Putaminal Hemorrhagic Stroke, Surgical Intervention and Rehabilitation Challenges in Pakistan: A Case Report and Review
Maria A Parekh* and Atta U Bhatti
Department of Neurosurgery, South City Hospital, Pakistan
Submission: April 24, 2017; Published: August 29, 2017
*Corresponding author: Maria A Parekh, Department of Neurosurgery, South City Hospital, Karachi-75600, Pakistan, Tel: +92-21-35862301-3; Fax: +92-21-35878639; Email: m.afridi.perekh@gmail.com
How to cite this article: Maria A P, Atta U B. Putaminal Hemorrhagic Stroke, Surgical Intervention and Rehabilitation Challenges in Pakistan: A Case Report and Review. Open Access J Neurol Neurosurg. 2017; 5(4): 555667. DOI: 10.19080/OAJNN.2017.05.555667
Abstract
Introduction: Considerable controversy still surrounds the role of early neurosurgical intervention in patients with intracerebral hemorrhage despite several trials conducted over the past 5 decades. Case fatality and functional outcomes are disappointing, with stroke continuing to represent the leading cause of long-term disability worldwide. The dearth of multidisciplinary neurorehabilitation centers and teams in Pakistan to address the neuroplasticity potential in the chronic phase of stroke recovery has left stroke survivors to cope with significant physical, cognitive, and emotional disability, and unable to integrate back into society.
Case description: We present the case of a 72-year old gentleman with putaminal hemorrhage, who was admitted initially for conservative management. Worsening cognition due to continued bleeding necessitated emergency craniotomy, as a life-saving measure, via the trans-Sylvian anterior insular approach within 10 hours of admission. Two months down the line, his contra lateral hemi neglect and hemiparesis renders him dependent on his spouse and a live-in nurse for activities of daily living (ADL).
Conclusion: Less invasive surgical techniques may prove to be more beneficial than conventional craniotomy in hemorrhagic stroke patients. With escalating numbers of stroke cases in Pakistan, there is a dire need to establish organized multidisciplinary stroke care units. Not only will this reduce mortality rates, long-term disability and the economic burden but may also enhance recovery and increase ADL independence.
Keywords: Putaminal hemorrhage; Trans-sylvian anterior insular approach; Craniotomy; Neuro rehabilitation; Pakistan
Introduction
The United States has seen the relative rate of stroke death fall by 35.8% and the actual number of stroke deaths decline by 22.8% from 2000 to 2010, primarily due to reduced stroke incidence and lower case fatality rates [1]. Despite substantial progress in acute stroke care over the last few decades, stroke continues to be the leading cause of long-term disability in the United States [2]. The numbers are catastrophic in Southern Asia3 due to increased life expectancy, poor awareness of preventative measures, and an escalating burden of stroke. In 2001, WHO estimated that 86% of deaths related to stroke worldwide occurred in developing countries [3], with 350,000 new cases annually in Pakistan alone [4]. Stroke epidemiology in this region also differs in terms of a higher incidence at younger ages (occurring about 10 years earlier than in the West), a higher prevalence of hemorrhagic stroke, and higher age-specific prevalence rates of stroke in women [5].
Spontaneous intracerebral hemorrhage (ICH) is the most devastating subtype, comprising approximately 10-15% of all strokes, which translates to 4 million patients worldwide each year, with a median case fatality of 40% at 1 month [6]. A higher percentage of hemorrhagic stroke (22-31%) has been reported in Pakistan, presumably reflecting increased prevalence and poor control of hypertension in this region [3].
Several trials have compared early surgical hematoma evacuation with initial conservative medical treatment in ICH patients, but have failed to show significant differences in the outcomes of these two groups [7-12]. The international multicenter STICH II trial suggested a statistically nonsignificant trend towards more favorable outcomes for surgery for select candidates [11]. However, this contrasted with a nationwide population-based study in the US, which advocated a highly conservative stance toward surgery for patients with non-traumatic ICH [13]. In the absence of clear guidelines and conclusive results, the decision largely rests on the physician's expertise and understanding of individual clinical prognostication, in addition to institutional practices and patient preferences.
Stroke is undoubtedly a complex disease process, the rehabilitation of which requires considerable collaborative work by an interdisciplinary team with a holistic, comprehensive, interactive approach [14]. Certified rehabilitation counselors, neuropsychologists, rehabilitation nurses, and occupational, physical and recreational therapists are only some of the key people involved in this team [15]. There is strong evidence that organized, interdisciplinary stroke care will not only reduce mortality rates and the likelihood of institutional care and longterm disability but also may enhance recovery and increase independence [16,17].
