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Year : 2019  |  Volume : 13  |  Issue : 4  |  Page : 356-358

Anesthetic management of stab wound in right ventricle of heart

Anaesthesia Department, Aga Khan University Hospital (AKUH), P.O. Box. 3500. Stadium Road, Karachi, Pakistan

Correspondence Address:
Dr. Muhammad Saad Yousuf
Aga Khan University Hospital, P.O. Box. 3500. Stadium Road, Karachi - 74800
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Source of Support: None, Conflict of Interest: None

DOI: 10.4103/sja.SJA_2_19

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Date of Web Publication5-Sep-2019


Stab wound in right ventricle of heart requires a prompt and focused surgical intervention. Cardiac tamponade is a common finding when dealing with stabbed hearts, which must be diagnosed and treated in a timely fashion. We report a case of 28-year-old man who presented in emergency department following accidental stab trauma during a religious ceremony. The challenges faced in the perioperative period were the management of impending cardiac tamponade and hemodynamic stability.

Keywords: Cardiac tamponade; hemorrhage; stab wound

How to cite this article:
Yousuf MS, Ullah H. Anesthetic management of stab wound in right ventricle of heart. Saudi J Anaesth 2019;13:356-8

How to cite this URL:
Yousuf MS, Ullah H. Anesthetic management of stab wound in right ventricle of heart. Saudi J Anaesth [serial online] 2019 [cited 2023 Mar 27];13:356-8. Available from:

  Introduction Top

Stabbed hearts are surgical emergencies that require a prompt and focused surgical intervention. Internationally, the incidence of stabbed hearts varies, with a higher incidence in developing countries.[1],[2] In the majority of the identified literature, the right ventricle was the predominant chamber damaged during a stab to the heart.[3],[4] This is due to the normal anatomical position and orientation of the right ventricle within the thoracic cavity. Cardiac tamponade is a common finding when dealing with stabbed hearts.[5]

Patients presenting with major injuries requiring emergency surgery is a great challenge to the anesthesiologist and it frequently present to the operating room in an urgent manner. There is generally little time to fully evaluate the patient. This case report presents the anesthetic management of an adult male, presented in emergency department with a stab wound injury on left side of the chest, who underwent emergency sternotomy for pericardial breech, cardiac tamponade, and right ventricular tear.

  Case Report Top

A 28-year-old man with no known comorbid presented in emergency department with complain of pain over left side of chest following accidental stab trauma during a religious ceremony. Physical examination showed a stab wound on left side of anterior chest wall just next to sternal border with bulging of left side of chest; GCS of 15/15; heart rate of 112 bpm; blood pressures of 72/44 mmHg; oxygen saturation of 98% on face mask of 5 L/min oxygen; respiratory rate of 26/min, and decreased air entry on left lower hemithorax. Initial baseline blood investigations were normal and chest x-ray showed basal atelectasis on left lower lobe of lung. On echocardiogram, there was no pericardial effusion or other abnormality.

Patient was transported to operating room immediately for emergency sternotomy. In the operating room, routine monitoring was applied including electrocardiography, noninvasive blood pressure, pulse oximetry, and two large bore intravenous cannulas were inserted. His base line blood pressure in operating room was 90/50 mmHg, heart rate of 108 beats/min, and oxygen saturation was 98% on 5 L/min oxygen. Preinduction arterial line was inserted in left radial artery. Rapid sequence induction technique was used for induction of anesthesia. After preoxygenation, anesthesia was induced with midazolam, ketamine, succinylcholine, and nalbuphine. The trachea was intubated using rapid sequence induction and patient was mechanically ventilated. Central venous pressure (CVP) line was then inserted in right internal jugular vein and baseline central venous pressure was 19 cm of H2O. On the basis of high CVP and hemodynamic instability, an initial diagnosis of impending cardiac tamponade was made. Although on preoperative echocardiogram, there was no pericardial effusion or other abnormality identified. Anesthesia was maintained with isoflurane with oxygen–air mixture and atracurium was used for muscle relaxant. Intraoperatively, ketorolac, and paracetamol were given for analgesia.

