+Bioline International Official Site (site up-dated regularly)

search
for

Journal of Minimal Access Surgery
Medknow Publications
ISSN: 0972-9941 EISSN: 1998-3921
Vol. 7, Num. 3, 2011, pp. 169-172

Journal of Minimal Access Surgery, Vol. 7, No. 3, July-September, 2011, pp. 169-172

Original Article

To study the incidence of organ damage and post-operative care in patients of blunt abdominal trauma with haemoperitoneum managed by laparoscopy

Samir M Shah, Komal S Shah, Parthesh K Joshi, Rajan B Somani, Vikram B Gohil, Shivendra M Dakhda

Department of General Surgery, Government Medical College, Bhavnagar, Gujarat-364 001, India

Correspondence Address: Vikram B Gohil, Department of General Surgery, Government Medical College, Bhavnagar, Gujarat - 364 001, India, drvikram006gohil@gmail.com

Date of Submission: 22-Aug-2009
Date of Acceptance: 22-Nov-2010

Code Number: ma11040

DOI: 10.4103/0972-9941.83507

Abstract

Background : Laparoscopy is safe and effective in the management of blunt trauma abdomen (BTA) with haemoperitoneum, with all benefits of minimal access surgery.
Aims : To study the incidence of organ damage and post-operative care in patients of blunt abdominal trauma with haemoperitoneum, managed by a new modality of treatment - laparoscopy.
Materials and Methods : Prospectively collected data on laparoscopy performed in patients with blunt abdominal injury, between the years 2004 to 2006, were analysed. Under general anaesthesia pneumoperitoneum was created. A 10 mm umbilical port, right-sided port in the anterior axillary line (5 mm / 10 mm), left-sided port in the anterior axillary line (5 mm / 10 mm) and an extra port were made according to the organ injury, and laparoscopy was performed and managed according to the organ injury.
Result : Twenty-five patients had laparoscopy for blunt trauma abdomen with haemoperitoneum. Liver followed by the spleen were the most common sites of injuries. The overall failure rate was 4%. Post-operative stay and complications were much less. Laparoscopy reduced the number of negative laparotomies, with a limitation that it could not be performed in haemodynamically unstable patients.
Conclusion : The liver and spleen are the most common organs involved in patients with blunt abdominal trauma with haemoperitoneum. Laparoscopy is safe and efficient in patients with blunt trauma abdomen with haemoperitoneum, with fast recovery and low hospital stay.

Keywords: Blunt trauma abdomen, haemoperitoneum, laparoscopy

Introduction

A human being exposes himself to a variety of injuries caused by numerous forces like vehicular accident, social conflict, terrorism, crimes, wars, industrial accident and fall from a height. The commonly injured organs are the liver, spleen, kidney, intestines, stomach, pancreas, urinary bladder and vessels. ^[1] Previously all patients with BTA ended up in laparotomy and were managed according to the organ injuries.

The advent and development of new techniques like laparoscopy - minimally invasive surgery (MIS) - have a diagnostic as well as definitive therapeutic role in BTA. The availability of sophisticated instruments, equipments and expert anaesthesiologists make laparoscopy an attractive technique for diagnostic and therapeutic measures in BTA. ^[2] Haemoperitoneum with stable vitals and injury to the liver, spleen, bowel, mesentery and bladder can be managed by laparoscopy. Advanced laparoscopic techniques include bowel resection and anastomosis, ligation of blood vessels can be as efficiently utilised in BTA as an elective open surgery. ^[3],[4],[5] One can visualise the peritoneal cavity and act expeditiously if needed (i.e., laparotomy, laparoscopic-assisted intervention, or only observation) at the time of laparoscopy. ^[6]

This study was planned with the objective of evaluating the therapeutic efficacy of laparoscopy in managing the organ damage in BTA.

Materials and Methods

After institutional ethical committee approval and informed written consent from the patients, a prospective randomised clinical study was carried out in 25 adult patients of either sex, scheduled for laparoscopic intervention in the surgical ward of the Government Medical College and Sir T. Hospital, Bhavnagar. Patients who sustained haemoperitoneum, confirmed in ultrasonography (USG) or Computed Tomogram (CT scan), with relatively stable haemodynamics, were enrolled in this study (blood pressure > 80 mm of mercury systolic and > 15 ml/hour urine output).