Of the 23 centers providing physical medicine and rehabilitation in Pakistan, a majority is concentrated in armed forces hospitals, most of them without a multidisciplinary approach [18]. In fact, the very concept of a multidisciplinary approach, beyond a nurse and a physical therapist for stroke rehabilitation, surprises many.
Clinical Case
Our patient was a 72-year old right-handed gentleman, with known hypertension, NYHA functional class I, who presented to the Emergency Department with sudden onset drowsiness and slurred speech for the last 40 minutes. There was no history of trauma, or coagulopathies, and the patient was not on any anticoagulant or blood-thinning therapy. On examination, this gentleman was fully conscious with a GCS of 15, facial palsy, right-sided hemiparesis and hemisensory loss with a positive Babinski sign. The rest of the cranial nerve, cerebellar and fundoscopic examination revealed no abnormalities.
EKG showed normal sinus rhythm, with tachycardia (97 bpm). His initial blood pressure was 187/101mmHg, which was managed pharmacologically and brought down to 170/90mmHg within an hour. Random blood sugar at the time of presentation was measured to be 167mg/dl.
CT brain was performed and revealed acute intraparenchymal bleed in the left putamen, with no midline shift, intraventricular hemorrhage, hydrocephalus, or extension to the internal capsular region. The volume of the hematoma was estimated, as defined by Broderick et al. [19], to be 10.9 cm3.
We decided to admit the patient to the ICU for conservative management, to be reassessed radiologically within 24 hours. However, within 10 hours of admission, his cognition declined rapidly and he became drowsy with no motor or verbal responses. MRI was performed immediately, and revealed the lesion had substantially increased to 54cm3 with surrounding edema and hemorrhage extending to both lateral ventricles.
As a life-saving measure, an emergency parieto-temporal craniotomy employing the trans-Sylvian anterior insular approach was performed to evacuate the hematoma. He was successfully extubated within 24 hours of surgery. He was awake but disoriented, with no speech and only withdrawal to pain on the hemiparetic side. (GCS 8/15). His post-operative stay was significant for hypertensive episodes, which was managed pharmacologically. He also experienced significant abdominal distension despite normal potassium levels, bowel sounds, and passage of stools in the flatus tube.
Two months down the line, this social gentleman can clearly vocalize 4-5 words, comprehend commands, communicate via gestures, and demonstrates withdrawal from pain in the right upper limb. There is an element of hemineglect, and he does require assistance with his daily activities. His wife is his primary caretaker, along with a live-in nurse. Physical and occupational therapy sessions are conducted in-house twice weekly.
Discussion
The effectiveness of craniotomy in the treatment of ICH remains exceedingly controversial. Individual trials, completed and published in the English language over the past 5 decades, have failed to show a statistically significant improvement in outcomes of surgically treated ICH patients [7-12]. The benefits of mass effect reduction, blockage of neuropathic products release from the hematoma, and prevention of prolonged interaction between the hematoma and normal tissue are countered by the neural damage incurred during the craniotomy to the hematoma and by the possible recurrence of bleeding as a result of the loss of the tamponade effect of the surrounding tissue [20].
In our case, craniotomy via the trans-Sylvian anterior insular approach was performed as a life-saving measure. This approach, first described in 1972 by Suzuki & Sato [21] for evacuation of hypertensive basal ganglia hematomas, was chosen for its suitable angle, shorter course through neural tissue to limit damage and maximize reduction of the inflammatory triggers [22].
Other less invasive surgical techniques may be more beneficial, including endoscopic-assisted ICH evacuation. Currently underway is the National Institutes of Neurological Disorders and Stroke funded trial - MISTIE (Minimally Invasive Surgery Thrombolysis Plus Recombinant Tissue- type Plasminogen Activator for ICH Evacuation), and its surgical arm ICES (Intraoperative Computed Tomography- guided Endoscopic Surgery) for ICH [23]. The minimal access techniques investigated, in addition to other studies employing the stereotactic delivery of tissue plasminogen activator (tPA) to dissolve clots and tPA to dissolve intraventricular hemorrhages [23-25] might be more beneficial for deep clots, intraventricular hemorrhage, and specific subsets of patients with superficial ICH.
