Muhammad Junaid

Thalassemia, extramedullary hematopoiesis, and spinal cord compression: A case report

Background: Extramedullary hematopoiesis (EMH) refers to hematopoiesis outside of the medulla of the bone. Chronic anemia states such as thalassemia can cause hematopoietic tissue to expand in certain locations. We report a case of spinal cord compression due to recurrent spinal epidural EMH, which was treated with a combination of surgery and radiotherapy. Pakistan has one of the highest incidence and prevalence of thalassemia in the world. We describe published literature on diagnosis and management of such cases. Case Description: An 18-year-old male presented with bilateral lower limb paresis. He was a known case of homozygous beta thalassemia major. He had undergone surgery for spinal cord compression due to EMH 4 months prior to presentation. Symptom resolution was followed by deterioration 5 days later. He was operated again at our hospital with complete resection of the mass. He underwent local radiotherapy to prevent recurrence. At 2 years follow-up, he showed complete resolution of symptoms. Follow-up imaging demonstrated no residual mass. Conclusion: The possibility of EMH should be considered in every patient with ineffective erythropoiesis as a cause of spinal cord compression. Treatment of such cases is usually done with blood transfusions, which can reduce the hematopoietic drive for EMH. Other options include surgery, hydroxyurea, radiotherapy, or a combination of these on a case to case basis.

An experience with ventriculoperitoneal shunting at keen’s point for hydrocephalus

Objective: This study was conducted to assess outcomes in patients with hydrocephalus who underwent ventriculoperitoneal shunting at Keen’s point. Methods: This retrospective study was conducted in Combined Military Hospital (CMH) Peshawar. Time frame was four years from January 2011 to January 2015. The presenting complaints, clinical findings, investigations, treatment plans and surgical outcomes were noted. Ventriculo-Peritoneal (VP) shunting was done at Keen’s point. The presence of shunt complications in the first week post-surgery was noted and at a three-month follow up in the outpatient department. General condition of the patient, shunt complications, presence of seizure and worsening of vision were noted. Results: Study included 143 patients, out of whom 46 were females and 95 were male patients. Most common causes of hydrocephalus were congenital (79). Majority of adults had hydrocephalus due to central nervous system tumors while congenital hydrocephalus in children was most frequently due to aqueductal stenosis. Good clinical improvement was seen in 114 patients after shunt placement, satisfactory in 20 patients, 7 patients died while we observed no change in two patients. Conclusion: Our experience with VP shunting at Keen’s point resulted in excellent outcomes. It can be used for the management of hydrocephalus both in pediatric as well as adult population.

Mini titanium plates; hearkening the end of nonrigid cranial bone flap fixation

Background and Objective: Craniotomy bone flaps should be replaced for both cosmetic and protective purposes. Different methods are available commercially. The aim of this study was to assess outcome of bone flap fixation using mini titanium plates and screws. Methods: Between March, 2011 and March, 2014, 71 patients underwent cranial bone flap fixation with mini titanium plates and screws after craniotomy and excision of supratentorial lesions at Combined Military Hospital, Peshawar. There were 42 males and 30 females with a mean age of 40.07. All patients had supratentorial lesions. Intracranial lesion size ranged from 3 cm by 2 cm to 7 cm by 5 cm. The changes of local incision and general condition were observed. Results: Subcutaneous effusion occurred in two patients. One patient developed a mild postoperative wound infection. CT scan showed good repositioning of the flap and edge to edge apposition at two weeks after operation. All the patients were followed up for 12 months post operatively. Skull had good appearance without any discharge and, local deformity or effusion. Repeat CT/MRI showed no subsidence or displacement of cranial flap or artifacts. Conclusion: Mini titanium plate and screw fixation of cranial flaps is a simple, cost effective and safe option for repositioning and immediate stability as compared to traditional sutures.

