Safety and efficacy of addition of hyaluronidase to a mixture of lidocaine and bupivacaine in scalp nerves block in elective craniotomy operations; comparative study

Patients undergoing craniotomy operations are susceptible to many injurious and painful stimuli such as skin incision, insertion of cranial pins, Dural incision, Dural and skin closure. The use of corticosteroids, site and type of operation as well as the age and sex may interfere with pain severity. Strategies to blunt and attenuate the stress response to these noxious stimuli include administration of systemic opioids, deepening the level of anaesthesia and scalp nerve blocks [1, 2].

Using regional anaesthetic techniques in addition to general anaesthesia have been conducted to benefit from multimodality managements for post-craniotomy pain and to decrease systemic administration of analgesics, hence to decrease their systemic undesired implications [2].

The stress response is the hormonal and metabolic changes that follow injury or trauma. This includes wide range of endocrinal and immunological effects. The stress response to surgery is characterized by increased secretion of pituitary hormones and activation of the sympathetic nervous system. Consequently, catecholamines secretion from adrenal medulla increase along with norepinephrine release from presynaptic nerve terminals [3, 4]. Blocking the scalp nerves using 0.5% bupivacaine combined with lidocaine 2%is readily used to decrease hemodynamic response during and after craniotomy operations [5, 6].

In the current study, the effects of adding hyaluronidase to the local anesthetic mixture in scalp nerves block were observed, in patients undergoing relatively non-lengthy craniotomy operations.

After approval by local department and hospital scientific and institutional ethics committee (number N-58/2017), this prospective, randomized, double-blind, comparative trial was conducted from February 2018 to April 2018. This prospective randomized clinical trial was registered in ClinicalTrials.​gov (ID: NCT03411330), afterwards it was conducted in neurosurgery theatre of the Cairo university hospitals after obtaining written informed consent from all participants before enrolment in the study. The study was carried out on 64 American Society of Anesthesiologists (ASA) I-II patients aged between 18 and 60 years, undergoing elective supratentorial craniotomy operations under GA. Operations were performed in the supine position with estimated time range 4–6 h. Patients undergoing surgeries to remove pituitary tumors or lasting more than 6 h were excluded. Patients refusing operation, with history of allergy to the used drugs or postoperative GCS less than 12 on arousal with no improvement till admission to ICU were also excluded as investigators were not able to assess VAS. (Fig. 1).

All patients were told about the procedure, advantages and risks during the preoperative assessment done 1 day prior to surgery. Upon the arrival to the operating theater five lead ECG, pulse oximetry, non-invasive blood pressure and invasive blood pressure were applied to all patients. The latter measured by a transducer connected to arterial catheter which was inserted preoperatively in the non-dominant hand under local anesthesia after negative modified Allen’s test,. Peripheral nerve stimulator was added to monitor the degree of muscle relaxation.

Anaesthesia was induced by Propofol (2 mg/kg), (fentanyl 2 μg/kg) and intubation facilitated by using atracurium (0.5 mg/kg). Central line was inserted in the right internal jugular vein.

Sixty-eight patients, scheduled for elective craniotomy agreed on participating in the study; of these four patients were excluded for not meeting the inclusion criteria. Thereby, remaining 64 were randomly divided into two groups. All patients completed the study.

The present study intended to evaluate the effects of adding hyaluronidase to the classic local anaesthetic mixture used in the scalp nerves block. It showed significant difference about the analgesic effects where the VAS values in the hyaluronidase group were significantly lower than the local anesthetic group in the first 8 h postoperatively, the number of patients requiring intraoperative rescue analgesic opioids was significantly lower in the hyaluronidase group as well. Moreover, the first time to seek analgesia was significantly longer in the hyaluronidase group. When looking at hemodynamics, they were favorable during the intraoperative and early postoperative periods in the hyaluronidase group especially for the HR and the SBP. On the other hand, there was no significant difference in the levels of IL-6 between both groups, and no obvious relation between IL-6 and the periods of stress nor the analgesic state. Though it was thought that hyaluronidase may increase blood loss due to its vasodilating effects [11], there was no difference in the bleeding profile as evidenced by comparable hemoglobin levels between the two groups. Furthermore, no significant observed difference in adverse effects between groups.

The results of the current study could be attributed to the action of hyaluronidase in degrading hyaluronic acid, a basic component of extracellular tissue, resulting in spreading of local anaesthetic and a better block [12]. In the modern anesthetic practice, hyaluronidase is used frequently in the ophthalmic blocks [10] recently it has been introduced to the interventions for chronic pain management [13, 14].