Management of blood pressure
Elevated blood pressure is common after ICH, even without prior history of hypertension, and is associated with expansion of the hematoma and a poor outcome. Our patient experienced several hypertensive episodes during his post-operative hospital stay, which were mediated pharmacologically. Usually secondary to uncontrolled chronic hypertension and a nonspecific response to stress, it can also be a protective response (referred to as the Cushing-Kocher response) to preserve cerebral perfusion. Considerable controversy surrounds the initial treatment of blood pressure after an intracerebral hemorrhage, reflecting the argument of cerebral autoregulation that has adapted to blood pressures than normal versus an elevated intracranial pressure compromising the cerebral perfusion pressure [20]. The notable INTERACT2 trial, investigating early intensive blood pressure lowering to <140mmHg within one hour, as compared to the standard guideline recommended treatment of <180mmHg, have not shown a significant reduction in the rate of the primary outcome of death or major disability, but suggests improvement of functional outcomes [26]. A detailed discussion is beyond the scope of this article.
Anatomical localization
Not many studies have investigated putaminal hemorrhage as a distinct localized stroke entity to identify factors predicting recovery and outcomes. Even though the high correlation between the outcome and the volume of the hematoma has been highlighted by numerous studies, we believe the effects of extension of the hemorrhage to involve adjacent structures such as the internal capsule, thalamus, and upper brainstem are more reliable than the size of the hemorrhage alone [27].
Neuro rehabilitation
With the dearth of dedicated neurorehabilitation centers employing an interdisciplinary team of rehabilitation counselors, neuropsychologists, nurses, and occupational, physical and recreational therapists, the greatest challenge we faced was in the rehabilitation of our patient. There remains an unmet need to address and educate healthcare providers of the neuroplasticity, and thus recovery, potential in the later and more chronic phases of stroke care. This has left stroke survivors to cope with significant physical, cognitive, and emotional disability, by themselves and unable to integrate back into functioning society.
There are a total of 38 certified rehabilitation specialists in Pakistan, most of which are concentrated in armed forces hospitals catering to veterans of war and to victims of natural disasters. Physiotherapy departments are established in nearly all the major hospitals of the country but are managed mostly by orthopedic surgeons, rheumatologists, or physical therapists [18]. Independent nurses and therapists may be easily available in an urban metropolitan city such as Karachi, but provide their services at what seems a hefty cost to the common man (with a GNI per capita of US $1,360 in 2013) [28].
Conclusion
ICH is a devastating illness for which preliminary data from surgical trials indicate that surgery may be helpful. However, this premise remains unproven. Ongoing trials, including STICH II, MISTIE, and ICES, are attempting to determine the potential for surgical efficacy for limited craniotomy and image-guided minimally invasive surgical removal using thrombolysis or endoscopic evacuation. Preliminary results seem promising.
The rates of stroke morbidity and disability are alarming, and their impact on an individual and economic level devastating. In Pakistan, where incidence is on the rise, several campaigns have addressed the need for preventative measures, and have raised awareness of the importance of timely treatment. However, the significant need of rehabilitation to integrate large numbers of stroke survivors into functioning society remains largely underrated and tremendously unmet.
References
- Go AS, Mozaffarian D, Roger VL, Benjamin EJ, Berry JD, et al. (2014) Heart Disease and Stroke Statistics-2014 Update: A Report from the American Heart Association. Circulation 129(3): e28-e292.
- Anderson CS, Linto J, Stewart-Wynne EG (1995) A population-based assessment of the impact and burden of caregiving for long-term stroke survivors. Stroke 26(5): 843-849.
- Wasay M, Khatri I, Kaul S (2014) Stroke in South Asian countries. Nat Rev Neurol 10(3): 135-143.
- Feigin VL, Lawes C, Bennett DA, Barker-Collo SL, Parag V (2009) Worldwide stroke incidence and early case fatality reported in 56 population-based studies: a systematic review. Lancet Neurol 8(4): 335-369.
- Hashmi M, Khan M, Wasay M (2013) Growing burden of stroke in Pakistan: a review of progress and limitations. Int J Stroke 8(7): 575581.
- van Asch CJJ, Luitse M, Rinkel GJ, van der Tweel I, Algra A, et al. (2010) Incidence, case fatality, and functional outcome of intracerebral haemorrhage over time, according to age, sex, and ethnic origin: a systematic review and meta-analysis. Lancet Neurol 9(2): 167-176.
- Auer LM, Deinsberger W, Niederkorn K, Gell G, Kleinert R, et al. (1989) Endoscopic surgery versus medical treatment for spontaneous intracerebral hematoma: a randomized study. J Neurosurg 70(4): 530535.
- Batjer HH, Reisch JS, Allen BC, Plaizier LJ, Su CJ (1990) Failure of surgery to improve outcome in hypertensive putaminal hemorrhage. A prospective randomized trial. Arch Neurol 47(10): 1103-1106.