Mini titanium plates and screws for cranial bone flap fixation; an experience from Pakistan

Dear Editor, The biocompatibility and osseointegrative qualities of the element titanium have allowed its extensive use medical science especially Orthopedics and Neurosurgery, effectively replacing its predecessor, steel. Historically, nonabsorbable sutures were used to anchor the bone flap following a craniotomy but have been associated with functional and cosmetic defects as well as nonunion and failure postoperatively.[1] The craniofacial region is the most important part of the body with regard to harmony and symmetry and associated with self-image of the patient, but unfortunately, maintenance of preoperative appearance has not been a priority among neurosurgeons.[2] Improper fixation of a bone flap following craniotomies has also been known to affect overall surgical outcome.[3] Titanium miniplates have been employed for cranial bone flap fixation with excellent results for several years[4] and we are pleased to report that working in a developing health care system; our experience has proved to be cost effective and yielding excellent cosmesis. We have been using titanium miniplates at our department since 2011. A total of 71 patients (42 male and 29 female) underwent a craniotomy for supratentorial access for a variety of causes including tumor excision and aneurysm clipping followed by a cranial bone flap fixation with titanium miniplates till March 2014 by one surgeon. Craniotomies for posterior fossa approaches are not performed in our unit for lack of specialized equipment and craniotomies for head trauma were not included in this group of patients. Postoperatively the patients were followed up for a period of 3–12 months and the results were objectively assessed with visual inspection, computed tomography/magnetic resonance imaging (CT/MRI) to assess for appearance, physical deformity, subsidence, or displacement of the bone flap. Subjective data from the patients was not obtained. The age range was 2–77 years with a mean age of 40.07 years and a standard deviation of +/- 18.753 years. Intracranial lesion size ranged from 3 × 2 cm to 7 × 5 cm. The changes of local incision and general condition were observed. Minor complications were reported in three patients with a subcutaneous effusion occurring in two patients who were treated with needle aspiration on day 10 and one patient developing a mild postoperative wound infection, which was treated with dressings and oral antibiotics. CT scan showed good repositioning of the flap and edge to edge apposition at 2 weeks after operation. During follow up, the skull had good appearance without any discharge, local deformity or effusion. Repeat CT/MRI showed no subsidence or displacement of cranial flap or artifacts. Titanium plates, however, can cause a small distortion in the image, up to 0.5 cm, on CT and MRI scans. Titanium miniplates were introduced for rigid fixation of cranial bone flaps following craniotomies. They are currently available in 0.3-mm thickness, which does not require indentation of the bone to hide the surface thickness. This has resulted in excellent functional and cosmetic outcomes [Figure 1] and faster operating times, reducing the tediousness and uncertainty associated with nonresorbable sutures.[1] Improper closure of a craniotomy has been known to cause physical disfigurement that is a source of patient distress and cosmetic damage and is usually attributed to temporalis muscle asymmetry, bone flap depression, or a combination of both.[5,6,7] Physical disfigurement is not the only complication that should preclude an improper closure because neurological deficits such as constructional apraxia have been known to develop in patients associated with sinking of a flap that is not securely anchored.[8] Titanium miniplates have been shown to be superior to stainless steel wires for fixation with a reduced operating time by 40% and less mobility on digital pressure with none of the patients having suboptimal results.[9] During closure, the space left between the skull and the bone flap can be filled with bone powder mixed with the patients own blood. Bone cementum can give a near perfect result, although this is the more expensive option. The importance of cosmetic outcome can be gleaned by the fact that more and more surgeons are using keyhole approaches for major neurosurgical procedures.[10,11] Based on these observations, Frati et al. have described an excellent protocol that minimizes scarring, reduces tissue loss, and maintains symmetry following craniotomies that we believe should be learnt by young neurosurgeons.[2] Another option currently available is bioresorbable plates (Bonamates®), which are similar to titanium miniplates, although significantly more expensive and essentially similar outcomes. They should be preferred when the patient requires follow up radiotherapy to avoid dosing adjustments and problems. They do not cause any artifacts either.[12] Figure 1 (a) Intraoperative photograph showing edge to edge apposition using titanium miniplates (b) Postoperative photograph of patient showing excellent head symmetry and aesthetics