion was 134 ± 125
cc.

3.2. Diagnostic accuracy of ultrasonography

All patients were evaluated by FAST and free fluid was present

in the abdominal cavity of 2 (8.3%) patients. Diaphragmatic

rupture was seen in 4 (16.7%) patients based on diagnostic

laparoscopy, who underwent laparotomy for diaphragmatic

rupture repair. In one of these patients, there was a simulta-

neous spleen laceration with a depth of 0.5 cm without active

bleeding, which did not need splenectomy. In another pa-

tient, there was a laceration in seromuscular layer of stom-

ach without obvious rupture or leak of content or signs of

generalized peritonitis. In the other two patients, except for

a diaphragmatic rupture, no other pathologic evidence was

found in the abdomen. All patients were discharged from the

hospital with good general condition and no mortality oc-

curred.

FAST had negative findings in all 20 patients whose di-

aphragm was intact, while the result of FAST was positive in

2 of 4 patients (50.0%) with diaphragmatic rupture. Based on

this findings the sensitivity, specificity, positive and negative

predictive values, and positive and negative likelihood ra-

tio of FAST in detection of diaphragmatic raptures were 50%

(95% CI: 9.18 – 90.8), 100% (95% CI: 79.9 – 100.0), 100% (95%

CI: 19.8 – 100.0), 9.1% (95% CI: 1.5 – 30.6), Infinity, and 0.1

(95% CI: 0.02 – 0.37), respectively. The overall the accuracy of

FAST in this regard (based on area under the ROC curve) was

75.0% (95% CI: 42.3 – 100.0; figure 1).

4. Discussion

In this study, the prevalence of confirmed diaphragmatic

rupture in patients with thoracoabdominal penetrating

trauma was reported as 16.7%. The sensitivity and specificity

of ultrasonography for diagnosis of diaphragmatic rupture in

this study were 50% and 100%, respectively.

There was no significant association between mean age, time

to reach emergency room, chest wall laceration size, and in-

tercostal space number of penetrating trauma and the rup-

ture of the diaphragm. However, diaphragmatic rupture was

more probable in patients with more hemothorax or hemop-

neumothorax versus those with lower hemothorax volume

or hemo/pneumothorax alone. Also, the diaphragm rup-

ture rate was significantly higher in patients with penetrating

trauma in the lateral chest wall compared to those in the an-

terior or posterior chest wall.

In many studies, the rate of diaphragm rupture in patients

with penetrating trauma of the left thoracoabdominal area is

reported between 10% and 15% (9, 10). In a study by Yucel

Figure 1: Area under the receiver operating characteristic (ROC)

curve of ultrasonography in detection of diaphragmatic injuries fol-

lowing penetrating trauma.

et al. in 2017 in Turkey, 81 patients referred to the emergency

room with a penetrating trauma of the left thoracoabdominal

area and underwent a diagnostic laparoscopy for detection of

diaphragmatic rupture during a period of 6 years. Similar to

our study, 92.6% of the patients were male and average age

of the patients was 27.5 ± 9.8 years. Left diaphragm rupture
was observed in 23.5% of patients. In this study, penetrat-

ing trauma to the chest wall was located at the anterior part

in 55.5%, the lateral region in 33.3% and the posterior part

in 11.2% of patients. Unlike our study, in this study, there

was no association between the occurrence of penetrating

chest trauma and presence or absence of hemopneumoth-

orax with diaphragm rupture (11). In another study by Yucel

et al. in Turkey in 2015, 43 patients with left thoracoabdom-

inal trauma were examined for diaphragmatic rupture with

CT scan and diagnostic laparoscopy in a 5-year interval. Sim-

ilar to our study, 91% of patients were male and their aver-

age age was 30 years (15-60 years) and left diaphragm rupture

was observed in 25.6% of the patients.

Based on CT scan results, diaphragm was normal in 30 pa-

tients and diaphragmatic ruptures were diagnosed in 13. On

the other hand, in diagnostic laparoscopy, diaphragmatic

rupture was detected in 9 patients of 13 patients with positive

CT scan and 2 of 30 patients with negative CT scan. In this

study, sensitivity and specificity of CT scan in diagnosis of

diaphragmatic rupture were 82% and 88%, respectively, and

positive and negative predictive values were 69% and 93%,

respectively (12). In a study done by Bagheri et al. in Iran

in 2009 on 30 patients with thoracoabdominal penetrating

This open-access article distributed under the terms of the Creative Commons Attribution NonCommercial 3.0 License (CC BY-NC 3.0).
Downloaded from: http://journals.sbmu.ac.ir/aaem



A. Sharifi et al. 4

Table 1: Baseline characteristics of the studied patients

Variables Total
Ruptured diaphragm

P value
Yes (n = 4) No (n = 20)