Patients with unstable haemodynamics, even after three units of whole blood transfusion (1 unit = 300 cc) and associated EDH (extradural haemorrhage) / SDH (subdural haemorrhage), compound fracture, spine fracture, severe chest injury with low Spo2 (< 90%), haemodynamically unstable, anticipated difficult endotracheal intubation and pregnancy, ^[4] were excluded. General anaesthesia (GA) was administered to all patients.

Trocar placement: ^[7]

The three main ports are:

Umbilical port (10 mm)
Right-sided port (5 mm / 10 mm) - lumbar at anterior axillary line
Left-sided port (5mm/10mm) - lumbar at anterior axillary line
Extra port, if required, is made according to the organ injury usually in the subxiphoid region or in the lower abdomen.

If no complex injuries are found and the patient is haemodynamically stable, focussed therapeutic laparoscopic intervention is done, such as, primary closure of the bowel perforation, primary repair of the bladder rupture in two layers, electrocauterization and spraying of feracryline (hemolock) solution at the injury site on the liver and spleen (contusion, laceration or tear), with no active bleeding, without disturbing the preformed hematoma. ^{[8],[9],[10],[11],[14]}

Results

[Table - 1 ], [Table - 2] and [Table - 3]

Data suggested that two-thirds of the cases are due to road traffic accidents [Figure - 1], [Figure - 2], [Figure - 3], [Figure - 4] and [Figure - 5].

In the present study a total of 25 cases of BTA were studied, out of which 24 cases (96%) were managed laparoscopically and one was converted into an open mini-laparotomy.

Graph 1 suggests different organ injuries in BTA, liver being the most common in our study, in contrast to western countries where the spleen is the most common. ^[15]

[Table - 3] depicts laparoscopic intervention required in various patients. No injuries were detected in two patients other than the non-expanding retroperitoneal haematomas which were left untouched. Hence, the diagnostic value of laparoscopy (98%) has a tremendous value, which corresponds to the Hamish foster series (89%) ^[11] with zero% negative laparotomy.

With 04% failure rates, a single laparoscopy is converted into a mini-laparotomy, for large ileal perforation and hematoma, and managed by resection and anastomosis with the help of a small umbilical port cosmetic incision. ^[12]

Another single patient, who was referred to a higher centre of management of pulmonary embolism on the first post-operative day, not maintaining SpO ₂ even with 6 L of O ₂ support, due to pulmonary embolism, was not included in the study.

[Table - 4] reveals the post-operative management in patients of BTA treated by laparoscopy and supports the conclusion.

Practically no complication was found related to laparoscopy in present study. No morbidity and mortality recorded. There were no missed injuries found [Table - 5].

Conclusion

In second and third decade of life the liver and spleen are common organs involved in BTA.

With the advent of the current laparoscopy, negative laparotomy has reached almost zero per cent in our study.

Laparoscopy provides early mobilisation, early oral intake, fast recovery, early resumption of work, reduced post-operative stay in the hospital and analgesic requirement, with early discharge as compared to laparotomy. The ultimate outcome for the patient is satisfactory and cost-effective.

Limitations: It requires sophisticated instruments and general anaesthesia; hemodynamic stability of the patient, poor visualisation of the seventh and eighth segments of the liver, posterior surface spleen, retroperitoneal organ, pancreas and second part of duodenum.

The question addressed by this study is whether introduction of an aggressive laparoscopy programme would find its acceptance, and will it make a difference or not?

Our data clearly shows that this indeed will occur, however, it requires a further, prolonged, prospective study for obtaining an even better conclusion and interpretation. With advancement in equipment, more people getting trained and the surgeon′s being able to perform technically difficult manoeuvres laparoscopically, it appears that laparoscopy is now closer to replacing emergency laparotomy in the forthcoming future, for the management of Blunt Abdominal Injury.

Acknowledgements

This entire study is an outcome of the very kind, sympathetic and learned guidance of Dr. K.S. Bavishi (M.S.), Dr. H.D. Palekar (M.S.), Dr. G.R. Patel (M.S), and Dr. D. C. Tripathi (M.D.). I am grateful to Dr. B.D. Parmar (M.D.Med.), Dean, Government Medical College and Superintendant, Sir T. Hospital, Bhavnagar and Dean, C.U Shah Medical College, Surendranagar, Gujarat, India, for permitting me to carry out this study in this institute.

