A case of treatment-induced neuropathy in an adolescent with type 1 diabetes
Article information
Abstract
Treatment-induced neuropathy (TIN) in diabetes is an acute and painful yet completely reversible small fiber neuropathy precipitated by a rapid improvement in glycemic control. TIN is rare in children. A 16-year-old girl developed symmetrical painful neuropathy of the foot, autonomic neuropathy, and retinopathy 5 weeks after the diagnosis of type 1 diabetes. All causative workups were negative except for a drop-in hemoglobin A1c (HbA1c) from 17.4% to 7%, which fit with a diagnosis of TIN. Following symptomatic management, her neuropathy and retinopathy completely resolved in 2 months. Currently, she is 18 years old and doing well (HbA1c, 7.4%) without any recurrence of TIN. TIN should be suspected in any child presenting with recent-onset type 1 diabetes and acute onset neuropathy. Our case represents an unreported scenario of the rapid progression in TIN. Awareness among clinicians about this rare but completely reversible condition is necessary to ensure proper management and adherence to glycemic control.
Introduction
Acute painful diabetic neuropathy (APDN) is a rare peripheral neuropathy seen in type 1 as well as in type 2 diabetes. In APDN, neuropathic pain mostly occurs within 8 weeks of glycemic control in contrast to the rather insidious onset of diabetic distal polyneuropathy. Treatment-induced neuropathy (TIN) is a type of APDN. The criteria for TIN are acute onset of neuropathic pain and/or autonomic symptoms occurring within 8 weeks of documented glycemic control (a drop-in hemoglobin A1c [HbA1c] by more than 2% over 3 months). There are many reports of TIN in adults with type 1 and type 2 diabetes, but not in children. TIN is observed with insulin therapy as well as treatment with oral hypoglycemic agents [1].
Case report
A 16-year-old girl weighing 40 kg presented to the Emergency Department with a history of vomiting and excessive fatigability for the past week. She had a history of polyuria, polydipsia, and polyphagia for the past 1.5 years. She had taken some native medical treatment and reportedly experienced partial relief of her symptoms. Upon physical examination, she was conscious and alert and had tachycardia (heart rate, 120 beats/min) and tachypnea (respiratory rate, 20 breaths/min). Her blood pressure was 100/70 mmHg, and peripheral pulses were palpable. She was diagnosed with diabetic ketoacidosis (DKA) with a random blood glucose level of 560 mg/dL, blood pH of 7.12, and urine ketones 3+. As per standard treatment protocol, she was treated with a normal saline bolus (10 mL/kg over 1 hour) followed by normal saline maintenance infused at 155 mL/kg/hr for 48 hours while accounting for 10% dehydration correction. An insulin infusion was started at 0.1 U/kg/hr. The DKA resolved by 48 hours, and she was treated with regular (short-acting) and glargine insulin (regular insulin [Actrapid] was given at 12 U - 16 U - 12 U subcutaneously half an hour before food intake and glargine was administered at 10 units subcutaneously at 9:00 PM). Her HbA1c was 17.4%. C-peptide was 0.05 ng/mL, and a glutamic acid decarboxylase antibody test was positive (14.8 U/mL; the normal range is <10 U/mL). She was screened for complications like retinopathy and nephropathy, which were found to be negative. Her thyroid profile (thyroid stimulating hormone, 3.2 μU/mL; free thyroxine, 0.92 ng/dL) was within normal limits. She was discharged a week after the diagnosis following symptomatic improvement, and her blood sugars ranged between 150–200 mg/dL.
Five weeks following her diagnosis, the patient presented to the Outpatient Department with a painful burning sensation in both feet and soles for the past 10 days, which left her unable to walk and caused sleep disturbances. There was no change in her appetite or weight. Upon evaluation, her blood pressure was 100/70 mmHg, and she had normal superficial and deep tendon reflexes of the lower limbs. Her sensory system examination revealed no abnormalities for pain, temperature, vibration, position, or crude and fine touch sensations in both lower limbs. There were no motor or sensory deficits in either upper limb. She had vitamin D insufficiency (15.7 ng/mL) and a normal vitamin B12 level (240 pg/mL). However, her pain had not subsided with nonsteroidal anti-inflammatory drugs along with vitamin B12 and cholecalciferol supplements. Her blood glucose records showed blood sugars around 100–150 mg/dL. Since the pain had not subsided after 2 weeks of outpatient treatment, she was admitted for diabetic peripheral neuropathy for further evaluation. At admission, she had normal motor reflexes of all 4 limbs. Her sensory system examination revealed reduced fine touch sensation in both feet and soles. There were no abnormalities in pain, temperature, vibration, and position sensations. There was hypertension (blood pressure, 150/100 mmHg) and resting tachycardia (122 beats/min). A hypertension work-up showed normal serum electrolytes and serum creatinine and an absence of microalbuminuria. Her computed tomography angiogram of the renal vessels, echocardiogram, vanillylmandelic acid, and metanephrine levels were normal. A vasculitis work-up (antinuclear antibodies, dsDNA, and antineutrophil cytoplasmic antibodies) was also negative. A pediatric cardiologist's opinion was obtained; the possibility of autonomic neuropathy was suggested, and antihypertensives (atenolol and nifedipine) were started.
A nerve conduction study revealed preserved compound muscle action potentials and normal distal latency and conduction velocities in both lower limb motor nerves (tibial and common peroneal nerve), whereas there was a significant reduction in sensory nerve action potentials with mildly prolonged distal latency and mildly reduced conduction velocities in both superficial peroneal and sural nerves in the lower limbs suggestive of severe bilateral lower limb axonal predominant sensory polyneuropathy. Upper limb nerve conduction studies were normal.