After sternotomy, it was found that the stab trauma had breeched the chest wall along with pericardium. After the opening of pericardium, 300 mL of fresh blood with clots were evacuated. CVP was then decrease to 6 cm of H2O from 19 cm of H2O. There was a laceration of about 2 cm just lateral to left anterior descending artery in right ventricle, which was then repair and closed with pledgets and sutures [Figure 1]. After securing the hemostasis, chest was closed. Fluid resuscitation was done with gelofusine (1 L) and normal saline 0.9% (1 L). Total blood loss was ~500 mL intraoperatively. Patient was shifted to cardiac intensive care unit (CICU) for further management. He remained stable in the CICU. Patient was weaned from ventilator and extubated a few hours later after fulfilling the extubation criteria. On first postoperative day, he was shifted to special care unit and was discharged on fourth postoperative day.
Figure 1: Stab wound in right ventricle of heart. Repaired

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  Discussion Top

The rising incidence of violence has resulted in increasing penetrating cardiac injuries, which remain a highly lethal condition. Victims are predominantly male.[6] Campbell et al. found that only 6% of patients with penetrating cardiac injury reached the hospital alive.[7] In contrast with this, some studies reported high survival rate up to 90% but exclude the physiological status upon presentation of these critical patients and they are biased by reporting only patients in good physiological condition at admission. In the majority of patients (>80%) having stab wound of the heart, cardiac tamponade occurs,[8] whereas the right ventricle was the predominant chamber damaged during a stabbing to the heart.[3],[4]

In this case, a stab wound injury was on left side of the chest during a religious ceremony. The patient had no symptoms/signs of lung injury, such as shortness of breath, wheezing, or subcutaneous emphysema. His room air oxygen saturation (SpO2) was 100%, whereas the chest radiograph was normal. On auscultation, there was decreased air entry on left lower hemithorax. There were no signs of cardiac injury, such as muffled heart sounds, distended neck veins besides the hemodynamic instability. Echocardiogram was also normal. However, these classic signs are almost universally absent in traumatic cardiac tamponade.[9]

Asensio et al.[10] reported a 74% mortality rate for patients with penetrating cardiac injuries who arrived at hospital intubated, this along with the reported 82% of patients without a blood pressure and 88% without a pulse would indicate that pre-hospital intubation occurred when patients are severely hemodynamically unstable. Almost three quarters (74%) of patients in this study were intubated in theatre. This could imply that most of the hospitalized patients with stabbed hearts were relatively hemodynamically stable, therefore surviving to hospital admission.

When patient was first received at causality, his SBP was 72 mm Hg, which was brought up to 90 mm Hg by giving 500 mL of colloids and 1 L of crystalloids.

Induction of anesthesia may lead to a dramatic loss of blood pressure as occurs with propofol or there is a risk of corticosteroid synthesis suppression (in the adrenal cortex by inhibiting 11-β-hydroxylase) with etomidate administration. So, care should be taken with the choice of induction agent. Considering the hypovolemic status, it was decided to insert arterial line preinduction in operating room and induce the patient with intravenous ketamine.

Since trauma patients are considered as full stomach, rapid sequence induction or modified rapid sequence induction (MRSI) is required to secure the airway to prevent aspiration, which is in keeping with what was reported by Knott-Craig et al.[11] We used MRSI technique for intubation in this case to prevent aspiration.

This is not an uncommon occurrence as even hemodynamically stable and relatively stable patients can often become unstable intraoperatively when volatile anesthetic agents are used. So, anesthesia was maintained with 0.7%–0.8% isoflurane with oxygen–air mixture and propofol infusion of 2 mg/kg/h.

Although the diagnosis of cardiac tamponade can be suspected on history and physical exam findings, but the use of bedside echocardiography is the best imaging modality. It confirms the presence of pericardial effusion and determines its size. We found only unstable hemodynamics preoperatively; otherwise, rest of the findings including echocardiography were normal. The diagnosis of impending cardiac tamponade was made perioperatively on the basis of raised CVP, which was then confirmed on wound explorations and 300 mL of blood and clots were evacuated after opening of pericardium.

In literature, it is suggested that large volume fluid therapy should be avoided prior to hemorrhage control. Once it is controlled, patients will need rapid correction of hypovolemia to refill the heart and restore perfusion to nonvital organ systems. Patients will be cold and profoundly coagulopathic. Blood and component therapy should be warmed and administered rapidly after hemorrhage is controlled.[9] So, here, we maintained the patient with two intravenous lines and CVP and resuscitate with crystalloids and colloid till tear was repaired.