Several studies investigated the intraoperative and postoperative effects of adding hyaluronidase to different local anaesthetic mixtures in several blocks, however studies related to its use as adjunct to scalp nerve blocks are difficult to find. In a study by Sedghipour M. and colleagues, addition of hyaluronidase significantly improved the ocular akinesia in sub-Tenon’s anesthesia; in addition, it enhanced the intra-operative patients and surgeons’ satisfaction, and attenuated the postoperative pain as measured by VAS [10]. A further study by Chaudhari AV and colleagues investigated the effect of hyaluronidase combined to local anaesthetic in inguinal hernia block, it reported excellent and prolonged analgesia. Pain scores were statistically lower in the hyaluronidase group at 2 and 6 h postoperative as well as the number of patients requiring intraoperative analgesia [15]. Both studies are congruent with the current study as regards the favorable analgesic effects of adding hyaluronidase to local anesthetic mixtures during intraoperative and early postoperative periods.

On the other hand, Keeler JF and colleagues studied the effect of addition of hyaluronidase to bupivacaine in brachial plexus block, they reported shorter duration of the postoperative analgesia in the hyaluronidase group, and this was attributed to the enhanced absorption of the anesthetic with addition of hyaluronidase [16]. In addition, Koh WU and colleagues studied the effects of adding hyaluronidase to ropivacaine in axillary brachial plexus block and found no significant difference in the required intraoperative and postoperative analgesia between the control group and the hyaluronidase group and although the duration of postoperative analgesia was shorter in the hyaluronidase group, the result was insignificant [12]. Those results are contradictory with the current results, the different anaesthetic used, different number of patients, different dosage of drugs and different techniques of anaesthesia may explain the dissimilar outcome.

Measures of heart rate and blood pressure as a result of interaction between sympathetic and parasympathetic systems were used to assess nociception under general anesthesia, the use of local anesthetics as adjuncts to general anesthesia are supposed to improve patient response to noxious stimuli under general anesthesia [17, 18]. Tuchinda L and colleagues demonstrated a favorable effect of scalp nerves block using 2 different bupivacaine concentrations (0.5 and 0.25%) in relation to noxious stimuli as head pinning and skin incision. MAP was lower in both groups than the control group at those periods of increased stimulation [2]. Additionally, in an interesting study, Akcil EF and colleagues investigated the effects of scalp block with 0.5% bupivacaine on haemodynamics and postoperative analgesic requirements in patients undergoing infratentorial craniotomies, they compared scalp block with local anaesthetic infiltration and a control group receiving remifentanyl, they found favorable effects on haemodynamics specially at the time of pinning in the scalp block group in comparison to the other 2 groups, the scalp block as well decreased the VAS in the early postoperative period and total opioid consumption in comparison to the control group [19]. The results support the outcome of the current study as hyaluronidase may have further potentiated the effect of scalp block resulting in a better control of hemodynamics during periods of increased stress.

Conversely, a study by Torelli MJ and colleagues investigated the effects of adding hyaluronidase to mepivacaine on the heart rate and the blood pressure in patients subjected to dental surgeries. They didn’t find a statistically difference between the control group and the investigational arm. The contradiction may be due to the smaller number of drugs injected in dental surgeries, the smaller area of diffusion and the different type of local anaesthetic used [20].

M. Heesen and colleagues measured the levels of interlukin-6 during craniotomy operations, they reported rise in the plasma IL-6 during and after operations, they attributed the relatively high elevation of IL-6 due to spill out from the brain tissue after disruption of the blood brain barrier as the brain is a source of IL-6 [21]. The results of the current study are consistent with this point of view.

The study may be performed in cases of awake craniotomy which may yield a more accurate assessment of the quality of the block as well as its onset which was missing in the current study. Further studies may be conducted with different doses of local anaesthetic to find out the best combination. The size of the incision and exact duration of surgery should be added in subsequent studies.

To sum up, the present data suggest that addition of hyaluronidase to the classic mixture of local anesthetics improves the quality of the block. It provides better control of the hemodynamics especially during the stressful periods such as dural incision and skin closure, thus, decreasing the need for additional doses of opioids with subsequent potential adverse effects. The analgesic effect extends into the early postoperative allowing smooth recovery and delaying the first analgesic request. No evident undesirable effects while using hyaluronidase as adjunct to local anaesthetic during scalp nerve blocks.