Effective Date

Date of Origin 

01-01-2026            

Strensiq®

(asfotase alfa)

Subcutaneous injection

Treatment of patients with perinatal/infantile-onset and juvenile-onset hypophosphatasia (HPP)

1

Hypophosphatasia

Hypophosphatasia (HPP) is a rare genetic disease caused by mutations in the tissue non-specific alkaline phosphatase (TNSALP) gene, which reduces its activity. This causes disruption of mineralization, a process in which calcium and phosphorous are deposited in developing bones and teeth.(5) TNSALP controls skeletal and dental mineralization by hydrolyzing inorganic pyrophosphate, an inhibitor of hydroxyapatite crystal growth. Insufficient activity can lead to chest wall instability and respiratory complications in perinatal and infantile forms. Natural substrates of TNSALP that accumulate in hypophosphatasia include inorganic pyrophosphate (PPi), phosphoethanolamine (PEA), and pyridoxal 5’-phosphate (PLP), the principal circulating form of vitamin B6.(4)

Perinatal HPP features extreme skeletal disease obvious at birth; survival beyond birth is rare. Infantile HPP develops prior to 6 months of age and has an estimated 50% mortality during infancy typically due to respiratory complications. Patients with infantile HPP develop rickets, failure to thrive, hypotonia, myopathy, and the condition is often complicated by hypercalcemia, nephrocalcinosis, craniosynostosis, and vitamin B6-dependent seizures. Although spontaneous improvement sometimes occurs in infantile hypophosphatasia, substantial bone disease and weakness often persist. Skeletal deterioration typically results in death from respiratory insufficiency. In both forms, hypomineralization leads to thoracic instability, fractures, and deformities, and sometimes even pulmonary hypoplasia in perinatal HPP.(3)

Juvenile HPP tends to be less severe than those that appear in infancy. Affected children may have short stature, bowed legs, enlarged wrist and ankle joints (metaphyseal flares that appear as “swollen joints”), muscle weakness, and abnormal skull shape.(3) A diagnosis of HPP is based upon identification of characteristic signs and symptoms, a detailed patient history, a thorough clinical evaluation, and a variety of laboratory tests including routine x-ray and biochemical studies. Proper diagnosis of HPP is easy for physicians who are familiar or experienced with this disorder. Molecular genetic testing can support a diagnosis of HPP. Molecular genetic testing can detect mutations in the ALPL gene known to cause the disorder, but it is only available as a diagnostic service at specialized laboratories.(4)

Individuals with HPP have reduced serum alkaline phosphatase (ALP) activity for their age, except for the extremely rare individual with pseudohypophosphatasia who has normal activity levels. The range of serum alkaline phosphatase (ALP) activity varies by age and healthy children normally have higher ALP levels than healthy adults. Identification of deficient ALP activity is consistent with HPP, but not conclusive since other conditions can result in this finding.(4) Individuals with HPP also have elevated levels of pyridoxal 5’-phosphate (PLP: the active form of vitamin B6) in the blood because PLP is normally broken down by TNSALP. Previously, blood or urine was tested for increased amounts of phosphoethanolamine (PEA), another chemical normally broken down by TNSALP. Elevated PEA is not specific to HPP, can be associated with other metabolic bone diseases, or some individuals with HPP have normal PEA levels. Screening for elevated PLP is preferred over screening for PEA because it is more sensitive, more precise, and less expensive. In the most severe cases of HPP, specifically the perinatal and infantile forms, x-ray studies can reveal diagnostic changes within the bones. However, these changes may not be recognized as being associated with HPP except by radiologists familiar with the disorder.(2,4)  Periodic assessments should be performed to monitor the safety and effectiveness of Strensiq. Assessment includes the monitoring of symptoms, growth, radiographs, and laboratory tests, (e.g., PEA, PLP, or PPi). Other than asfotase alpha, the primary way to manage HPP is through supportive care.(2,4)

