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Cough Headache Responsive to Occipital Nerve Blockade

Published online by Cambridge University Press:  11 March 2024

Aqeel Almutairi
Affiliation:
Department of Clinical Neurological Sciences, Western University, London, ON, Canada
Tommy Lik Hang Chan*
Affiliation:
Department of Clinical Neurological Sciences, Western University, London, ON, Canada
*
Corresponding author: T. L. H. Chan; Email: [email protected]
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Abstract

Type
Letter to the Editor: New Observation
Creative Commons
Creative Common License - CCCreative Common License - BYCreative Common License - NCCreative Common License - ND
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Copyright
© The Author(s), 2024. Published by Cambridge University Press on behalf of Canadian Neurological Sciences Federation

A 71-year-old female with atrial fibrillation on apixaban and chronic neck pain was referred to the headache clinic with a 1-year history of new-onset bilateral moderate to severe occipital stabbing headache associated with Valsalva manoeuvres such as coughing and sneezing. It reaches maximal intensity within 1 s and lasts for 2–5 s. Between attacks, she would be pain-free. No other triggers were identifiable. Self-administered as needed Ibuprofen 200–400 mg provided no relief.

The diagnosis of primary cough headache was suspected by a referring neurologist, who suggested a trial of indomethacin. However, the patient declined due to apprehension regarding daily oral medication because of her advanced age, cardiac history, and potential drug–drug interactions with oral anticoagulation.

Her neurological examination was unremarkable except for tenderness on palpation in the nerve distribution supplied by the greater occipital and lesser occipital nerves bilaterally (Fig. 1). MRI with angiogram of the head did not reveal any structural, vascular, or posterior fossa lesion to explain her headache.

Figure 1: Greater and lesser occipital nerve distribution. Landmarks and injection sites (arrows): greater occipital nerve, 2/3 from mastoid process (circle) to occipital protuberance (square); lesser occipital nerve, 1/3 from mastoid process (circle) to occipital protuberance (square).

Based on the examination and her treatment preference, nerve blocks with local anaesthetics were initiated. A total of 10 ml of bupivacaine 0.5% (5 mg/ml) without steroids was injected into the greater (3 ml each side) and lesser (2 ml each side) occipital nerves (Fig. 1). Pain freedom was achieved after injection, and subsequent coughing or sneezing did not trigger a headache. The response was sustained for 3–4 weeks post-injection, with only mild re-emergence of headache (lower frequency and intensity) 3–4 days before the next set of injections when transitioned to monthly injections.

Cough headaches can be either primary or secondary. Secondary cough headache can be associated with space-occupying or posterior fossa lesions such as subtentorial tumours or Chari malformation type 1. Primary cough headache can only be diagnosed if a secondary cause has been ruled out. It is a rare headache disorder with a lifetime prevalence of 1% and a mean age of onset above 60 years old. Reference Rasmussen and Olesen1,Reference Cordenier, De Hertogh, De Keyser and Versijpt2 It is precipitated only by cough or Valsalva manoeuvres such as sneezing. The headache is often sudden in onset, lasting between 1 s and 2 hours and localised to the occipital region. Reference Olesen3

The pathophysiology of primary cough headache is not well understood. It has been hypothesised that there is an increase in intracranial pressure caused by coughing (increase in intrathoracic and intra-abdominal pressure). A more crowded posterior cranial fossa may be seen in patients with primary cough headache, supporting the hypothesis of a relative obstruction of cerebrospinal fluid flow during coughing. Reference Chen, Lirng, Fuh, Chang, Cheng and Wang4 Indomethacin is the preferred drug, and its effect on Valsalva-induced headaches may be due to a reduction in intracranial pressure. Reference Godoy, Alvarez, Manzi, Piñero and Di Napoli5,Reference Förderreuther and Straube6 Other treatments/methods that lower intracranial pressure have been reported in treating primary cough headache, such as topiramate and large volume cerebrospinal fluid removal. Reference Medrano, Mallada, Sempere, Fernández and Piqueras7,Reference Raskin8 Neuromodulation such as non-invasive vagal nerve stimulation has been reported as well, but the mechanism has not been fully elucidated. Reference Moreno-Ajona, Villar-Martínez, Goadsby and Hoffmann9

In this case, nerve block to the occipital nerves was suggested based on examination findings, and the response was dramatic. It could be hypothesised that rapid changes in head and neck position during coughing may have triggered transient compression and/or local perineural inflammation of the occipital nerves, which originate from the C2–C3 spinal nerves. The patient has chronic neck pain, which may suggest a predisposing risk factor.

The response to nerve block raised a possible alternative presentation of primary cough headache: it may present similarly to occipital neuralgia as pain is caused by transient compression of occipital nerves during coughing or sneezing, rather than transient high intracranial pressure. This observation suggests that primary cough headaches, especially those with shorter attack duration (lasting for seconds), may be occipital neuralgia-like. It is possible this is a case of cough-induced (associated with neck movement) occipital neuralgia. A limitation of this case is that if the headache was induced by nerve compression, it should also be triggered by similar neck movement rather than only coughing or sneezing; however, the patient did report she has been very careful with her day-to-day neck movement due to chronic neck pain. Another limitation of this case is cervical spine imaging was not performed.

The presence of wearing off of nerve block prior to the next treatment is suggestive of ongoing nerve block benefit; however, the duration of the analgesic effect from nerve block remains unpredictable. The use of nerve block can minimise the risk of systemic side effects associated with conventional oral medications for primary cough headache, such as indomethacin. A clue to predicting the response to nerve block may be elicited on examination based on tenderness on palpation in the respective nerve distribution; hence, local tenderness as a selection criterion should be considered in future trials.

Data availability statement

The material analysed during the current case is available from the author on request.

Acknowledgements

None.

Author contributions

Dr AA and Dr TLHC assessed, examined the patients, and wrote the manuscript.

Funding statement

None.

Competing interests

Dr Aqeel Almutairi and Dr Tommy Lik Hang Chan have no conflicts of interest (financial or non-financial) to disclose relevant or pertain to this study.

Consent

Informed written consent was obtained from the patient.

References

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Figure 0

Figure 1: Greater and lesser occipital nerve distribution. Landmarks and injection sites (arrows): greater occipital nerve, 2/3 from mastoid process (circle) to occipital protuberance (square); lesser occipital nerve, 1/3 from mastoid process (circle) to occipital protuberance (square).