- Juvela S, Heiskanen O, Poranen A, Valtonen S, Kuurne T, et al. (1989) The treatment of spontaneous intracerebral hemorrhage. A prospective randomized trial of surgical and conservative treatment. Journal of Neurosurgery 70(5): 755-758.
- McKissock W, Richardson A, Taylor J (1961) Primary intracerebral hemorrhage: a controlled trial of surgical and conservative treatment. Lancet 2: 221-226.
- Mendelow AD, Gregson BA, Fernandes HM, Murray GD, Teasdale GM, et al. (2005) Early surgery versus initial conservative treatment in patients with spontaneous supratentorial intracerebral haematomas in the International Surgical Trial in Intracerebral Haemorrhage (STICH): a randomised trial. Lancet 365(9457): 387-397.
- Morgenstern LB, Demchuk AM, Kim DH, Frankowski RF, Grotta JC (2001) Rebleeding leads to poor outcome in ultra-early craniotomy for intracerebral hemorrhage. Neurology 56(10): 1294-1299.
- Patil CG, Alexander AL, Gephart MGH, Lad SP, Arrigo RT, et al. (2012) A Population-Based Study of Inpatient Outcomes after Operative Management of Nontraumatic Intracerebral Hemorrhage in the United States. World Neurosurg 78(6): 640-645.
- Miller EL, Murray L, Richards L, Zorowitz RD, Bakas T, et al. (2010) Comprehensive Overview of Nursing and Interdisciplinary Rehabilitation Care of the Stroke Patient: A Scientific Statement From the American Heart Association. Stroke 41(10): 2402-2448.?
- Keith RA (1991) The comprehensive treatment team in rehabilitation. Arch Phys Med Rehabil 72(5): 269-274.
- Duncan PW, Zorowitz R, Bates B, Choi JY, Glasberg JJ, et al. (2005) Management of adult stroke rehabilitation care: a clinical practice guideline. Stroke 36(9): e100-e143.
- Langhorne P, Taylor G, Murray G, Dennis M, Anderson C, et al. (2005) Early supported discharge services for stroke patients: a meta-analysis of individual patients' data. Lancet 365(9458): 501-506.
- Rathore FA, New P, Iftikhar A (2011) A report on disability and rehabilitation medicine in Pakistan: past, present, and future directions. Arch Phys Med Rehabil 92(1): 161-166.
- Broderick JP, Brott TG, Duldner JE, Tomsick T, Huster G (1993) Volume of intracranial haemorrhage: powerful and easy to use predictor of 30- day mortality. Stroke 24(7): 143-167.
- Qureshi AI, Tuhrim S, Broderick JP, Batjer HH, Hideki H, et al. (2001) Spontaneous intracerebral hemorrhage. N Engl J Med 344: 1450-1460.
- Suzuki J, Sato S (1972) The new transinsular approach to the hypertensive intracerebral hematoma. Jpn J Surg 2(1): 47-52.
- Jianwei G, Weiqiao Z, Xiaohua Z, Qizhong L, Jiyao J, et al. (2009) Our experience of transsylvian-transinsular microsurgical approach to hypertensive putaminal hematomas. J Craniofac Surg 20(4): 10971099.
- Barnes B, Hanley DF, Carhuapoma JR (2014) Minimally invasive surgery for intracerebral haemorrhage. Curr Opin Crit Care 20(2): 148-152.
- Naff N, Williams MA, Keyl PM, Tuhrim S, Bullock MR, et al. (2011) Low-dose recombinant tissue-type plasminogen activator enhances clot resolution in brain hemorrhage: the intraventricular hemorrhage thrombolysis trial. Stroke 42(11): 3009-3016.
- Ziai WC, Tuhrim S, Lane K, McBee N, Lees K, et al. (2014) A multicenter, randomized, double-blinded, placebo-controlled phase iii study of clot lysis evaluation of accelerated resolution of intraventricular hemorrhage (CLEAR III). Int J Stroke 9(4): 536-542.
- Anderson CS, Heeley E, Huang Y, Wang J, Stapf C (2013) Rapid blood- pressure lowering in patients with acute intracerebral hemorrhage. N Engl J Med 368(25): 2355-2365.
- Nagaratnam N, Saravanja D, Chiu K, Jamieson G (2001) Putaminal hemorrhage and outcome. Neurorehabilitation and Neural Repair 15(1): 51-56.
- The World Bank (2015) World development indicators: Pakistan.