Efficacy

Strensiq is the first approved therapy for perinatal, infantile and juvenile-onset HPP. Strensiq is a formulation of asfotase alfa, which is a soluble glycoprotein composed of two identical polypeptide chains. Strensiq is a tissue nonspecific alkaline phosphatase produced by recombinant DNA technology in a Chinese hamster ovary cell line.(1)

Strensiq was evaluated in two studies for perinatal/infantile-onset hypophosphatasia (HPP) identified in the label as study 1 and study 2. Study 1 was a 24-week prospective single-arm trial in 11 patients with severe perinatal/infantile-onset HPP. Study 2 was a prospective open-label study in 59 patients with perinatal/infantile-onset HPP. Survival and invasive ventilation-free survival were compared in both study 1 and study 2 with a historical cohort of untreated patients with similar clinical characteristics. In the Strensiq treated populations, 91% were alive at the point of last contact vs 27% of historical controls. The Kaplan-Meier estimate of alive at age 1 year (week 48) was 97% in the Strensiq treated populations and 42% in the historical controls. The percentage of patients that were alive and not on ventilation at the point of last contact was 85% in the Strensiq treated population and 25% in the historical controls. The Kaplan-Meier estimate of alive and not on ventilation at age 1 year (week 48) was 96% in the Strensiq treated population and 31% in the historical controls.(1)

Study 3 (as identified in the prescribing information) was a prospective open-label 24-week trial that included 8 juvenile-onset HPP and 5 perinatal/infantile-onset HPP patients. Growth and skeletal manifestations were compared with a historical cohort of 32 untreated patients with similar clinical characteristics. Strensiq treated patients showed better z-scores for height and weight compared to the historical cohorts. All 8 Strensiq treated patients were rated as responders (defined as a 2 or higher on the Radiographic Global Impression of Change scale by month 54) of treatment for skeletal manifestations.(1)

Gait was also assessed using a modified Performance Oriented Mobility Assessment-Gait (MPOMA-G) scale in all 8 patients and using the 6-minute walk test in 7 of the 8 patients in this study. Step length improved by at least 1 point in either foot in 6 out of the 8 patients compared to 1 out of 6 control patients. The proportion of patients who had 6-minute walk test percent predicted values within the normal range for age, sex, and height-matched peers increased from 0 out of 8 patients at baseline to 6 patients by month 48. All 6 of these patients were also able to walk longer distances at this time point compared to baseline.(1)

Prenatal/infantile and juvenile-onset HPP patients treated with Strensiq had reductions in plasma TNSALP substrates, PPi and PLP within 6 to 12 weeks of treatment. Reductions in plasma PPi and PLP levels did not correlate with clinical outcomes.(1)

Safety

The 80 mg/0.8 mL vial of Strensiq should not be used in pediatric patients weighing less than 40 kg because the systemic exposure of asfotase alfa achieved with the 80 mg/0.8 mL (higher concentration) is lower than that achieved with the other strength vials (lower concentration). A lower exposure may not be adequate for this subgroup of patients. Patients with HPP are at increased risk for developing ectopic calcifications. Events of ectopic calcification, including ophthalmic and renal, have been reported in clinical trials experience with Strensiq. Although there was insufficient information to determine whether or not the reported events were consistent with the disease or due to Strensiq, ophthalmology examinations and renal ultrasounds are recommended at baseline and periodically during treatment to monitor for signs and symptoms of ectopic calcifications and for changes in vision or renal function.(1)

1

Strensiq prescribing information. Alexion. March 2023.

2

Kishnani PS, Rush ET, Arundel P, et al. Monitoring guidance for patients with hypophosphatasia treated with asfotase alfa. Mol Genet Metab. 2017;122(1-2):4-17. doi:10.1016/j.ymgme.2017.07.010

3

Mornet E. Hypophosphatasia. Orphanet J Rare Dis. 2007;2:40. Published 2007 Oct 4. doi:10.1186/1750-1172-2-40

4

NORD. Hypophosphatasia - NORD (National Organization for Rare Disorders). NORD (National Organization for Rare Disorders). Published 2019. https://rarediseases.org/rare-diseases/hypophosphatasia/ ‌