During her course of treatment, the patient complained of the sudden onset of blurring of her vision, and her ophthalmologic examination revealed features suggestive of diabetic and hypertensive retinopathy. Fundus fluorescein angiography showed areas of capillary nonperfusion of both eyes with macular ischemia and cystoid macular edema suggestive of diabetic and hypertensive retinopathy. She was started on amitriptyline, pregabalin, and gabapentin for peripheral neuropathy.
Aided by electronic discussions in an International Society for Pediatric and Adolescent Diabetes (ISPAD) forum along with a thorough literature search, the cause of the neuropathy was diagnosed to be TIN. The patient's HbA1c had dropped from 17.4% to 7% in 2 months, which fit the diagnosis of TIN [1].
Following the diagnosis of TIN, the patient’s glycemic targets were slightly relaxed. She was discharged with antihypertensives and peripheral neuropathy medications on withdrawing doses. At the follow-up visit around 2 months later, the neuropathy (peripheral and autonomic) and retinopathy had both gradually resolved. All medications were stopped, and her HbA1c was 8.6%. Her glycemic control targets were gradually changed back to the recommended levels according to the ISPAD 2014 guidelines [2]. Currently, she is 18 years old, and her HbA1c was 7.4% without any recurrence of TIN. She is currently on regular insulin (Actrapid 10 U - 16 U - 12 U subcutaneously half an hour before food intake and glargine insulin 11 units subcutaneously at 9:00 PM).
Discussion
APDN is a rare peripheral neuropathy seen in type 1 as well as in type 2 diabetes. It was initially reported in 1933 by Caravati [3] as insulin neuritis. The incidence of APDN is not known or is likely grossly underestimated and is probably less than 1 in 1,000 diabetic patients. APDN can manifest as either treatment-induced neuropathy (TIN) and diabetic neuropathic cachexia (DNC) [1,3].
In TIN, neuropathic pain and/or autonomic symptoms typically occur within 8 weeks of documented glycemic control (a drop-in HbA1c ≥ 2% over 3 months). Several weeks after the onset, more classical length-dependent axonal and demyelinating sensory and motor neuropathy can occur [1,4]. A retrospective study by Gibbons and Freeman [4] observed the incidence of TIN to be 10.9% among 954 patients referred for diabetic neuropathy. TIN can occur with insulin and/or oral hypoglycemic agent therapy. To the best of our knowledge, there are only 7 case reports of TIN in children with diabetes, which highlights the rarity of this clinical entity [5-10]. TIN completely resolves in about 12–24 months; however, in our patient, the early onset of neuropathy with a quick progression to autonomic neuropathy and retinopathy and its resolution within weeks was quite unusual compared to previously published reports. The proposed diagnostic criteria for TIN are listed in Table 1.
TIN is caused due to epineural arteriovenous shunting triggered by rapid glycemic control that precipitates endoneural hypoxia in small nerve fibers (the steal effect). DNC is a painful sensorimotor polyneuropathy with autonomic dysfunction that follows a recent diabetes onset, but a history of an eating disorder along with profound weight loss (>10% of body weight) is always present [1,11,12].
The most common differential diagnoses for TIN as well as the required laboratory tests are shown in Table 1. The gold standard test for diagnosing small fiber neuropathy is skin biopsy with intraepidermal nerve fiber density (IENFD) determination [13,14]. Due to logistic reasons, we could not carry out protein electrophoresis, light chain serum levels, and IENFD, but all the other investigations were normal for our patient.
Treatment options involve good glycemic control, foot care, and pharmacological management. It may be safe to achieve glycemic control slowly and gradually if there is no risk of hyperglycemic emergencies in these patients [1]. According to the ISPAD 2014 guidelines for optimal blood sugar control, an HbA1c <7.5% is recommended as soon as it can be achieved [2]. However, a study by Gibbons and Freeman [4] has shown that a decrease in HbA1c by 2%–3% over 3 months has a 20% absolute risk, while a fall in HbA1c by >4% over 3 months exceeds 80% of the absolute risk for developing TIN [4]. Therefore, in the recommended setting of early achievement of good glycemic control, awareness about TIN and its management among clinicians is necessary to ensure adequate treatment.
Pharmacological treatment for neuropathic pain includes anticonvulsants (pregabalin, gabapentin), antidepressants (duloxetine, amitriptyline), and opioids (tramadol, tapentadol). Pharmacological agents are started with a single drug (mostly pregabalin) in incremental doses until the maximum dose is reached. If neuropathic pain persists, switching to another drug or combined therapy (with antidepressants) can be tried. If the pain still persists, opioids can be added [15].
In conclusion, clinicians should suspect TIN in any diabetic child, especially with neuropathy presenting too early in the course along with good glycemic control. Our case represents the unreported scenario of rapid progression to TIN. Awareness among clinicians about this rare and completely reversible condition is necessary to ensure proper treatment and adherence to glycemic control, especially in the recommended setting of the rapid achievement of glycemic control (HbA1c <8%). Instead of rapid improvement in glycemic control, a slow and gradual achievement of glycemic control may be a better option for these patients.
Notes
Ethical statement
As per the Institution’s ethics committee policy, Institutional Review Board approval is not necessary for case reports. Informed consent has been obtained from the patient for publication purposes.
Conflicts of interest
No potential conflict of interest relevant to this article was reported.
Acknowledgements
We thank Dr. Ragnar Hanas, past president of ISPAD, for the excellent guidance provided in the diagnosis and management of this patient.