Age (year)
Mean ± SD 33 ± 10.64 31.2 ± 5.4 33.3 ± 11.5 0.91
Time to reach the hospital
(minute)
Mean ± SD 38.5 ± 16 38.2 ± 16.3 40 ± 16.8 0.73
Chest wall laceration length
(cm)
Mean ± SD 2.7 ± 2.2 2.9 ± 2.3 1.6 ± 0.5 0.24
Hemothorax volume (ml)
Mean ± SD 125 ± 134 74 ± 70 380 ± 57 > 0.001
Location of wound (In tho-
rax) *
Posterior 10 (41.7) 0 (0.0) 10 (50.0)
Anterior 8 (33.3) 1 (25.0) 7 (35.0) 0.009
Maxillary 6 (25.0) 3 (75.0) 3 (15.0)
Location of wound (in inter-
costal space) *
5th 3 (12.5) 0 (0.0) 3 (15)

6t h 6 (25) 0 (0.0) 6 (30)

7t h 6 (25) 1 (25) 5 (25)

8t h 3 (12.5) 2 (50) 1 (5) 0.013

9t h 2 (8) 1 (25) 1 (5)

10t h 2 (8) 0 (0.0) 2 (10)

11t h 2 (8) 0 (0.0) 2 (10)
Chest tube drainage*
Hemothorax 11 (45.8) 0(0.0) 11 (55.0)
Pneumothorax 7 (29.2) 0 (0.0) 7 (35.0) 0.002
Hemo-pneumothorax 6 (25.0) 4 (100.0) 2 (10.0)
*Data are reported as number (%).

wound, 73.3% of the patients were male and their mean age

was 26.2 years. Similar to our study, the most common loca-

tion for trauma was in the 6th and 7th intercostal space. Simi-

lar to our results, 16.7% of patients had a diaphragmatic rup-

ture, and diaphragm rupture was more frequently observed

in those with wounds located between 7th intercostal space

and lower spaces (3). In a study by Mjoli et al. in 2009 in

South Africa on 55 patients with penetrating thoracoabdom-

inal trauma, 90% of the patients were male, with an average

age of 26.3 years. Diaphragmatic rupture was seen in 40% of

patients. The mean length of chest laceration was 3.1 ± 3.1
cm. The incidence of penetrating trauma to the chest was

41.8% in the lateral, 36.4% in the posterior and 20% in the

anterior walls (13). The only study that examined the value

of FAST in diaphragmatic rupture diagnosis was conducted

in the United States in 2004 by Tayal et al. In this study, 8

patients with anterior penetrating thoracoabdominal trauma

were evaluated using FAST and then underwent laparotomy

based on the presence of intraperitoneal fluid in FAST evalu-

ation. In contrast to our study, sensitivity of 100% (95% con-

fidence interval: 63.1% -100%) and specificity of 100% (confi-

dence intervals of 85.8% -100%) were reported for FAST in di-

aphragmatic rupture diagnosis (14). The difference of sensi-

tivity of FAST between this study and our study can be due to

the lower number of patients studied or selection of patients

with penetrating trauma in the right or left side of the thora-

coabdominal area in Tayal study. Due to the very proximity

of the liver to the right diaphragm, the sharp object passing

from the right diaphragm following a penetrating trauma to

the right thoracoabdominal area definitively causes liver rup-

ture and intra-abdominal hemorrhage, which is associated

with positive FAST evaluation. FAST in patients with pen-

etrating trauma to the left thoracoabdominal cannot be the

definitive alternative to diagnostic laparoscopy for detection

of diaphragmatic rupture. Positive result of FAST in such pa-

tients suggests diaphragmatic rupture, so that these patients

can undergo urgent laparoscopic surgery for diaphragm rup-

ture repair without the need for laparoscopic examination.

However, due to the small number of patients in the current

study, more studies should be performed on a larger num-

ber of patients with penetrating chest trauma to reach a more

precise decision about the role of FAST in diagnosis of di-

This open-access article distributed under the terms of the Creative Commons Attribution NonCommercial 3.0 License (CC BY-NC 3.0).
Downloaded from: http://journals.sbmu.ac.ir/aaem



5 Archives of Academic Emergency Medicine. 2019; 7 (1): e45

aphragm rupture.

5. Limitation

One of our limitations was the relatively small sample size of

the study. Larger studies with more patients might more pre-

cisely reveal the issues with using FAST in thoracoabdominal

stab wound. However, it is suggested to follow-up patients

for longer periods to check probable long-term complica-

tions. Another limitation of this study was operator depen-

dency of FAST, which cannot be avoided. FAST performed by

an expert radiologist might yield different results.

6. Conclusion

Considering the low sensitivity of ultrasonography in detec-

tion of diaphragmatic rupture following penetrating trauma

to the left thoracoabdominal region, it cannot be the defini-

tive alternative to diagnostic laparoscopy for detection of di-

aphragmatic rupture.

7. Appendix

7.1. Acknowledgements

We would like to thank the operation room staff of our center.

7.2. Author contribution

Analyzed the data: Ali Sharifi, Amir Kasraianfard, So-

heila Kanani; Contributed to writing of the manuscript:

Mohamedali Aldarraji, Mohammad Ali Seif-Rabiei; Final

approval and review: Abdolhamid Chavoshi khamneh, Amir

Derakhshanfar.