5

Overview | Asfotase alfa for treating paediatric-onset hypophosphatasia | Guidance | NICE. www.nice.org.uk. Published March 1, 2023. https://www.nice.org.uk/guidance/hst23 ‌

Strensiq

asfotase alfa subcutaneous inj

18 MG/0.45ML ; 28 MG/0.7ML ; 40 MG/ML ; 80 MG/0.8ML

M ; N ; O ; Y

N

Strensiq

asfotase alfa subcutaneous inj

18 MG/0.45ML ; 28 MG/0.7ML ; 40 MG/ML ; 80 MG/0.8ML

Blue Partner ; Commercial ; GenPlus ; Health Insurance Marketplace ; NetResults A Series ; SourceRx ; SourceRx-Performance

PA

Initial Evaluation

Target Agent(s) will be approved when ALL of the following are met:

1. The patient has a diagnosis of either perinatal/infantile- OR juvenile-onset hypophosphatasia (HPP) AND ALL of the following:
   1. The patient was less than 18 years of age at onset AND
   2. The patient is experiencing active disease (e.g., bone pain, fractures, gait problems) AND
   3. The patient has/had clinical manifestations consistent with hypophosphatasia at the age of onset prior to age 18 (e.g., vitamin B6-dependent seizures, fractures, lost teeth with roots, skeletal abnormalities: such as rachitic chest deformity leading to respiratory problems or bowed arms/legs, “failure to thrive”) AND
   4. The patient has/had radiographic imaging confirming the diagnosis of hypophosphatasia at the age of onset prior to age 18 (e.g., infantile rickets, alveolar bone loss, craniosynostosis) AND
   5. Molecular genetic testing has been completed confirming mutations in the ALPL gene that encodes the tissue nonspecific isoenzyme of ALP (TNSALP) AND
   6. The patient has reduced activity of unfractionated serum alkaline phosphatase (ALP) in the absence of bisphosphonate therapy (i.e., below the normal lab reference range for age and sex) AND
   7. ONE of the following:
      1. Elevated serum concentration of pyridoxal 5'-phosphate (PLP) in the absence of vitamin supplements within one week prior to the test OR
      2. Elevated urine concentration of phosphoethanolamine (PEA) OR
      3. Elevated urinary inorganic pyrophosphate (PPi) AND
2. The prescriber is a specialist in the area of the patient’s diagnosis (e.g., endocrinologist, geneticist), or the prescriber has consulted with a specialist in the area of the patient’s diagnosis AND
3. The patient has had an ophthalmology examination and renal ultrasound at baseline (prior to starting therapy with the requested agent) AND
4. The patient does NOT have any FDA labeled contraindications to the requested agent AND
5. The requested quantity (dose) is within FDA labeled dosing for the requested indication based on the patient’s weight

Length of Approval: 6 months

Renewal Evaluation

Target Agent(s) will be approved when ALL the following are met:

1. The patient has been previously approved for the requested agent through the plan’s Prior Authorization process (Note: patients not previously approved for the requested agent will require initial evaluation review) AND
2. The patient has had a decrease from baseline (before treatment with the requested agent) in at least ONE of the following:
   1. Serum concentration of pyridoxal 5’-phosphate (PLP) in the absence of vitamin supplements within one week prior to the test OR
   2. Urine concentration of phosphoethanolamine (PEA) OR
   3. Urinary inorganic pyrophosphate (PPi) AND
3. The patient has had clinical improvement from baseline (prior to starting therapy with the requested agent) in at least ONE of the following:
   1. Respiratory status OR 
   2. Growth OR
   3. Radiographic findings AND
4. The prescriber is a specialist in the area of the patient’s diagnosis (e.g., endocrinologist, geneticist), or the prescriber has consulted with a specialist in the area of the patient’s diagnosis AND
5. The patient has been monitored for signs and symptoms of ophthalmic and renal calcifications and for changes in vision or renal function AND
6. The patient does NOT have any FDA labeled contraindications to the requested agent AND
7. The requested quantity (dose) is within FDA labeled dosing for the requested indication based on the patient’s weight

Length of Approval: 12 months