Abstract
Pulmonary alveolar microlithiasis is a rare disease with an almost unheard of pathogenesis. With very few
cases to document worldwide, predominantly being discovered in Turkey, Italy, and America, it has been
nearly impossible to determine a concrete etiology. However, one standout biochemical finding most cases
of PAM have in common is a mutation in the SLC34A2 gene coding for the sodium-phosphate cotransporter
found in Type II alveolar cells. This cotransporter is responsible for maintaining equilibrium of phosphorus
which is a vital component of surfactant. Diagnostic exploration is achieved via radiological imaging, bronchoalveolar lavage and above all, transbronchial lung biopsy. However, in this particular case, due to the
patient’s hypoxic condition, Technetium 99m diphosphonate scanning was employed in place of the
biopsy. A non-invasive procedure, technetium 99m can detect extensive pulmonary uptake, hereby diagnosing the patient and protect against the physical damage and accompanying side effects inflicted upon
the patient by various invasive procedures. In future, to avoid wastage of resources, the use of technetium
99m diphosphonate scanning should be more prevalent in the diagnosis process of PAM.
Ashok Kumar, Maria Malik, Mehroze Rehman, Waliya Badar Hossain, Rubaab Majida Mohammed, Nadeem Rizvi. (2019) Successful Diagnosis of Pulmonary Alveolar Microlithiasis By A New Modality, The Pakistan Journal of Medicine and Dentistry, Volume 8, Issue-1.
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