Authors ORCIDs
Ali Sharifi: 0000-0002-4933-2765

Amir Kasraianfard: 0000-0002-3144-4451

Abdolhamid Chavoshi khamneh: 0000-0003-0675-3460

Soheila Kanani: 0000-0002-6058-2271

Mohamedali Aldarraji: 0000-0002-9937-9107

Mohammad Ali Seif-Rabiei: 0000-0003-2722-1703

Amir Derakhshanfar: 0000-0002-4096-8740

7.3. Funding/Support

None.

7.4. Conflict of interest

We had no conflict of interest to be reported

References

1. Edelmuth RC, Buscariolli Ydos S, Ribeiro MA, Jr. [Damage

control surgery: an update]. Revista do Colegio Brasileiro

de Cirurgioes. 2013;40(2):142-51.

2. Boyle EM, Jr., Maier RV, Salazar JD, Kovacich JC, O’Keefe

G, Mann FA, et al. Diagnosis of injuries after stab

wounds to the back and flank. The Journal of trauma.

1997;42(2):260-5.

3. Bagheri R, Tavassoli A, Sadrizadeh A, Mashhadi MR,

Shahri F, Shojaeian R. The role of thoracoscopy for the

diagnosis of hidden diaphragmatic injuries in penetrat-

ing thoracoabdominal trauma. Interactive cardiovascu-

lar and thoracic surgery. 2009;9(2):195-7; discussion 7-8.

4. Murray JA, Demetriades D, Cornwell EE, 3rd, Asensio

JA, Velmahos G, Belzberg H, et al. Penetrating left tho-

racoabdominal trauma: the incidence and clinical pre-

sentation of diaphragm injuries. The Journal of trauma.

1997;43(4):624-6.

5. Hosseini M, Ghelichkhani P, Baikpour M, Tafakhori A,

Asady H, Haji Ghanbari MJ, et al. Diagnostic Accuracy

of Ultrasonography and Radiography in Detection of

Pulmonary Contusion; a Systematic Review and Meta-

Analysis. Emergency (Tehran, Iran). 2015;3(4):127-36.

6. Yousefifard M, Baikpour M, Ghelichkhani P, Asady H,

Shahsavari Nia K, Moghadas Jafari A, et al. Screening Per-

formance Characteristic of Ultrasonography and Radio-

graphy in Detection of Pleural Effusion; a Meta-Analysis.

Emergency (Tehran, Iran). 2016;4(1):1-10.

7. Rahimi-Movaghar V, Yousefifard M, Ghelichkhani P,

Baikpour M, Tafakhori A, Asady H, et al. Application

of ultrasonography and radiography in detection of

hemothorax; a systematic review and meta-analysis.

2016;4(3):116.

8. Lingawi SS, Buckley AR. Focused abdominal US in pa-

tients with trauma. Radiology. 2000;217(2):426-9.

9. Cherry RA, Eachempati SR, Hydo LJ, Barie PS. The role

of laparoscopy in penetrating abdominal stab wounds.

Surgical laparoscopy, endoscopy & percutaneous tech-

niques. 2005;15(1):14-7.

10. Chol YB, Lim KS. Therapeutic laparoscopy for abdominal

trauma. Surgical endoscopy. 2003;17(3):421-7.

11. Yucel M, Ozpek A, Tolan HK, Basak F, Bas G, Unal E, et

al. Importance of diagnostic laparoscopy in the assess-

ment of the diaphragm after left thoracoabdominal stab

wound: A prospective cohort study. Ulusal travma ve acil

cerrahi dergisi = Turkish journal of trauma & emergency

surgery : TJTES. 2017;23(2):107-11.

12. Yucel M, Bas G, Kulali F, Unal E, Ozpek A, Basak F, et al.

Evaluation of diaphragm in penetrating left thoracoab-

dominal stab injuries: The role of multislice computed

tomography. Injury. 2015;46(9):1734-7.

13. Mjoli M, Oosthuizen G, Clarke D, Madiba T. La-

paroscopy in the diagnosis and repair of diaphrag-

matic injuries in left-sided penetrating thoracoabdomi-

nal trauma: laparoscopy in trauma. Surgical endoscopy.

2015;29(3):747-52.

This open-access article distributed under the terms of the Creative Commons Attribution NonCommercial 3.0 License (CC BY-NC 3.0).
Downloaded from: http://journals.sbmu.ac.ir/aaem



A. Sharifi et al. 6

14. Tayal VS, Beatty MA, Marx JA, Tomaszewski CA, Thoma-

son MH. FAST (focused assessment with sonography in

trauma) accurate for cardiac and intraperitoneal injury

in penetrating anterior chest trauma. Journal of ultra-

sound in medicine : official journal of the American In-

stitute of Ultrasound in Medicine. 2004;23(4):467-72.

This open-access article distributed under the terms of the Creative Commons Attribution NonCommercial 3.0 License (CC BY-NC 3.0).
Downloaded from: http://journals.sbmu.ac.ir/aaem


	Introduction
	Methods
	Results
	Discussion
	Limitation
	Conclusion
	Appendix
	References