One of the major intraoperative management goals for stabbed hearts is the active resuscitation with fluids to combat the severe hypovolemia. Early and adequate fluid resuscitation will result in reduced intraoperative inotropic requirements, provide relative hemodynamic stability for surgical repair, and decrease postoperative neurological fall out. An adequate mean arterial pressure is required by the surgeons once cardiography has been completed in order to see if there are any other injuries or further bleeding. Ideally, the volume of blood lost should be replaced in equal volume with either cell salvage or blood products. The use of adrenaline or inotropes is contraindicated in the presence of hypovolemia. Inotropes may be required after control of hemorrhage and cardiac repaired.[9]

  Conclusion Top

Stabbed hearts are surgical emergencies that require a prompt and focused anesthetic intervention. Maintenance of optimal blood volume and judiciary use of inotropes may be lifesaving. A systematic approach to these patients is necessary so that other life-threatening lesions are treated appropriately and in a timely fashion.

Declaration of patient consent

The authors certify that they have obtained all appropriate patient consent forms. In the form the patient(s) has/have given his/her/their consent for his/her/their images and other clinical information to be reported in the journal. The patients understand that their names and initials will not be published and due efforts will be made to conceal their identity, but anonymity cannot be guaranteed.

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Conflicts of interest

There are no conflicts of interest.

  References Top

Costa Cde A, Birolini D, de Araujo AO, Chaves AR, Cabral PH, Lages RO, et al. Retrospective study of heart injuries occurred in Manaus - Amazon. Rev Col Bras Cir 2012;39:272-9.  Back to cited text no. 1
Ezzine SB, Bouassida M, Benali M, Ghannouchi M, Chebbi F, Sassi S, et al. Management of penetrating cardiac injuries in the Department of surgery, Mohamed Thahar Maamouri Hospital, Tunisia: Report of 19 cases. Pan Afr Med J 2012;11:54.  Back to cited text no. 2
Clarke DL, Quazi MA, K R, Thomson SR. Emergency operation for penetrating thoracic trauma in a metropolitan surgical service in South Africa. J Thorac Cardiovasc Surg 2011;142:563-8.  Back to cited text no. 3
Rodrigues AJ, Furlanetti LL, Faidiga GB, Scarpelini S, Barbosa Evora PR, de Andrade Vicente WV. Penetrating cardiac injuries: A 13-year retrospective evaluation from a Brazilian trauma center. Interact Cardiovasc Thorac Surg 2005;4:212-5.  Back to cited text no. 4
Clarke DL, Quazi MA, K R, Thomson SR. Emergency operation for penetrating thoracic trauma in a metropolitan surgical service in South Africa. J Thorac Cardiovasc Surg 2011;142:563-8.  Back to cited text no. 5
Naughton MJ, Brissie RM, Bessey PQ, McEachern, MM, Donald JM Jr, Laws HL. Demography of penetrating cardiac trauma. Ann Surg 1989;209:676-81.  Back to cited text no. 6
Campbell NC, Thomson SR, Muckart DJ, Meumann CM, Van Middelkoop I, Botha JB. Review of 1198 cases of penetrating cardiac trauma. Br J Surg 1997;84:1737-40.  Back to cited text no. 7
Crawford FA Jr (M.D.). Penetrating Cardiac Injuries, Sabiston Textbook of Surgery, 15th ed. Karachi, Pakistan: W.B. Saunders; 1997. p. 1956-60.  Back to cited text no. 8
Brohil K. Thoracic trauma, Truama. Org 6;6:2001:1-3.  Back to cited text no. 9
Asensio JA, Murray J, Demetriades D, Berne J, Cornwell E, Velmahos G, et al. Penetrating cardiac injuries: A prospective study of variables predicting outcomes. J Am Coll Surg 1998;186:24-34.  Back to cited text no. 10
Knott-Craig CJ, Dalton RP, Rossouw GJ, Barnard PM. Penetrating cardiac trauma: Management strategy based on 129 surgical emergencies over 2 years. Ann Thorac Surg 1992;53:1006-9.  Back to cited text no. 11


  [Figure 1]

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