References

1.	Brunicardi CF, editor. Schwartz Textbook of principles of Surgery, 8th ed. United States of America: The McGraw-Hill Companies; 2005. p. 160-78. Back to cited text no. 1
2.	Zinner MJ, Ashley SW. Chapter 22, Maingot's abdominal operations 10th ed. United States Of America: The McGraw-Hill Companies; 1997. p. 763-83. Back to cited text no. 2
3.	Bergstein JM, Aprahamian C. Chapter-10, Diagnostic and therapeutic laparoscopy for trauma, textbook of laparoscopic and thoracoscopic surgery. In: Frantzides CT, editor. St. Louis, Missouri: Mosby-Year Book; 1995. p. 155-71. Back to cited text no. 3
4.	Conlon KC, Desmond. Contraindication to laparoscopy. Chapter-19, Textbook Of Master Surgery, 5th ed, Lippincott Williams and Wilkins; 2006. p. 252. Back to cited text no. 4
5.	Nasr W, Collins CL, Kelly JJ. A case report of feasibility of Laparoscopic splenectomy in stable BTA patient. J Trauma 2004;57:887-9. Back to cited text no. 5
6.	Macfadyen BV. Textbook of operative laparoscopy and thoracoscopy. Philadelphia: Lippincott-Raven; 1996. Back to cited text no. 6
7.	Hulka and Reich, editors. Emergency department laparoscopy. Textbook of laparoscopy. 3rd ed, Philadelphia: Saunders Company; 1998. p. 497-501. Back to cited text no. 7
8.	Soper NJ. Laparoscopic small bowel resection and anastomosis. Surg Laparosc Endosc 1993;3:6-12. Back to cited text no. 8
9.	Iannelli A, Fabiani P, Karimdjee BS, Baque P, Venissac N, Gugenheim J. Therapeutic laparoscopy for blunt abdominal trauma with bowel injuries. J Laparoendosc Adv Surg Tech A 2003;13:189-91. Back to cited text no. 9 [PUBMED] [FULLTEXT]
10.	Chol YB, Lim KS. Therapeutic laparoscopy for abdominal trauma. Surg Endosc 2003;17:421-7. Back to cited text no. 10 [PUBMED] [FULLTEXT]
11.	Foster H. Laparoscopy: A useful technique for general surgeon. ANZ J Surg 1988;58:47-50. Back to cited text no. 11
12.	Smith J, Caldwell E, D'Amours S, Jalaludin B, Sugrue M. Abdominal trauma: A disease in evolution. ANZ J Surg 2005;75:790-4. Back to cited text no. 12 [PUBMED] [FULLTEXT]
13.	Townsend MC, Flancbaum L, Choban PS, Cloutier CT. Diagnostic laparoscopy as an adjunct to selective conservative management of solid organ injuries after blunt abdominal trauma. J Trauma 1993;35:647-51. Back to cited text no. 13 [PUBMED]
14.	Gagner M, Rogula T, Selzer D. Laparoscopic liver resection benefits andcontroversies. Surg Clin N Am 2004;84:451-62. Back to cited text no. 14 [PUBMED] [FULLTEXT]
15.	Nance FC, Cohn, Davis JJ. Diagnosis and management of blunt trauma of abdomen. J Trauma 1994;36:377-84. Back to cited text no. 15

The following images related to this document are available:

Photo images

[ma11040t3.jpg] [ma11040t2.jpg] [ma11040f2.jpg] [ma11040f4.jpg] [ma11040t1.jpg] [ma11040g1.jpg] [ma11040t4.jpg] [ma11040f5.jpg] [ma11040t5.jpg] [ma11040f3.jpg] [ma11040f1.jpg]

Home	Faq	Resources	Email Bioline
© Bioline International, 1989 - 2024, Site last up-dated on 01-Sep-2022. Site created and maintained by the Reference Center on Environmental Information, CRIA, Brazil System hosted by the Google Cloud Platform, GCP, Brazil